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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #53395 (https://www.gutenberg.org/ebooks/53395)
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-The Project Gutenberg EBook of Essays: Scientific, Political, and
-Speculative; Vol. II of Three, by Herbert Spencer
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever.  You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-
-
-Title: Essays: Scientific, Political, and Speculative; Vol. II of Three
-       Library Edition (1891), Containing Seven Essays not before
-       Republished, and Various other Additions.
-
-Author: Herbert Spencer
-
-Release Date: October 29, 2016 [EBook #53395]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK ESSAYS: SCIENTIFIC ***
-
-
-
-
-Produced by Josep Cols Canals, Adrian Mastronardi, RichardW,
-and the Online Distributed Proofreading Team at
-http://www.pgdp.net (This file was produced from images
-generously made available by The Internet Archive/Canadian
-Libraries and Internet Archive/American Libraries.)
-
-
-
-
-
-
-
-
-
- ESSAYS: SCIENTIFIC, POLITICAL, & SPECULATIVE.
-
- BY
- HERBERT SPENCER.
-
- LIBRARY EDITION,
-
- (otherwise fifth thousand,)
-
- _Containing Seven Essays not before Republished,_
- _and various other additions_.
-
- VOL. II.
-
- WILLIAMS AND NORGATE,
- 14, HENRIETTA STREET, COVENT GARDEN, LONDON;
- AND 20, SOUTH FREDERICK STREET, EDINBURGH.
-
- 1891.
-
-
-
-
- LONDON:
- G. NORMAN AND SON, PRINTERS, HART STREET,
- COVENT GARDEN.
-
-
-
-
-CONTENTS OF VOL. II.
-
-
-                                                                    PAGE
- THE GENESIS OF SCIENCE                                                1
-
- THE CLASSIFICATION OF THE SCIENCES                                   74
-
- REASONS FOR DISSENTING FROM THE PHILOSOPHY OF M. COMTE              118
-
- ON LAWS IN GENERAL, AND THE ORDER OF THEIR DISCOVERY                145
-
- THE VALUATION OF EVIDENCE                                           161
-
- WHAT IS ELECTRICITY?                                                168
-
- MILL _versus_ HAMILTON—THE TEST OF TRUTH                            188
-
- REPLIES TO CRITICISMS                                               218
-
- PROF. GREEN’S EXPLANATIONS                                          321
-
- THE PHILOSOPHY OF STYLE                                             333
-
- USE AND BEAUTY                                                      370
-
- THE SOURCES OF ARCHITECTURAL TYPES                                  375
-
- GRACEFULNESS                                                        381
-
- PERSONAL BEAUTY                                                     387
-
- THE ORIGIN AND FUNCTION OF MUSIC                                    400
-
- THE PHYSIOLOGY OF LAUGHTER                                          452
-
-                  (_For Index, see Volume III._)
-
-
-
-
-{1}
-
-THE GENESIS OF SCIENCE.
-
-
-[_First published in_ The British Quarterly Review _for July 1854_.]
-
-There still prevails among men a vague notion that scientific knowledge
-differs in nature from ordinary knowledge. By the Greeks, with whom
-Mathematics—literally _things learnt_—was alone considered as knowledge
-proper, the distinction must have been strongly felt; and it has ever
-since maintained itself in the general mind. Though, considering
-the contrast between the achievements of science and those of daily
-unmethodic thinking, it is not surprising that such a distinction
-has been assumed; yet it needs but to rise a little above the common
-point of view, to see that it is but a superficial distinction. The
-same faculties are employed in both cases; and in both cases their
-mode of operation is fundamentally the same. If we say that science
-is organized knowledge, we are met by the truth that all knowledge is
-organized in a greater or less degree—that the commonest actions of
-the household and the field presuppose facts colligated, inferences
-drawn, results expected; and that the general success of these actions
-proves the data by which they were guided to have been correctly put
-together. If, again, we say that science is prevision—is a seeing
-beforehand—is a knowing in what {2} times, places, combinations,
-or sequences, specified phenomena will be found; we are obliged to
-confess that the definition includes much that is foreign to science
-in its ordinary acceptation: for example, a child’s knowledge of an
-apple. This, as far as it goes, consists in previsions. When a child
-sees a certain form and colours, it knows that if it puts out its
-hand it will have certain impressions of resistance, and roundness,
-and smoothness; and if it bites, a certain taste. And manifestly its
-general acquaintance with surrounding objects is of like nature—is
-made up of facts concerning them, grouped so that any part of a group
-being perceived, the existence of the other facts included in it is
-foreseen. If, once more, we say that science is _exact_ prevision,
-we still fail to establish the supposed difference. Not only do we
-find that much of what we call science is not exact, and that some of
-it, as physiology, can never become exact; but we find further, that
-many of the previsions constituting the common stock alike of wise
-and foolish, _are_ exact. That an unsupported body will fall; that a
-lighted candle will go out when immersed in water; that ice will melt
-when thrown on the fire—these, and many like predictions relating to
-the familiar properties of things, have as high a degree of accuracy as
-predictions are capable of. It is true that the results foreseen are of
-a very general character; but it is none the less true that they are
-correct as far as they go: and this is all that is requisite to fulfil
-the definition. There is perfect accordance between the anticipated
-phenomena and the actual ones; and no more than this can be said of the
-highest achievements of the sciences specially characterized as exact.
-
-Seeing thus that the assumed distinction between scientific knowledge
-and common knowledge cannot be sustained; and yet feeling, as we must,
-that however impossible it may be to draw a line between them, the two
-are not practically identical; there arises the question—What is the
-relationship {3} between them? A partial answer to this question may
-be drawn from the illustrations just given. On reconsidering them, it
-will be observed that those portions of ordinary knowledge which are
-identical in character with scientific knowledge, comprehend only such
-combinations of phenomena as are directly cognizable by the senses,
-and are of simple, invariable nature. That the smoke from a fire which
-she is lighting will ascend, and that the fire will presently boil
-the water placed over it, are previsions which the servant-girl makes
-equally well with the most learned physicist; but they are previsions
-concerning phenomena in constant and direct relation—phenomena that
-follow visibly and immediately after their antecedents—phenomena of
-which the causation is neither remote nor obscure—phenomena which may
-be predicted by the simplest possible act of reasoning. If, now, we
-pass to the previsions constituting science—that an eclipse of the
-moon will happen at a specified time; that when a barometer is taken
-to the top of a mountain of known height, the mercurial column will
-descend a stated number of inches; that the poles of a galvanic battery
-immersed in water will give off, the one an inflammable and the other
-an inflaming gas, in definite ratio—we perceive that the relations
-involved are not of a kind habitually presented to our senses. They
-depend, some of them, on special combinations of causes; and in some of
-them the connexion between antecedents and consequents is established
-only by an elaborate series of inferences. A broad distinction,
-therefore, between scientific knowledge and common knowledge is its
-remoteness from perception. If we regard the cases in their most
-general aspect, we see that the labourer who, on hearing certain notes
-in the adjacent hedge, can describe the particular form and colours
-of the bird making them, and the astronomer who, having calculated a
-transit of Venus, can delineate the black spot entering on the sun’s
-disc, as it will appear through the telescope, at a specified hour,
-do {4} essentially the same thing. Each knows that on fulfilling the
-requisite conditions, he shall have a preconceived impression—that
-after a definite series of actions will come a group of sensations of
-a foreknown kind. The difference, then, is neither in the fundamental
-character of the mental acts; nor in the correctness of the previsions
-accomplished by them; but in the complexity of the processes required
-to achieve the previsions. Much of our common knowledge is, as far
-as it goes, precise. Science does not increase its precision. What
-then does it do? It reduces other knowledge to the same degree of
-precision. That certainty which direct perception gives us respecting
-coexistences and sequences of the simplest and most accessible kind,
-science gives us respecting coexistences and sequences, complex in
-their dependencies, or inaccessible to immediate observation. In brief,
-regarded from this point of view, science may be called _an extension
-of the perceptions by means of reasoning_.
-
-On further considering the matter, however, it will perhaps be felt
-that this definition does not express the whole fact—that inseparable
-as science may be from common knowledge, and completely as we may fill
-up the gap between the simplest previsions of the child and the most
-recondite ones of the physicist, by interposing a series of previsions
-in which the complexity of reasoning involved is greater and greater,
-there is yet a difference between the two beyond that above described.
-And this is true. But the difference is still not such as enables us to
-draw the assumed line of demarcation. It is a difference not between
-common knowledge and scientific knowledge; but between the successive
-phases of science itself, or knowledge itself—whichever we choose to
-call it. In its earlier phases science attains only to _certainty_ of
-foresight; in its later phases it further attains to _completeness_.
-We begin by discovering _a_ relation; we end by discovering _the_
-relation. Our first achievement is to foretell the _kind_ {5} of
-phenomenon which will occur under specified conditions; our last
-achievement is to foretell not only the kind but the _amount_. Or, to
-reduce the proposition to its most definite form—undeveloped science is
-_qualitative_ prevision; developed science is _quantitative_ prevision.
-
-This will at once be perceived to express the remaining distinction
-between the lower and the higher stages of positive knowledge. The
-prediction that a piece of lead will take more force to lift it
-than a piece of wood of equal size, exhibits certainty, but not
-completeness, of foresight. The kind of effect in which the one body
-will exceed the other is foreseen; but not the amount by which it will
-exceed. There is qualitative prevision only. On the other hand, the
-predictions that at a stated time two particular planets will be in
-conjunction; that by means of a lever having arms in a given ratio, a
-known force will raise just so many pounds; that to decompose a given
-quantity of sulphate of iron by carbonate of soda will require so many
-grains—these predictions show foreknowledge, not only of the nature of
-the effects to be produced, but of the magnitude, either of the effects
-themselves, of the agencies producing them, or of the distance in time
-or space at which they will be produced. There is both qualitative
-provision and quantitative prevision. And this is the unexpressed
-difference which leads us to consider certain orders of knowledge as
-especially scientific when contrasted with knowledge in general. Are
-the phenomena _measurable_? is the test which we unconsciously employ.
-Space is measurable: hence Geometry. Force and space are measurable:
-hence Statics. Time, force, and space are measurable: hence Dynamics.
-The invention of the barometer enabled men to extend the principles
-of mechanics to the atmosphere; and Aerostatics existed. When a
-thermometer was devised there arose a science of heat, which was before
-impossible. Of such external agents as we have found no measures
-but our sensations {6} we have no sciences. We have no science of
-smells; nor have we one of tastes. We have a science of the relations
-of sounds differing in pitch, because we have discovered a way to
-measure these relations; but we have no science of sounds in respect to
-their loudness or their _timbre_, because we have got no measures of
-loudness and _timbre_. Obviously it is this reduction of the sensible
-phenomena it presents, to relations of magnitude, which gives to any
-division of knowledge its specially scientific character. Originally
-men’s knowledge of weights and forces was like their present knowledge
-of smells and tastes—a knowledge not extending beyond that given by
-the unaided sensations; and it remained so until weighing instruments
-and dynamometers were invented. Before there were hour-glasses and
-clepsydras, most phenomena could be estimated as to their durations
-and intervals, with no greater precision than degrees of hardness can
-be estimated by the fingers. Until a thermometric scale was contrived,
-men’s judgments respecting relative amounts of heat stood on the same
-footing with their present judgments respecting relative amounts of
-sound. And as in these initial stages, with no aids to observation,
-only the roughest comparisons of cases could be made, and only the most
-marked differences perceived, it resulted that only the most simple
-laws of dependence could be ascertained—only those laws which, being
-uncomplicated with others, and not disturbed in their manifestations,
-required no niceties of observation to disentangle them. Whence it
-appears not only that in proportion as knowledge becomes quantitative
-do its previsions become complete as well as certain, but that until
-its assumption of a quantitative character it is necessarily confined
-to the most elementary relations.
-
-Moreover it is to be remarked that while, on the one hand, we
-can discover the laws of the greater part of phenomena only by
-investigating them quantitatively; on the other hand we can extend
-the range of our quantitative {7} previsions only as fast as we
-detect the laws of the results we predict. For clearly the ability to
-specify the magnitude of a result inaccessible to direct measurement,
-implies knowledge of its mode of dependence on something which can be
-measured—implies that we know the particular fact dealt with to be
-an instance of some more general fact. Thus the extent to which our
-quantitative previsions have been carried in any direction, indicates
-the depth to which our knowledge reaches in that direction. And here,
-as another aspect of the same fact, it may be observed that as we pass
-from qualitative to quantitative prevision, we pass from inductive
-science to deductive science. Science while purely inductive is purely
-qualitative; when inaccurately quantitative it usually consists of
-part induction, part deduction; and it becomes accurately quantitative
-only when wholly deductive. We do not mean that the deductive and the
-quantitative are coextensive; for there is manifestly much deduction
-that is qualitative only. We mean that all quantitative prevision is
-reached deductively; and that induction can achieve only qualitative
-prevision.
-
-Still, however, it must not be supposed that these distinctions enable
-us to separate ordinary knowledge from science; much as they seem to
-do so. While they show in what consists the broad contrast between
-the extreme forms of the two, they yet lead us to recognize their
-essential identity, and once more prove the difference to be one of
-degree only. For, on the one hand, much of our common knowledge is
-to some extent quantitative; seeing that the amount of the foreseen
-result is known within certain wide limits. And, on the other hand,
-the highest quantitative prevision does not reach the exact truth, but
-only a near approach to it. Without clocks the savage knows that the
-day is longer in the summer than in the winter; without scales he knows
-that stone is heavier than flesh; that is, he can foresee respecting
-certain results that their amounts will exceed these, and be less than
-{8} those—he knows _about_ what they will be. And, with his most
-delicate instruments and most elaborate calculations, all that the man
-of science can do, is to reduce the difference between the foreseen and
-the actual results to an unimportant quantity. Moreover, it must be
-borne in mind not only that all the sciences are qualitative in their
-first stages,—not only that some of them, as Chemistry, have but lately
-reached the quantitative stage—but that the most advanced sciences
-have attained to their present power of determining quantities not
-present to the senses, or not directly measurable, by a slow process
-of improvement extending through thousands of years. So that science
-and the knowledge of the uncultured are alike in the nature of their
-previsions, widely as they differ in range; they possess a common
-imperfection, though this is immensely greater in the last than in the
-first; and the transition from the one to the other has been through a
-series of steps by which the imperfection has been rendered continually
-less, and the range continually wider.
-
-These facts, that science and ordinary knowledge are allied in
-nature, and that the one is but a perfected and extended form of the
-other, must necessarily underlie the whole theory of science, its
-progress, and the relations of its parts to each other. There must be
-incompleteness in any history of the sciences, which, leaving out of
-view the first steps of their genesis, commences with them only when
-they assume definite forms. There must be grave defects, if not a
-general untruth, in a philosophy of the sciences considered in their
-interdependence and development, which neglects the inquiry how they
-came to be distinct sciences, and how they were severally evolved
-out of the chaos of primitive ideas. Not only a direct consideration
-of the matter, but all analogy, goes to show that in the earlier and
-simpler stages must be sought the key to all subsequent intricacies.
-The time was when the anatomy and physiology of the human being were
-studied {9} by themselves—when the adult man was analyzed and the
-relations of parts and of functions investigated, without reference
-either to the relations exhibited in the embryo or to the homologous
-relations existing in other creatures. Now, however, it has become
-manifest that no true conceptions are possible under such conditions.
-Anatomists and physiologists find that the real natures of organs and
-tissues can be ascertained only by tracing their early evolution; and
-that the affinities between existing genera can be satisfactorily made
-out only by examining the fossil genera to which they are akin. Well,
-is it not clear that the like must be true concerning all things that
-undergo development? Is not science a growth? Has not science, too,
-its embryology? And must not the neglect of its embryology lead to a
-misunderstanding of the principles of its evolution and of its existing
-organization?
-
-There are _à priori_ reasons, therefore, for doubting the truth of all
-philosophies of the sciences which tacitly proceed upon the common
-notion that scientific knowledge and ordinary knowledge are separate;
-instead of commencing, as they should, by affiliating the one upon the
-other, and showing how it gradually came to be distinguishable from
-the other. We may expect to find their generalizations essentially
-artificial; and we shall not be deceived. Some illustrations of this
-may here be fitly introduced, by way of preliminary to a brief sketch
-of the genesis of science from the point of view indicated. And we
-cannot more readily find such illustrations than by glancing at a few
-of the various _classifications_ of the sciences that have from time to
-time been proposed. To consider all of them would take too much space:
-we must content ourselves with some of the latest.
-
-       *       *       *       *       *
-
-Commencing with those which may be soonest disposed of, let us notice,
-first, the arrangement propounded by Oken. An abstract of it runs thus:―
-
- Part I. MATHESIS.—_Pneumatogeny_: Primary Act, Primary
- Consciousness, {10} God, Primary Rest, Time, Polarity, Motion, Man,
- Space, Point, Line, Surface, Globe, Rotation.—_Hylogeny_: Gravity,
- Matter, Ether, Heavenly Bodies, Light, Heat, Fire.
-
-   (He explains that MATHESIS is the doctrine of the whole;
-   _Pneumatogeny_ being the doctrine of immaterial totalities, and
-   _Hylogeny_ that of material totalities.)
-
- Part II. ONTOLOGY.—_Cosmogeny_: Rest, Centre, Motion, Line,
- Planets, Form, Planetary System, Comets.—_Stöchiogeny_: Condensation,
- Simple Matter, Elements, Air, Water, Earth.—_Stöchiology_: Functions
- of the Elements, &c. &c.—_Kingdoms of Nature_: Individuals.
-
-   (He says in explanation that ‘ONTOLOGY teaches
-   us the phenomena of matter. The first of these are the
-   heavenly bodies comprehended by _Cosmogeny_. These divide
-   into elements.—_Stöchiogeny._ The earth element divides
-   into minerals—_Mineralogy_. These unite into one collective
-   body—_Geogeny_. The whole in singulars is the living, or _Organic_,
-   which again divides into plants and animals. _Biology_, therefore,
-   divides into _Organogeny_, _Phytosophy_, _Zoosophy_.’)
-
- FIRST KINGDOM.—MINERALS. _Mineralogy_,
- _Geology_.
-
- Part III. BIOLOGY.—_Organosophy_, _Phytogeny_,
- _Phyto-physiology_, _Phytology_, _Zoogeny_, _Physiology_, _Zoology_,
- _Psychology_.
-
-A glance over this confused scheme shows that it is an attempt to
-classify knowledge, not after the order in which it has been, or may
-be, built up in the human consciousness; but after an assumed order
-of creation. It is a pseudo-scientific cosmogony, akin to those which
-men have enunciated from the earliest times downwards; and only a
-little more respectable. As such it will not be thought worthy of much
-consideration by those who, like ourselves, hold that experience is
-the sole origin of knowledge. Otherwise, it might have been needful to
-dwell on the incongruities of the arrangement—to ask how motion can be
-treated of before space? how there can be rotation without matter to
-rotate? how polarity can be dealt with without involving points and
-lines? But it will serve our present purpose just to indicate a few of
-the absurdities resulting from the doctrine which Oken seems to hold in
-common with Hegel, that “to philosophize on Nature is to re-think the
-great thought of Creation.” Here is a sample:―
-
-“Mathematics is the universal science; so also is {11}
-Physio-philosophy, although it is only a part, or rather but a
-condition of the universe; both are one, or mutually congruent.
-
-“Mathematics is, however, a science of mere forms without substance.
-Physio-philosophy is, therefore, _mathematics endowed with substance_.”
-
-From the English point of view it is sufficiently amusing to find such
-a dogma not only gravely stated, but stated as an unquestionable truth.
-Here we see the experiences of quantitative relations which men have
-gathered from surrounding bodies and generalized (experiences which
-had been scarcely at all generalized at the beginning of the historic
-period)—we find these generalized experiences, these intellectual
-abstractions, elevated into concrete actualities, projected back
-into Nature, and considered as the internal frame-work of things—the
-skeleton by which matter is sustained. But this new form of the old
-realism, is by no means the most startling of the physio-philosophic
-principles. We presently read that,
-
-“The highest mathematical idea, or the fundamental principle of all
-mathematics is the zero = 0.” * * *
-
-“Zero is in itself nothing. Mathematics is based upon nothing, and,
-_consequently_, arises out of nothing.
-
-“Out of nothing, _therefore_, it is possible for something to arise;
-for mathematics, consisting of propositions, is a something in relation
-to 0.”
-
-By such “consequentlys” and “therefores” it is, that men philosophize
-when they “re-think the great thought of creation.” By dogmas that
-pretend to be reasons, nothing is made to generate mathematics; and by
-clothing mathematics with matter, we have the universe! If now we deny,
-as we _do_ deny, that the highest mathematical idea is the zero—if,
-on the other hand, we assert, as we _do_ assert, that the fundamental
-idea underlying all mathematics, is that of equality; the whole of
-Oken’s cosmogony disappears. And here, indeed, we may see illustrated,
-the distinctive peculiarity of the German method of procedure in these
-{12} matters—the bastard _à priori_ method, as it may be termed. The
-legitimate _à priori_ method sets out with propositions of which the
-negation is inconceivable; the _à priori_ method as illegitimately
-applied, sets out either with propositions of which the negation is
-_not_ inconceivable, or with propositions like Oken’s, of which the
-_affirmation_ is inconceivable.
-
-It is needless to proceed further with the analysis; else might we
-detail the steps by which Oken arrives at the conclusions that “the
-planets are coagulated colours, for they are coagulated light”; that
-“the sphere is the expanded nothing;” that gravity is “a weighty
-nothing, a heavy essence, striving towards a centre;” that “the earth
-is the identical, water the indifferent, air the different; or the
-first the centre, the second the radius, the last the periphery of the
-general globe or of fire.” To comment on them would be nearly as absurd
-as are the propositions themselves. Let us pass on to another of the
-German systems of knowledge—that of Hegel.
-
-The simple fact that Hegel puts Jacob Bœhme on a par with Bacon,
-suffices alone to show that his stand-point is far remote from the one
-usually regarded as scientific: so far remote, indeed, that it is not
-easy to find any common basis on which to found a criticism. Those who
-hold that the mind is moulded into conformity with surrounding things
-by the agency of surrounding things, are necessarily at a loss how to
-deal with those who, like Schelling and Hegel, assert that surrounding
-things are solidified mind—that Nature is “petrified intelligence.”
-However, let us briefly glance at Hegel’s classification. He divides
-philosophy into three parts:―
-
-1. _Logic_, or the science of the idea in itself, the pure idea.
-
-2. _The Philosophy of Nature_, or the science of the idea considered
-under its other form—of the idea as Nature.
-
-3. _The Philosophy of the Mind_, or the science of the idea in its
-return to itself.
-
-Of these, the second is divided into the natural sciences, {13}
-commonly so-called; so that in its more detailed form the series runs
-thus:—Logic, Mechanics, Physics, Organic Physics, Psychology.
-
-Now, if we believe with Hegel, first, that thought is the true essence
-of man; second, that thought is the essence of the world; and that,
-therefore, there is nothing but thought; his classification, beginning
-with the science of pure thought, may be acceptable. But otherwise, it
-is an obvious objection to his arrangement, that thought implies things
-thought of—that there can be no logical forms without the substance of
-experience—that the science of ideas and the science of things must
-have a simultaneous origin. Hegel, however, anticipates this objection,
-and, in his obstinate idealism, replies, that the contrary is true. He
-affirms that all contained in the forms, to become something, requires
-to be thought; and that logical forms are the foundations of all things.
-
-It is not surprising that, starting from such premises, and reasoning
-after this fashion, Hegel finds his way to strange conclusions. Out
-of _space_ and _time_ he proceeds to build up _motion_, _matter_,
-_repulsion_, _attraction_, _weight_, and _inertia_. He then goes on to
-logically evolve the solar system. In doing this he widely diverges
-from the Newtonian theory; reaches by syllogism the conviction that
-the planets are the most perfect celestial bodies; and, not being able
-to bring the stars within his theory, says that they are mere formal
-existences and not living matter, and that as compared with the solar
-system they are as little admirable as a cutaneous eruption or a swarm
-of flies.[1] Results so absurd might be left as self-disproved, were
-it not that speculators of this class are not alarmed by any amount
-of incongruity with established beliefs. The only efficient mode of
-treating systems like this of {14} Hegel, is to show that they are
-self-destructive—that by their first steps they ignore that authority
-on which all their subsequent steps depend. If Hegel professes, as he
-manifestly does, to develop his scheme by reasoning—if he presents
-successive inferences as _necessarily following_ from certain premises;
-he implies the postulate that a belief which necessarily follows after
-certain antecedents is a true belief; and did an opponent reply to one
-of his inferences that, though it was impossible to think the opposite,
-yet the opposite was true, he would consider the reply irrational. The
-procedure, however, which he would thus condemn as destructive of all
-thinking whatever, is just the procedure exhibited in the enunciation
-of his own first principles. Mankind find themselves unable to conceive
-that there can be thought without things thought of. Hegel, however,
-asserts that there _can_ be thought without things thought of. That
-ultimate test of a true proposition—the inability of the human mind
-to conceive the negation of it—which in all the successive steps of
-his arguments he considers valid, he considers invalid where it suits
-his convenience to do so; and yet at the same time denies the right
-of an opponent to follow his example. If it is competent for him to
-posit dogmas which are the direct negations of what human consciousness
-recognizes; then is it also competent for his antagonists to stop him
-at any moment by saying, that though the particular inference he is
-drawing seems to his mind, and to all minds, necessarily to follow
-from the premises, yet it is not true, but the contrary inference is
-true. Or, to state the dilemma in another form:—If he sets out with
-inconceivable propositions, then may he with equal propriety make
-all his succeeding propositions inconceivable ones—may at every step
-throughout his reasoning draw the opposite conclusion to that which
-seems involved.
-
-Hegel’s mode of procedure being thus essentially suicidal, the Hegelian
-classification which depends upon {15} it, falls to the ground. Let us
-consider next that of M. Comte.
-
-As all his readers must admit, M. Comte presents us with a scheme of
-the sciences which, unlike the foregoing ones, demands respectful
-consideration. Widely as we differ from him, we cheerfully bear witness
-to the largeness of his views, the clearness of his reasoning, and the
-value of his speculations as contributing to intellectual progress.
-Did we believe a serial arrangement of the sciences to be possible,
-that of M. Comte would certainly be the one we should adopt. His
-fundamental propositions are thoroughly intelligible; and, if not true,
-have a great semblance of truth. His successive steps are logically
-co-ordinated; and he supports his conclusions by a considerable amount
-of evidence—evidence which, so long as it is not critically examined,
-or not met by counter evidence, seems to substantiate his positions.
-But it only needs to assume that antagonistic attitude which _ought_
-to be assumed towards new doctrines, in the belief that, if true, they
-will prosper by conquering objectors—it needs but to test his leading
-doctrines either by other facts than those he cites, or by his own
-facts differently applied, to show that they will not stand. We will
-proceed thus to deal with the general principle on which he bases his
-hierarchy of the sciences.
-
-In the condensed translation of the _Positive Philosophy_, by Miss
-Martineau, M. Comte says:—“Our problem is, then, to find the one
-_rational_ order, amongst a host of possible systems.” . . “This order
-is determined by the degree of simplicity, or, what comes to the same
-thing, of generality of their phenomena.” And the arrangement he
-deduces runs thus:—_Mathematics_, _Astronomy_, _Physics_, _Chemistry_,
-_Physiology_, _Social Physics_. This he asserts to be “the true
-_filiation_ of the sciences.” He asserts further, that the principle
-of progression from a greater to a less degree of generality, “which
-gives this order to the whole body of science, arranges the parts of
-each science.” And, {16} finally, he asserts that the gradations
-thus established _à priori_ among the sciences and the parts of
-each science, “is in essential conformity with the order which has
-spontaneously taken place among the branches of natural philosophy;”
-or, in other words—corresponds with the order of historic development.
-
-Let us compare these assertions with the facts. That there may be
-perfect fairness, let us make no choice, but take as the field
-for our comparison, the succeeding section treating of the first
-science—Mathematics; and let us use none but M. Comte’s own facts,
-and his own admissions. Confining ourselves to this one science, we
-are limited to comparisons between its several parts. M. Comte says,
-that the parts of each science must be arranged in the order of their
-decreasing generality; and that this order of decreasing generality
-agrees with the order of historic development. Our inquiry will be,
-then, whether the history of mathematics confirms this statement.
-
-Carrying out his principle, M. Comte divides Mathematics into “Abstract
-Mathematics, or the Calculus (taking the word in its most extended
-sense) and Concrete Mathematics, which is composed of General Geometry
-and of Rational Mechanics.” The subject-matter of the first of these is
-_number_; the subject-matter of the second includes _space_, _time_,
-_motion_, _force_. The one possesses the highest possible degree of
-generality; for all things whatever admit of enumeration. The others
-are less general; seeing that there are endless phenomena that are
-not cognizable either by general geometry or rational mechanics. In
-conformity with the alleged law, therefore, the evolution of the
-calculus must throughout have preceded the evolution of the concrete
-sub-sciences. Now somewhat awkwardly for him, the first remark M. Comte
-makes bearing on this point is, that “from an historical point of view,
-mathematical analysis _appears to have arisen out of_ the contemplation
-of geometrical and mechanical facts.” True, he goes {17} on to say
-that, “it is not the less independent of these sciences logically
-speaking;” for that “analytical ideas are, above all others, universal,
-abstract, and simple; and geometrical conceptions are necessarily
-founded on them.” We will not take advantage of this last passage to
-charge M. Comte with teaching, after the fashion of Hegel, that there
-can be thought without things thought of. We are content simply to
-compare the assertion, that analysis arose out of the contemplation of
-geometrical and mechanical facts, with the assertion that geometrical
-conceptions are founded upon analytical ones. Literally interpreted
-they exactly cancel each other. Interpreted, however, in a liberal
-sense, they imply, what we believe to be demonstrable, that the two
-had _a simultaneous origin_. The passage is either nonsense, or it is
-an admission that abstract and concrete mathematics are coeval. Thus,
-at the very first step, the alleged congruity between the order of
-generality and the order of evolution, does not hold good.
-
-But may it not be that though abstract and concrete mathematics took
-their rise at the same time, the one afterwards developed more rapidly
-than the other; and has ever since remained in advance of it? No: and
-again we call M. Comte himself as witness. Fortunately for his argument
-he has said nothing respecting the early stages of the concrete and
-abstract divisions after their divergence from a common root; otherwise
-the advent of Algebra long after the Greek geometry had reached a high
-development, would have been an inconvenient fact for him to deal with.
-But passing over this, and limiting ourselves to his own statements,
-we find, at the opening of the next chapter, the admission, that “the
-historical development of the abstract portion of mathematical science
-has, since the time of Descartes, been for the most part _determined_
-by that of the concrete.” Further on we read respecting algebraic
-functions that “most functions were concrete in their origin—even
-those which are at present the most purely {18} abstract; and the
-ancients discovered only through geometrical definitions elementary
-algebraic properties of functions to which a numerical value was not
-attached till long afterwards, rendering abstract to us what was
-concrete to the old geometers.” How do these statements tally with
-his doctrine? Again, having divided the calculus into algebraic and
-arithmetical, M. Comte admits, as perforce he must, that the algebraic
-is more general than the arithmetical; yet he will not say that algebra
-preceded arithmetic in point of time. And again, having divided the
-calculus of functions into the calculus of direct functions (common
-algebra) and the calculus of indirect functions (transcendental
-analysis), he is obliged to speak of this last as possessing a higher
-generality than the first; yet it is far more modern. Indeed, by
-implication, M. Comte himself confesses this incongruity; for he
-says:—“It might seem that the transcendental analysis ought to be
-studied before the ordinary, as it provides the equations which the
-other has to resolve. But though the transcendental _is logically
-independent of the ordinary_, it is best to follow the usual method of
-study, taking the ordinary first.” In all these cases, then, as well as
-at the close of the section where he predicts that mathematicians will
-in time “create procedures of a _wider generality_,” M. Comte makes
-admissions that are diametrically opposed to the alleged law.
-
-In the succeeding chapters treating of the concrete department of
-mathematics, we find similar contradictions. M. Comte himself names the
-geometry of the ancients _special_ geometry and that of the moderns
-_general_ geometry. He admits that while “the ancients studied geometry
-with reference to the _bodies_ under notice, or specially; the moderns
-study it with reference to the _phenomena_ to be considered, or
-generally.” He admits that while “the ancients extracted all they could
-out of one line or surface before passing to another,” “the moderns,
-since Descartes, employ themselves on questions {19} which relate to
-any figure whatever.” These facts are the reverse of what, according
-to his theory, they should be. So, too, in mechanics. Before dividing
-it into statics and dynamics, M. Comte treats of the three laws of
-_motion_, and is obliged to do so; for statics, the more _general_ of
-the two divisions, though it does not involve motion, is impossible
-as a science until the laws of motion are ascertained. Yet the laws
-of motion pertain to dynamics, the more _special_ of the divisions.
-Further on he points out that after Archimedes, who discovered the
-law of equilibrium of the lever, statics made no progress until the
-establishment of dynamics enabled us to seek “the conditions of
-equilibrium through the laws of the composition of forces.” And he
-adds—“At this day _this is the method universally employed_. At the
-first glance it does not appear the most rational—dynamics being
-more complicated than statics, and precedence being natural to the
-simpler. It would, in fact, be more philosophical to refer dynamics to
-statics, as has since been done.” Sundry discoveries are afterwards
-detailed, showing how completely the development of statics has been
-achieved by considering its problems dynamically; and before the close
-of the section M. Comte remarks that “before hydrostatics could be
-comprehended under statics, it was necessary that the abstract theory
-of equilibrium should be made so general as to apply directly to fluids
-as well as solids. This was accomplished when Lagrange supplied, as
-the basis of the whole of rational mechanics, the single principle of
-virtual velocities.” In which statement we have two facts directly at
-variance with M. Comte’s doctrine;—first, that the simpler science,
-statics, reached its present development only by the aid of the
-principle of virtual velocities, which belongs to the more complex
-science, dynamics; and that this “single principle” underlying all
-rational mechanics—this _most general form_ which includes alike the
-relations of statical, {20} hydrostatical, and dynamical forces—was
-reached so late as the time of Lagrange.
-
-Thus it is _not_ true that the historical succession of the divisions
-of mathematics has corresponded with the order of decreasing
-generality. It is _not_ true that abstract mathematics was evolved
-antecedently to, and independently of, concrete mathematics. It is
-_not_ true that of the subdivisions of abstract mathematics, the
-more general came before the more special. And it is _not_ true that
-concrete mathematics, in either of its two sections, began with the
-most abstract and advanced to the less abstract truths.
-
-It may be well to mention, parenthetically, that, in defending his
-alleged law of progression from the general to the special, M. Comte
-somewhere comments upon the two meanings of the word _general_, and
-the resulting liability to confusion. Without now discussing whether
-the asserted distinction exists in other cases, it is manifest that
-it does not exist here. In sundry of the instances above quoted, the
-endeavours made by M. Comte himself to disguise, or to explain away,
-the precedence of the special over the general, clearly indicate that
-the generality spoken of is of the kind meant by his formula. And it
-needs but a brief consideration of the matter to show that, even did he
-attempt it, he could not distinguish this generality which, as above
-proved, frequently comes last, from the generality which he says always
-comes first. For what is the nature of that mental process by which
-objects, dimensions, weights, times, and the rest, are found capable
-of having their relations expressed numerically? It is the formation
-of certain abstract conceptions of unity, duality, and multiplicity,
-which are applicable to all things alike. It is the invention of
-general symbols serving to express the numerical relations of entities,
-whatever be their special characters. And what is the nature of the
-mental process by which numbers are found capable of having their
-relations expressed algebraically? It is the same. {21} It is the
-formation of certain abstract conceptions of numerical functions which
-are constant whatever be the magnitudes of the numbers. It is the
-invention of general symbols serving to express the relations between
-numbers, as numbers express the relations between things. Just as
-arithmetic deals with the common properties of lines, areas, bulks,
-forces, periods; so does algebra deal with the common properties of the
-numbers which arithmetic presents.
-
-Having shown that M. Comte’s alleged law of progression does not hold
-among the several parts of the same science, let us see how it agrees
-with the facts when applied to the separate sciences. “Astronomy,”
-says M. Comte (_Positive Philosophy_, Book III.), “was a positive
-science, in its geometrical aspect, from the earliest days of the
-school of Alexandria; but Physics, which we are now to consider, had
-no positive character at all till Galileo made his great discoveries
-on the fall of heavy bodies.” On this, our comment is simply that
-it is a misrepresentation based upon an arbitrary misuse of words—a
-mere verbal artifice. By choosing to exclude from terrestrial physics
-those laws of magnitude, motion, and position, which he includes in
-celestial physics, M. Comte makes it appear that the last owes nothing
-to the first. Not only is this unwarrantable, but it is radically
-inconsistent with his own scheme of divisions. At the outset he
-says—and as the point is important we quote from the original—“Pour
-la _physique inorganique_ nous voyons d’abord, en nous conformant
-toujours à l’ordre de généralité et de dépendance des phénomènes,
-qu’elle doit être partagée en deux sections distinctes, suivant qu’elle
-considère les phénomènes généraux de l’univers, ou, en particulier,
-ceux que présentent les corps terrestres. D’où la physique céleste,
-ou l’astronomie, soit géométrique, soit mechanique; et la physique
-terrestre.” Here then we have _inorganic physics_ clearly divided into
-_celestial physics_ and _terrestrial physics_—the phenomena presented
-by the universe, and the {22} phenomena presented by earthly bodies.
-If now celestial bodies and terrestrial bodies exhibit sundry leading
-phenomena in common, as they do, how can the generalization of these
-common phenomena be considered as pertaining to the one class rather
-than to the other? If inorganic physics includes geometry (which M.
-Comte has made it do by comprehending _geometrical_ astronomy in
-its sub-section, celestial physics); and if its other sub-section,
-terrestrial physics, treats of things having geometrical properties;
-how can the laws of geometrical relations be excluded from terrestrial
-physics? Clearly if celestial physics includes the geometry of
-objects in the heavens, terrestrial physics includes the geometry of
-objects on the earth. And if terrestrial physics includes terrestrial
-geometry, while celestial physics includes celestial geometry, then
-the geometrical part of terrestrial physics precedes the geometrical
-part of celestial physics; seeing that geometry gained its first
-ideas from surrounding objects. Until men had learnt geometrical
-relations from bodies on the earth, it was impossible for them to
-understand the geometrical relations of bodies in the heavens. So,
-too, with celestial mechanics, which had terrestrial mechanics for its
-parent. The very conception of _force_, which underlies the whole of
-mechanical astronomy, is borrowed from our earthly experiences; and
-the leading laws of mechanical action as exhibited in scales, levers,
-projectiles, &c., had to be ascertained before the dynamics of the
-Solar System could be entered upon. What were the laws made use of by
-Newton in working out his grand discovery? The law of falling bodies
-disclosed by Galileo; that of the composition of forces also disclosed
-by Galileo; and that of centrifugal force found out by Huyghens—all
-of them generalizations of terrestrial physics. Yet, with facts like
-these before him, M. Comte places astronomy before physics in order
-of evolution! He does not compare the geometrical parts of the two
-together, and the mechanical parts of the two {23} together; for this
-would by no means suit his hypothesis. But he compares the geometrical
-part of the one with the mechanical part of the other, and so gives
-a semblance of truth to his position. He is led away by a verbal
-illusion. Had he confined his attention to the things and disregarded
-the words, he would have seen that before mankind scientifically
-co-ordinated _any one class of phenomena_ displayed in the heavens,
-they had previously co-ordinated _a parallel class of phenomena_
-displayed on the surface of the earth.
-
-Were it needful we could fill a score pages with the incongruities
-of M. Comte’s scheme. But the foregoing samples will suffice. So far
-is his law of evolution of the sciences from being tenable, that, by
-following his example, and arbitrarily ignoring one class of facts,
-it would be possible to present, with great plausibility, just the
-opposite generalization to that which he enunciates. While he asserts
-that the rational order of the sciences, like the order of their
-historic development, “is determined by the degree of simplicity, or,
-what comes to the same thing, of generality of their phenomena;” it
-might contrariwise be asserted that, commencing with the complex and
-the special, mankind have progressed step by step to a knowledge of
-greater simplicity and wider generality. So much evidence is there of
-this as to have drawn from Whewell, in his _History of the Inductive
-Sciences_, the remark that “the reader has already seen repeatedly
-in the course of this history, complex and derivative principles
-presenting themselves to men’s minds before simple and elementary
-ones.” Even from M. Comte’s own work, numerous facts, admissions, and
-arguments, might be picked out, tending to show this. We have already
-quoted his words in proof that both abstract and concrete mathematics
-have progressed towards a higher degree of generality, and that he
-looks forward to a higher generality still. Just to strengthen this
-adverse hypothesis, let us take a further instance. {24} From the
-_particular_ case of the scales, the law of equilibrium of which was
-familiar to the earliest nations known, Archimedes advanced to the
-more _general_ case of the lever of which the arms may or may not be
-equal; the law of equilibrium of which _includes_ that of the scales.
-By the help of Galileo’s discovery concerning the composition of
-forces, D’Alembert “established, for the first time, the equations
-of equilibrium of _any_ system of forces applied to the different
-points of a solid body”—equations which include all cases of levers
-and an infinity of cases besides. Clearly this is progress towards
-a higher generality—towards a knowledge more independent of special
-circumstances—towards a study of phenomena “the most disengaged from
-the incidents of particular cases;” which is M. Comte’s definition
-of “the most simple phenomena.” Does it not indeed follow from the
-admitted fact, that mental advance is from the concrete to the
-abstract, from the particular to the general, that the universal and
-therefore most simple truths are the last to be discovered? Should we
-ever succeed in reducing all orders of phenomena to some single law—say
-of atomic action, as M. Comte suggests—must not that law answer to his
-test of being _independent_ of all others, and therefore most simple?
-And would not such a law generalize the phenomena of gravity, cohesion,
-atomic affinity, and electric repulsion, just as the laws of number
-generalize the quantitative phenomena of space, time and force?
-
-The possibility of saying so much in support of an hypothesis the very
-reverse of M. Comte’s, at once proves that his generalization is only a
-half-truth. The fact is that neither proposition is correct by itself;
-and the actuality is expressed only by putting the two together. The
-progress of science is duplex. It is at once from the special to the
-general, and from the general to the special. It is analytical and
-synthetical at the same time.
-
-M. Comte himself observes that the evolution of science {25} has been
-accomplished by the division of labour; but he quite misstates the
-mode in which this division of labour has operated. As he describes
-it, it has been simply an arrangement of phenomena into classes, and
-the study of each class by itself. He does not recognize the effect of
-progress in each class upon _all_ other classes: he recognizes only
-the effect on the class succeeding it in his hierarchical scale. Or if
-he occasionally admits collateral influences and intercommunications,
-he does it so grudgingly, and so quickly puts the admissions out of
-sight and forgets them, as to leave the impression that, with but
-trifling exceptions, the sciences aid one another only in the order
-of their alleged succession. The fact is, however, that the division
-of labour in science, like the division of labour in society, and
-like the “physiological division of labour” in individual organisms,
-has been not only a specialization of functions, but a continuous
-helping of each division by all the others, and of all by each. Every
-particular class of inquirers has, as it were, secreted its own
-particular order of truths from the general mass of material which
-observation accumulates; and all other classes of inquirers have made
-use of these truths as fast as they were elaborated, with the effect
-of enabling them the better to elaborate each its own order of truths.
-It was thus in sundry of the cases we have quoted as at variance with
-M. Comte’s doctrine. It was thus with the application of Huyghens’s
-optical discovery to astronomical observation by Galileo. It was thus
-with the application of the isochronism of the pendulum to the making
-of instruments for measuring intervals, astronomical and other. It was
-thus when the discovery that the refraction and dispersion of light
-did not follow the same law of variation, affected both astronomy and
-physiology by giving us achromatic telescopes and microscopes. It
-was thus when Bradley’s discovery of the aberration of light enabled
-him to make the first step towards ascertaining the motions of the
-stars. {26} It was thus when Cavendish’s torsion-balance experiment
-determined the specific gravity of the Earth, and so gave a datum for
-calculating the specific gravities of the Sun and Planets. It was
-thus when tables of atmospheric refraction enabled observers to write
-down the real places of the heavenly bodies instead of their apparent
-places. It was thus when the discovery of the different expansibilities
-of metals by heat, gave us the means of correcting our chronometrical
-measurements of astronomical periods. It was thus when the lines of
-the prismatic spectrum were used to distinguish the heavenly bodies
-that are of like nature with the sun from those which are not. It was
-thus when, as recently, an electro-telegraphic instrument was invented
-for the more accurate registration of meridional transits. It was
-thus when the difference in the rates of a clock at the equator, and
-nearer the poles, gave data for calculating the oblateness of the
-earth, and accounting for the precession of the equinoxes. It was
-thus—but it is needless to continue. Here, within our own limited
-knowledge of its history, we have named ten additional cases in which
-the single science of astronomy has owed its advance to sciences
-coming _after_ it in M. Comte’s series. Not only its minor changes,
-but its greatest revolutions have been thus determined. Kepler could
-not have discovered his celebrated laws had it not been for Tycho
-Brahe’s accurate observations; and it was only after some progress
-in physical and chemical science that the improved instruments with
-which those observations were made, became possible. The heliocentric
-theory of the Solar System had to wait until the invention of the
-telescope before it could be finally established. Nay, even the grand
-discovery of all—the law of gravitation—depended for its proof upon
-an operation of physical science, the measurement of a degree on the
-Earth’s surface. So completely, indeed, did it thus depend, that Newton
-_had actually abandoned his hypothesis_ because the {27} length of
-a degree, as then stated, brought out wrong results; and it was only
-after Picart’s more exact measurement was published, that he returned
-to his calculations and proved his great generalization. Now this
-constant intercommunion which, for brevity’s sake, we have illustrated
-in the case of one science only, has been taking place with all the
-sciences. Throughout the whole course of their evolution there has been
-a continuous _consensus_ of the sciences—a _consensus_ exhibiting a
-general correspondence with the _consensus_ of the faculties in each
-phase of mental development; the one being an objective registry of the
-subjective state of the other.
-
-       *       *       *       *       *
-
-From our present point of view, then, it becomes obvious that the
-conception of a _serial_ arrangement of the sciences is a vicious one.
-It is not simply that, as M. Comte admits, such a classification “will
-always involve something, if not arbitrary, at least artificial;” it is
-not, as he would have us believe, that, neglecting minor imperfections
-such a classification may be substantially true; but it is that any
-grouping of the sciences in a succession gives a radically erroneous
-idea of their genesis and their dependencies. There is no “one
-_rational_ order among a host of possible systems.” There is no “true
-_filiation_ of the sciences.” The whole hypothesis is fundamentally
-false. Indeed, it needs but a glance at its origin to see at once how
-baseless it is. Why a _series_? What reason have we to suppose that
-the sciences admit of a _linear_ arrangement? Where is our warrant
-for assuming that there is some _succession_ in which they can be
-placed? There is no reason; no warrant. Whence then has arisen the
-supposition? To use M. Comte’s own phraseology, we should say, it is
-a metaphysical conception. It adds another to the cases constantly
-occurring, of the human mind being made the measure of Nature. We are
-obliged to think in sequence; it is a law of our minds that we must
-consider subjects separately, one after another: _therefore_ {28}
-Nature must be serial—_therefore_ the sciences must be classifiable in
-a succession. See here the birth of the notion, and the sole evidence
-of its truth. Men have been obliged when arranging in books their
-schemes of education and systems of knowledge, to choose _some_ order
-or other. And from inquiring what is the best order, have fallen into
-the belief that there is an order which truly represents the facts—have
-persevered in seeking such an order; quite overlooking the previous
-question whether it is likely that Nature has consulted the convenience
-of book-making. For German philosophers, who hold that Nature is
-“petrified intelligence,” and that logical forms are the foundations of
-all things, it is a consistent hypothesis that as thought is serial,
-Nature is serial; but that M. Comte, who is so bitter an opponent
-of all anthropomorphism, even in its most evanescent shapes, should
-have committed the mistake of imposing upon the external world an
-arrangement which so obviously springs from a limitation of the human
-consciousness, is somewhat strange. And it is the more strange when
-we call to mind how, at the outset, M. Comte remarks that in the
-beginning “_toutes les sciences sont cultivées simultanément par les
-mêmes esprits_;” that this is “_inevitable et même indispensable_;”
-and how he further remarks that the different sciences are “_comme les
-diverses branches d’un tronc unique_.” Were it not accounted for by the
-distorting influence of a cherished hypothesis, it would be scarcely
-possible to understand how, after recognizing truths like these, M.
-Comte should have persisted in attempting to construct “_une échelle
-encyclopédique_.”
-
-The metaphor which M. Comte has here so inconsistently used to express
-the relations of the sciences—branches of one trunk—is an approximation
-to the truth, though not the truth itself. It suggests the facts that
-the sciences had a common origin; that they have been developing
-simultaneously; and that they have been from time to time dividing
-and sub-dividing. But it fails to suggest the fact, that the {29}
-divisions and sub-divisions thus arising do not remain separate, but
-now and again re-unite in direct and indirect ways. They inosculate;
-they severally send off and receive connecting growths; and the
-intercommunion has been ever becoming more frequent, more intricate,
-more widely ramified. There has all along been higher specialization,
-that there might be a larger generalization; and a deeper analysis,
-that there might be a better synthesis. Each larger generalization has
-lifted sundry specializations still higher; and each better synthesis
-has prepared the way for still deeper analysis.
-
-And here we may fitly enter upon the task awhile since indicated—a
-sketch of the Genesis of Science, regarded as a gradual outgrowth
-from common knowledge—an extension of the perceptions by the aid
-of the reason. We propose to treat it as a psychological process
-historically displayed; tracing at the same time the advance from
-qualitative to quantitative prevision; the progress from concrete facts
-to abstract facts, and the application of such abstract facts to the
-analysis of new orders of concrete facts; the simultaneous advance
-in generalization and specialization; the continually increasing
-subdivision and reunion of the sciences; and their constantly improving
-_consensus_.
-
-       *       *       *       *       *
-
-To trace out scientific evolution from its deepest roots would, of
-course, involve a complete analysis of the mind. For as science is a
-development of that common knowledge acquired by the unaided senses and
-uncultured reason, so is that common knowledge itself gradually built
-up out of the simplest perceptions. We must, therefore, begin somewhere
-abruptly; and the most appropriate stage to take for our point of
-departure will be the adult mind of the savage.
-
-Commencing thus, without a proper preliminary analysis, we are
-naturally somewhat at a loss how to present, in a satisfactory manner,
-those fundamental processes of thought out of which science originates.
-Perhaps our argument may {30} be best initiated by the proposition,
-that all intelligent action whatever depends upon the discerning of
-distinctions among surrounding things. The condition under which only
-it is possible for any creature to obtain food and avoid danger, is,
-that it shall be differently affected by different objects—that it
-shall be led to act in one way by one object, and in another way by
-another. In the lower orders of creatures this condition is fulfilled
-by means of an apparatus which acts automatically. In the higher
-orders the actions are partly automatic, partly conscious. And in man
-they are almost wholly conscious. Throughout, however, there must
-necessarily exist a certain classification of things according to their
-properties—a classification which is either organically registered in
-the system, as in the inferior creation, or is formed by conscious
-experience, as in ourselves. And it may be further remarked, that the
-extent to which this classification is carried, roughly indicates the
-height of intelligence—that, while the lowest organisms are able to
-do little more than discriminate organic from inorganic matter; while
-the generality of animals carry their classifications no further than
-to a limited number of plants or creatures serving for food, a limited
-number of beasts of prey, and a limited number of places and materials;
-the most degraded of the human race possess a knowledge of the
-distinctive natures of a great variety of substances, plants, animals,
-tools, persons, &c.; not only as classes but as individuals.
-
-What now is the mental process by which classification is effected?
-Manifestly it is a recognition of the _likeness_ or _unlikeness_ of
-things, either in respect of their sizes, colours, forms, weights,
-textures, tastes, &c., or in respect of their modes of action. By
-some special mark, sound, or motion, the savage identifies a certain
-four-legged creature he sees, as one that is good for food, and to
-be caught in a particular way; or as one that is dangerous; and acts
-accordingly. He has classed together all the creatures that are
-_alike_ in {31} this particular. And manifestly in choosing the wood
-out of which to form his bow, the plant with which to poison his
-arrows, the bone from which to make his fish-hooks, he identifies them
-through their chief sensible properties as belonging to the general
-classes, wood, plant, and bone, but distinguishes them as belonging to
-sub-classes by virtue of certain properties in which they are _unlike_
-the rest of the general classes they belong to; and so forms genera and
-species.
-
-And here it becomes manifest that not only is classification carried
-on by grouping together in the mind things that are _like_; but
-that classes and sub-classes are formed and arranged according to
-the _degrees of unlikeness_. Things strongly contrasted are alone
-distinguished in the lower stages of mental evolution; as may be
-any day observed in an infant. And gradually as the powers of
-discrimination increase, the strongly-contrasted classes at first
-distinguished, come to be each divided into sub-classes, differing
-from each other less than the classes differ; and these sub-classes
-are again divided after the same manner. By the continuance of which
-process, things are gradually arranged into groups, the members of
-which are less and less _unlike_; ending, finally, in groups whose
-members differ only as individuals, and not specifically. And thus
-there tends ultimately to arise the notion of _complete likeness_.
-For manifestly, it is impossible that groups should continue to be
-subdivided in virtue of smaller and smaller differences, without there
-being a simultaneous approximation to the notion of _no difference_.
-
-Let us next notice that the recognition of likeness and unlikeness,
-which underlies classification, and out of which continued
-classification evolves the idea of complete likeness—let us next notice
-that it also underlies the process of _naming_, and by consequence
-_language_. For all language consists, at the outset, of symbols
-which are as _like_ to the things symbolized as it is practicable to
-make them. The {32} language of signs is a means of conveying ideas
-by mimicking the actions or peculiarities of the things referred to.
-Verbal language also, in its first stage, is a mode of suggesting
-objects or acts by imitating the sounds which the objects make, or
-with which the acts are accompanied. Originally these two languages
-were used simultaneously. It needs but to watch the gesticulations
-with which the savage accompanies his speech—to see a Bushman
-dramatizing before an audience his mode of catching game—or to note
-the extreme paucity of words in primitive vocabularies; to infer that
-in the beginning, attitudes, gestures, and sounds, were all combined
-to produce as good a _likeness_ as possible of the things, animals,
-persons, or events described; and that as the sounds came to be
-understood by themselves the gestures fell into disuse: leaving traces,
-however, in the manners of the more excitable civilized races. But be
-this as it may, it suffices simply to observe, how many of the words
-current among barbarous peoples are like the sounds appertaining to the
-things signified; how many of our own oldest and simplest words have
-the same peculiarity; how children habitually invent imitative words;
-and how the sign-language spontaneously formed by deaf mutes is based
-on imitative actions—to be convinced that the notion of _likeness_
-is that from which the nomenclature of objects takes its rise. Were
-there space we might go on to point out how this law of likeness is
-traceable, not only in the origin but in the development of language;
-how in primitive tongues the plural is made by a duplication of the
-singular, which is a multiplication of the word to make it _like_ the
-multiplicity of the things; how the use of metaphor—that prolific
-source of new words—is a suggesting of ideas which are _like_ the ideas
-to be conveyed in some respect or other; and how, in the copious use
-of simile, fable, and allegory among uncivilized races, we see that
-complex conceptions which there is no direct language for, are {33}
-rendered, by presenting known conceptions more or less _like_ them.
-
-This view is confirmed, and the predominance of this notion of likeness
-in primitive thought further illustrated, by the fact that our system
-of presenting ideas to the eye originated after the same fashion.
-Writing and printing have descended from picture-language. The earliest
-mode of permanently registering a fact was by depicting it on a skin
-and afterwards on a wall; that is—by exhibiting something as _like_
-to the thing to be remembered as it could be made. Gradually as the
-practice grew habitual and extensive, the most frequently repeated
-forms became fixed, and presently abbreviated; and, passing through
-the hieroglyphic and ideographic phases, the symbols lost all apparent
-relation to the things signified: just as the majority of our spoken
-words have done.
-
-Observe, again, that the same thing is true respecting the genesis of
-reasoning. The _likeness_ which is perceived to exist between cases,
-is the essence of all early reasoning and of much of our present
-reasoning. The savage, having by experience discovered a relation
-between a certain object and a certain act, infers that the _like_
-relation will be found in future. And the expressions we use in our
-arguments—“_analogy_ implies,” “the cases are not _parallel_,” “by
-_parity_ of reasoning,” “there is no _similarity_,”—show how constantly
-the idea of likeness underlies our ratiocinative processes. Still
-more clearly will this be seen on recognizing the fact that there is
-a close connexion between reasoning and classification; that the two
-have a common root; and that neither can go on without the other. For
-on the one hand, it is a familiar truth that the attributing to a body
-in consequence of some of its properties, all those other properties
-in virtue of which it is referred to a particular class, is an act of
-inference. And, on the other hand, the forming of a generalization
-is the putting together in one class, all those {34} cases which
-present like relations; while the drawing a deduction is essentially
-the perception that a particular case belongs to a certain class of
-cases previously generalized. So that as classification is a grouping
-together of _like things_; reasoning is a grouping together of _like
-relations_ among things. Add to which, that while the perfection
-gradually achieved in classification consists in the formation of
-groups of _objects_ which are _completely alike_; the perfection
-gradually achieved in reasoning consists in the formation of groups of
-_cases_ which are _completely alike_.
-
-Once more we may contemplate this dominant idea of likeness as
-exhibited in art. All art, civilized as well as savage, consists
-almost wholly in the making of objects _like_ other objects; either
-as found in Nature, or as produced by previous art. If we trace back
-the varied art-products now existing, we find that at each stage the
-divergence from previous patterns is but small when compared with the
-agreement; and in the earliest art the persistency of imitation is yet
-more conspicuous. The old forms and ornaments and symbols were held
-sacred, and perpetually copied. Indeed, the strong imitative tendency
-notoriously displayed by the lowest human races—often seeming to be
-half automatic, ensures among them a constant reproducing of likenesses
-of things, forms, signs, sounds, actions and whatever else is imitable;
-and we may even suspect that this aboriginal peculiarity is in some way
-connected with the culture and development of this general conception,
-which we have found so deep and wide-spread in its applications.
-
-And now let us go on to consider how, by a further unfolding of this
-same fundamental notion, there is a gradual formation of the first
-germs of science. This idea of likeness which underlies classification,
-nomenclature, language spoken and written, reasoning, and art; and
-which plays so important a part because all acts of intelligence are
-made {35} possible only by distinguishing among surrounding things, or
-grouping them into like and unlike;—this idea we shall find to be the
-one of which science is the especial product. Already during the stage
-we have been describing, there has existed _qualitative_ prevision in
-respect to the commoner phenomena with which savage life is familiar;
-and we have now to inquire how the elements of _quantitative_ prevision
-are evolved. We shall find that they originate by the perfecting of
-this same idea of likeness—that they have their rise in that conception
-of _complete likeness_ which, as we have seen, necessarily results from
-the continued process of classification.
-
-For when the process of classification has been carried as far as it
-is possible for the uncivilized to carry it—when the animal kingdom
-has been grouped not merely into quadrupeds, birds, fishes, and
-insects, but each of these divided into kinds—when there come to be
-classes, in each of which the members differ only as individuals,
-and not specifically; it is clear that there must frequently
-occur an observation of objects which differ so little as to be
-indistinguishable. Among several creatures which the savage has killed
-and carried home, it must often happen that some one, which he wished
-to identify, is so exactly like another that he cannot tell which is
-which. Thus, then, there originates the notion of _equality_. The
-things which among ourselves are called _equal_—whether lines, angles,
-weights, temperatures, sounds or colours—are things which produce in us
-sensations which cannot be distinguished from each other. It is true
-that we now apply the word _equal_ chiefly to the separate traits or
-relations which objects exhibit, and not to those combinations of them
-constituting our conceptions of the objects; but this limitation of
-the idea has evidently arisen by analysis. That the notion of equality
-originated as alleged, will, we think, become obvious on remembering
-that as there were no artificial objects from which it could have been
-{36} abstracted, it must have been abstracted from natural objects;
-and that the various families of the animal kingdom chiefly furnish
-those natural objects which display the requisite exactitude of
-likeness.
-
-The experiences out of which this general idea of equality is evolved,
-give birth at the same time to a more complex idea of equality; or,
-rather, the process just described generates an idea of equality which
-further experience separates into two ideas—_equality of things_ and
-_equality of relations_. While organic forms occasionally exhibit this
-perfection of likeness out of which the notion of simple equality
-arises, they more frequently exhibit only that kind of likeness which
-we call _similarity_; and which is really compound equality. For the
-similarity of two creatures of the same species but of different sizes,
-is of the same nature as the similarity of two geometrical figures.
-In either case, any two parts of the one bear the same ratio to one
-another, as the homologous parts of the other. Given in a species, the
-proportions found to exist among the bones, and we may, and zoologists
-do, predict from any one, the dimensions of the rest; just as, when
-knowing the proportions subsisting among the parts of a geometrical
-figure, we may, from the length of one, calculate the others. And
-if, in the case of similar geometrical figures, the similarity can
-be established only by proving exactness of proportion among the
-homologous parts—if we express this relation between two parts in the
-one, and the corresponding parts in the other, by the formula A is
-to B as _a_ is to _b_; if we otherwise write this, A to B = _a_ to
-_b_; if, consequently, the fact we prove is that the relation of A to
-B _equals_ the relation of _a_ to _b_; then it is manifest that the
-fundamental conception of similarity is _equality of relations_. With
-this explanation we shall be understood when we say that the notion
-of equality of relations is the basis of all exact reasoning. Already
-it has been shown that reasoning in general is a recognition {37} of
-_likeness_ of relations; and here we further find that while the notion
-of likeness of things ultimately evolves the idea of simple equality,
-the notion of likeness of relations evolves the idea of equality of
-relations: of which the one is the concrete germ of exact science,
-while the other is its abstract germ. Those who cannot understand
-how the recognition of similarity in creatures of the same kind,
-can have any alliance with reasoning, will get over the difficulty
-on remembering that the phenomena among which equality of relations
-is thus perceived, are phenomena of the same order and are present
-to the senses at the same time; while those among which developed
-reason perceives relations, are generally neither of the same order,
-nor simultaneously present. And if, further, they will call to mind
-how Cuvier and Owen, from a single part of a creature, as a tooth,
-construct the rest by a process of reasoning based on this equality of
-relations, they will see that the two things are intimately connected,
-remote as they at first seem. But we anticipate. What it concerns us
-here to observe is, that from familiarity with organic forms there
-simultaneously arose the ideas of _simple equality_, and _equality of
-relations_.
-
-At the same time, too, and out of the same mental processes, came
-the first distinct ideas of _number_. In the earliest stages, the
-presentation of several like objects produced merely an indefinite
-conception of multiplicity; as it still does among Australians, and
-Bushmen, and Damaras, when the number presented exceeds three or four.
-With such a fact before us we may safely infer that the first clear
-numerical conception was that of duality as contrasted with unity. And
-this notion of duality must necessarily have grown up side by side
-with those of likeness and equality; seeing that it is impossible to
-recognize the likeness of two things without also perceiving that
-there are two. From the very beginning the conception of number must
-have been, as it is still, associated with {38} likeness or equality
-of the things numbered; and for the purposes of calculation, an ideal
-equality of the things is assumed. Before any _absolutely true_
-numerical results can be reached, it is requisite that the units be
-_absolutely equal_. The only way in which we can establish a numerical
-relationship between things that do not yield us like impressions, is
-to divide them into parts that _do_ yield us like impressions. Two
-unlike magnitudes of extension, force, time, weight, or what not, can
-have their relative amounts estimated, only by means of some small unit
-that is contained many times in both; and even if we finally write down
-the greater one as a unit and the other as a fraction of it, we state,
-in the denominator of the fraction, the number of parts into which
-the unit must be divided to be comparable with the fraction. It is,
-indeed, true, that by a modern process of abstraction, we occasionally
-apply numbers to unequal units, as the furniture at a sale or the
-various animals on a farm, simply as so many separate entities; but
-no exact quantitative result can be brought out by calculation with
-units of this order. And, indeed, it is the distinctive peculiarity
-of the calculus in general, that it proceeds on the hypothesis of
-that absolute equality of its abstract units, which no real units
-possess; and that the exactness of its results holds only in virtue of
-this hypothesis. The first ideas of number must necessarily then have
-been derived from like or equal magnitudes as seen chiefly in organic
-objects; and as the like magnitudes most frequently observed were
-magnitudes of extension, it follows that geometry and arithmetic had a
-simultaneous origin.
-
-Not only are the first distinct ideas of number co-ordinate with ideas
-of likeness and equality, but the first efforts at numeration display
-the same relationship. On reading accounts of savage tribes, we find
-that the method of counting by the fingers, still followed by many
-children, is the aboriginal method. Neglecting the several cases {39}
-in which the ability to enumerate does not reach even to the number
-of fingers on one hand, there are many cases in which it does not
-extend beyond ten—the limit of the simple finger notation. The fact
-that in so many instances, remote, and seemingly unrelated nations,
-have adopted _ten_ as their basic number; together with the fact that
-in the remaining instances the basic number is either _five_ (the
-fingers of one hand) or _twenty_ (the fingers and toes); of themselves
-show that the fingers were the original units of numeration. The still
-surviving use of the word _digit_, as the general name for a figure in
-arithmetic, is significant; and it is even said that our word _ten_
-(Sax. tyn; Dutch, tien; German, zehn) means in its primitive expanded
-form _two hands_. So that, originally, to say there were ten things,
-was to say there were two hands of them. From all which evidence it
-is tolerably clear that the earliest mode of conveying the idea of
-a number of things, was by holding up as many fingers as there were
-things; that is, by using a symbol which was _equal_, in respect of
-multiplicity, to the group symbolized. For which inference there is,
-indeed, strong confirmation in the statement that our own soldiers
-spontaneously adopted this device in their dealings with the Turks
-during the Crimean war. And here it should be remarked that in this
-re-combination of the notion of equality with that of multiplicity, by
-which the first steps in numeration are effected, we may see one of
-the earliest of those inosculations between the diverging branches of
-science, which are afterwards of perpetual occurrence.
-
-As this observation suggests, it will be well, before tracing the
-mode in which exact science emerges from the inexact judgments of the
-senses, and showing the non-serial evolution of its divisions, to note
-the non-serial character of those preliminary processes of which all
-after development is a continuation. On re-considering them it will
-be seen that not only are they divergent branches {40} from a common
-root,—not only are they simultaneous in their growth; but that they
-are mutual aids; and that none can advance without the rest. That
-progress of classification for which the unfolding of the perceptions
-paves the way, is impossible without a corresponding progress in
-language, by which greater varieties of objects are thinkable and
-expressible. On the one hand classification cannot be carried far
-without names by which to designate the classes; and on the other hand
-language cannot be made faster than things are classified. Again,
-the multiplication of classes and the consequent narrowing of each
-class, itself involves a greater likeness among the things classed
-together; and the consequent approach towards the notion of complete
-likeness itself allows classification to be carried higher. Moreover,
-classification necessarily advances _pari passu_ with rationality—the
-classification of _things_ with the classification of _relations_.
-For things that belong to the same class are, by implication, things
-of which the properties and modes of behaviour—the co-existences and
-sequences—are more or less the same; and the recognition of this
-sameness of co-existences and sequences is reasoning. Whence it follows
-that the advance of classification is necessarily proportionate to the
-advance of generalizations. Yet further, the notion of _likeness_,
-both in things and relations, simultaneously evolves by one process of
-culture the ideas of _equality_ of things and _equality_ of relations;
-which are the respective bases of exact concrete reasoning and exact
-abstract reasoning—Mathematics and Logic. And once more, this idea of
-equality, in the very process of being formed, necessarily gives origin
-to two series of relations—those of magnitude and those of number; from
-which arise geometry and the calculus. Thus the process throughout
-is one of perpetual subdivision and perpetual intercommunication of
-the divisions. From the very first there has been that _consensus_ of
-different kinds of knowledge, {41} answering to the _consensus_ of the
-intellectual faculties, which, as already said, must exist among the
-sciences.
-
-Let us now go on to observe how, out of the notions of _equality_ and
-_number_, as arrived at in the manner described, there gradually arose
-the elements of quantitative prevision.
-
-Equality, once having come to be definitely conceived, was recognizable
-among other phenomena than those of magnitude. Being predicable of
-all things producing indistinguishable impressions, there naturally
-grew up ideas of equality in weights, sounds, colours, &c.; and,
-indeed, it can scarcely be doubted that the occasional experience of
-equal weights, sounds, and colours, had a share in developing the
-abstract conception of equality—that the ideas of equality in sizes,
-relations, forces, resistances, and sensible properties in general,
-were evolved during the same stage of mental development. But however
-this may be, it is clear that as fast as the notion of equality gained
-definiteness, so fast did that lowest kind of quantitative prevision
-which is achieved without any instrumental aid, become possible. The
-ability to estimate, however roughly, the amount of a foreseen result,
-implies the conception that it will be _equal_ to a certain imagined
-quantity; and the correctness of the estimate will manifestly depend on
-the precision which the perceptions of sensible equality have reached.
-A savage with a piece of stone in his hand, and another piece lying
-before him of greater bulk but of the same kind (sameness of kind
-being inferred from the _equality_ of the two in colour and texture)
-knows about what effort he must put forth to raise this other piece;
-and he judges accurately in proportion to the accuracy with which he
-perceives that the one is twice, three times, four times, &c. as large
-as the other; that is—in proportion to the precision of his ideas of
-equality and number. And here let us not omit to notice that even in
-these vaguest of quantitative previsions, the conception of _equality
-of relations_ is also involved. For it is only in {42} virtue of an
-undefined consciousness that the relation between bulk and weight in
-the one stone is _equal_ to the relation between bulk and weight in the
-other, that even the roughest approximation can be made.
-
-But how came the transition from those uncertain perceptions of
-equality which the unaided senses give, to the certain ones with which
-science deals? It came by placing the things compared in juxtaposition.
-Equality being asserted of things which give us indistinguishable
-impressions, and no distinct comparison of impressions being possible
-unless they occur in immediate succession, it results that exactness
-of equality is ascertainable in proportion to the closeness of the
-compared things. Hence the fact that when we wish to judge of two
-shades of colour whether they are alike or not, we place them side by
-side; hence the fact that we cannot, with any precision, say which
-of two allied sounds is the louder, or the higher in pitch, unless
-we hear the one immediately after the other; hence the fact that to
-estimate the ratio of weights, we take one in each hand, that we may
-compare their pressures by rapidly alternating in thought from the
-one to the other; hence the fact, that in a piece of music, we can
-continue to make equal beats when the first beat has been given, but
-cannot ensure commencing with the same length of beat on a future
-occasion; and hence, lastly, the fact, that of all magnitudes, those of
-_linear extension_ are those of which the equality is most precisely
-ascertainable, and those to which, by consequence, all others have
-to be reduced. For it is the peculiarity of linear extension that it
-alone allows its magnitudes to be placed in _absolute_ juxtaposition,
-or, rather, in coincident position; it alone can test the equality of
-two magnitudes by observing whether they will coalesce, as two equal
-mathematical lines do, when placed between the same points; it alone
-can test _equality_ by trying whether it will become _identity_.
-Hence, then, the fact, that all exact science is reducible, {43} by
-an ultimate analysis, to results measured in equal units of linear
-extension.
-
-Still it remains to be noticed in what manner this determination
-of equality by comparison of linear magnitudes originated. Once
-more may we perceive that surrounding natural objects supplied the
-needful lessons. From the beginning there must have been a constant
-experience of like things placed side by side—men standing and walking
-together; animals from the same herd; fish from the same shoal. And the
-ceaseless repetition of these experiences could not fail to suggest
-the observation, that the nearer together any objects were, the more
-visible became any inequality between them. Hence the obvious device
-of putting in apposition, things of which it was desired to ascertain
-the relative magnitudes. Hence the idea of _measure_. And here we
-suddenly come upon a group of facts which afford a solid basis to the
-remainder of our argument; while they also furnish strong evidence in
-support of the foregoing speculations. Those who look sceptically on
-this attempted rehabilitation of early mental development, and who
-think that the derivation of so many primary notions from organic
-forms is somewhat strained, will perhaps see more probability in the
-hypotheses which have been ventured, on discovering that all measures
-of _extension_ and _force_ originated from the lengths and weights of
-organic bodies, and all measures of _time_ from the periodic phenomena
-of either organic or inorganic bodies.
-
-Thus, among linear measures, the cubit of the Hebrews was the _length
-of the forearm_ from the elbow to the end of the middle finger; and
-the smaller scriptural dimensions are expressed in _hand-breadths_ and
-_spans_. The Egyptian cubit, which was similarly derived, was divided
-into digits, which were _finger-breadths_; and each finger-breadth was
-more definitely expressed as being equal to four _grains of barley_
-placed breadthwise. Other ancient measures were {44} the orgyia or
-_stretch of the arms_, the _pace_, and the _palm_. So persistent has
-been the use of these natural units of length in the East, that even
-now some Arabs mete out cloth by the forearm. So, too, is it with
-European measures. The _foot_ prevails as a dimension throughout
-Europe, and has done so since the time of the Romans, by whom, also, it
-was used: its lengths in different places varying not much more than
-men’s feet vary. The heights of horses are still expressed in _hands_.
-The inch is the length of the terminal joint of _the thumb_; as is
-clearly shown in France, where _pouce_ means both thumb and inch. Then
-we have the inch divided into three _barley-corns_. So completely,
-indeed, have these organic dimensions served as the substrata of
-mensuration, that it is only by means of them that we can form any
-estimate of some of the ancient distances. For example, the length
-of a degree on the Earth’s surface, as determined by the Arabian
-astronomers shortly after the death of Haroun-al-Raschid, was fifty-six
-of their miles. We know nothing of their mile further than that it was
-4000 cubits; and whether these were sacred cubits or common cubits,
-would remain doubtful, but that the length of the cubit is given as
-twenty-seven inches, and each inch defined as the thickness of six
-barley-grains. Thus one of the earliest measurements of a degree comes
-down to us in barley-grains. Not only did organic lengths furnish those
-approximate measures which satisfied men’s needs in ruder ages, but
-they furnished also the standard measures required in later times. One
-instance occurs in our own history. To remedy the irregularities then
-prevailing, Henry I. commanded that the ulna, or ancient ell, which
-answers to the modern yard, should be made of the exact length of _his
-own arm_.
-
-Measures of weight had a kindred derivation. Seeds seem commonly to
-have supplied the units. The original of the carat used for weighing in
-India is _a small bean_. Our own systems, both troy and avoirdupois,
-are derived {45} primarily from wheat-corns. Our smallest weight,
-the grain is _a grain of wheat_. This is not a speculation; it is an
-historically-registered fact. Henry III. enacted that an ounce should
-be the weight of 640 dry grains of wheat from the middle of the ear.
-And as all the other weights are multiples or sub-multiples of this, it
-follows that the grain of wheat is the basis of our scale. So natural
-is it to use organic bodies as weights, before artificial weights have
-been established, or where they are not to be had, that in some of the
-remoter parts of Ireland the people are said to be in the habit, even
-now, of putting a man into the scales to serve as a measure for heavy
-commodities.
-
-Similarly with time. Astronomical periodicity, and the periodicity of
-animal and vegetable life, are simultaneously used in the first stages
-of progress for estimating epochs. The simplest unit of time, the day,
-nature supplies ready made. The next simplest period, the moneth or
-month, is also thrust upon men’s notice by the conspicuous changes
-constituting a lunation. For larger divisions than these, the phenomena
-of the seasons, and the chief events from time to time occurring, have
-been used by early and uncivilized races. Among the Egyptians the
-rising of the Nile served as a mark. The New Zealanders were found to
-begin their year from the reappearance of the Pleiades above the sea.
-One of the uses ascribed to birds, by the Greeks, was to indicate the
-seasons by their migrations. Barrow describes the aboriginal Hottentot
-as expressing dates by the number of moons before or after the ripening
-of one of his chief articles of food. He further states that the
-Kaffir chronology is kept by the moon, and is registered by notches on
-sticks—the death of a favourite chief, or the gaining of a victory,
-serving for a new era. By which last fact, we are at once reminded
-that in early history, events are commonly recorded as occurring in
-certain reigns, and in certain years of certain reigns: a proceeding
-which made a king’s reign {46} a rude measure of duration. And, as
-further illustrating the tendency to divide time by natural phenomena
-and natural events, it may be noticed that even by our own peasantry
-the definite divisions of months and years are but little used; and
-that they habitually refer to occurrences as “before sheep-shearing,”
-or “after harvest,” or “about the time when the squire died.” It is
-manifest, therefore, that the approximately equal periods perceived
-in Nature gave the first units of measure for time; as did Nature’s
-approximately equal lengths and weights give the first units of measure
-for space and force.
-
-It remains only to observe, that measures of value were similarly
-derived. Barter, in one form or other, is found among all but the
-very lowest human races. It is obviously based upon the notion of
-_equality of worth_. And as it gradually merges into trade by the
-introduction of some kind of currency, we find that the _measures of
-worth_, constituting this currency, are organic bodies; in some cases
-_cowries_, in others _cocoa-nuts_, in others _cattle_, in others
-_pigs_; among the American Indians peltry or _skins_, and in Iceland
-_dried fish_.
-
-Notions of exact equality and of measure having been reached, there
-arose definite ideas of magnitudes as being multiples one of another;
-whence the practice of measurement by direct apposition of a measure.
-The determination of linear extensions by this process can scarcely be
-called science, though it is a step towards it; but the determination
-of lengths of time by an analogous process may be considered as one
-of the earliest samples of quantitative prevision. For when it is
-first ascertained that the moon completes the cycle of her changes
-in about thirty days—a fact known to most uncivilized tribes that
-can count beyond the number of their fingers—it is manifest that it
-becomes possible to say in what number of days any specified phase of
-the moon will recur; and it is also manifest that this prevision is
-effected by an apposition of two times, after the same manner {47}
-that linear space is measured by the apposition of two lines. For to
-express the moon’s period in days, is to say how many of these units
-of measure are contained in the period to be measured—is to ascertain
-the distance between two points in time by means of a _scale of days_,
-just as we ascertain the distance between two points in space by a
-scale of feet or inches; and in each case the scale coincides with the
-thing measured—mentally in the one, visibly in the other. So that in
-this simplest, and perhaps earliest case of quantitative prevision,
-the phenomena are not only thrust daily upon men’s notice, but Nature
-is, as it were, perpetually repeating that process of measurement by
-observing which the prevision is effected.
-
-This fact, that in very early stages of social progress it is known
-that the moon goes through her changes in nearly thirty days, and
-that in rather more than twelve moons the seasons return—this fact
-that chronological astronomy assumes a certain scientific character
-even before geometry does; while it is partly due to the circumstance
-that the astronomical divisions, day, month, and year, are ready made
-for us, is partly due to the further circumstances that agricultural
-and other operations were at first regulated astronomically, and that
-from the supposed divine nature of the heavenly bodies their motions
-determined the periodical religious festivals. As instances of the
-one we have the observation of the Egyptians, that the rising of the
-Nile corresponded with the heliacal rising of Sirius; the directions
-given by Hesiod for reaping and ploughing, according to the positions
-of the Pleiades; and his maxim that “fifty days after the turning of
-the sun is a seasonable time for beginning a voyage.” As instances of
-the other, we have the naming of the days after the sun, moon, and
-planets; the early attempts among Eastern nations to regulate the
-calendar so that the gods might not be offended by the displacement
-of their sacrifices; and the fixing of the great annual festival of
-the Peruvians by the position of the sun. {48} In all which facts we
-see that, at first, science was simply an appliance of religion and
-industry.
-
-After the discoveries that a lunation occupies nearly thirty days, and
-that some twelve lunations occupy a year—discoveries which we may infer
-were the earliest, from the fact that existing uncivilized races have
-made them—we come to the first known astronomical records, which are
-those of eclipses. The Chaldeans were able to predict these. “This they
-did, probably,” says Dr. Whewell in his useful history, from which most
-of the materials we are about to use will be drawn, “by means of their
-cycle of 223 months, or about eighteen years; for, at the end of this
-time, the eclipses of the moon begin to return, at the same intervals
-and in the same order as at the beginning.” Now this method of
-calculating eclipses by means of a recurring cycle,—the _Saros_ as they
-called it—is a more complex case of prevision by means of coincidence
-of measures. For by what observations must the Chaldeans have
-discovered this cycle? Obviously, as Delambre infers, by inspecting
-their registers; by comparing the successive intervals; by finding that
-some of the intervals were alike; by seeing that these equal intervals
-were eighteen years apart; by discovering that _all_ the intervals
-that were eighteen years apart were equal; by ascertaining that the
-intervals formed a series which repeated itself, so that if one of the
-cycles of intervals were superposed on another the divisions would fit.
-And this being once perceived, it became possible to use the cycle as
-a scale of time by which to measure out future periods of recurrence.
-Seeing thus that the process of so predicting eclipses, is in essence
-the same as that of predicting the moon’s monthly changes by observing
-the number of days after which they repeat—seeing that the two differ
-only in the extent and irregularity of the intervals; it is not
-difficult to understand how such an amount of knowledge should so early
-have been reached. And we shall be the less surprised on remembering
-that the only things involved in these {49} previsions were _time_ and
-_number_; and that the time was in a manner self-numbered.
-
-Still, the ability to predict events recurring only after so long
-a period as eighteen years, implies a considerable advance in
-civilization—a considerable development of general knowledge; and we
-have now to inquire what progress in other sciences accompanied, and
-was necessary to, these astronomical previsions. In the first place,
-there must have been a tolerably efficient system of calculation. Mere
-finger-counting, mere head-reckoning, even with the aid of a decimal
-notation, could not have sufficed for numbering the days in a year;
-much less the years, months, and days between eclipses. Consequently
-there must have been a mode of registering numbers; probably even a
-system of numerals. The earliest numerical records, if we may judge by
-the practices of the less civilized races now existing, were probably
-kept by notches cut on sticks, or strokes marked on walls; much as
-public-house scores are kept now. And there is reason to think that
-the first numerals used were simply groups of straight strokes, as
-some of the still-extant Roman ones are; leading us to suspect that
-these groups of strokes were used to represent groups of fingers, as
-the groups of fingers had been used to represent groups of objects—a
-supposition harmonizing with the aboriginal practice of picture
-writing. Be this so or not, however, it is manifest that before the
-Chaldeans discovered their _Saros_, they must have had both a set of
-written symbols serving for an extensive numeration, and a familiarity
-with the simpler rules of arithmetic.
-
-Not only must abstract mathematics have made some progress, but
-concrete mathematics also. It is scarcely possible that the buildings
-belonging to this era should have been laid out and erected without
-any knowledge of geometry. At any rate, there must have existed that
-elementary geometry which deals with direct {50} measurement—with the
-apposition of lines; and it seems that only after the discovery of
-those simple proceedings, by which right angles are drawn, and relative
-positions fixed, could so regular an architecture be executed. In the
-case of the other division of concrete mathematics—mechanics, we have
-definite evidence of progress. We know that the lever and the inclined
-plane were employed during this period: implying that there was a
-qualitative prevision of their effects, if not a quantitative one.
-But we know more. We read of weights in the earliest records; and we
-find weights in ruins of the highest antiquity. Weights imply scales,
-of which we have also mention; and scales involve the primary theorem
-of mechanics in its least complicated form—involve not a qualitative
-but a quantitative prevision of mechanical effects. And here we may
-notice how mechanics, in common with the other exact sciences, took
-its rise from the simplest application of the idea of _equality_. For
-the mechanical proposition which the scales involve, is, that if a
-lever with _equal_ arms, have _equal_ weights suspended from them, the
-weights will remain at _equal_ altitudes. And we may further notice
-how, in this first step of rational mechanics, we see illustrated the
-truth awhile since named, that as magnitudes of linear extension are
-the only ones of which the equality is exactly ascertainable, the
-equalities of other magnitudes have at the outset to be determined by
-means of them. For the equality of the weights which balance each other
-in scales, depends on the equality of the arms: we can know that the
-weights are equal only by proving that the arms are equal. And when
-by this means we have obtained a system of weights,—a set of equal
-units of force and definite multiples of them, then does a science of
-mechanics become possible. Whence, indeed, it follows, that rational
-mechanics could not possibly have any other starting-point than the
-scales.
-
-Let us further remember that during this same period {51} there was
-some knowledge of chemistry. Sundry of the arts which we know to have
-been carried on, were made possible only by a generalized experience
-of the modes in which certain bodies affect each other under special
-conditions. In metallurgy, which was extensively practised, this is
-abundantly illustrated. And we even have evidence that in some cases
-the knowledge possessed was, in a sense, quantitative. For, as we find
-by analysis that the hard alloy of which the Egyptians made their
-cutting tools, was composed of copper and tin in fixed proportions,
-there must have been an established prevision that such an alloy
-was to be obtained only by mixing them in these proportions. It is
-true, this was but a simple empirical generalization; but so was the
-generalization respecting the recurrence of eclipses; so are the first
-generalizations of every science.
-
-Respecting the simultaneous advance of the sciences during this early
-epoch, it remains to point out that even the most complex of them
-must have made some progress. For under what conditions only were
-the foregoing developments possible? The conditions furnished by an
-established and organized social system. A long continued registry of
-eclipses; the building of palaces; the use of scales; the practice of
-metallurgy—alike imply a settled and populous nation. The existence
-of such a nation not only presupposes laws and some administration of
-justice, which we know existed, but it presupposes successful laws—laws
-conforming in some degree to the conditions of social stability—laws
-enacted because it was found that the actions forbidden by them were
-dangerous to the State. We do not by any means say that all, or even
-the greater part, of the laws were of this nature; but we do say,
-that the fundamental ones were. It cannot be denied that the laws
-affecting life and property were such. It cannot be denied that,
-however little these were enforced between class and class, they were
-to a considerable extent {52} enforced between members of the same
-class. It can scarcely be questioned, that the administration of them
-between members of the same class was seen by rulers to be necessary
-for keeping society together. But supposition aside, it is clear that
-the habitual recognition of these claims in their laws, implied some
-prevision of social phenomena. That same idea of _equality_, which,
-as we have seen, underlies other science, underlies also morals and
-sociology. The conception of justice, which is the primary one in
-morals; and the administration of justice, which is the vital condition
-to social existence; are impossible without the recognition of a
-certain likeness in men’s claims, in virtue of their common humanity.
-_Equity_ literally means _equalness_; and if it be admitted that there
-were even the vaguest ideas of equity in these primitive eras, it must
-be admitted that there was some appreciation of the equalness of men’s
-liberties to pursue the objects of life—some appreciation, therefore,
-of the essential principle of national equilibrium.
-
-Thus in this initial stage of the positive sciences, before geometry
-had yet done more than evolve a few empirical rules—before mechanics
-had passed beyond its first theorem—before astronomy had advanced
-from its merely chronological phase into the geometrical; the most
-involved of the sciences had reached a certain degree of development—a
-development without which no progress in other sciences was possible.
-
-Only noting as we pass, how, thus early, we may see that the progress
-of exact science was not only towards an increasing number of
-previsions, but towards previsions more accurately quantitative—how,
-in astronomy, the recurring period of the moon’s motions was by and
-by more correctly ascertained to be two hundred and thirty-five
-lunations; how Callipus further corrected this Metonic cycle, by
-leaving out a day at the end of every seventy-six years; and how
-these successive advances implied a {53} longer continued registry
-of observations, and the co-ordination of a greater number of facts;
-let us go on to inquire how geometrical astronomy took its rise. The
-first astronomical instrument was the gnomon. This was not only early
-in use in the East, but it was found among the Mexicans; the sole
-astronomical observations of the Peruvians were made by it; and we
-read that 1100 B.C., the Chinese observed that, at a certain place,
-the length of the sun’s shadow, at the summer solstice, was to the
-height of the gnomon, as one and a half to eight. Here again it is
-observable, both that the instrument is found ready made, and that
-Nature is perpetually performing the process of measurement. Any fixed,
-erect object—a column, a pole, the angle of a building—serves for a
-gnomon; and it needs but to notice the changing position of the shadow
-it daily throws, to make the first step in geometrical astronomy. How
-small this first step was, may be seen in the fact that the only things
-ascertained at the outset were the periods of the summer and winter
-solstices, which corresponded with the least and greatest lengths of
-the mid-day shadow; and to fix which, it was needful merely to mark
-the point to which each day’s shadow reached. And now let it not be
-overlooked that in the observing at what time during the next year this
-extreme limit of the shadow was again reached, and in the inference
-that the sun had then arrived at the same turning point in his annual
-course, we have one of the simplest instances of that combined use of
-_equal magnitudes_ and _equal relations_, by which all exact science,
-all quantitative prevision, is reached. For the relation observed
-was between the length of the gnomon’s shadow and the sun’s position
-in the heavens; and the inference drawn was that when, next year,
-the extremity of the shadow came to the same point, he occupied the
-same place. That is, the ideas involved were, the equality of the
-shadows, and the equality of the relations between {54} shadow and
-sun in successive years. As in the case of the scales, the equality of
-relations here recognized is of the simplest order. It is not as those
-habitually dealt with in the higher kinds of scientific reasoning,
-which answer to the general type—the relation between two and three
-equals the relation between six and nine; but it follows the type—the
-relation between two and three equals the relation between two and
-three: it is a case of not simply _equal_ relations, but _coinciding_
-relations. And here, indeed, we may see beautifully illustrated how
-the idea of equal relations takes its rise after the same manner that
-that of equal magnitudes does. As already shown, the idea of equal
-magnitudes arose from the observed coincidence of two lengths placed
-together; and in this case we have not only two coincident lengths of
-shadows, but two coincident relations between sun and shadows.
-
-From the use of the gnomon there naturally grew up the conception of
-angular measurements; and with the advance of geometrical conceptions
-came the hemisphere of Berosus, the equinoctial armil, the solstitial
-armil, and the quadrant of Ptolemy—all of them employing shadows
-as indices of the sun’s position, but in combination with angular
-divisions. It is out of the question for us here to trace these details
-of progress. It must suffice to remark that in all of them we may see
-that notion of equality of relations of a more complex kind, which
-is best illustrated in the astrolabe, an instrument which consisted
-“of circular rims, moveable one within the other, or about poles, and
-contained circles which were to be brought into the position of the
-ecliptic, and of a plane passing through the sun and the poles of the
-ecliptic”—an instrument, therefore, which represented, as by a model,
-the relative positions of certain imaginary lines and planes in the
-heavens; which was adjusted by putting these representative lines and
-planes into parallelism with the celestial ones; and which depended
-for its use on the perception that the relations among these {55}
-representative lines and planes were _equal_ to the relations among
-those represented. We might go on to point out how the conception
-of the heavens as a revolving hollow sphere, the explanation of the
-moon’s phases, and indeed all the successive steps taken, involved
-this same mental process. But we must content ourselves with referring
-to the theory of eccentrics and epicycles, as a further marked
-illustration of it. As first suggested, and as proved by Hipparchus to
-afford an explanation of the leading irregularities in the celestial
-motions, this theory involved the perception that the progressions,
-retrogressions, and variations of velocity seen in the heavenly bodies,
-might be reconciled with their assumed uniform movements in circles, by
-supposing that the earth was not in the centre of their orbits; or by
-supposing that they revolved in circles whose centres revolved round
-the earth; or by both. The discovery that this would account for the
-appearances, was the discovery that in certain geometrical diagrams the
-relations were such, that the uniform motion of points along curves
-conditioned in specified ways, would, when looked at from a particular
-position, present analogous irregularities; and the calculations of
-Hipparchus involved the belief that the relations subsisting among
-these geometrical curves were _equal_ to the relations subsisting among
-the celestial orbits.
-
-Leaving here these details of astronomical progress, and the
-philosophy of it, let us observe how the relatively concrete science
-of geometrical astronomy, having been thus far helped forward by
-the development of geometry in general, reacted upon geometry,
-caused it also to advance, and was again assisted by it. Hipparchus,
-before making his solar and lunar tables, had to discover rules
-for calculating the relations between the sides and angles of
-triangles—_trigonometry_, a subdivision of pure mathematics. Further,
-the reduction of the doctrine of the sphere to a quantitative form
-needed for astronomical purposes, required the formation of a
-_spherical trigonometry_, which {56} was also achieved by Hipparchus.
-Thus both plane and spherical trigonometry, which are parts of the
-highly abstract and simple science of extension, remained undeveloped
-until the less abstract and more complex science of the celestial
-motions had need of them. The fact admitted by M. Comte, that since
-Descartes the progress of the abstract division of mathematics has
-been determined by that of the concrete division, is paralleled by
-the still more significant fact that even thus early the progress of
-mathematics was determined by that of astronomy. And here, indeed, we
-see exemplified the truth, which the subsequent history of science
-frequently illustrates, that before any more abstract division makes a
-further advance, some more concrete division suggests the necessity for
-that advance—presents the new order of questions to be solved. Before
-astronomy put before Hipparchus the problem of solar tables, there
-was nothing to raise the question of the relations between lines and
-angles: the subject-matter of trigonometry had not been conceived.
-
-Just incidentally noticing the circumstance that the epoch we are
-describing witnessed the evolution of algebra, a comparatively abstract
-division of mathematics, by the union of its less abstract divisions,
-geometry and arithmetic (a fact proved by the earliest extant samples
-of algebra, which are half algebraic, half geometric) we go on to
-observe that during the era in which mathematics and astronomy were
-thus advancing, rational mechanics made its second step; and something
-was done towards giving a quantitative form to hydrostatics, optics,
-and acoustics. In each case we shall see how the idea of equality
-underlies all quantitative prevision; and in what simple forms this
-idea is first applied.
-
-As already shown, the first theorem established in mechanics was, that
-equal weights suspended from a lever with equal arms would remain in
-equilibrium. Archimedes discovered that a lever with unequal arms was
-in {57} equilibrium when one weight was to its arm as the other arm to
-its weight; that is—when the numerical relation between one weight and
-its arm was _equal_ to the numerical relation between the other arm and
-its weight.
-
-The first advance made in hydrostatics, which we also owe to
-Archimedes, was the discovery that fluids press _equally_ in all
-directions; and from this followed the solution of the problem of
-floating bodies; namely, that they are in equilibrium when the upward
-and downward pressures are _equal_.
-
-In optics, again, the Greeks found that the angle of incidence is
-_equal_ to the angle of reflection; and their knowledge reached no
-further than to such simple deductions from this as their geometry
-sufficed for. In acoustics they ascertained the fact that three strings
-of _equal_ lengths would yield the octave, fifth and fourth, when
-strained by weights having certain definite ratios; and they did not
-progress much beyond this. In the one of which cases we see geometry
-used in elucidation of the laws of light; and in the other, geometry
-and arithmetic made to measure certain phenomena of sound.
-
-While sundry sciences had thus reached the first stages of quantitative
-prevision, others were progressing in qualitative prevision. It
-must suffice just to note that some small generalizations were made
-respecting evaporation, and heat, and electricity, and magnetism,
-which, empirical as they were, did not in that respect differ from
-the first generalizations of every science; that the Greek physicians
-had made advances in physiology and pathology, which, considering
-the great imperfection of our present knowledge, are by no means to
-be despised; that zoology had been so far systematized by Aristotle,
-as, to some extent, enabled him from the presence of certain organs
-to predict the presence of others; that in Aristotle’s _Politics_, is
-shown progress towards a scientific conception of social phenomena,
-and sundry previsions respecting {58} them; and that in the state of
-the Greek societies, as well as in the writings of Greek philosophers,
-we may recognize both an increasing clearness in the conception of
-equity and some appreciation of the fact that social stability depends
-on the maintenance of equitable relations. Space permitting, we might
-dwell on the causes which retarded the development of some of the
-sciences, as for example, chemistry; showing that relative complexity
-had nothing to do with it—that the oxidation of a piece of iron is a
-simpler phenomenon than the recurrence of eclipses, and the discovery
-of carbonic acid less difficult than that of the precession of the
-equinoxes. The relatively slow advance of chemical knowledge might be
-shown to be due, partly to the fact that its phenomena were not daily
-thrust on men’s notice as those of astronomy were; partly to the fact
-that Nature does not habitually supply the means, and suggest the modes
-of investigation, as in the sciences dealing with time, extension, and
-force; partly to the fact that the great majority of the materials with
-which chemistry deals, instead of being ready to hand, are made known
-only by the arts in their slow growth; and partly to the fact that even
-when known, their chemical properties are not self-exhibited, but have
-to be sought out by experiment.
-
-Merely indicating these considerations, however, let us go on to
-contemplate the progress and mutual influence of the sciences in
-modern days; only parenthetically noticing how, on the revival of the
-scientific spirit, the successive stages achieved exhibit the dominance
-of the law hitherto traced—how the primary idea in dynamics, a uniform
-force, was defined by Galileo to be a force which generates _equal_
-velocities in _equal_ successive times—how the uniform action of
-gravity was first experimentally determined by showing that the time
-elapsing before a body thrown up, stopped, was _equal_ to the time it
-took to fall—how the first fact in compound motion which Galileo {59}
-ascertained was, that a body projected horizontally, will describe
-_equal_ horizontal spaces in _equal_ times, compounded vertical spaces
-described which increase by equal increments in _equal_ times—how his
-discovery respecting the pendulum was, that its oscillations occupy
-_equal_ intervals of time whatever their lengths—how the law which he
-established that in any machine the weights that balance each other,
-are reciprocally as their virtual velocities implies that the relation
-of one set of weights to their velocities _equals_ the relation
-of the other set of velocities to their weights;—and how thus his
-achievements consisted in showing the equalities of certain magnitudes
-and relations, whose equalities had not been previously recognized.
-
-And now, but only now, physical astronomy became possible. The
-simple laws of force had been disentangled from those of friction
-and atmospheric resistance by which all their earthly manifestations
-are disguised. Progressing knowledge of _terrestrial physics_ had
-given a due insight into these disturbing causes; and, by an effort
-of abstraction, it was perceived that all motion would be uniform
-and rectilinear unless interfered with by external forces. Geometry
-and mechanics having diverged from a common root in men’s sensible
-experiences, and having, with occasional inosculations, been separately
-developed, the one partly in connexion with astronomy, the other solely
-by analyzing terrestrial movements, now join in the investigations
-of Newton to create a true theory of the celestial motions. And
-here, also, we have to notice the important fact that, in the very
-process of being brought jointly to bear upon astronomical problems,
-they are themselves raised to a higher phase of development. For it
-was in dealing with the questions raised by celestial dynamics that
-the then incipient infinitesimal calculus was unfolded by Newton
-and his continental successors; and it was from inquiries into the
-mechanics of the solar system that the general theorems of mechanics
-contained in the {60} _Principia_—many of them of purely terrestrial
-application—took their rise. Thus, as in the case of Hipparchus, the
-presentation of a new order of concrete facts to be analyzed, led to
-the discovery of new abstract facts; and these abstract facts then
-became instruments of access to endless groups of concrete facts
-previously beyond quantitative treatment.
-
-Meanwhile, physics had been carrying further that progress without
-which, as just shown, rational mechanics could not be disentangled.
-In hydrostatics, Stevinus had extended and applied the discovery of
-Archimedes. Torricelli had proved atmospheric pressure, “by showing
-that this pressure sustained different liquids at heights inversely
-proportional to their densities;” and Pascal “established the necessary
-diminution of this pressure at increasing heights in the atmosphere”:
-discoveries which in part reduced this branch of science to a
-quantitative form. Something had been done by Daniel Bernouilli towards
-the dynamics of fluids. The thermometer had been invented; and sundry
-small generalizations reached by it. Huyghens and Newton had made
-considerable progress in optics; Newton had approximately calculated
-the rate of transmission of sound; and the continental mathematicians
-had ascertained some of the laws of sonorous vibrations. Magnetism and
-electricity had been considerably advanced by Gilbert. Chemistry had
-got as far as the mutual neutralization of acids and alkalies. And
-Leonardo da Vinci had advanced in geology to the conclusion that the
-deposition of animal remains in marine strata is the origin of fossils.
-Our present purpose does not require that we should give particulars.
-Here it only concerns us to illustrate the _consensus_ subsisting in
-this stage of growth, and afterwards. Let us look at a few cases.
-
-The theoretic law of the velocity of sound deduced by Newton from
-purely mechanical data, was found wrong by one-sixth. The error
-remained unaccounted for until the {61} time of Laplace, who,
-suspecting that the heat disengaged by the compression of the
-undulating strata of the air, gave additional elasticity, and so
-produced the difference, made the needful calculations and found he
-was right. Thus acoustics was arrested until thermology overtook and
-aided it. When Boyle and Marriot had discovered the relation between
-the densities of gases and the pressures they are subject to; and when
-it thus became possible to calculate the rate of decreasing density
-in the upper parts of the atmosphere; it also became possible to make
-approximate tables of the atmospheric refraction of light. Thus optics,
-and with it astronomy, advanced with barology. After the discovery of
-atmospheric pressure had led to the invention of the air-pump by Otto
-Guericke; and after it had become known that evaporation increases in
-rapidity as atmospheric pressure decreases; it became possible for
-Leslie, by evaporation in a vacuum, to produce the greatest cold known;
-and so to extend our knowledge of thermology by showing that there is
-no zero within reach of our researches. When Fourier had determined the
-laws of conduction of heat, and when the Earth’s temperature had been
-found to increase below the surface one degree in every forty yards,
-there were data for inferring the past condition of our globe; the
-vast period it has taken to cool down to its present state; and the
-immense age of the solar system—a purely astronomical consideration.
-Chemistry having advanced sufficiently to supply the needful materials,
-and a physiological experiment having furnished the requisite hint,
-there came the discovery of galvanic electricity. Galvanism reacting
-on chemistry disclosed the metallic bases of the alkalies and earths,
-and inaugurated the electro-chemical theory; in the hands of Oersted
-and Ampère it led to the laws of magnetic action; and by its aid
-Faraday has detected significant facts relative to the constitution of
-light. Brewster’s discoveries respecting double refraction and {62}
-dipolarization proved the essential truth of the classification of
-crystalline forms according to the number of axes, by showing that
-the molecular constitution depends on the axes. Now in these and in
-numerous other cases, the mutual influence of the sciences has been
-quite independent of any supposed hierarchical order. Often, too, their
-inter-actions are more complex than as thus instanced—involve more
-sciences than two. One illustration of this must suffice. We quote it
-in full from the _History of the Inductive Sciences_. In Book XI.,
-chap. II., on “The Progress of the Electrical Theory,” Dr. Whewell
-writes:―
-
- “Thus at that period, mathematics was behind experiment, and a problem
- was proposed, in which theoretical numerical results were wanted for
- comparison with observation, but could not be accurately obtained;
- as was the case in astronomy also, till the time of the approximate
- solution of the problem of three bodies, and the consequent formation
- of the tables of the moon and planets, on the theory of universal
- gravitation. After some time, electrical theory was relieved from
- this reproach, mainly in consequence of the progress which astronomy
- had occasioned in pure mathematics. About 1801 there appeared in the
- _Bulletin des Sciences_, an exact solution of the problem of the
- distribution of electric fluid on a spheroid, obtained by Biot, by the
- application of the peculiar methods which Laplace had invented for
- the problem of the figure of the planets. And, in 1811, M. Poisson
- applied Laplace’s artifices to the case of two spheres acting upon
- one another in contact, a case to which many of Coulomb’s experiments
- were referrible; and the agreement of the results of theory and
- observation, thus extricated from Coulomb’s numbers obtained above
- forty years previously, was very striking and convincing.”
-
-Not only do the sciences affect each other after this direct manner,
-but they affect each other indirectly. Where there is no dependence,
-there is yet analogy—_likeness of relations_; and the discovery of the
-relations subsisting among one set of phenomena, constantly suggests a
-search for similar relations among another set. Thus the established
-fact that the force of gravitation varies inversely as the square
-of the distance, being recognized as a necessary characteristic of
-all influences proceeding from a centre, raised the suspicion that
-heat and light follow the same law; which proved to be the case—a
-suspicion and a {63} confirmation which were repeated in respect to
-the electric and magnetic forces. Thus, again, the discovery of the
-polarization of light led to experiments which ended in the discovery
-of the polarization of heat—a discovery that could never have been
-made without the antecedent one. Thus, too, the known refrangibility
-of light and heat lately produced the inquiry whether sound also is
-not refrangible; which on trial it turns out to be. In some cases,
-indeed, it is only by the aid of conceptions derived from one class of
-phenomena that hypotheses respecting other classes can be formed. The
-theory, at one time favoured, that evaporation is a solution of water
-in air, assumed that the relation between water and air is _like_ the
-relation between water and a dissolved solid; and could never have been
-conceived if relations like that between salt and water had not been
-previously known. Similarly the received theory of evaporation—that
-it is a diffusion of the particles of the evaporating fluid in virtue
-of their atomic repulsion—could not have been entertained without a
-foregoing experience of magnetic and electric repulsions. So complete
-in recent days has become this _consensus_ among the sciences,
-caused either by the natural entanglement of their phenomena, or by
-analogies between the relations of their phenomena, that scarcely any
-considerable discovery concerning one order of facts now takes place,
-without shortly leading to discoveries concerning other orders.
-
-To produce a complete conception of this process of scientific
-evolution it would be needful to go back to the beginning, and trace
-in detail the growth of classifications and nomenclatures; and to
-show how, as subsidiary to science, they have acted upon it while it
-has reacted upon them. We can only now remark that, on the one hand,
-classifications and nomenclatures have aided science by subdividing
-the subject-matter of research, and giving fixity and diffusion to
-the truths disclosed; and that on the other hand, they have caught
-from it that increasing {64} quantitativeness, and that progress from
-considerations touching single phenomena to considerations touching the
-relations among many phenomena, which we have been describing. Of this
-last influence a few illustrations must be given. In chemistry it is
-seen in the facts that the dividing of matter into the four elements
-was ostensibly based on the single property of weight, that the
-first truly chemical division into acid and alkaline bodies, grouped
-together bodies which had not simply one property in common but in
-which one property was constantly related to many others, and that the
-classification now current, places together in the groups _supporters
-of combustion_, _metallic and non-metallic bases_, _acids_, _salts_,
-&c., bodies which are often quite unlike in sensible qualities, but
-which are like in the majority of their _relations_ to other bodies. In
-mineralogy again, the first classifications were based on differences
-in aspect, texture, and other physical attributes. Berzelius made two
-attempts at a classification based solely on chemical constitution.
-That now current recognizes, as far as possible, the _relations_
-between physical and chemical characters. In botany the earliest
-classes formed were _trees_, _shrubs_, and _herbs_: magnitude being the
-basis of distinction. Dioscorides divided vegetables into _aromatic_,
-_alimentary_, _medicinal_, and _vinous_: a division of chemical
-character. Cæsalpinus classified them by the seeds and seed-vessels,
-which he preferred because of the _relations_ found to subsist between
-the character of the fructification and the general character of the
-other parts. While the “natural system” since developed, carrying out
-the doctrine of Linnæus, that “the natural orders must be formed by
-attention not to one or two, but to _all_ the parts of plants,” bases
-its divisions on like peculiarities which are found to be _constantly
-related_ to the greatest number of other like peculiarities. And
-similarly in zoology, the successive classifications, from having
-been originally determined by external and often {65} subordinate
-characters not indicative of the essential nature, have been more and
-more determined by those internal and fundamental differences, which
-have uniform _relations_ to the greatest number of other differences.
-Nor shall we be surprised at this analogy between the modes of progress
-of positive science and classification, when we bear in mind that
-both proceed by making generalizations; that both enable us to make
-previsions, differing only in their precision; and that while the one
-deals with equal properties, magnitudes, and relations, the other deals
-with properties and relations which approximate towards equality in
-various degrees.
-
-Without further argument it will, we think, be admitted that the
-sciences are none of them separately evolved—are none of them
-independent either logically or historically; but that all of them
-have, in a greater or less degree, required aid and reciprocated it.
-Indeed, it needs but to throw aside hypotheses, and contemplate the
-mixed character of surrounding phenomena, to see at once that these
-notions of division and succession in the kinds of knowledge are simply
-scientific fictions: good, if regarded merely as aids to study; bad,
-if regarded as representing realities in Nature. No facts whatever are
-presented to our senses uncombined with other facts—no facts whatever
-but are in some degree disguised by accompanying facts: disguised in
-such a manner that all must be partially understood before any one
-can be understood. If it be said, as by M. Comte, that gravitating
-force should be treated of before other forces, seeing that all things
-are subject to it, it may on like grounds be said that heat should
-be first dealt with; seeing that thermal forces are everywhere in
-action. Nay more, it may be urged that the ability of any portion of
-matter to manifest visible gravitative phenomena depends on its state
-of aggregation, which is determined by heat; that only by the aid
-of thermology can we explain those apparent exceptions to {66} the
-gravitating tendency which are presented by steam and smoke, and so
-establish its universality; and that, indeed, the very existence of
-the Solar System in a solid form is just as much a question of heat as
-it is one of gravitation. Take other cases:—All phenomena recognized
-by the eyes, through which only are the data of exact science
-ascertainable, are complicated with optical phenomena, and cannot be
-exhaustively known until optical principles are known. The burning of
-a candle cannot be explained without involving chemistry, mechanics,
-thermology. Every wind that blows is determined by influences partly
-solar, partly lunar, partly hygrometric; and implies considerations
-of fluid equilibrium and physical geography. The direction, dip, and
-variations of the magnetic needle, are facts half terrestrial, half
-celestial—are caused by earthly forces which have cycles of change
-corresponding with astronomical periods. The flowing of the gulf-stream
-and the annual migration of icebergs towards the equator, involve in
-their explanation the Earth’s rotation and spheroidal form, the laws of
-hydrostatics, the relative densities of cold and warm water, and the
-doctrines of evaporation. It is no doubt true, as M. Comte says, that
-“our position in the Solar System, and the motions, form, size, and
-equilibrium of the mass of our world among the planets, must be known
-before we can understand the phenomena going on at its surface.” But,
-fatally for his hypothesis, it is also true that we must understand
-a great part of the phenomena going on at its surface before we can
-know its position, &c., in the Solar System. It is not simply that, as
-already shown, those geometrical and mechanical principles by which
-celestial appearances are explained, were first generalized from
-terrestrial experiences; but it is that even the obtainment of correct
-data on which to base astronomical generalizations, implies advanced
-terrestrial physics. Until after optics had made considerable advance,
-the Copernican {67} system remained but a speculation. A single modern
-observation on a star has to undergo a careful analysis by the combined
-aid of various sciences—has to _be digested by the organism of the
-sciences_; which have severally to assimilate their respective parts
-of the observation, before the essential fact it contains is available
-for the further development of astronomy. It has to be corrected
-not only for nutation of the Earth’s axis and for precession of the
-equinoxes, but for aberration and for refraction; and the formation of
-the tables by which refraction is calculated, presupposes knowledge
-of the law of decreasing density in the upper atmospheric strata, of
-the law of decreasing temperature and the influence of this on the
-density, and of hygrometric laws as also affecting density. So that,
-to get materials for further advance, astronomy requires not only the
-indirect aid of the sciences which have presided over the making of
-its improved instruments, but the direct aid of an advanced optics,
-of barology, of thermology, of hygrometry; and if we remember that
-these delicate observations are in some cases registered electrically,
-and that they are further corrected for the “personal equation”—the
-time elapsing between seeing and registering, which differs with
-different observers—we may even add electricity and psychology. And
-here, before leaving these illustrations, and especially this last
-one, let us not omit to notice how well they exhibit that increasingly
-active _consensus_ of the sciences which characterizes their advancing
-development. Besides finding that in these later times a discovery in
-one science commonly causes progress in others; besides finding that
-a great part of the questions with which modern science deals are
-so mixed as to require the co-operation of many sciences for their
-solution; we find that, to make a single good observation in the purest
-of the natural sciences, requires the combined aid of half a dozen
-other sciences.
-
-Perhaps the clearest comprehension of the interconnected {68} growth
-of the sciences may be obtained by contemplating that of the arts,
-to which it is strictly analogous, and with which it is bound up.
-Most intelligent persons must have been occasionally struck with
-the numerous antecedents pre-supposed by one of our processes of
-manufacture. Let him trace the production of a printed cotton, and
-consider all that is implied by it. There are the many successive
-improvements through which the power-looms reached their present
-perfection; there is the steam-engine that drives them, having its
-long history from Papin downwards; there are the lathes in which its
-cylinder was bored, and the string of ancestral lathes from which those
-lathes proceeded; there is the steam-hammer under which its crank shaft
-was welded; there are the puddling furnaces, the blast-furnaces, the
-coal-mines and the iron-mines needful for producing the raw material;
-there are the slowly improved appliances by which the factory was
-built, and lighted, and ventilated; there are the printing engine,
-and the dye-house, and the colour-laboratory with its stock of
-materials from all parts of the world, implying cochineal-culture,
-logwood-cutting, indigo-growing; there are the implements used by the
-producers of cotton, the gins by which it is cleaned, the elaborate
-machines by which it is spun; there are the vessels in which cotton
-is imported, with the building-slips, the rope-yards, the sail-cloth
-factories, the anchor-forges, needful for making them; and besides
-all these directly necessary antecedents, each of them involving many
-others, there are the institutions which have developed the requisite
-intelligence, the printing and publishing arrangements which have
-spread the necessary information, the social organization which has
-rendered possible such a complex co-operation of agencies. Further
-analysis would show that the many arts thus concerned in the economical
-production of a child’s frock, have each been brought to its present
-efficiency by slow steps which the other arts have aided; and that from
-the beginning this reciprocity has been on {69} the increase. It needs
-but on the one hand to consider how impossible it is for the savage,
-even with ore and coal ready, to produce so simple a thing as an iron
-hatchet; and then to consider, on the other hand, that it would have
-been impracticable among ourselves, even a century ago, to raise the
-tubes of the Britannia bridge from lack of the hydraulic press; to see
-how mutually dependent are the arts, and how all must advance that each
-may advance. Well, the sciences are involved with each other in just
-the same manner. They are, in fact, inextricably woven into this same
-complex web of the arts; and are only conventionally independent of
-it. Originally the two were one. How to fix the religious festivals;
-when to sow; how to weigh commodities; and in what manner to measure
-ground; were the purely practical questions out of which arose
-astronomy, mechanics, geometry. Since then there has been a perpetual
-inosculation of the sciences and the arts. Science has been supplying
-art with truer generalizations and more completely quantitative
-previsions. Art has been supplying science with better materials, and
-more perfect instruments. And all along the interdependence has been
-growing closer, not only between art and science, but among the arts
-themselves, and among the sciences themselves. How completely the
-analogy holds throughout, becomes yet clearer when we recognize the
-fact that _the sciences are arts to one another_. If, as occurs in
-almost every case, the fact to be analyzed by any science, has first
-to be prepared—to be disentangled from disturbing facts by the afore
-discovered methods of other sciences; the other sciences so used,
-stand in the position of arts. If, in solving a dynamical problem,
-a parallelogram is drawn, of which the sides and diagonal represent
-forces, and by putting magnitudes of extension for magnitudes of force
-a measurable relation is established between quantities not else to be
-dealt with; it may be fairly said that geometry plays towards mechanics
-much the same part that the fire of the founder plays towards the
-metal he is going to cast. {70} If, in analyzing the phenomena of the
-coloured rings surrounding the point of contact between two lenses,
-a Newton ascertains by calculation the amount of certain interposed
-spaces, far too minute for actual measurement; he employs the science
-of number for essentially the same purpose as that for which the
-watchmaker employs tools. If, before calculating the orbit of a comet
-from its observed position, the astronomer has to separate all the
-errors of observation, it is manifest that the refraction-tables, and
-logarithm-books, and formulæ, which he successively uses, serve him
-much as retorts, and filters, and cupels serve the assayer who wishes
-to separate the pure gold from all accompanying ingredients. So close,
-indeed, is the relationship, that it is impossible to say where science
-begins and art ends. All the instruments of the natural philosopher
-are the products of art; the adjusting one of them for use is an art;
-there is art in making an observation with one of them; it requires
-art properly to treat the facts ascertained; nay, even the employing
-established generalizations to open the way to new generalizations,
-may be considered as art. In each of these cases previously organized
-knowledge becomes the implement by which new knowledge is got at:
-and whether that previously organized knowledge is embodied in a
-tangible apparatus or in a formula, matters not in so far as its
-essential relation to the new knowledge is concerned. If art is applied
-knowledge, then such portion of a scientific investigation as consists
-of applied knowledge is art. Hence we may even say that as soon as any
-prevision in science passes out of its originally passive state, and
-is employed for reaching other previsions, it passes from theory into
-practice—becomes science in action—becomes art. And after contemplating
-these facts, we shall the more clearly perceive that as the connexion
-of the arts with each other has been becoming more intimate; as the
-help given by sciences to arts and by arts to sciences, has been age by
-age increasing; so the interdependence of the sciences {71} themselves
-has been ever growing greater, their relations more involved, their
-_consensus_ more active.
-
-       *       *       *       *       *
-
-In here ending our sketch of the Genesis of Science, we are conscious
-of having done the subject but scant justice. Two difficulties
-have stood in our way: one, the having to touch on so many points
-in such small space; the other, the necessity of treating in
-serial arrangement a process which is not serial. Nevertheless, we
-believe the evidence assigned suffices to substantiate the leading
-propositions with which we set out. Inquiry into the first stages
-of science confirms the conclusion drawn from analysis of science
-as now existing, that it is not distinct from common knowledge, but
-an outgrowth from it—an extension of perception by means of reason.
-That more specific characteristic of scientific previsions, which
-was analytically shown to distinguish them from the previsions of
-uncultured intelligence—their quantitativeness—we also see to have been
-the characteristic alike of the initial steps in science, and of all
-the steps succeeding them. The facts and admissions cited in disproof
-of the assertion that the sciences follow one another, both logically
-and historically, in the order of their decreasing generality, have
-been enforced by the instances we have met with, showing that a more
-general science as much owes its progress to the presentation of new
-problems by a more special science, as the more special science owes
-its progress to the solutions which the more general science is thus
-led to attempt—instances, therefore, illustrating the position that
-scientific advance is as much from the special to the general as from
-the general to the special. Quite in harmony with this position we
-find to be the admissions that the sciences are as branches of one
-trunk, and that they were at first cultivated simultaneously. This
-harmony becomes the more marked on finding, as we have done, not
-only that the sciences have a common root, but that science in {72}
-general has a common root with language, classification, reasoning,
-art; that throughout civilization these have advanced together, acting
-and reacting upon each other just as the separate sciences have done;
-and that thus the development of intelligence in all its divisions
-and sub-divisions has conformed to this same law which we have shown
-that the sciences conform to. From all which we may perceive that the
-sciences can with no greater propriety be arranged in a succession,
-than language, classification, reasoning, art, and science, can be
-arranged in a succession; that, however needful a succession may be
-for the convenience of books and catalogues, it must be recognized as
-merely a convention; and that so far from its being the function of a
-philosophy of the sciences to establish a hierarchy, it is its function
-to show that the linear arrangements required for literary purposes,
-have none of them any basis either in Nature or History.
-
-There is one further remark we must not omit—a remark touching the
-importance of the question that has been discussed. Topics of this
-abstract nature are commonly slighted as of no practical moment;
-and, doubtless, many will think it of little consequence what theory
-respecting the genesis of science may be entertained. But the value of
-truths is often great, in proportion as their generality is wide. And
-it must be so here. A correct theory of the development of the sciences
-must have an important effect on education; and, through education, on
-civilization. Much as we differ from him in other respects, we agree
-with M. Comte in the belief that, rightly conducted, the education of
-the individual must have a certain correspondence with the evolution
-of the race. No one can contemplate the facts we have cited in
-illustration of the early stages of science, without recognizing the
-_necessity_ of the processes through which those stages were reached—a
-necessity which, in respect to the leading truths, may likewise be
-traced in all after stages. This necessity, {73} originating in the
-very nature of the phenomena to be analyzed and the faculties to be
-employed, partially applies to the mind of the child as to that of the
-savage. We say partially, because the correspondence is not special
-but general only. Were the _environment_ the same in both cases, the
-correspondence would be complete. But though the surrounding material
-out of which science is to be organized, is, in many cases, the same
-to the juvenile mind and the aboriginal mind, it is not so throughout;
-as, for instance, in the case of chemistry, the phenomena of which
-are accessible to the one but were inaccessible to the other. Hence,
-in proportion as the environment differs, the course of evolution
-must differ. After admitting exceptions, however, there remains a
-substantial parallelism; and, if so, it is of moment to ascertain what
-really has been the process of scientific evolution. The establishment
-of an erroneous theory must be disastrous in its educational results;
-while the establishment of a true one must be fertile in school-reforms
-and consequent social benefits.
-
-
-ENDNOTE TO _THE GENESIS OF SCIENCE_.
-
-[1] It is curious that the author of “The Plurality of Worlds,”
-with quite other aims, should have persuaded himself into similar
-conclusions.
-
-
-
-
-{74}
-
-THE CLASSIFICATION OF THE SCIENCES.
-
-
-[_First published as a brochure in April 1864. The preface to the
-second edition, published in April 1869, I reproduce because of certain
-facts contained in it which are not without interest._]
-
-The first edition of this Essay is not yet out of print. But a proposal
-to translate it into French having been made by Professor Réthoré, I
-have decided to prepare a new edition free from the imperfections which
-criticism and further thought have disclosed, rather than allow these
-imperfections to be reproduced.
-
-The occasion has almost tempted me into some amplification. Further
-arguments against the classification of M. Comte, and further arguments
-in support of the classification here set forth, have pleaded for
-utterance. But reconsideration has convinced me that it is both
-needless and useless to say more—needless because those who are not
-committed will think the case sufficiently strong as it stands; and
-useless because to those who are committed, additional reasons will
-seem as inadequate as the original ones. [In the preface to the third
-edition, however, a reason is given for a change of decision on
-this point at that time made (February 1871): the reason being “the
-publication of several objections by Prof. Bain in his Logic.”]
-
-This last conclusion is thrust on me by seeing how little M. Littré,
-the leading expositor of M. Comte, is influenced by fundamental
-objections the force of which he admits. After quoting one of these,
-he says, with a candour equally {75} rare and admirable, that he
-has vainly searched M. Comte’s works and his own mind for an answer.
-Nevertheless, he adds—“j’ai réussi, je crois, à écarter l’attaque de M.
-Herbert Spencer, et à sauver le fond par des sacrifices indispensables
-mais accessoires.” The sacrifices are these. He abandons M. Comte’s
-division of Inorganic Science into Celestial Physics and Terrestrial
-Physics—a division which, in M. Comte’s scheme, takes precedence of
-all the rest; and he admits that neither logically nor historically
-does Astronomy come before Physics, as M. Comte alleges. After making
-these sacrifices, which most will think too lightly described as
-“sacrifices indispensables mais accessoires,” M. Littré proceeds to
-rehabilitate the Comtean classification in a way which he considers
-satisfactory, but which I do not understand. In short, the proof of
-these incongruities affects his faith in the Positivist theory of the
-sciences, no more than the faith of a Christian is affected by proof
-that the Gospels contradict one another.
-
-Here in England I have seen no attempt to meet the criticisms with
-which M. Littré thus deals. There has been no reply to the allegation,
-based on examples, that the several sciences do not develop in the
-order of their decreasing generality; nor to the allegation, based
-on M. Comte’s own admissions, that within each science the progress
-is not, as he says it is, from the general to the special; nor to
-the allegation that the seeming historical precedence of Astronomy
-over Physics in M. Comte’s pages, is based on a verbal ambiguity—a
-mere sleight of words; nor to the allegation, abundantly illustrated,
-that a progression in an order the reverse of that asserted by M.
-Comte may be as well substantiated; nor to various minor allegations
-equally irreconcileable with his scheme. I have met with nothing
-more than iteration of the statement that the sciences _do_ conform,
-logically and historically, to the order in which M. Comte places them;
-regardless of the assigned evidence that they _do not_.
-
-Under these circumstances it is unnecessary for me to {76} say more;
-and I think I am warranted in continuing to hold that the Comtean
-classification of the sciences is demonstrably untenable.
-
-       *       *       *       *       *
-
-In an essay on “The Genesis of Science,” originally published in 1854,
-I endeavoured to show that the Sciences cannot be rationally arranged
-in serial order. Proof was given that neither the succession in which
-the Sciences are placed by M. Comte (to a criticism of whose scheme
-the essay was in part devoted), nor any other succession in which the
-Sciences can be placed, represents either their logical dependence or
-their historical dependence. To the question—How may their relations be
-rightly expressed? I did not then attempt any answer. This question I
-propose now to consider.
-
-A true classification includes in each class, those objects which have
-more characteristics in common with one another, than any of them
-have in common with any objects excluded from the class. Further,
-the characteristics possessed in common by the colligated objects,
-and not possessed by other objects, involve more numerous dependent
-characteristics. These are two sides of the same definition. For things
-possessing the greatest number of attributes in common, are things that
-possess in common those essential attributes on which the rest depend;
-and, conversely, the possession in common of the essential attributes,
-implies the possession in common of the greatest number of attributes.
-Hence, either test may be used as convenience dictates.
-
-If, then, the Sciences admit of classification at all, it must be by
-grouping together the like and separating the unlike, as thus defined.
-Let us proceed to do this.
-
-       *       *       *       *       *
-
-The broadest natural division among the Sciences, is the division
-between those which deal with the abstract relations {77} under which
-phenomena are presented to us, and those which deal with the phenomena
-themselves. Relations of whatever orders, are nearer akin to one
-another than they are to any objects. Objects of whatever orders, are
-nearer akin to one another than they are to any relations. Whether,
-as some hold, Space and Time are nothing but forms of Thought[2];
-or whether, as I hold myself, they are forms of Things, that have
-generated forms of Thought through organized and inherited experience
-of Things; it is equally true that Space and Time are contrasted
-absolutely with the existences disclosed to us in Space and Time; and
-hence the Sciences which deal exclusively with Space and Time, are
-separated by the profoundest of all distinctions from the Sciences
-which deal with the existences contained in Space and Time. Space is
-the abstract of all relations of co-existence. Time is the abstract
-of all relations of sequence. And dealing as they do entirely with
-relations of co-existence and sequence, in their general or special
-forms, Logic and Mathematics form a class of the Sciences more widely
-unlike the rest, than any of the rest are from one another.
-
-The Sciences which deal with existences themselves, instead of the
-blank forms in which existences are presented to us, admit of a
-sub-division less profound than the division above made, but more
-profound than any of the divisions among the Sciences individually
-considered. They {78} fall into two classes, having quite different
-aspects, aims, and methods. Every phenomenon is more or less
-composite—is a manifestation of force under several distinct modes.
-Hence result two objects of inquiry. We may study the component
-modes of force separately; or we may study them as co-operating to
-generate in this composite phenomenon. On the one hand, neglecting
-all the incidents of particular cases, we may aim to educe the laws
-of each mode of force, when it is uninterfered with. On the other
-hand, the incidents of the particular case being given, we may seek to
-interpret the entire phenomenon, as a product of the several forces
-simultaneously in action. The truths reached through the first kind
-of inquiry, though concrete inasmuch as they have actual existences
-for their subject-matters, are abstract inasmuch as they refer to the
-modes of existence apart from one another; while the truths reached
-by the second kind of inquiry are properly concrete, inasmuch as they
-formulate the facts in their combined order, as they occur in Nature.
-
-The Sciences, then, in their main divisions, stand thus:―
-
- SCIENCE is
-
-   that which treats of the forms
-   in which phenomona are known to us;   ABSTRACT SCIENCE
-                                         (Logic and Mathematics)
-
-  that which treats of the phenomena themselves
-
-    in their elements           ABSTRACT-CONCRETE SCIENCE
-                                (Mechanics, Physics, Chemistry, etc.)
-
-    in their totalities         CONCRETE SCIENCE
-                                (Astronomy, Geology, Biology, Psychology,
-                                 Sociology, etc.)
-
-It is needful to define the words _abstract_ and _concrete_ as thus
-used; since they are sometimes used with other {79} meanings. M.
-Comte divides Science into abstract and concrete; but the divisions
-which he distinguishes by these names are quite unlike those above
-made. Instead of regarding some Sciences as wholly abstract, and
-others as wholly concrete, he regards each Science as having an
-abstract part, and a concrete part. There is, according to him, an
-abstract mathematics and a concrete mathematics—an abstract biology
-and concrete biology. He says:—“Il faut distinguer, par rapport à
-tous les ordres de phénomènes, deux genres de sciences naturelles:
-les unes abstraites, générales, ont pour objet la découverte des lois
-qui régissent les diverses classes de phénomènes, en considérant tous
-les cas qu’on peut concevoir; les autres concrètes, particulières,
-descriptives, et qu’on désigne quelquefois sous le nom de sciences
-naturelles proprement dites, consistent dans l’application de ces
-lois a l’histoire effective des différens êtres existans.” And to
-illustrate the distinction, he names general physiology as abstract,
-and zoology and botany as concrete. Here it is manifest that the words
-_abstract_ and _general_ are used as synonymous. They have, however,
-different meanings; and confusion results from not distinguishing
-their meanings. Abstractness means _detachment from_ the incidents of
-particular cases. Generality means _manifestation in_ numerous cases.
-On the one hand, the essential nature of some phenomenon is considered,
-apart from disguising phenomena. On the other hand, the frequency of
-the phenomenon, with or without disguising phenomena, is the thing
-considered. Among the phenomena presented by numbers, which are purely
-ideal, the two coincide; but excluding these, an abstract truth is not
-realizable to perception in any case of which it is asserted, whereas
-a general truth is realizable to perception in every case of which it
-is asserted. Some illustrations will make the distinction clear. Thus
-it is an abstract truth that the angle contained in a semi-circle is
-a right angle—abstract in the sense that though it does not hold of
-{80} actually-constructed semi-circles and angles, which are always
-inexact, it holds of the ideal semi-circles and angles abstracted
-from real ones; but this is not a general truth, either in the sense
-that it is commonly manifested in Nature, or in the sense that it is
-a space-relation that comprehends many minor space-relations: it is
-a quite special space-relation. Again, that the momentum of a body
-causes it to move in a straight line at a uniform velocity, is an
-abstract-concrete truth—a truth abstracted from certain experiences of
-concrete phenomena; but it is by no means a general truth: so little
-generality has it, that no one fact in Nature displays it. Conversely,
-surrounding things supply us with hosts of general truths that are not
-in the least abstract. It is a general truth that the planets go round
-the Sun from West to East—a truth which holds good in several hundred
-cases (including the cases of the planetoids); but this truth is not
-at all abstract, since it is perfectly realized as a concrete fact
-in every one of these cases. Every vertebrate animal whatever, has a
-double nervous system; all birds and all mammals are warm-blooded—these
-are general truths, but they are concrete truths: that is to say, every
-vertebrate animal individually presents an entire and unqualified
-manifestation of this duality of the nervous system; every living bird
-exemplifies absolutely or completely the warm-bloodedness of birds.
-What we here call, and rightly call, a general truth, is simply a
-proposition which _sums up_ a number of our actual experiences; and
-not the expression of a truth _drawn from_ our actual experiences, but
-never presented to us in any of them. In other words, a general truth
-colligates a number of particular truths; while an abstract truth
-colligates no particular truths, but formulates a truth which certain
-phenomena all involve, though it is actually seen in none of them.
-
-Limiting the words to their proper meanings as thus defined, it becomes
-manifest that the three classes of {81} Sciences above separated,
-are not distinguishable at all by differences in their degrees of
-generality. They are all equally general; or rather they are all,
-considered as groups, universal. Every object whatever presents at once
-the subject-matter for each of them. In every fragment of substance
-we have simultaneously illustrated the abstract truths of relation in
-Time and Space; the abstract-concrete truths in conformity with which
-the fragment manifests its several modes of force; and the concrete
-truths resulting from the joint manifestation of these modes of force,
-and which give to the fragment the characters by which it is known as
-such or such. Thus these three classes of Sciences severally formulate
-different, but co-extensive, classes of facts. Within each group there
-are truths of greater and less generality: there are general abstract
-truths, and special abstract truths; general abstract-concrete truths,
-and special abstract-concrete truths; general concrete truths, and
-special concrete truths. But while within each class there are groups
-and sub-groups and sub-sub-groups which differ in their degrees of
-generality, the classes themselves differ only in their degrees of
-abstractness.[3]
-
-       *       *       *       *       *
-
-Let us pass to the sub-divisions of these classes. The first class is
-separable into two parts—the one containing universal truths, the other
-non-universal truths. Dealing {82} wholly with relations apart from
-related things, Abstract Science considers first, that which is common
-to all relations whatever; and, second, that which is common to each
-order of relations. Besides the indefinite and variable connexions
-which exist among phenomena, as occurring together in Space and Time,
-we find that there are also definite and invariable connexions—that
-between each kind of phenomenon and certain other kinds of phenomena,
-there exist uniform relations. This is a universal abstract truth—that
-there is an unchanging order, or fixity of law, in Space and Time.
-We come next to the several kinds of unchanging order, which, taken
-together, form the subjects of the {83} second division of Abstract
-Science. Of this second division, the most general sub-division is
-that which deals with the natures of the connexions in Space and Time,
-irrespective of the terms connected. The conditions under which we may
-predicate a relation of coincidence or proximity in Space and Time (or
-of non-coincidence or non-proximity) from the subject-matter of Logic.
-Here the natures and amounts of the terms between which the relations
-are {84} asserted (or denied) are of no moment: the propositions
-of Logic are independent of any qualitative or quantitative
-specification of the related things. The other sub-division has for
-its subject-matter, the relations between terms which are specified
-quantitatively but not qualitatively. The amounts of the related terms,
-irrespective of their natures, are here dealt with; and Mathematics
-is a statement of the laws of quantity considered apart from reality.
-Quantity considered apart from reality, is occupancy of Space or Time;
-and occupancy of Space or Time is measured by units of one or other
-order, but of which the ultimate ones are simply separate places in
-consciousness, either coexistent or sequent. Among units that are
-unspecified in their natures (extensive, protensive, or intensive), but
-are ideally endowed with existence considered apart from attributes,
-the quantitative relations that arise, are those most general relations
-expressed by numbers. Such relations fall into either of two orders,
-according as the units are considered simply as capable of filling
-separate places in consciousness, or according as they are considered
-as filling places that are not only separate, but equal. In the one
-case, we have that indefinite calculus by which numbers of abstract
-existences, but not sums of abstract existence, are predicable. In the
-other case, we have that definite calculus by which both numbers of
-abstract existences and sums of abstract existence are predicable. Next
-comes that division of Mathematics which deals with the quantitative
-relations of magnitudes (or aggregates of units) considered as
-coexistent, or as occupying Space—the division called Geometry. And
-then we arrive at relations, the terms of which include both quantities
-of Time and quantities of Space—those in which times are estimated by
-the units of space traversed at a uniform velocity, and those in which
-equal units of time being given, the spaces traversed with uniform or
-variable velocities are estimated. {85} These Abstract Sciences,
-which are concerned exclusively with relations and with the relations
-of relations, may be grouped as shown in Table I.
-
-       *       *       *       *       *
-
-TABLE I.
-
- ABSTRACT SCIENCE.
-
-   Universal law of relation—an expression of the truth that
-   uniformities of connexion obtain among modes of Being, irrespective
-   of any specification of the natures of the uniformities of connexion.
-
-   Laws of relations
-
-     that are qualitative; or that are specified in their natures as
-     relations of coincidence or proximity in Time and Space, but not
-     necessarily in their terms the natures and amount of which are
-     indifferent. (LOGIC.)[4]
-
-     that are quantitative (MATHEMATICS)
-
-       negatively: the terms of the relations being definitely-related
-       sets of positions in space; and the facts predicated being the
-       absences of certain quantities. (_Geometry of Position._[5])
-
-       positively: the terms being magnitudes composed of
-
-         units that are equal only as having independent existences.
-         (_Indefinite Calculus._[6])
-
-         equal units
-
-           the equality of which is not defined as extensive,
-           protensive, or intensive (_Definite Calculus_)
-
-             when their numbers are completely specified (_Arithmetic._)
-
-             when their numbers are specified only
-
-               in their relations (_Algebra._)
-
-               in the relations of their relations. (_Calculus of_
-               _Operations._)
-
-           the equality of which is that of extension
-
-             considered in their relations of coexistence. (_Geometry._)
-
-             considered as traversed in Time
-
-               that is wholly indefinite. (_Kinematics._)
-
-               that is divided into equal units (_Geometry of Motion._[7])
-
-Passing from the Sciences concerned with the ideal or unoccupied
-forms of relations, and turning to the Sciences concerned with
-real relations, or the relations among realities, we come first to
-those Sciences which treat of realities, not as they are habitually
-manifested, but with realities as manifested in their different
-modes, when these are artificially separated from one another.
-While the Abstract Sciences are wholly ideal, relatively to the
-Abstract-Concrete and Concrete Sciences; the Abstract-Concrete Sciences
-are partially ideal, relatively to the Concrete Sciences. Just as
-Logic and Mathematics generalize the laws of relation, qualitative
-and quantitative, apart from related things; so, Mechanics, Physics,
-Chemistry generalize the laws of relation which different modes
-of Matter and Motion conform to, when severally disentangled from
-those actual phenomena in which they are mutually modified. Just as
-the geometrician formulates the properties of lines and surfaces,
-independently of the irregularities and thicknesses of lines and
-surfaces as they really exist; so the physicist and the chemist
-formulate the manifestations of each mode of force, independently of
-the disturbances in its manifestations which other modes of force cause
-in every actual case. In works on Mechanics, the laws of motion are
-expressed without reference to friction and resistance of the medium.
-Not what motion ever really is, but what it would be if retarding
-forces were absent, is asserted. If afterwards any retarding force is
-taken into account, then the effect of this retarding force is dealt
-with by itself: neglecting the other retarding forces. Consider, again,
-the generalizations of the physicist respecting molecular motion. The
-law that light varies inversely as the square of the distance, is
-absolutely true only when the radiation {86} goes on from a point
-without dimensions, which it never does; and it also assumes that
-the rays are perfectly straight, which they cannot be unless the
-medium differs from all actual media in being perfectly homogeneous.
-If the disturbing effects of changes of media are investigated, the
-formulæ expressing the refractions take for granted that the new media
-entered are homogeneous; which they never really are. Even when a
-compound disturbance is allowed for, as when the refraction undergone
-by light in traversing a medium of increasing density, like the
-atmosphere, is calculated, the calculation still supposes conditions
-that are unnaturally simple—it supposes that the atmosphere is not
-pervaded by heterogeneous currents, which it always is. Similarly
-with the inquiries of the chemist. He does not take his substances as
-Nature supplies them. Before he proceeds to specify their respective
-properties, he purifies them—separates from each all trace of every
-other. Before ascertaining the specific gravity of a gas, he has to
-free this gas from the vapour of water, usually mixed with it. Before
-describing the properties of a salt, he guards against any error that
-may arise from the presence of an uncombined portion of the acid or
-base. And when he alleges of any element that it has a certain atomic
-weight, and unites with such and such equivalents of other elements,
-he does not mean that the results thus expressed are exactly the
-results of any one experiment; but that they are the results which,
-after averaging many trials, he concludes would be realized if absolute
-purity could be obtained, and if the experiments could be conducted
-without loss. His problem is to ascertain the laws of combination of
-molecules, not as they are actually displayed, but as they would be
-displayed in the absence of those minute interferences which cannot
-be altogether avoided. Thus all Abstract-Concrete Sciences have for
-their object, _analytical interpretation_. In every case it is the
-aim to decompose the phenomenon, and formulate its {87} components
-apart from one another; or some two or three apart from the rest.
-Wherever, throughout these Sciences, synthesis is employed, it is for
-the verification of analysis.[8] The truths elaborated are severally
-asserted, not as truths exhibited by this or that particular object;
-but as truths universally holding of Matter and Motion in their more
-general or more special forms, considered apart from particular
-objects, and particular places in space.
-
-The sub-divisions of this group of Sciences, may be drawn on the
-same principle as that on which the sub-divisions of the preceding
-group were drawn. Phenomena, considered as more or less involved
-manifestations of force, yield on analysis, certain laws of
-manifestation which are universal, and other laws of manifestation,
-which, being dependent on conditions, are not universal. Hence the
-Abstract-Concrete Sciences are primarily divisible into—the laws of
-force considered apart from its separate modes, and laws of force
-considered under each of its separate modes. And this second division
-of the Abstract-Concrete group, is sub-divisible after a manner
-essentially analogous. It is needless to occupy space by defining
-these several {88} orders and genera of Sciences. Table II. will
-sufficiently explain their relations.
-
-       *       *       *       *       *
-
-TABLE II.
-
-  ABSTRACT-CONCRETE SCIENCE.
-
-    Universal laws of forces (tensions and pressures), as deducible from
-    the persistence of force: the theorems of resolution and composition
-    of forces.
-
-    Laws of forces as manifested by matter
-
-      in masses (MECHANICS)
-
-        that are in equilibrium relatively to other masses
-
-          and are solid. (_Statics._)
-
-          and are fluid. (_Hydrostatics._)
-
-        that are not in equilibrium relatively to other masses
-
-          and are solid. (_Dynamics._)
-
-          and are fluid. (_Hydrodynamics._)
-
-      in molecules (MOLECULAR MECHANICS)
-
-        when in equilibrium: (_Molecular Statics_)
-
-          giving statical properties of matter
-
-            general, as impenetrability or space-occupancy.
-
-            special, as the forms resulting from molecular equilibrium.
-
-          giving statico-dynamical properties of matter (cohesion,
-          elasticity, etc.)
-
-            when solid.
-
-            when liquid.
-
-            when gaseous.
-
-        when not in equilibrium: (_Molecular Dynamics_)
-
-          as resulting in a changed distribution of molecules
-
-            which alters their relative positions homogeneously
-
-              causing increase of volume (expansion, liquefaction,
-              evaporation).
-
-              causing decrease of volume (condensation, solidification,
-              contraction).
-
-            which alters their relative positions heterogeneously
-            (_Chemistry_)
-
-              producing new relations of molecules (new compounds).
-
-              producing new relations of forces (new affinities).
-
-          as resulting in a changed distribution of molecular motion,
-
-            which, by integration, generates sensible motion.
-
-            which, by disintegration, generates insensible motion, under
-            the forms of {_Heat._ _Light._ _Electricity._ _Magnetism._}
-
-Wecome now to the third great group. We have done with the Sciences which
-are concerned only with the blank forms of relations under which Being
-is manifested to us. We have left behind the Sciences which, dealing
-with Being under its universal mode, and its several non-universal
-modes regarded as independent, treat the terms of its relations as
-simple and homogeneous; which they never are in Nature. There remain
-the Sciences which, taking these modes of Being as they are habitually
-connected with one another, have for the terms of their relations,
-those heterogeneous combinations of forces that constitute actual
-phenomena. The subject-matter of these Concrete-Sciences is the real,
-as contrasted with the wholly or partially ideal. It is their aim,
-not to separate and generalize apart the components of all phenomena,
-but to explain each phenomenon as a product of these components.
-Their relations are not, like those of the simplest Abstract-Concrete
-Sciences, relations between one antecedent and one consequent; nor
-are they, like those of the more involved Abstract-Concrete Sciences,
-relations between some few antecedents cut off in imagination from
-all others, and some few consequents similarly cut off; but they
-are relations each of which has for its terms a complete plexus of
-antecedents and a complete plexus of consequents. This is manifest in
-the least involved Concrete Sciences. The astronomer seeks to explain
-the Solar System. He does not stop short after generalizing the laws
-of planetary movement, such as planetary movement would be did only
-a single planet exist; but he solves this abstract-concrete problem,
-as a step towards solving the concrete problem of the planetary
-movements as affecting one another. In astronomical language, “the
-theory of the Moon” means an interpretation of the Moon’s motions, not
-as determined simply by centripetal {89} and centrifugal forces, but
-as perpetually modified by gravitation towards the Earth’s equatorial
-protuberance, towards the Sun, and even towards Venus: forces daily
-varying in their amounts and combinations. Nor does the astronomer
-leave off when he has calculated what will be the position of a given
-body at a given time, allowing for all perturbations; but he goes on to
-consider the effects produced by reactions on the perturbing masses.
-And he further goes on to consider how the mutual perturbations of
-the planets cause, during a long period, increasing deviations from a
-mean state; and then how compensating perturbations cause continuous
-decrease of the deviations. That is, the goal towards which he ever
-strives, is a complete explanation of these complex planetary motions
-in their totality. Similarly with the geologist. He does not take for
-his problem only those irregularities of the Earth’s crust that are
-worked by denudation; or only those which igneous action causes. He
-does not seek simply to understand how sedimentary strata were formed;
-or how faults were produced; or how moraines originated; or how the
-beds of Alpine lakes were scooped out. But taking into account all
-agencies co-operating in endless and ever-varying combinations, he
-aims to interpret the entire structure of the Earth’s crust. If he
-studies separately the actions of rain, rivers, glaciers, icebergs,
-tides, waves, volcanoes, earthquakes, etc.; he does so that he may be
-better able to comprehend their joint actions as factors in geological
-phenomena: the object of his science being to generalize these
-phenomena in all their intricate connexions, as parts of one whole. In
-like manner Biology is the elaboration of a complete theory of Life, in
-each and all of its involved manifestations. If different aspects of
-its phenomena are investigated apart—if one observer busies himself in
-classing organisms, another in dissecting them, another in ascertaining
-their chemical compositions, another in studying functions, another
-in tracing laws of modification; they are {90} all, consciously or
-unconsciously, helping to work out a solution of vital phenomena in
-their entirety, both as displayed by individual organisms and by
-organisms at large. Thus, in these Concrete Sciences, the object is
-the converse of that which the Abstract-Concrete Sciences propose to
-themselves. In the one case we have _analytical interpretation_; while
-in the other case we have _synthetical interpretation_. Instead of
-synthesis being used merely to verify analysis; analysis is here used
-only to aid synthesis. Not to formulate the factors of phenomena is
-now the object; but to formulate the phenomena resulting from these
-factors, under the various conditions which the Universe presents.
-
-This third class of Sciences, like the other classes, is divisible
-into the universal and the non-universal. As there are truths which
-hold of all phenomena in their elements; so there are truths which
-hold of all phenomena in their totalities. As force has certain
-ultimate laws common to its separate modes of manifestation, so in
-those combinations of its modes which constitute actual phenomena, we
-find certain ultimate laws that are conformed to in every case. These
-are the laws of the re-distribution of force. Since we can become
-conscious of a phenomenon only by some change wrought in us, every
-phenomenon necessarily implies re-distribution of force—change in
-the arrangements of matter and motion. Alike in molecular movements
-and the movements of masses, one great uniformity may be traced.
-A decreasing quantity of motion, sensible or insensible, always
-has for its concomitant an increasing aggregation of matter; and,
-conversely, an increasing quantity of motion, sensible or insensible,
-has for its concomitant a decreasing aggregation of matter. Give to
-the molecules of any mass, more of that insensible motion which we
-call heat, and the parts of the mass become somewhat less closely
-aggregated. Add a further quantity of insensible motion, and the
-mass so far disintegrates as to become {91} liquid. Add still more
-insensible motion, and the mass disintegrates so completely as to
-become gas; which occupies a greater space with every extra quantity
-of insensible motion given to it. On the other hand, every loss of
-insensible motion by a mass, gaseous, liquid, or solid, is accompanied
-by a progressing integration of the mass. Similarly with sensible
-motions, be the bodies moved large or small. Augment the velocities
-of the planets, and their orbits will enlarge—the Solar System will
-occupy a wider space. Diminish their velocities, and their orbits will
-lessen—the Solar System will contract, or become more integrated.
-And in like manner we see that sensible motions given to bodies on
-the Earth’s surface involve partial disintegrations of the bodies
-from the Earth; while the loss of their motions are accompanied by
-their re-integration with the Earth. In all changes we have either an
-integration of matter and concomitant dissipation of motion; or an
-absorption of motion and concomitant disintegration of matter. And
-where, as in living bodies, these processes go on simultaneously, there
-is an integration of matter proportioned to the dissipation of motion,
-and an absorption of motion proportioned to the disintegration of
-matter. Such, then, are the universal laws of that re-distribution of
-matter and motion everywhere going on—a re-distribution which results
-in Evolution so long as the aggregation of matter and dispersion of
-motion predominate; but which results in Dissolution where there is
-a predominant aggregation of motion and dispersion of matter. Hence
-we have a division of Concrete Science which bears towards the other
-Concrete Sciences, a relation like that which the Universal Law of
-Relation bears to Mathematics, and like that which Universal Mechanics
-(composition and resolution of forces) bears to Physics. We have a
-division of Concrete Science which generalizes those concomitants
-of this re-distribution that hold good among all orders of concrete
-objects—a division which explains why, along with a {92} predominating
-integration of matter and dissipation of motion, there goes a change
-from an indefinite, incoherent homogeneity, to a definite, coherent
-heterogeneity; and why a reverse re-distribution of matter and motion,
-is accompanied by a reverse structural change. Passing from this
-universal Concrete Science, to the non-universal Concrete Sciences; we
-find that these are primarily divisible into the science which deals
-with the re-distributions of matter and motion among masses in space,
-consequent on their mutual actions as wholes; and the science which
-deals with the re-distributions of matter and motion consequent on the
-mutual actions of the parts of each mass. And of these equally general
-Sciences, this last is re-divisible into the Science which is limited
-to the concomitants of re-distribution among the parts of each mass
-when regarded as independent, and the Science which takes into account
-the molecular motion received by radiation from other masses. But these
-sub-divisions, and their sub-sub-divisions, will be best seen in the
-annexed Table III.
-
-       *       *       *       *       *
-
-TABLE III.
-
- CONCRETE SCIENCE.
-
-   Universal laws of the continuous re-distribution of Matter and
-   Motion; which results in Evolution where there is a predominant
-   integration of Matter and dissipation of Motion, and which results
-   in Dissolution where there is a predominant absorption of Motion and
-   disintegration of Matter.
-
-   Laws of the redistributions of Matter and Motion actually going on
-
-     among the celestial bodies in their relations to one another as
-     masses: comprehending (ASTRONOMY)
-
-       the dynamics of our solar system. (_Planetary Astronomy._)
-
-       the dynamics of our stellar universe. (_Sidereal Astronomy._)
-
-     among the molecules of any celestial mass; as caused by
-
-       the actions of these molecules on one another
-       (ASTROGENY)
-
-         resulting in the formation of compound molecules. (_Solar_
-         _Mineralogy._)
-
-         resulting in molecular motions and genesis of radiant
-         forces.[9]
-
-         resulting in movements of gases and liquids. (_Solar_
-         _Meteorology._[10])
-
-       the actions of these molecules on one another, joined with the
-       actions on them of forces radiated by the molecules of other
-       masses: (GEOGENY)
-
-         as exhibited in the planets generally.
-
-         as exhibited in the Earth
-
-           causing composition and of decomposition of inorganic
-           matters. (_Mineralogy._)
-
-           causing re-distributions of gases and liquids.
-           (_Meteorology._)
-
-           causing re-distributions of solids. (_Geology._)
-
-           causing organic phenomena; which are (_Biology_)
-
-             those of structure (_Morphology_)
-
-               general.
-
-               special.
-
-             those of function
-
-               in their internal relations (_Physiology_)
-
-                 general.
-
-                 special.
-
-               in their external relations (_Psychology_)
-
-                 general
-
-                 special
-
-                   separate.
-
-                   combined. (_Sociology._[11])
-
-That these great groups of Sciences and their respective sub-groups,
-fulfil the definition of a true classification given at the outset, is,
-I think, tolerably manifest. The subjects of inquiry included in each
-primary division, have essential attributes in common with one another,
-which they have not in common with any of the subjects contained in
-the other primary divisions; and they have, by consequence, a greater
-number of attributes in which they are severally like the subjects
-they are grouped with, and unlike the subjects otherwise grouped.
-Between Sciences which deal with relations apart from realities, and
-Sciences which deal with realities, the distinction is the widest
-possible; since Being, in some or all of its attributes, is common to
-all Sciences of the second class, and excluded from all Sciences of the
-first class. And when we divide the Sciences which treat of realities,
-into those which deal {93} with their component phenomena considered in
-ideal separation and those which deal with their component phenomena
-as actually united, we make a profounder distinction than can exist
-between the Sciences which deal with one or other order of the
-components, or than can exist between the Sciences which deal with one
-or other order of the things composed. The three groups of Sciences
-may be briefly defined as—laws of the _forms_; laws of the _factors_;
-laws of the _products_. When thus defined, it becomes manifest that
-the groups are so radically unlike in their natures, that there can
-be no transitions between them; and that any Science belonging to one
-of the groups must be quite incongruous with the Sciences belonging
-to either of the other groups, if transferred. How fundamental are
-the differences between them, will be further seen on considering
-their functions. The first, or abstract group, is _instrumental_ with
-respect to both the others; and the second, or abstract-concrete group
-is _instrumental_ with respect to the third or concrete group. An
-endeavour to invert these functions will at once show how essential
-is the difference of character. The second and third groups supply
-subject-matter to the first, and the third supplies subject-matter to
-the second; but none of the truths which constitute the third group are
-of any use as solvents of the problems presented by the second group;
-and none of the truths which the second group formulates can act as
-solvents of problems contained in the first group.
-
-Concerning the sub-divisions of these great groups, little remains
-to be added. That each of the groups, being co-extensive with all
-phenomena, contains truths that are universal and others that are not
-universal, and that these must be classed apart, is obvious. And that
-the sub-divisions of the non-universal truths, are to be made according
-to their decreasing generality in something like the manner shown in
-the Tables, is proved by the fact that {94} when the descriptive
-words are read from the root to the extremity of any branch, they form
-a definition of the Science constituting that branch. That the minor
-divisions might be otherwise arranged, and that better definitions of
-them might be given, is highly probable. They are here set down merely
-for the purpose of showing how this method of classification works out.
-
-I will only further remark that the relations of the Sciences as
-thus represented, are still but imperfectly represented: their
-relations cannot be truly shown on a plane, but only in space of three
-dimensions. The three groups cannot rightly be put in linear order as
-they have here been. Since the first stands related to the third, not
-only indirectly through the second, but also directly—it is directly
-instrumental with respect to the third, and the third supplies it
-directly with subject-matter. Their relations can thus only be truly
-shown by branches diverging from a common root on different sides,
-in such a way that each stands in juxta-position to the other two.
-And only by a like mode of arrangement, can the relations among the
-sub-divisions of each group be correctly represented.
-
-       *       *       *       *       *
-
-The foregoing exposition, highly abstract as it is, will by some
-readers be less readily followed than a more concrete one. With the
-view of carrying conviction to such I will re-state the case in two
-ways: the first of them adapted only to those who accept the doctrine
-of Evolution in its most general form.
-
-We set out with concentrating nebulous matter. Tracing the
-re-distributions of this, as the rotating contracting spheroid leaves
-behind successive annuli and as these severally form secondary rotating
-spheroids, we come at length to planets in their early stages. Thus
-far we consider the phenomena dealt with purely astronomical; and so
-long as our Earth, regarded as one of these spheroids, {95} was made
-up of gaseous and molten matters only, it presented no data for any
-more complex Concrete Science. In the lapse of cosmical time a solid
-film forms, which, in the course of millions of years, thickens, and,
-in the course of further millions of years, becomes cool enough to
-permit the precipitation, first of various other gaseous compounds,
-and finally of water. Presently, the varying exposure of different
-parts of the spheroid to the Sun’s rays, begins to produce appreciable
-effects; until at length there have arisen meteorological actions, and
-consequent geological actions, such as those we now know: determined
-partly by the Sun’s heat, partly by the still-retained internal heat
-of the Earth, and partly by the action of the Moon on the ocean? How
-have we reached these geological phenomena? When did the astronomical
-changes end and the geological changes begin? It needs but to ask this
-question to see that there is no real division between the two. Putting
-pre-conceptions aside, we find nothing more than a group of phenomena
-continually complicating under the influence of the same original
-factors; and we see that our conventional division is defensible only
-on grounds of convenience. Let us advance a stage. As the Earth’s
-surface continues to cool, passing through all degrees of temperature
-by infinitesimal gradations, the formation of more and more complex
-inorganic compounds becomes possible. Later, its surface sinks to that
-heat at which the less complex compounds of the kinds called organic
-can exist; and, finally, the formation of the more complex organic
-compounds takes place. Chemists now show us that these compounds may
-be built up synthetically in the laboratory—each stage in ascending
-complexity making possible the next higher stage. Hence it is inferable
-that, in the myriads of laboratories, endlessly diversified in their
-materials and conditions, which the Earth’s surface furnished during
-the myriads of years occupied in passing through these stages of
-temperature, such successive {96} syntheses were effected; and that
-the highly complex unstable substance out of which all organisms are
-composed, was eventually formed in microscopic portions: from which,
-by continuous integrations and differentiations, the evolution of all
-organisms has proceeded. Where then shall we draw the line between
-Geology and Biology? The synthesis of this most complex compound, is
-but a continuation of the syntheses by which all simpler compounds were
-formed. The same primary factors have been co-operating with those
-secondary factors, meteorologic and geologic, previously derived from
-them. Nowhere do we find a break in the ever-complicating series; for
-there is a manifest connexion between those movements which various
-complex compounds undergo during their isomeric transformations,
-and those changes of form undergone by the protoplasm which we
-distinguish as living. Strongly contrasted as they eventually
-become, biological phenomena are at their root inseparable from
-geological phenomena—inseparable from the aggregate of transformations
-continually wrought in the matters forming the Earth’s surface by the
-physical forces to which they are exposed. Further stages I need not
-particularize. The gradual development out of the biological group of
-phenomena, of the more specialized group we class as psychological,
-needs no illustration. And when we come to the highest psychological
-phenomena, it is clear that since aggregations of human beings may be
-traced upwards from single wandering families to tribes and nations of
-all sizes and complexities, we pass insensibly from the phenomena of
-individual human action to those of corporate human action. To resume,
-then, is it not manifest that in the group of sciences—Astronomy,
-Geology, Biology, Psychology, Sociology, we have a natural group
-that admits neither of disruption nor change of order? Here there is
-both a genetic dependence, and a dependence of interpretations. The
-phenomena have arisen in this succession in cosmical {97} time; and
-complete scientific interpretation of each group depends on scientific
-interpretation of the preceding groups. No other science can be thrust
-in anywhere without destroying the continuity. To insert Physics
-between Astronomy and Geology, would be to make a break in the history
-of a continuous series of changes; and a like break would be produced
-by inserting Chemistry between Geology and Biology. It is true that
-Physics and Chemistry are needful as interpreters of these successive
-assemblages of facts; but it does not therefore follow that they are
-themselves to be placed among these assemblages.
-
-Concrete Science, made up of these five concrete sub-sciences, being
-thus coherent within itself, and separated from all other science,
-there comes the question—Is all other science similarly coherent within
-itself? or is it traversed by some second division that is equally
-decided? It is thus traversed. A statical or dynamical theorem, however
-simple, has always for its subject-matter something that is conceived
-as extended, and as displaying force or forces—as being a seat of
-resistance, or of tension, or of both, and as capable of possessing
-more or less of _vis viva_. If we examine the simplest proposition of
-Statics, we see that the conception of Force must be joined with the
-conception of Space, before the proposition can be framed in thought;
-and if we similarly examine the simplest proposition in Dynamics,
-we see that Force, Space, and Time, are its essential elements. The
-amounts of the terms are indifferent; and, by reduction of its terms
-beyond the limits of perception, they are applied to molecules: Molar
-Mechanics and Molecular Mechanics are continuous. From questions
-concerning the relative motions of two or more molecules, Molecular
-Mechanics passes to changes of aggregation among many molecules, to
-changes in the amounts and kinds of the motions possessed by them as
-members of an aggregate, and to changes of the motions transferred
-through aggregates of them, as those constituting light. {98} Daily
-extending its range of interpretations, it is coming to deal even
-with the components of each compound molecule on the same principles.
-And the unions and disunions of such more or less compound molecules,
-which constitute the phenomena of Chemistry, are also being conceived
-as resultant phenomena of essentially kindred natures—the affinities
-of molecules for one another, and their reactions in relation to
-light, heat, and other modes of force, being regarded as consequent
-on the combinations of the various mechanically-determined motions of
-their various components. Without at all out-running, however, this
-progress in the mechanical interpretation of molecular phenomena, it
-suffices to point out that the indispensable elements in any chemical
-conception are units occupying places in space, and exerting forces on
-one another. This, then, is the common character of all these sciences
-which we at present group under the names of Mechanics, Physics,
-Chemistry. Leaving undiscussed the question whether it is possible to
-conceive of force apart from extended somethings exerting it, we may
-assert, as beyond dispute, that if the conception of force be expelled,
-no science of Mechanics, Physics, or Chemistry remains. Made coherent,
-as these sciences are, by this bond of union, it is impossible to
-thrust among them any other science without breaking their continuity.
-We cannot place Logic between Molar Mechanics and Molecular Mechanics.
-We cannot place Mathematics between the group of propositions
-concerning the behaviour of homogeneous molecules to one another, and
-the group of propositions concerning the behaviour of heterogeneous
-molecules to one another (which we call Chemistry). Clearly these two
-sciences lie outside the coherent whole we have contemplated; separated
-from it in some radical way.
-
-By what are they radically separated? By the absence of the conception
-of force through which alone we know objects as existing or acting.
-However true it may be {99} that so long as Logic and Mathematics have
-any terms at all, these must be capable of affecting consciousness,
-and, by implication, of exerting force; yet it is the distinctive trait
-of these sciences that not only do their propositions make no reference
-to such force, but, as far as possible, they deliberately ignore it.
-Instead of being, as in all the other sciences, an element that is
-not only recognized but vital; in Mathematics and Logic, force is an
-element that is not only not vital, but is studiously not recognized.
-The terms in which Logic expresses its propositions, are symbols that
-do not profess to represent things, properties, or powers, of one
-kind more than another; and may equally well stand for the attributes
-belonging to members of some connected series of ideal curves which
-have never been drawn, as for so many real objects. And the theorems of
-Geometry, so far from contemplating perceptible lines and surfaces as
-elements in the truths enunciated, consider these truths as becoming
-absolute only when such lines and surfaces become ideal—only when the
-conception of something exercising force is extruded.
-
-       *       *       *       *       *
-
-Let me now make a second re-statement, not implying acceptance of the
-doctrine of Evolution, but exhibiting with a clearness almost if not
-quite as great, these fundamental distinctions.
-
-The concrete sciences, taken together or separately, contemplate as
-their subject-matters, _aggregates_—either the entire aggregate of
-sensible existences, or some secondary aggregate separable from this
-entire aggregate, or some tertiary aggregate separable from this, and
-so on. Sidereal Astronomy occupies itself with the totality of visible
-masses distributed through space; which it deals with as made up of
-identifiable individuals occupying specified places, and severally
-standing towards one another, towards sub-groups, and towards the
-entire group, in defined ways. Planetary Astronomy, cutting out of this
-all-including aggregate that {100} relatively minute part constituting
-the Solar System, deals with this as a whole—observes, measures, and
-calculates the sizes, shapes, distances, motions, of its primary,
-secondary, and tertiary members; and, taking for its larger inquiries
-the mutual actions of all these members as parts of a coordinated
-assemblage, takes for its smaller inquiries the actions of each member
-considered as an individual, having a set of intrinsic activities that
-are modified by a set of extrinsic activities. Restricting itself to
-one of these aggregates, which admits of close examination, Geology
-(using this word in its comprehensive meaning) gives an account of
-terrestrial actions and terrestrial structures, past and present; and,
-taking for its narrower problems local formations and the agencies
-to which they are due, takes for its larger problems the serial
-transformations undergone by the entire Earth. The geologist being
-occupied with this cosmically small, but otherwise vast, aggregate,
-the biologist occupies himself with small aggregates formed out of
-parts of the Earth’s superficial substance, and treats each of these
-as a coordinated whole in its structures and functions; or, when he
-treats of any particular organ, considers this as a whole made up of
-parts held in a sub-coordination that refers to the coordination of
-the entire organism. To the psychologist he leaves those specialized
-aggregates of functions which adjust the actions of organisms to the
-complex activities surrounding them: doing this, not simply because
-they are a stage higher in speciality, but because they are the
-counterparts of those aggregated states of consciousness dealt with by
-the science of Subjective Psychology, which stands entirely apart from
-all other sciences. Finally, the sociologist considers each tribe and
-nation as an aggregate presenting multitudinous phenomena, simultaneous
-and successive, that are held together as parts of one combination.
-Thus, in every case, a concrete science deals with a real aggregate
-(or a plurality of real aggregates); and it includes as its {101}
-subject-matter whatever is to be known of this aggregate in respect
-of its size, shape, motions, density, texture, general arrangement
-of parts, minute structure, chemical composition, temperature, etc.,
-together with all the multitudinous changes, material and dynamical,
-gone through by it from the time it begins to exist as an aggregate to
-the time it ceases to exist as an aggregate.
-
-No abstract-concrete science makes the remotest attempt to do anything
-of this sort. Taken together, the abstract-concrete sciences give
-an account of the various kinds of _properties_ which aggregates
-display; and each abstract-concrete science concerns itself with a
-certain order of these properties. By this, the properties common to
-all aggregates are studied and formulated; by that, the properties of
-aggregates having special forms, special states of aggregation, etc.;
-and by others, the properties of particular components of aggregates
-when dissociated from other components. But by all these sciences the
-aggregate, considered as an individual object, is tacitly ignored; and
-a property, or a connected set of properties, exclusively occupies
-attention. It matters not to Mechanics whether the moving mass it
-considers is a planet or a molecule, a dead stick thrown into the river
-or the living dog that leaps after it: in any case the curve described
-by the moving mass conforms to the same laws. Similarly when the
-physicist takes for his subject the relation between the changing bulk
-of matter and the changing quantity of molecular motion it contains.
-Dealing with the subject generally, he leaves out of consideration the
-kind of matter; and dealing with the subject specially in relation to
-this or that kind of matter, he ignores the attributes of size and
-form: save in the still more special cases where the effect on form
-is considered, and even then size is ignored. So, too, is it with the
-chemist. A substance he is investigating, never thought of by him
-as distinguished in extension or amount, is not even required to be
-perceptible. A portion of carbon on {102} which he is experimenting,
-may or may not have been visible under its forms of diamond or
-graphite or charcoal—this is indifferent. He traces it through various
-disguises and various combinations—now as united with oxygen to form
-an invisible gas; now as hidden with other elements in such more
-complex compounds as ether, and sugar, and oil. By sulphuric acid or
-other agent he precipitates it from these as a coherent cinder, or as
-a diffused impalpable powder; and again, by applying heat, forces it
-to disclose itself as an element of animal tissue. Evidently, while
-thus ascertaining the affinities and atomic equivalence of carbon, the
-chemist has nothing to do with any aggregate. He deals with carbon
-in the abstract, as something considered apart from quantity, form,
-appearance, or temporary state of combination; and conceives it as the
-possessor of powers or properties, whence the special phenomena he
-describes result: the ascertaining of all these powers or properties
-being his sole aim.
-
-Finally, the Abstract Sciences ignore alike aggregates and the powers
-which aggregates or their components possess; and occupy themselves
-with _relations_—either with the relations among aggregates, or among
-their parts, or the relations among aggregates and properties, or the
-relations among properties, or the relations among relations. The
-same logical formula applies equally well, whether its terms are men
-and their deaths, crystals and their planes of cleavage, or plants
-and their seeds. And how entirely Mathematics concerns itself with
-relations, we see on remembering that it has just the same expression
-for the characters of an infinitesimal triangle, as for those of the
-triangle which has Sirius for its apex and the diameter of the Earth’s
-orbit for its base.
-
-I cannot see how these definitions of these groups of sciences can
-be questioned. It is undeniable that every Concrete Science gives
-an account of an aggregate or of aggregates, inorganic, organic, or
-super-organic (a society); {103} and that, not concerning itself
-with properties of this or that order, it concerns itself with the
-co-ordination of the assembled properties of all orders. It seems to
-me no less certain that an Abstract-Concrete Science gives an account
-of some order of properties, general or special; not caring about the
-other traits of an aggregate displaying them, and not recognizing
-aggregates at all further than is implied by discussion of the
-particular order of properties. And I think it is equally clear that
-an Abstract Science, freeing its propositions, so far as the nature
-of thought permits, from aggregates and properties, occupies itself
-with relations of co-existence and sequence, as disentangled from
-all particular forms of being and action. If then these three groups
-of sciences are, respectively, accounts of _aggregates_, accounts
-of _properties_, accounts of _relations_, it is manifest that the
-divisions between them are not simply perfectly clear, but that the
-chasms between them are absolute.
-
-       *       *       *       *       *
-
-Here, perhaps more clearly than before, will be seen the untenability
-of the classification made by M. Comte. Already, after setting forth
-in a general way these fundamental distinctions, I have pointed out
-the incongruities that arise when the sciences, conceived as Abstract,
-Abstract-Concrete, and Concrete, are arranged in the order proposed
-by him. Such incongruities become still more conspicuous if for these
-general names of the groups we substitute the definitions given above.
-The series will then stand thus:―
-
- MATHEMATICS  An account of _relations_
-                         (including, under Mechanics,
-                         an account of _properties_).
- ASTRONOMY    An account of _aggregates_.
- PHYSICS      An account of _properties_.
- CHEMISTRY    An account of _properties_.
- BIOLOGY      An account of _aggregates_.
- SOCIOLOGY    An account of _aggregates_.
-
-That those who espouse opposite views see clearly the {104} defects
-in the propositions of their opponents and not those in their own,
-is a trite remark that holds in philosophical discussions as in all
-others: the parable of the mote and the beam applies as well to men’s
-appreciations of one another’s opinions as to their appreciations of
-one another’s natures. Possibly to my positivist friends I exemplify
-this truth,—just as they exemplify it to me. Those uncommitted to
-either view must decide where the mote exists and where the beam.
-Meanwhile it is clear that one or other of the two views is essentially
-erroneous; and that no qualifications can bring them into harmony.
-Either the sciences admit of no such grouping as that which I have
-described, or they admit of no such serial order as that given by M.
-Comte.
-
-
-POSTSCRIPT REPLYING TO CRITICISMS.
-
-Among objections made to any doctrine, those which come from avowed
-supporters of an adverse doctrine must be considered, other things
-equal, as of less weight than those which come from men uncommitted
-to an adverse doctrine, or but partially committed to it. The element
-of prepossession, distinctly present in the one case and in the other
-case mainly or quite absent, is a well-recognized cause of difference
-in the values of the judgments: supposing the judgments to be otherwise
-fairly comparable. Hence, when it is needful to bring the replies
-within a restricted space, a fit course is that of dealing rather with
-independent criticisms than with criticisms which are really indirect
-arguments for an opposite view, previously espoused.
-
-For this reason I propose here to confine myself substantially,
-though not absolutely, to the demurrers entered against the foregoing
-classification by Prof. Bain, in his recent work on Logic. Before
-dealing with the more {105} important of these, let me clear the
-ground by disposing of the less important.
-
-       *       *       *       *       *
-
-Incidentally, while commenting on the view I take respecting the
-position of Logic, Prof. Bain points out that this, which is the most
-abstract of the sciences, owes much to Psychology, which I place among
-the Concrete Sciences; and he alleges an incongruity between this
-fact and my statement that the Concrete Sciences are not instrumental
-in disclosing the truths of the Abstract Sciences. Subsequently he
-re-raises this apparent anomaly when saying―
-
- “Nor is it possible to justify the placing of Psychology wholly among
- Concrete Sciences. It is a highly analytic science, as Mr. Spencer
- thoroughly knows.”
-
-For a full reply, given by implication, I must refer Prof. Bain to
-§ 56 of _The Principles of Psychology_, where I have contended that
-“while, under its objective aspect, Psychology is to be classed as one
-of the Concrete Sciences which successively decrease in scope as they
-increase in speciality; under its subjective aspect, Psychology is a
-totally unique science, independent of, and antithetically opposed to,
-all other sciences whatever.” A pure idealist will not, I suppose,
-recognize this distinction; but to every one else it must, I should
-think, be obvious that the science of subjective existences is the
-correlative of all the sciences of objective existences; and is as
-absolutely marked off from them as subject is from object. Objective
-Psychology, which I class among the Concrete Sciences, is purely
-synthetic, so long as it is limited, like the other sciences, to
-objective data; though great aid in the interpretation of these data
-is derived from the observed correspondence between the phenomena of
-Objective Psychology as presented in other beings and the phenomena of
-Subjective Psychology as presented in one’s own consciousness. Now it
-is Subjective Psychology only which is analytic, and which affords aid
-in the {106} development of Logic. This being explained, the apparent
-incongruity disappears.
-
-A difficulty raised respecting the manner in which I have expressed the
-nature of Mathematics, may next be dealt with. Prof. Bain writes:―
-
- “In the first place, objection may be taken to his language, in
- discussing the extreme Abstract Sciences, when he speaks of the _empty_
- _forms_ therein considered. To call Space and Time empty forms, must
- mean that they can be thought of without any concrete embodiment
- whatsoever; that one can think of Time, as a pure abstraction, without
- having in one’s mind any concrete succession. Now, this doctrine is in
- the last degree questionable.”
-
-I quite agree with Prof. Bain that “this doctrine is in the last
-degree questionable;” but I do not admit that this doctrine is implied
-by the definition of Abstract Science which I have given. I speak
-of Space and Time as they are dealt with by mathematicians, and as
-it is alone possible for pure Mathematics to deal with them. While
-Mathematics habitually uses in its points, lines, and surfaces, certain
-existences, it habitually deals with these as representing points,
-lines, and surfaces that are ideal; and _its conclusions are true only
-on condition that it does this_. Points having dimensions, lines having
-breadths, planes having thicknesses, are negatived by its definitions.
-Using, though it does, material representatives of extension, linear,
-superficial, or solid, Geometry deliberately ignores their materiality;
-and attends only to the truths of relation they present. Holding with
-Prof. Bain, as I do, that our consciousness of Space is disclosed by
-our experiences of Matter—arguing, as I have done in _The Principles
-of Psychology_, that it is a consolidated aggregate of all relations
-of co-existence that have been severally presented by Matter; I
-nevertheless contend that it is possible to dissociate these relations
-from Matter to the extent required for formulating them as abstract
-truths. I contend, too, that this separation is of the kind habitually
-made in other cases; as, for instance, when the general laws of motion
-are formulated (as M. Comte’s system, among {107} others, formulates
-them) in such way as to ignore all properties of the bodies dealt
-with save their powers of taking up, and retaining, and giving out,
-quantities of motion; though these powers are inconceivable apart from
-the attribute of extension, which is intentionally disregarded.
-
-Taking other of Prof. Bain’s objections, not in the order in which they
-stand but in the order in which they may be most conveniently dealt
-with, I quote as follows:―
-
- “The law of the radiation of light (the inverse square of the
- distance) is said by Mr. Spencer to be Abstract-Concrete, while the
- disturbing changes in the medium are not to be mentioned except in a
- Concrete Science of Optics. We need not remark that such a separate
- handling is unknown to science.”
-
-It is perfectly true that “such a separate handling is unknown to
-science.” But, unfortunately for the objection, it is also perfectly
-true that no such separate handling is proposed by me, or is implied by
-my classification. How Prof. Bain can have so missed the meaning of the
-word “concrete,” as I have used it, I do not understand. After pointing
-out that “no one ever drew the line,” between the Abstract-Concrete
-and the Concrete Sciences, “as I have done it,” he alleges an anomaly
-which exists only supposing that I have drawn it where it is ordinarily
-drawn. He appears inadvertently to have carried with him M. Comte’s
-conception of Optics as a Concrete Science, and, importing it into my
-classification, debits me with the incongruity. If he will re-read
-the definition of the Abstract-Concrete Sciences, or study their
-sub-divisions as shown in Table II., he will, I think, see that the
-most special laws of the redistribution of light, equally with its most
-general laws, are included. And if he will pass to the definition and
-the tabulation of the Concrete Sciences, he will, I think, see no less
-clearly that Optics cannot be included among them.
-
-Prof. Bain considers that I am not justified in classing Chemistry as
-an Abstract-Concrete Science, and excluding from it all consideration
-of the crude forms of the various {108} substances dealt with; and
-he enforces his dissent by saying that chemists habitually describe
-the ores and impure mixtures in which the elements, etc., are
-naturally found. Undoubtedly chemists do this. But do they therefore
-intend to include an account of the ores of a substance, _as a part
-of the science_ which formulates its molecular constitution and the
-constitutions of all the definite compounds it enters into? I shall be
-very much surprised if I find that they do. Chemists habitually prefix
-to their works a division treating of Molecular Physics; but they do
-not therefore claim Molecular Physics as a part of Chemistry. If they
-similarly prefix to the chemistry of each substance an outline of its
-mineralogy, I do not think they therefore mean to assert that the
-last belongs to the first. Chemistry proper, embraces nothing beyond
-an account of the constitutions and modes of action and combining
-proportions of substances that are taken as absolutely pure; and its
-truths no more recognize impure substances than the truths of Geometry
-recognize crooked lines.
-
-Immediately after, in criticizing the fundamental distinction I have
-made between Chemistry and Biology, as Abstract-Concrete and Concrete
-respectively, Prof. Bain says:―
-
- “But the objects of Chemistry and the objects of Biology are equally
- concrete, so far as they go; the simple bodies of chemistry, and their
- several compounds, are viewed by the Chemist as concrete wholes, and
- are described by him, not with reference to one factor, but to all
- their factors.”
-
-Issue is here raised in a form convenient for elucidation of the
-general question. It is true that, _for purposes of identification_, a
-chemist gives an account of all the sensible characters of a substance.
-He sets down its crystalline form, its specific gravity, its power
-of refracting light, its behaviour as magnetic or diamagnetic. But
-does he thereby include these phenomena as part of the Science of
-Chemistry? It seems to me that the relation between the weight {109}
-of any portion of matter and its bulk, which is ascertained on
-measuring its specific gravity, is a physical and not a chemical fact.
-I think, too, that the physicist will claim, as part of his science,
-all investigations touching the refraction of light: be the substance
-producing this refraction what it may. And the circumstance that the
-chemist may test the magnetic or diamagnetic property of a body, as
-a means of ascertaining what it is, or as a means of helping other
-chemists to determine whether they have got before them the same body,
-will neither be held by the chemist, nor allowed by the physicist, to
-imply a transfer of magnetic phenomena from the domain of the one to
-that of the other. In brief, though the chemist, in his account of an
-element or a compound, may refer to certain physical traits associated
-with its molecular constitution and affinities, he does not by so
-doing change these into chemical traits. Whatever chemists may put
-into their books, Chemistry, considered as a science, includes only
-the phenomena of molecular structures and changes—of compositions and
-decompositions.[12] I contend, then, that Chemistry does _not_ give an
-account of anything as a concrete whole, in the same way that Biology
-gives an account of an organism as a concrete whole. This will become
-even more manifest on observing the character of {110} the biological
-account. All the attributes of an organism are comprehended, from
-the most general to the most special—from its conspicuous structural
-traits to its hidden and faint ones; from its outer actions that thrust
-themselves on the attention, to the minutest sub-divisions of its
-multitudinous internal functions; from its character as a germ, through
-the many changes of size, form, organization, and habit, it goes
-through until death; from the physical characters of it as a whole,
-to the physical characters of its microscopic cells, and vessels, and
-fibres; from the chemical characters of its substance in general to
-the chemical characters of each tissue and each secretion—all these,
-with many others. And not only so, but there is comprehended as the
-ideal goal of the science, the _consensus_ of all these phenomena
-in their co-existences and successions, as constituting a coherent
-individualized group definitely combined in space and in time. It is
-this recognition of _individuality_ in its subject-matter, that gives
-its concreteness to Biology, as to every other Concrete Science. As
-Astronomy deals with bodies that have their several proper names, or
-(as with the smaller stars) are registered by their positions, and
-considers each of them as a distinct individual—as Geology, while dimly
-perceiving in the Moon and nearest planets other groups of geological
-phenomena (which it would deal with as independent wholes, did not
-distance forbid), occupies itself with that individualized group
-presented by the Earth; so Biology treats either of an individual
-distinguished from all others, or of parts or products belonging to
-such an individual, or of structural or functional traits common to
-many such individuals that have been observed, and supposed to be
-common to others that are like them in most or all of their attributes.
-Every biological truth connotes a specifically individualized object,
-or a number of specifically individualized objects of the same kind,
-or numbers of different kinds that are severally specific. See, then,
-the contrast. {111} The truths of the Abstract-Concrete Sciences do
-not imply specific individuality. Neither Molar Physics, nor Molecular
-Physics, nor Chemistry, concerns itself with this. The laws of motion
-are expressed without any reference whatever to the sizes or shapes
-of the moving masses; which may be taken indifferently to be suns or
-atoms. The relations between contraction and the escape of molecular
-motion, and between expansion and the absorption of molecular motion,
-are expressed in their general forms without reference to the kind
-of matter; and, if the degree of either that occurs in a particular
-kind of matter is formulated, no note is taken of the quantity of that
-matter, much less of its individuality. Similarly with Chemistry.
-When it inquires into the atomic weight, the molecular structure, the
-atomicity, the combining proportions, etc., of a substance, it is
-indifferent whether a grain or a ton be thought of—the conception of
-amount is absolutely irrelevant. And so with more special attributes.
-Sulphur, considered chemically, is not sulphur under its crystalline
-form, or under its allotropic viscid form, or as a liquid, or as a gas;
-but it is sulphur considered apart from those attributes of quantity,
-and shape, and state, that give individuality.
-
-Prof. Bain objects to the division I have drawn between the Concrete
-Science of Astronomy and that Abstract-Concrete Science which deals
-with the mutually-modified motions of hypothetical masses in space, as
-“not a little arbitrary.” He says:―
-
-  “We can suppose a science to confine itself _solely_ to the
- ‘factors,’ or the separated elements, and never, on any occasion, to
- combine two into a composite third. This position is intelligible,
- and possibly defensible. For example, in Astronomy, the Law of
- Persistence of Motion in a straight line might be discussed in pure
- ideal separation; and so, the Law of Gravity might be discussed in
- equally pure separation—both under the Abstract-Concrete department
- of Mechanics. It might then be reserved to a _concrete_ department to
- unite these in the explanation of a projectile or of a planet. Such,
- however, is not Mr. Spencer’s boundary line. He allows Theoretical
- Mechanics to make this particular combination, and to arrive at the
- laws of {112} planetary movement, _in the case of a single planet_.
- What he does not allow is, to proceed to the case of two planets,
- mutually disturbing one another, or a planet and a satellite, commonly
- called the ‘problem of the Three Bodies.’”
-
-If I held what Prof. Bain supposes me to hold, my position would be
-an absurd one; but he misapprehends me. The misapprehension results
-in part from his having here, as before, used the word “concrete”
-with the Comtean meaning, as though it were my meaning; and in part
-from the inadequacy of my explanation. I did not in the least mean to
-imply that the Abstract-Concrete Science of Mechanics, when dealing
-with the motions of bodies in space, is limited to the interpretation
-of planetary movement such as it would be did only a single planet
-exist. It never occurred to me that my words might be so construed.
-Abstract-Concrete problems admit, in fact, of being complicated
-indefinitely, without going in the least beyond the definition. I do
-not draw the line, as Prof. Bain alleges, between the combination of
-two factors and the combination of three, or between the combination
-of any number and any greater number. I draw the line between the
-science which deals with the theory of the factors, taken singly and
-in combinations of two, three, four, or more, and the science which,
-_giving to these factors the values derived from observations of actual
-objects, uses the theory to explain actual phenomena_.
-
-It is true that, in these departments of science, no radical
-distinction is consistently recognized between theory and the
-applications of theory. As Prof. Bain says:―
-
- “Newton, in the First Book of the Principia, took up the problem of
- the Three Bodies, as applied to the Moon, and worked it to exhaustion.
- So writers on Theoretical Mechanics continue to include the Three
- Bodies, Precession, and the Tides.”
-
-But, supreme though the authority of Newton may be as a mathematician
-and astronomer, and weighty as are the names of Laplace and Herschel,
-who in their works have similarly mingled theorems and the explanations
-yielded by them, it does not seem to me that these facts go for
-much; {113} unless it can be shown that these writers intended thus
-to enunciate the views at which they had arrived respecting the
-classification of the sciences. Such a union as that presented in
-their works, adopted merely for the sake of convenience, is, in fact,
-the indication of incomplete development; and has been paralleled in
-simpler sciences which have afterwards outgrown it. Two conclusive
-illustrations are at hand. The name Geometry, utterly inapplicable by
-its meaning to the science as it now exists, was applicable in that
-first stage during which its few truths were taught in preparation
-for land-measuring and the setting-out of buildings; but, at a
-comparatively early date, these comparatively simple truths became
-separated from their applications, and were embodied by the Greek
-geometers into systems of theory.[13] A like purification is now
-taking place in another division of the science. In the _Géométrie
-Descriptive_ of Monge, theorems were mixed with their applications
-to projection and plan-drawing. But, since his time, the science and
-the art have been segregating; and Descriptive Geometry, or, as it
-may be better termed, the Geometry of Position, is now recognized by
-mathematicians as a far-reaching system of truths, parts of which
-are already embodied in books that make no reference to derived
-methods available by the architect or the engineer. To meet a
-counter-illustration that will be cited, I may remark that though, in
-works on Algebra intended for beginners, the theories of quantitative
-relations, as treated algebraically, are accompanied by groups of
-problems to be solved, the subject-matters of these problems are not
-thereby made parts of the Science of Algebra. To say that they are,
-is to say that Algebra includes the conceptions of distances and
-relative speeds and times, or of weights and bulks and {114} specific
-gravities, or of areas ploughed and days and wages; since these, and
-endless others, may be the terms of its equations. And just in the
-same way that these concrete problems, solved by its aid, cannot be
-incorporated with the Abstract Science of Algebra; so I contend that
-the concrete problems of Astronomy, cannot be incorporated with that
-division of Abstract-Concrete Science which develops the theory of the
-inter-actions of free bodies that attract one another.
-
-On this point I find myself at issue, not only with Prof. Bain, but
-also with Mr. Mill, who contends that:―
-
- “There _is_ an abstract science of astronomy, namely, the theory of
- gravitation, which would equally agree with and explain the facts of a
- totally different solar system from the one of which our earth forms a
- part. The actual facts of our own system, the dimensions, distances,
- velocities, temperatures, physical constitution, etc., of the sun,
- earth, and planets, are properly the subject of a concrete science,
- similar to natural history; but the concrete is more inseparably
- united to the abstract science than in any other case, since the
- few celestial facts really accessible to us are nearly all required
- for discovering and proving the law of gravitation as an universal
- property of bodies, and have therefore an indispensable place in
- the abstract science as its fundamental data.”—_Auguste Comte and_
- _Positivism_, p. 43.
-
-In this explanation, Mr. Mill recognizes the fundamental distinction
-between the Concrete Science of Astronomy, dealing with the bodies
-actually distributed in space, and a science dealing with hypothetical
-bodies hypothetically distributed in space. Nevertheless, he regards
-these sciences as not separable; because the second derives from
-the first the data whence the law of inter-action is derived. But
-the truth of this premiss, and the legitimacy of this inference,
-may alike be questioned. The discovery of the law of inter-action
-was not due primarily, but only secondarily, to observation of the
-heavenly bodies. The conception of an inter-acting force that varies
-inversely as the square of the distance, is an _à priori_ conception
-rationally deducible from mechanical and geometrical considerations.
-Though unlike in derivation to the many empirical hypotheses of Kepler
-respecting planetary orbits and planetary motions, yet it was {115}
-like the successful among these in its relation to astronomical
-phenomena: it was one of many possible hypotheses, which admitted of
-having their consequences worked out and tested; and one which, on
-having its implications compared with the results of observation,
-was found to explain them. In short, the theory of gravitation grew
-out of experiences of terrestrial phenomena; but the verification
-of it was reached through experiences of celestial phenomena.
-Passing now from premiss to inference, I do not see that, even
-were the alleged parentage substantiated, it would necessitate the
-supposed inseparability; any more than the descent of Geometry from
-land-measuring necessitates a persistent union of the two. In the case
-of Algebra, as above indicated, the disclosed laws of quantitative
-relations hold throughout multitudinous orders of phenomena that are
-extremely heterogeneous; and this makes conspicuous the distinction
-between the theory and its applications. Here the laws of quantitative
-relations among masses, distances, velocities, and momenta, being
-applied mainly (though not exclusively) to the concrete cases presented
-by Astronomy, the distinction between the theory and its applications
-is less conspicuous. But, intrinsically, it is as great in the one case
-as in the other.
-
-How great it is, we shall see on taking an analogy. This is a living
-man, of whom we may know little more than that he is a visible,
-tangible person; or of whom we may know enough to form a voluminous
-biography. Again, this book tells of a fictitious hero, who, like the
-heroes of old romance, may be an impersonated virtue or vice, or,
-like a modern hero, one of mixed nature, whose various motives and
-consequent actions are elaborated into a semblance of reality. But
-no accuracy and completeness of the picture makes this fictitious
-personage an actual personage, or brings him any nearer to one. Nor
-does any meagreness in our knowledge of a real man reduce him any
-nearer to the imaginary being of a novel. To the {116} last, the
-division between fiction and biography remains an impassable gulf.
-So, too, remains the division between the Science dealing with the
-inter-actions of hypothetical bodies in space, and the Science dealing
-with the inter-actions of existing bodies in space. We may elaborate
-the first to any degree whatever by the introduction of three, four, or
-any greater number of factors under any number of assumed conditions,
-until we symbolize a solar system; but to the last an account of our
-symbolic solar system is as far from an account of the actual solar
-system as fiction is from biography.
-
-Even more obvious, if it be possible, does the radical character
-of this distinction become, on observing that from the simplest
-proposition of General Mechanics we may pass to the most complex
-proposition of Celestial Mechanics, without a break. We take a body
-moving at a uniform velocity, and commence with the proposition that
-it will continue so to move for ever. Next, we state the law of its
-accelerated motion in the same line, when subject to a uniform force.
-We further complicate the proposition by supposing the force to
-increase in consequence of approach towards an attracting body; and we
-may formulate a series of laws of acceleration, resulting from so many
-assumed laws of increasing attraction (of which the law of gravitation
-is one). Another factor may now be added by supposing the body to have
-motion in a direction other than that of the attracting body; and we
-may determine, according to the ratios of the supposed forces, whether
-its course will be hyperbolic, parabolic, elliptical, or circular—we
-may begin with this hypothetical additional force as infinitesimal, and
-formulate the varying results as it is little by little increased. The
-problem is complicated a degree more by taking into account the effects
-of a third force, acting in some other direction; and beginning with an
-infinitesimal amount of this force we may reach any amount. Similarly,
-by introducing factor after factor, {117} each at first insensible in
-proportion to the rest, we arrive, through an infinity of gradations,
-at a combination of any complexity.
-
-Thus, then, the Science which deals with the inter-action of
-hypothetical bodies in space, is _absolutely continuous_ with General
-Mechanics. We have already seen that it is _absolutely discontinuous_
-with that account of the heavenly bodies which has been called
-Astronomy from the beginning. When these facts are recognized, it seems
-to me that there cannot remain a doubt respecting its true place in a
-classification of the Sciences.
-
-
-ENDNOTES TO _THE CLASSIFICATION OF THE SCIENCES_.
-
-[2] I have been charged with misrepresenting Kant and misunderstanding
-him, because I have used the expression “forms of Thought” instead of
-“forms of Intuition.” Elsewhere I have shown that my argument against
-him remains equally valid when the phrase “forms of Intuition” is used.
-Here I may in the first place add that I did but follow some Kantists
-in saying “forms of Thought,” and I may add in the second place that
-the objection is superficial and quite irrelevant to the issue. Thought
-when broadly used as antithetical to Things includes Intuition: it
-comprehends in this sense all that is subjective as distinguished from
-all that is objective, and in so doing comprehends Intuition. Nor is
-this all. There cannot be Intuition without Thought: every act of
-intuition implies an act of classing without which the thing intuited
-is not known as such or such; and every act of classing is an act of
-thought.
-
-[3] Some propositions laid down by M. Littré, in his book—_Auguste
-Comte et la Philosophie Positive_ (published in 1863), may fitly be
-dealt with here. In the candid and courteous reply he makes to my
-strictures on the Comtean classification in “The Genesis of Science,”
-he endeavours to clear up some of the inconsistencies I pointed out;
-and he does this by drawing a distinction between objective generality
-and subjective generality. He says—“qu’il existe deux ordres de
-généralité, l’une objective et dans les choses, l’autre subjective,
-abstraite et dans l’esprit.” This sentence, in which M. Littré makes
-subjective generality synonymous with abstractness, led me at first
-to conclude that he had in view the same distinction as that which
-I have above explained between generality and abstractness. On
-re-reading the paragraph, however, I found this was not the case. In
-a previous sentence he says—“La biologie a passé de la considération
-des organes à celles des tissus, plus généraux que les organes, et
-de la considération des tissus à celle des éléments anatomiques,
-plus généraux que les tissus. Mais cette généralité croissante est
-subjective non objective, abstraite non concrète.” Here it is manifest
-that abstract and concrete, are used in senses analogous to those in
-which they are used by M. Comte; who, as we have seen, regards general
-physiology as abstract and zoology and botany as concrete. And it is
-further manifest that the word abstract, as thus used, is not used
-in its proper sense. For, as above shown, no such facts as those of
-anatomical structure can be abstract facts; but can only be more or
-less general facts. Nor do I understand M. Littré’s point of view
-when he regards these more general facts of anatomical structure, as
-_subjectively_ general and not _objectively_ general. The structural
-phenomena presented by any tissue, such as mucous membrane, are more
-general than the phenomena presented by any of the organs which mucous
-membrane goes to form, simply in the sense that the phenomena peculiar
-to the membrane are repeated in a greater number of instances than
-the phenomena peculiar to any organ into the composition of which the
-membrane enters. And, similarly, such facts as have been established
-respecting the anatomical elements of tissues, are more general than
-the facts established respecting any particular tissue, in the sense
-that they are facts which the various parts of organized bodies exhibit
-in a greater number of cases—they are _objectively_ more general; and
-they can be called _subjectively_ more general only in the sense that
-the conception corresponds with the phenomena.
-
-Let me endeavour to clear up this point:—There is, as M. Littré
-truly says, a decreasing generality that is objective. If we omit
-the phenomena of Dissolution, which are changes from the special to
-the general, all changes which matter undergoes are from the general
-to the special—are changes involving a decreasing generality in the
-united groups of attributes. This is the progress of _things_. The
-progress of _thought_, is not only in the same direction, but also
-in the opposite direction. The investigation of Nature discloses an
-increasing number of specialities; but it simultaneously discloses more
-and more the generalities within which these specialities fall. Take a
-case. Zoology, while it goes on multiplying the number of its species,
-and getting a more complete knowledge of each species (decreasing
-generality); also goes on discovering the common characters by which
-species are united into larger groups (increasing generality). Both
-these are subjective processes; and in this case, both orders of truth
-reached are concrete—formulate the phenomena as actually manifested.
-The truth that mammals of all kinds have seven cervical vertebræ (I
-believe there is one exception) is a generalization—a general relation
-in thought answering to a general relation in things. As the existence
-of seven cervical vertebræ in each mammal is a concrete fact, the
-statement of it is a concrete truth, and the statement colligating such
-truths is not made other than concrete by holding of case after case.
-
-M. Littré, recognizing the necessity for some modification of the
-hierarchy of the Sciences, as enunciated by M. Comte, still regards it
-as substantially true; and for proof of its validity, he appeals mainly
-to the essential _constitutions_ of the Sciences. It is unnecessary
-for me here to meet, in detail, the arguments by which he supports
-the proposition, that the essential constitutions of the Sciences,
-justify the order in which M. Comte places them. It will suffice to
-refer to the foregoing pages, and to the pages which are to follow, as
-containing the definitions of those fundamental characteristics which
-demand the grouping of the Sciences in the way I have pointed out. As
-already shown, and as will be shown still more clearly by and bye, the
-radical differences of constitution among the Sciences, necessitate the
-colligation of them into the three classes—Abstract, Abstract-Concrete,
-and Concrete. How irreconcilable is M. Comte’s classification with
-these groups, will be at once apparent on inspection. It stands thus:―
-
- Mathematics
-  (including rational Mechanics),    partly Abstract, partly
-                                       Abstract-Concrete.
- Astronomy                           Concrete.
- Physics                             Abstract-Concrete.
- Chemistry                           Abstract-Concrete.
- Biology                             Concrete.
- Sociology                           Concrete.
-
-[4] This definition includes the laws of relations called necessary,
-but not those of relations called contingent. These last, in which the
-probability of an inferred connexion varies with the number of times
-such connexion has occurred in experience, are rightly dealt with
-mathematically.
-
-[5] Here, by way of explanation of the term negatively-quantitative,
-it will suffice to instance the proposition that certain three lines
-will meet in a point, as a negatively-quantitative proposition;
-since it asserts the absence of any quantity of space between their
-intersections. Similarly, the assertion that certain three points will
-always fall in a straight line, is negatively-quantitative; since the
-conception of a straight line implies the negation of any lateral
-quantity, or deviation.
-
-[6] Lest the meaning of this division should not be understood, it may
-be well to name, in illustration, the estimates of the statistician.
-Calculations respecting population, crime, disease, etc., have
-results which are correct only numerically, and not in respect of the
-totalities of being or action represented by the numbers.
-
-[7] Perhaps it will be asked—how can there be a Geometry of Motion into
-which the conception of Force does not enter? The reply is, that the
-time-relations and space-relations of Motion may be considered apart
-from those of Force, in the same way that the space-relations of Matter
-may be considered apart from Matter.
-
-[8] I am indebted to Prof. Frankland for reminding me of an objection
-that may be made to this statement. The production of new compounds
-by synthesis, has of late become an important branch of chemistry.
-According to certain known laws of composition, complex substances,
-which never before existed, are formed, and fulfil anticipations both
-as to their general properties and as to the proportions of their
-constituents—as proved by analysis. Here it may be said with truth,
-that analysis is used to verify synthesis. Nevertheless, the exception
-to the above statement is apparent only,—not real. In so far as the
-production of new compounds is carried on merely for the obtainment
-of such new compounds, it is not Science but Art—the application of
-pre-established knowledge to the achievement of ends. The proceeding
-is a part of Science, only in so far as it is a means to the better
-interpretation of the order of Nature. And how does it aid the
-interpretation? It does it only by verifying the pre-established
-conclusions respecting the laws of molecular combination; or by serving
-further to explain them. That is to say, these syntheses, considered
-on their scientific side, have simply the purpose of _forwarding the
-analysis of the laws of chemical combination_.
-
-[9] This must not be supposed to mean chemically-produced forces. The
-molecular motion here referred to as dissipated in radiations, is the
-equivalent of that sensible motion lost during the integration of the
-mass of molecules, consequent on their mutual gravitation.
-
-[10] Embracing the interpretation of such phenomena as the solar spots,
-the faculæ and the coronal flames.
-
-[11] Want of space prevents anything beyond the briefest indication of
-these subdivisions.
-
-[12] Perhaps some will say that such incidental phenomena as those of
-the heat and light evolved during chemical changes, are to be included
-among chemical phenomena. I think, however, the physicist will hold
-that all phenomena of re-distributed molecular motion, no matter how
-arising, come within the range of Physics. But whatever difficulty
-there may be in drawing the line between Physics and Chemistry (and,
-as I have incidentally pointed out in _The Principles of Psychology_,
-§ 55, the two are closely linked by the phenomena of allotropy and
-isomerism), applies equally to the Comtean classification, or to any
-other. And I may further point out that no obstacle hence arises to the
-classification I am defending. Physics and Chemistry being both grouped
-by me as Abstract-Concrete Sciences, no difficulty in satisfactorily
-dividing them in the least affects the satisfactoriness of the division
-of the great group to which they both belong, from the other two great
-groups.
-
-[13] It may be said that the mingling of problems and theorems in
-Euclid is not quite consistent with this statement; and it is true that
-we have, in this mingling, a trace of the earlier form of the science.
-But it is to be remarked that these problems are all purely abstract,
-and, further, that each of them admits of being expressed as a theorem.
-
-
-
-
-{118}
-
-REASONS FOR DISSENTING FROM THE PHILOSOPHY OF M. COMTE.
-
-
-[_Originally published in April 1864 as an appendix to the foregoing
-essay._]
-
-While the preceding pages were passing through the press, there
-appeared in the _Revue des Deux Mondes_ for February 15th, 1864, an
-article on a late work of mine—_First Principles_. To M. Auguste
-Laugel, the writer of the article, I am much indebted for the careful
-exposition he has made of some of the leading views set forth in that
-work; and for the catholic and sympathetic spirit in which he has dealt
-with them. In one respect, however, M. Laugel conveys to his readers
-an erroneous impression—an impression doubtless derived from what
-appears to him adequate evidence, and doubtless expressed in perfect
-sincerity. M. Laugel describes me as being, in part, a follower of
-M. Comte. After describing the influence of M. Comte as traceable in
-the works of some other English writers, naming especially Mr. Mill
-and Mr. Buckle, he goes on to say that this influence, though not
-avowed, is easily recognizable in the work he is about to make known;
-and in several places throughout his review, there are remarks having
-the same implication. I greatly regret having to take exception to
-anything said by a critic so candid and so able. But the _Revue des
-Deux Mondes_ {119} circulates widely in England, as well as elsewhere;
-and finding that there exists in some minds, both here and in America,
-an impression similar to that entertained by M. Laugel—an impression
-likely to be confirmed by his statement—it appears to me needful to
-meet it.
-
-Two causes of quite different kinds, have conspired to diffuse the
-erroneous belief that M. Comte is an accepted exponent of scientific
-opinion. His bitterest foes and his closest friends, have unconsciously
-joined in propagating it. On the one hand, M. Comte having designated
-by the term “Positive Philosophy” all that definitely-established
-knowledge which men of science have been gradually organizing into
-a coherent body of doctrine; and having habitually placed this in
-opposition to the incoherent body of doctrine defended by theologians;
-it has become the habit of the theological party to think of the
-antagonist scientific party, under the title of “positivists.” And
-thus, from the habit of calling them “positivists,” there has grown
-up the assumption that they call themselves “positivists,” and that
-they are disciples of M. Comte. On the other hand, those who have
-accepted M. Comte’s system, and believe it to be the philosophy of the
-future, have naturally been prone to see everywhere the signs of its
-progress; and wherever they have found opinions in harmony with it,
-have ascribed these opinions to the influence of its originator. It
-is always the tendency of discipleship to magnify the effects of the
-master’s teachings; and to credit the master with all the doctrines he
-teaches. In the minds of his followers, M. Comte’s name is associated
-with scientific thinking, which, in many cases, they first understood
-from his exposition of it. Influenced as they inevitably are by this
-association of ideas, they are reminded of M. Comte wherever they meet
-with thinking which corresponds, in some marked way, to M. Comte’s
-description of scientific thinking; and hence are apt to imagine him
-as introducing into other minds, the {120} conceptions which he
-introduced into their minds. Such impressions are, however, in most
-cases quite unwarranted. That M. Comte has given a general exposition
-of the doctrine and method elaborated by Science, is true. But it
-is not true that the holders of this doctrine and followers of this
-method, are disciples of M. Comte. Neither their modes of inquiry
-nor their views concerning human knowledge in its nature and limits,
-are appreciably different from what they were before. If they are
-“positivists,” it is in the sense that all men of science have been
-more or less consistently “positivists;” and the applicability of M.
-Comte’s title to them, no more makes them his disciples, than does its
-applicability to men of science who lived and died before M. Comte
-wrote, make these his disciples. M. Comte himself by no means claims
-that which some of his adherents are apt, by implication, to claim
-for him. He says:—“Il y a, sans doute, beaucoup d’analogie entre ma
-_philosophie positive_ et ce que les savans anglais entendent, depuis
-Newton surtout, par _philosophie naturelle_;” (see _Avertissement_) and
-further on he indicates the “grand mouvement imprimé à l’esprit humain,
-il y a deux siècles, par l’action combinée des préceptes de Bacon,
-des conceptions de Descartes, et des découvertes de Galilée, comme le
-moment où l’esprit de la philosophie positive a commencé à se prononcer
-dans le monde.” That is to say, the general mode of thought and way of
-interpreting phenomena, which M. Comte calls “Positive Philosophy,” he
-recognizes as having been growing for two centuries; as having reached,
-when he wrote, a marked development; and as being the heritage of all
-men of science.
-
-That which M. Comte proposed to do, was to give scientific thought
-and method a more definite embodiment and organization; and to apply
-it to the interpretation of classes of phenomena not previously dealt
-with in a scientific manner. The conception was a great one; and the
-endeavour to work it out was worthy of sympathy and {121} applause.
-Some such conception was entertained by Bacon. He, too, aimed at the
-organization of the sciences; he, too, held that “Physics is the mother
-of all the sciences;” he, too, held that the sciences can be advanced
-only by combining them, and saw the nature of the required combination;
-he, too, held that moral and civil philosophy could not flourish when
-separated from their roots in natural philosophy; and thus he, too,
-had some idea of a social science growing out of physical science.
-But the state of knowledge in his day prevented any advance beyond
-the general conception: indeed, it was marvellous that he should have
-advanced so far. Instead of a vague, undefined conception, M. Comte has
-presented the world with a defined and highly-elaborated conception.
-In working out this conception he has shown remarkable breadth of
-view, great originality, immense fertility of thought, unusual powers
-of generalization. Considered apart from the question of its truth,
-his system of Positive Philosophy is a vast achievement. But after
-according to M. Comte high admiration for his conception, for his
-effort to realize it, and for the faculty he has shown in the effort to
-realize it, there remains the inquiry—Has he succeeded? A thinker who
-re-organizes the scientific method and knowledge of his age, and whose
-re-organization is accepted by his successors, may rightly be said
-to have such successors for his disciples. But successors who accept
-this method and knowledge of his age, _minus_ his re-organization,
-are certainly not his disciples. How then stands the case with M.
-Comte? There are some few who receive his doctrines with but little
-reservation; and these are his disciples truly so called. There are
-others who regard with approval certain of his leading doctrines,
-but not the rest: these we may distinguish as partial adherents.
-There are others who reject all his distinctive doctrines; and these
-must be classed as his antagonists. The members of this class stand
-substantially in the same position as they would {122} have done had
-he not written. Declining his re-organization of scientific doctrine,
-they possess this scientific doctrine in its pre-existing state, as
-the common heritage bequeathed by the past to the present; and their
-adhesion to this scientific doctrine in no sense implicates them with
-M. Comte. In this class stand the great body of men of science. And in
-this class I stand myself.
-
-       *       *       *       *       *
-
-Coming thus to the personal part of the question, let me first specify
-those great general principles on which M. Comte is at one with
-preceding thinkers; and on which I am at one with M. Comte.
-
-All knowledge is from experience, holds M. Comte; and this I also
-hold—hold it, indeed, in a wider sense than M. Comte; since, not
-only do I believe that all the ideas acquired by individuals, and
-consequently all the ideas transmitted by past generations, are thus
-derived; but I also contend that the very faculties by which they are
-acquired, are the products of accumulated and organized experiences
-received by ancestral races of beings (see _Principles of Psychology_).
-But the doctrine that all knowledge is from experience, is not
-originated by M. Comte; nor is it claimed by him. He himself says—“Tous
-les bons esprits répètent, depuis Bacon, qu’il n’y a de connaissances
-réelles que celles qui reposent sur des faits observés.” And the
-elaboration and definite establishment of this doctrine, has been the
-special characteristic of the English school of Psychology. Nor am I
-aware that M. Comte, accepting this doctrine, has done anything to
-make it more certain, or give it greater definiteness. Indeed it was
-impossible for him to do so; since he repudiates that part of mental
-science by which alone this doctrine can be proved.
-
-It is a further belief of M. Comte, that all knowledge is phenomenal
-or relative; and in this belief I entirely agree. But no one alleges
-that the relativity of all knowledge was first enunciated by M. Comte.
-Among others who have {123} more or less consistently held this truth,
-Sir William Hamilton enumerates, Protagoras, Aristotle, St. Augustin,
-Boethius, Averroes, Albertus Magnus, Gerson, Leo Hebræus, Melancthon,
-Scaliger, Francis Piccolomini, Giordano Bruno, Campanella, Bacon,
-Spinoza, Newton, Kant. And Sir William Hamilton, in his “Philosophy of
-the Unconditioned,” first published in 1829, has given a scientific
-demonstration of this belief. Receiving it in common with other
-thinkers, from preceding thinkers, M. Comte has not, to my knowledge,
-advanced this belief. Nor indeed could he advance it, for the reason
-already given—he denies the possibility of that analysis of thought
-which discloses the relativity of all cognition.
-
-M. Comte reprobates the interpretation of different classes of
-phenomena by assigning metaphysical entities as their causes; and I
-coincide in the opinion that the assumption of such separate entities,
-though convenient, if not indeed necessary, for purposes of thought,
-is, scientifically considered, illegitimate. This opinion is, in fact,
-a corollary from the last; and must stand or fall with it. But like the
-last it has been held with more or less consistency for generations. M.
-Comte himself quotes Newton’s favorite saying—“O! Physics, beware of
-Metaphysics!” Neither to this doctrine, any more than to the preceding
-doctrines, has M. Comte given a firmer basis. He has simply reasserted
-it; and it was out of the question for him to do more. In this case, as
-in the others, his denial of subjective psychology debarred him from
-proving that these metaphysical entities are mere symbolic conceptions
-which do not admit of verification.
-
-Lastly, M. Comte believes in invariable natural laws—absolute
-uniformities of relation among phenomena. But very many before him
-have believed in them too. Long familiar even beyond the bounds of the
-scientific world, the proposition that there is an unchanging order in
-things, has, within the scientific world, held, for generations, the
-{124} position of an established postulate: by some men of science
-recognized only as holding of inorganic phenomena; but recognized
-by other men of science, as universal. And M. Comte, accepting this
-doctrine from the past, has left it substantially as it was. Though
-he has asserted new uniformities, I do not think scientific men will
-admit that he has so demonstrated them, as to make the induction
-more certain; nor has he deductively established the doctrine, by
-showing that uniformity of relation is a necessary corollary from the
-persistence of force, as may readily be shown.
-
-These, then, are the pre-established general truths with which M.
-Comte sets out—truths which cannot be regarded as distinctive of his
-philosophy. “But why,” it will perhaps be asked, “is it needful to
-point out this; seeing that no instructed reader supposes these truths
-to be peculiar to M. Comte?” I reply that though no disciple of M.
-Comte would deliberately claim them for him; and though no theological
-antagonist at all familiar with science and philosophy, supposes M.
-Comte to be the first propounder of them; yet there is so strong a
-tendency to associate any doctrines with the name of a conspicuous
-recent exponent of them, that false impressions are produced, even in
-spite of better knowledge. Of the need for making this reclamation,
-definite proof is at hand. In the No. of the _Revue des Deux Mondes_
-named at the commencement, may be found, on p. 936, the words—“Toute
-religion, comme toute philosophie, a la prétention de donner une
-explication de l’univers. La philosophie qui s’appelle _positive_ se
-distingue de toutes les philosophies et de toutes les religions en
-ce qu’elle a renoncé à cette ambition de l’esprit humain;” and the
-remainder of the paragraph is devoted to explaining the doctrine of the
-relativity of knowledge. The next paragraph begins—“Tout imbu de ces
-idées, que nous exposons sans les discuter pour le moment, M. Spencer
-divise, etc.” Now this is one of those collocations of ideas {125}
-which tends to create, or to strengthen, the erroneous impression I
-would dissipate. I do not for a moment suppose that M. Laugel intended
-to say that these ideas which he describes as ideas of the “Positive
-Philosophy,” are peculiarly the ideas of M. Comte. But little as he
-probably intended it, his expressions suggest this conception. In the
-minds of both disciples and antagonists, “the Positive Philosophy”
-means the philosophy of M. Comte; and to be imbued with the ideas
-of “the Positive Philosophy” means to be imbued with the ideas of
-M. Comte—to have received these ideas from M. Comte. After what has
-been said above, I need scarcely repeat that the conception thus
-inadvertently suggested, is a wrong one. M. Comte’s brief enunciations
-of these general truths, gave me no clearer apprehensions of them than
-I had before. Such clarifications of ideas on these ultimate questions,
-as I can trace to any particular teacher, I owe to Sir William Hamilton.
-
-       *       *       *       *       *
-
-From the principles which M. Comte held in common with many preceding
-and contemporary thinkers, let us pass now to the principles that are
-distinctive of his system. Just as entirely as I agree with M. Comte
-on those cardinal doctrines which we jointly inherit; so entirely do I
-disagree with him on those cardinal doctrines which he propounds, and
-which determine the organization of his philosophy. The best way of
-showing this will be to compare, side by side, the―
-
- _Propositions held by M. Comte._     _Propositions which I hold._
-
- “. . . chacune de nos conceptions    The progress of our conceptions,
- principales, chaque branche          and of each branch of knowledge,
- de nos connaissances, passe          is from beginning to end
- successivement par trois états       intrinsically alike. There are not
- théoriques différens: l’état         three methods of philosophizing
- théologique, ou fictif; l’état       radically opposed; but one method
- métaphysique, ou abstrait;           of philosophizing which remains,
- l’état scientifique, ou positif.     in essence, the same. At first,
- En d’autres termes, l’esprit         and to the last, the conceived
- humain, par sa nature, emploie       causal agencies of phenomena,
- successivement dans chacune de       have a degree of generality
- ses recherches trois méthodes de     corresponding {126} to the width
- philosopher, dont le caractère       of the generalizations which
- est essentiellement différent et     experiences have determined; and
- même radicalement opposé: d’abord    they change just as gradually
- la méthode théologique, ensuite      as experiences accumulate. The
- la méthode métaphysique, et enfin    integration of causal agencies,
- la méthode positive.” _Cours de_      originally thought of as
- _Philosophie Positive_, 1830, Vol.    multitudinous and local, but
- i. p. 3.                             finally believed to be one and
-                                      universal, is a process which
-                                      involves the passing through all
-                                      intermediate steps between these
-                                      extremes; and any appearance of
-                                      stages can be but superficial.
-                                      Supposed concrete and individual
-                                      causal agencies, coalesce in
-                                      the mind as fast as groups of
-                                      phenomena are assimilated, or seen
-                                      to be similarly caused. Along
-                                      with their coalescence, comes
-                                      a greater extension of their
-                                      individualities, and a concomitant
-                                      loss of distinctness in their
-                                      individualities. Gradually, by
-                                      continuance of such coalescences,
-                                      causal agencies become, in
-                                      thought, diffused and indefinite.
-                                      And eventually, without any change
-                                      in the nature of the process,
-                                      there is reached the consciousness
-                                      of a universal causal agency,
-                                      which cannot be conceived.[14]
-
- “Le système théologique est          As the progress of thought is
- parvenu à la plus haute perfection   one, so is the end one. There
- dont il soit susceptible,            are not three possible terminal
- quand il a substitué l’action        conceptions; but only a single
- providentielle d’un être unique au   terminal conception. When
- jeu varié des nombreuses divinités   the theological idea of the
- indépendantes qui avaient été        providential action of one being,
- imaginées primitivement. De même,    is developed to its ultimate
- le dernier terme du système          form, by the absorption of all
- metaphysique consiste à concevoir,   independent secondary agencies,
- au lieu des différentes entités      it becomes the conception of a
- particulières, une seule grande      being immanent in all phenomena;
- entité générale, la _nature_,        and the reduction of it to
- envisagée comme la source            this {127} state, implies the
- unique de tous les phénomènes.       fading-away, in thought, of all
- Pareillement, la perfection du       those anthropomorphic attributes
- système positif, vers laquelle       by which the aboriginal idea
- il tend sans cesse, quoiqu’il        was distinguished. The alleged
- soit très-probable qu’il ne doive    last term of the metaphysical
- jamais l’atteindre, serait de        system—the conception of a
- pouvoir se représenter tous les      single great general entity,
- divers phénomènes observables        _nature_, as the source of all
- comme des cas particuliers d’un      phenomena—is a conception
- seul fait général, tel que celui     identical with the previous one:
- de la gravitation, par exemple.”     the consciousness of a single
- p. 5.                                source which, in coming to be
-                                      regarded as universal, ceases
-                                      to be regarded as conceivable,
-                                      differs in nothing but name from
-                                      the consciousness of one being,
-                                      manifested in all phenomena. And
-                                      similarly, that which is described
-                                      as the ideal state of science—the
-                                      power to represent all observable
-                                      phenomena as particular cases
-                                      of a single general fact,
-                                      implies the postulating of some
-                                      ultimate existence of which this
-                                      single fact is alleged; and the
-                                      postulating of this ultimate
-                                      existence, involves a state of
-                                      consciousness indistinguishable
-                                      from the other two.
-
- “. . . la perfection du système      Though along with the extension
- positif, vers laquelle il tend       of generalizations, and
- sans cesse, quoiqu’il soit           concomitant integration of
- très-probable, qu’il ne doive        conceived causal agencies, the
- jamais l’atteindre, serait de        conceptions of causal agencies
- pouvoir se représenter tous les      grow more indefinite; and though
- divers phénomènes observables        as they gradually coalesce into
- comme des cas particuliers d’un      a universal causal agency,
- seul fait general, p. 5. . . . . .   they cease to be representable
- considérant comme absolument         in thought, and are no longer
- inaccessible, et vide de sens        supposed to be comprehensible;
- pour nous la recherche de ce         yet the consciousness of _cause_
- qu’on appelle les _causes_, soit     remains as dominant to the last
- premières, soit finales.” p. 14.     as it was at first; and can never
-                                      be got rid of. The consciousness
-                                      of cause can be abolished only
-                                      by abolishing consciousness
-                                      itself.[15] (_First Principles_, §
-                                      26.) {128}
-
- “Ce n’est pas aux lecteurs de cet    Ideas do not govern and
- ouvrage que je croirai jamais        overthrow the world: the world
- devoir prouver que les idées         is governed or overthrown by
- gouvernent et bouleversent le        feelings, to which ideas serve
- monde, ou, en d’autres termes, que   only as guides. The social
- tout le mécanisme social repose      mechanism does not rest finally
- finalement sur des opinions. Ils     on opinions; but almost wholly
- savent surtout que la grande         on character. Not intellectual
- crise politique et morale des        anarchy, but moral antagonism, is
- sociétés actuelles tient, en         the cause of political crises.
- dernière analyse, à l’anarchie       All social phenomena are produced
- intellectuelle.” p. 48.[16]           by the totality of human emotions
-                                      and beliefs; of which the emotions
-                                      are mainly pre-determined,
-                                      while the beliefs are mainly
-                                      post-determined. Men’s desires
-                                      are chiefly inherited; but their
-                                      beliefs are chiefly acquired,
-                                      and depend on surrounding
-                                      conditions; and the most important
-                                      surrounding conditions depend
-                                      on the social state which the
-                                      prevalent desires have produced.
-                                      The social state at any time
-                                      existing, is the resultant of all
-                                      the ambitions, self-interests,
-                                      fears, reverences, indignations,
-                                      sympathies, etc., of ancestral
-                                      citizens and existing citizens.
-                                      The ideas current in this social
-                                      state, must, on the average, be
-                                      congruous with the feelings of
-                                      citizens; and therefore, on the
-                                      average, with the social state
-                                      these feelings have produced.
-                                      Ideas wholly foreign to this
-                                      social state {129} cannot be
-                                      evolved, and if introduced from
-                                      without, cannot get accepted—or,
-                                      if accepted, die out when the
-                                      temporary phase of feeling which
-                                      caused their acceptance, ends.
-                                      Hence, though advanced ideas when
-                                      once established, act on society
-                                      and aid its further advance;
-                                      yet the establishment of such
-                                      ideas depends on the fitness of
-                                      the society for receiving them.
-                                      Practically, the popular character
-                                      and the social state, determine
-                                      what ideas shall be current;
-                                      instead of the current ideas
-                                      determining the social state and
-                                      the character. The modification
-                                      of men’s moral natures, caused
-                                      by the continuous discipline of
-                                      social life, which adapts them
-                                      more and more to social relations,
-                                      is therefore the chief proximate
-                                      cause of social progress. (_Social_
-                                      _Statics_, chap. xxx.)
-
- “. . . je ne dois pas négliger       The order in which the
- d’indiquer d’avance, comme une       generalizations of science are
- propriété essentielle de l’échelle   established, is determined by
- encyclopédique que je vais           the frequency and impressiveness
- proposer, sa conformité générale     with which different classes
- avec l’ensemble de l’histoire        of relations are repeated in
- scientifique; en ce sens, que,       conscious experience; and this
- malgré la simultanéité réelle et     depends, partly on _the directness_
- continue du développement des        _with which personal welfare_
- différentes sciences, celles qui     _is affected_; partly on _the_
- seront classées comme antérieures    _conspicuousness of one or both the_
- seront, en effet, plus anciennes     _phenomena between which a relation_
- et constamment plus avancées         _is to be perceived_; partly on
- que celles présentées comme          _the absolute frequency with which_
- postérieures.” p. 84. . .            _the relations occur_; partly on
-  . . . . . . “Cet ordre est          their _relative frequency of_
- déterminé par le degré de            _occurrence_; partly on their
- simplicité, ou, ce qui revient au    _degree of simplicity_; and partly
- même, par le degré de généralité     on their _degree of abstractness_.
- des phénomènes.” p. 87.              (_First Principles_, 1st ed., §
-                                      36; or otherwise see “_Essay on_
-                                      _Laws in General and the Order of_
-                                      _their Discovery_.”)
-
- “En résultat définitif, la           The sciences as arranged in this
- mathématique, l’astronomie,          succession specified by M. Comte,
- la physique, la chimie, la           _do not_ logically conform to the
- physiologie, et la physique          natural and invariable hierarchy
- sociale; telle est la formule        of phenomena; and {130} there
- encyclopédique qui, parmi            is no serial order whatever in
- le très-grand nombre de              which they can be placed, which
- classifications que comportent les   represents either their logical
- six sciences fondamentales, est      dependence or the dependence
- seule logiquement conforme à la      of phenomena. (See _Genesis of
- hiérarchie naturelle et invariable   Science_, and foregoing Essay.)
- des phénomènes.”[17] p. 115.
-
- “On conçoit, en effet, que l’étude   The historical development of
- rationelle de chaque science         the sciences _has not_ taken
- fondamentale exigeant la culture     place in this serial order; nor
- préalable de toutes celles qui la    in any other serial order. There
- précèdent dans notre hiérarchie      is no “true _filiation_ of the
- encyclopédique, n’a pu faire de      sciences.” From the beginning,
- progrès réels et prendre son         the abstract sciences, the
- véritable caractère, qu’ après un    abstract-concrete sciences, and
- grand développement des sciences     the concrete sciences, have
- antérieures relatives à des          progressed together: the first
- phénomènes plus généraux, plus       solving problems which the second
- abstraits, moins compliqués, et      and third presented, and growing
- indépendans des autres. C’est done   only by the solution of the
- dans cet ordre que la progression,   problems; and the second similarly
- quoique simultanée, a dû avoir       growing by joining the first
- lieu.” p. 100.                       in solving the problems of the
-                                      third. All along there has been
-                                      a continuous action and reaction
-                                      between the three great classes
-                                      of sciences—an advance from
-                                      concrete facts to abstract facts,
-                                      and then an application of such
-                                      abstract facts to the analysis of
-                                      new orders of concrete facts. (See
-                                      _Genesis of Science_.)
-
-Such then are the organizing principles of M. Comte’s philosophy and
-my reasons for rejecting them. Leaving out of his “_Exposition_” those
-pre-established general {131} doctrines which are the common property
-of modern thinkers; these are the general doctrines which remain—these
-are the doctrines which fundamentally distinguish his system. From
-every one of them I dissent. To each proposition I oppose either a
-widely-different proposition, or a direct negation; and I not only
-do it now, but have done it from the time when I became acquainted
-with his writings. The rejection of his cardinal principles should, I
-think, alone suffice; but there are sundry other views of his, some of
-them largely characterizing his system, which I equally reject. Let us
-glance at them.
-
- How organic beings have              This inquiry, I believe, admits
- originated, is an inquiry which      of answer, and will be answered.
- M. Comte deprecates as a useless     That division of Biology which
- speculation: asserting, as he        concerns itself with the origin of
- does, that species are immutable.    species, I hold to be the supreme
-                                      division, to which all others are
-                                      subsidiary. For on the verdict
-                                      of Biology on this matter, must
-                                      wholly depend our conception of
-                                      human nature, past, present, and
-                                      future; our theory of the mind;
-                                      and our theory of society.
-
- M. Comte contends that of what is    I have very emphatically expressed
- commonly known as mental science,    my belief in a subjective science
- all that most important part         of the mind, by writing a
- which consists of the subjective     _Principles of Psychology_, one
- analysis of our ideas, is an         half of which is subjective.
- impossibility.
-
- M. Comte’s ideal of society          That form of society towards which
- is one in which _government_         we is are progressing, I hold
- developed to the greatest            to be one in which _government_
- extent—in which class-functions     will be reduced to the smallest
- are far more under conscious         amount possible, and _freedom_
- public regulation than now—in       increased to the greatest amount
- which hierarchical organization      possible—one in which human
- with unquestioned authority          nature will have become so moulded
- shall guide everything—in which     by social discipline into fitness
- the individual life shall be         for the social state, that it will
- subordinated in the greatest         need little external restraint,
- degree to the social life.           but will be self-restrained—one
-                                      in which the citizen will tolerate
-                                      no interference with his freedom,
-                                      save that which maintains the
-                                      equal freedom of others—one in
-                                      which the spontaneous {132}
-                                      co-operation which has developed
-                                      our industrial system, and is now
-                                      developing it with increasing
-                                      rapidity, will produce agencies
-                                      for the discharge of nearly all
-                                      social functions, and will leave
-                                      to the primary governmental agency
-                                      nothing beyond the function of
-                                      maintaining those conditions
-                                      to free action, which make
-                                      such spontaneous co-operation
-                                      possible—one in which individual
-                                      life will thus be pushed to the
-                                      greatest extent consistent with
-                                      social life; and in which social
-                                      life will have no other end than
-                                      to maintain the completest sphere
-                                      for individual life.
-
- M. Comte, not including in his       I conceive, on the other hand,
- philosophy the consciousness of      that the object of religious
- a cause manifested to us in all      sentiment will ever continue
- phenomena, and yet holding that      to be, that which it has ever
- there must be a religion, which      been—the unknown source of
- must have an object, takes for his   things. While the _forms_ under
- object—Humanity. “This Collective    which men are conscious of the
- Life (of Society) is in Comte’s      unknown source of things, may
- system the _Être Suprême_; the       fade away, the _substance_ of
- only one we can _know_ therefore     the consciousness is permanent.
- the only one we can worship.”        Beginning with causal agents
-                                      conceived as imperfectly known;
-                                      progressing to causal agents
-                                      conceived as less known and less
-                                      knowable; and coming at last to
-                                      a universal causal agent posited
-                                      as not to be known at all; the
-                                      religious sentiment must ever
-                                      continue to occupy itself with
-                                      this universal causal agent.
-                                      Having in the course of evolution
-                                      come to have for its object
-                                      of contemplation the Infinite
-                                      Unknowable, the religious
-                                      sentiment can never again (unless
-                                      by retrogression) take a Finite
-                                      Knowable, like Humanity, for its
-                                      object of contemplation.
-
-Here, then, are sundry other points, all of them important, and the
-last two supremely important, on which I am diametrically opposed to
-M. Comte; and did space permit, I could add many others. Radically
-differing from him as I thus do, in everything distinctive of his
-philosophy; and having invariably expressed my dissent, {133} publicly
-and privately, from the time I became acquainted with his writings;
-it may be imagined that I have been not a little startled to find
-myself classed as one of the same school. That any who are acquainted
-with my writings, should suppose I have any general sympathy with M.
-Comte, save that implied by preferring proved facts to superstitions,
-astonishes me.
-
-It is true that, disagreeing with M. Comte, though I do, in all those
-fundamental views that are peculiar to him, I agree with him in
-sundry minor views. The doctrine that the education of the individual
-should accord in mode and arrangement with the education of mankind,
-considered historically, I have cited from him; and have endeavoured to
-enforce it. I entirely concur in his opinion that there requires a new
-order of scientific men, whose function shall be that of co-ordinating
-the results arrived at by the rest. To him, I believe, I am indebted
-for the conception of a social _consensus_; and when the time comes for
-dealing with this conception, I shall state my indebtedness. And I also
-adopt his word, Sociology. There are, I believe, in the part of his
-writings which I have read, various incidental thoughts of great depth
-and value; and I doubt not that were I to read more of his writings, I
-should find others.[18] It is very probable, too, that I have said (as
-I am told I have) some things which M. Comte had already said. It would
-be difficult, I believe, to find two men who had no opinions in common.
-And it would be extremely strange if two men, starting from the same
-general doctrines established by modern science, should traverse some
-of the same fields of inquiry, without their lines of thought having
-any points of intersection. But {134} none of these minor agreements
-can be of much weight in comparison with the fundamental disagreements
-above specified. Leaving out of view that general community which we
-both have with the scientific thought of the age, the differences
-between us are essential, while the correspondences are non-essential.
-And I venture to think that kinship must be determined by essentials,
-and not by non-essentials.[19]
-
-       *       *       *       *       *
-
-Joined with the ambiguous use of the phrase “Positive Philosophy,”
-which has led to a classing with M. Comte of many men who either ignore
-or reject his distinctive principles, there has been one special
-circumstance that has tended to originate and maintain this classing in
-my own case. The assumption of some relationship between M. Comte and
-myself, was unavoidably raised by the title of my first book—_Social
-Statics_. When that book was published, I was unaware that this title
-had been before used: had I known the fact, I should certainly have
-adopted an alternative title which I had in view.[20] If, however,
-instead of {135} the title, the work itself be considered, its
-irrelation to the philosophy of M. Comte becomes abundantly manifest.
-There is decisive testimony on this point. In the _North British
-Review_ for August, 1851, a reviewer of _Social Statics_ says―
-
- “The title of this work, however, is a complete misnomer. According to
- all analogy, the phrase “Social Statics” should be used only in some
- such sense as that in which, as we have already explained, it is used
- by Comte, namely as designating a branch of inquiry whose end it is to
- ascertain the laws of social equilibrium or order, as distinct ideally
- from those of social movement or progress. Of this Mr. Spencer does
- not seem to have had the slightest notion, but to have chosen the name
- for his work only as a means of indicating vaguely that it proposed to
- treat of social concerns in a scientific manner.”—p. 321.
-
-Respecting M. Comte’s application of the words _statics_ and _dynamics_
-to social phenomena, now that I know what it is, I will only say
-that while I perfectly understand how, by a defensible extension
-of their mathematical meanings, the one may be used to indicate
-social _functions in balance_, and the other social _functions out
-of balance_, I am quite at a loss to understand how the phenomena of
-_structure_ can be included in the one any more than in the other. But
-the two things which here concern me, are, first, to point out that I
-had not “the slightest notion” of giving Social Statics the meaning
-which M. Comte gave it; and, second, to explain the meaning which I
-did give it. The units of any aggregate of matter, are in equilibrium
-when they severally act and re-act on one another on all sides with
-equal forces. A state of change among them implies that there are
-forces exercised by some that are not counterbalanced by like forces
-exercised by others; and a state of rest implies the absence of such
-uncounterbalanced {136} forces—implies, if the units are homogeneous,
-equal distances among them—implies a maintenance of their respective
-spheres of molecular motion. Similarly among the units of a society,
-the fundamental condition to equilibrium, is, that the restraining
-forces which the units exercise on each other, shall be balanced. If
-the spheres of action of some units are diminished by extension of the
-spheres of action of others, there necessarily results an unbalanced
-force which tends to produce political change in the relations
-of individuals; and the tendency to change can cease, only when
-individuals cease to aggress on each other’s spheres of action—only
-when there is maintained that law of equal freedom, which it was
-the purpose of _Social Statics_ to enforce in all its consequences.
-Besides this totally-unlike conception of what constitutes Social
-Statics, the work to which I applied that title, is fundamentally at
-variance with M. Comte’s teachings in almost everything. So far from
-alleging, as M. Comte does, that society is to be re-organized by
-philosophy; it alleges that society is to be re-organized only by the
-accumulated effects of habit on character. Its aim is not the increase
-of authoritative control over citizens, but the decrease of it. A more
-pronounced individualism, instead of a more pronounced nationalism, is
-its ideal. So profoundly is my political creed at variance with the
-creed of M. Comte, that, unless I am misinformed, it has been instanced
-by a leading English disciple of M. Comte as the creed to which he
-has the greatest aversion. One point of coincidence, however, is
-recognizable. The analogy between an individual organism and a social
-organism, which was held by Plato and by Hobbes, is asserted in _Social
-Statics,_ as it is in the _Sociology_ of M. Comte. Very rightly, M.
-Comte has made this analogy the cardinal idea of this division of
-his philosophy. In _Social Statics_, the aim of which is essentially
-ethical, this analogy is pointed out incidentally, to enforce certain
-ethical considerations; and is there obviously suggested partly by the
-definition of life which {137} Coleridge derived from Schelling, and
-partly by the generalizations of physiologists there referred to (chap.
-xxx. §§. 12, 13, 16). Excepting this incidental agreement, however,
-the contents of _Social Statics_ are so entirely antagonistic to the
-philosophy of M. Comte, that, but for the title, the work would never,
-I think, have raised the remembrance of him—unless, indeed, by the
-association of opposites.[21]
-
-And now let me point out that which really _has_ exercised a profound
-influence over my course of thought. The truth which Harvey’s
-embryological inquiries first dimly indicated, which was afterwards
-more clearly perceived by Wolff, and which was put into a definite
-shape by Von Baer—the truth that all organic development is a change
-from a state of homogeneity to a state of heterogeneity—this it is from
-which very many of the conclusions which I now hold, have indirectly
-resulted. In _Social Statics_, there is everywhere manifested a
-dominant belief in the evolution of man and of society. There is also
-manifested the belief that this evolution is in both cases determined
-by the incidence of conditions—the actions of circumstances. And
-there is further, in the sections already referred to, a recognition
-of the fact that organic and social evolutions, conform to the same
-law. Falling amid beliefs in evolutions of various orders, everywhere
-determined by natural causes (beliefs {138} again displayed in the
-_Theory of Population_ and in the _Principles of Psychology_); the
-formula of Von Baer set up a process of organization. The extension
-of it to other kinds of phenomena than those of individual and social
-bodies, is traceable through successive stages. It may be seen in the
-last paragraph of an essay on “The Philosophy of Style,” published in
-October, 1852; again in an essay on “Manners and Fashion,” published
-in April, 1854; and then, in a comparatively advanced form, in an
-essay on “Progress: its Law and Cause,” published in April, 1857.
-Afterwards, there came the recognition of the need for modifying Von
-Baer’s formula by including the trait of increasing definiteness; next
-the inquiry into those general laws of force from which this universal
-transformation necessarily results; next the deduction of these from
-the ultimate law of the persistence of force; next the perception that
-there is everywhere a process of Dissolution complementary to that of
-Evolution; and, finally, the determination of the conditions (specified
-in the foregoing essay) under which Evolution and Dissolution
-respectively occur. The filiation of these results is, I think,
-tolerably manifest. The process has been one of continuous development,
-set up by the addition of Von Baer’s law to a number of ideas that were
-in harmony with it. And I am not conscious of any other influences by
-which the process has been affected.
-
-It is possible, however, that there may have been influences of which
-I am not conscious; and my opposition to M. Comte’s system may have
-been one of them. The presentation of antagonistic thoughts, often
-produces greater definiteness and development of one’s own thoughts. It
-is probable that the doctrines set forth in the essay on “The Genesis
-of Science,” might never have been reached, had not my dissent from M.
-Comte’s conception, led me to work them out; and but for this, I might
-not have arrived at the classification of the sciences exhibited in the
-foregoing essay. Possibly there are other cases in which the stimulus
-of {139} repugnance to M. Comte’s views, may have aided in elaborating
-my own views; though I cannot call to mind any other cases.
-
-Let it by no means be supposed from all I have said, that I do not
-regard M. Comte’s speculations as of value. True or untrue, his system
-as a whole, has doubtless produced important and salutary revolutions
-of thought in many minds; and will doubtless do so in many more.
-Doubtless, too, not a few of those who dissent from his general
-views, have been healthfully stimulated by consideration of them. The
-presentation of scientific knowledge and method as a whole, whether
-rightly or wrongly co-ordinated, cannot have failed greatly to widen
-the conceptions of most of his readers. And he has done especial
-service by familiarizing men with the idea of a social science, based
-on the other sciences. Beyond which benefits resulting from the general
-character and scope of his philosophy, I believe that there are
-scattered through his pages many large ideas that are valuable not only
-as stimuli, but for their actual truth.
-
-It has been by no means an agreeable task to make these personal
-explanations; but it has seemed to me a task not to be avoided.
-Differing so profoundly as I do from M. Comte on all fundamental
-doctrines, save those which we inherit in common from the past; it
-has become needful to dissipate the impression that I agree with
-him—needful to show that a large part of what is currently known as
-“positive philosophy,” is not “positive philosophy” in the sense of
-being peculiarly M. Comte’s philosophy; and to show that beyond that
-portion of the so-called “positive philosophy” which is not peculiar to
-him, I dissent from it.
-
-And now at the close, as at the outset, let me express my great regret
-that these explanations should have been called forth by the statements
-of a critic who has treated me so liberally. Nothing will, I fear,
-prevent the foregoing pages from appearing like a very ungracious
-response to M. Laugel’s sympathetically-written review. I can only
-hope that the gravity of the question at issue, in so far as it {140}
-concerns myself, may be taken in mitigation, if not as a sufficient
-apology.
-
-
-NOTE.
-
- _The preceding pages originally formed the second portion of a_
- _pamphlet entitled_ The Classification of the Sciences: to which are
- added Reasons for dissenting from the Philosophy of M. Comte, _which
- was first published in 1864. For some time past this pamphlet has been
- included in the third volume of my_ Essays, &c., _and has been no
- longer accessible in a separate form. There has recently been diffused
- afresh, the misconception which originally led me to exhibit my entire
- rejection of those views of M. Comte, which essentially distinguish
- his system from other systems; and the motives which then prompted me
- to publish the reasons for this rejection, now prompt me to put them
- within the reach of all who care to inquire about the matter. The
- Appendix, presenting an outline of the leading propositions of the
- Synthetic Philosophy, will further aid the reader in forming a correct
- judgment_.
-
- _Oct. 7, 1884._
-
-
-APPENDIX A.
-
-Some fourteen or more years ago, an American friend requested me, with
-a view to a certain use which he named, to furnish him with a succinct
-statement of the cardinal principles developed in the successive works
-I had published and in those I was intending to publish. This statement
-I here reproduce. Having been written solely for an expository purpose,
-and without thought of M. Comte and his system, it will serve better
-than a statement now drawn up since it is not open to the suspicion of
-being adapted to the occasion.[22]
-
- “1. Throughout the universe in general and in detail, there is an
- unceasing redistribution of matter and motion.
-
- “2. This redistribution constitutes evolution where there is a {141}
- predominant integration of matter and dissipation of motion, and
- constitutes dissolution where there is a predominant absorption of
- motion and disintegration of matter.
-
- “3. Evolution is simple when the process of integration, or the
- formation of a coherent aggregate, proceeds uncomplicated by other
- processes.
-
- “4. Evolution is compound when, along with this primary change from
- an incoherent to a coherent state, there go on secondary changes due
- to differences in the circumstances of the different parts of the
- aggregate.
-
- “5. These secondary changes constitute a transformation of the
- homogeneous into the heterogeneous—a transformation which, like the
- first, is exhibited in the universe as a whole and in all (or nearly
- all) its details: in the aggregate of stars and nebulae; in the
- planetary system; in the earth as an inorganic mass; in each organism,
- vegetal or animal (Von Baer’s law); in the aggregate of organisms
- throughout geologic time; in the mind; in society; in all products of
- social activity.
-
- “6. The process of integration, acting locally as well as generally,
- combines with the process of differentiation to render this change
- not simply from homogeneity to heterogeneity, but from an indefinite
- homogeneity to a definite heterogeneity; and this trait of increasing
- definiteness, which accompanies the trait of increasing heterogeneity,
- is, like it, exhibited in the totality of things and in all its
- divisions and sub-divisions down to the minutest.
-
- “7. Along with this redistribution of the matter composing any
- evolving aggregate, there goes on a redistribution of the retained
- motion of its components in relation to one another: this also
- becomes, step by step, more definitely heterogeneous.
-
- “8. In the absence of a homogeneity that is infinite and absolute,
- that redistribution of which evolution is one phase, is inevitable.
- The causes which necessitate it are these:―
-
- “9. The instability of the homogeneous, which is consequent upon the
- different exposures of the different parts of any limited aggregate to
- incident forces. The transformations hence resulting are complicated
- by―
-
- “10. The multiplication of effects. Every mass and part of a mass
- on which a force falls, sub-divides and differentiates that force,
- which thereupon proceeds to work a variety of changes; and each
- of these becomes the parent of similarly-multiplying changes: the
- multiplication of them becoming greater in proportion as the aggregate
- becomes more heterogeneous. And these two causes of increasing
- differentiations are furthered by―
-
- “11. Segregation, which is a process tending ever to separate unlike
- units and to bring together like units—so serving continually to
- sharpen, or make definite, differentiations otherwise caused.
-
- “12. Equilibration is the final result of these transformations which
- an evolving aggregate undergoes. The changes go on until there is
- reached an equilibrium between the forces which all parts of the
- aggregate are exposed to and the forces these parts oppose to them.
- Equilibration may pass through a transition stage of balanced motions
- (as in a planetary system) or of {142} balanced functions (as in a
- living body) on the way to ultimate equilibrium; but the state of rest
- in inorganic bodies, or death in organic bodies, is the necessary
- limit of the changes constituting evolution.
-
- “13. Dissolution is the counter-change which sooner or later every
- evolved aggregate undergoes. Remaining exposed to surrounding
- forces that are unequilibrated, each aggregate is ever liable to
- be dissipated by the increase, gradual or sudden, of its contained
- motion; and its dissipation, quickly undergone by bodies lately
- animate and slowly undergone by inanimate masses, remains to be
- undergone at an indefinitely remote period by each planetary and
- stellar mass, which, since an indefinitely distant period in the past,
- has been slowly evolving: the cycle of its transformations being thus
- completed.
-
- “14. This rhythm of evolution and dissolution, completing itself
- during short periods in small aggregates, and in the vast aggregates
- distributed through space completing itself in periods which are
- immeasurable by human thought, is, so far as we can see, universal and
- eternal—each alternating phase of the process predominating now in
- this region of space and now in that, as local conditions determine.
-
- “15. All these phenomena, from their great features down to their
- minutest details, are necessary results of the persistence of force,
- under its forms of matter and motion. Given these as distributed
- through space, and their quantities being unchangeable, either
- by increase or decrease, there inevitably result the continuous
- redistributions distinguishable as evolution and dissolution, as well
- as all those special traits above enumerated.
-
- “16. That which persists unchanging in quantity but ever changing in
- form, under these sensible appearances which the universe presents
- to us, transcends human knowledge and conception—is an unknown and
- unknowable power, which we are obliged to recognize as without limit
- in space and without beginning or end in time.”
-
-These successive paragraphs set forth in the most abstract way, that
-process of transformation going on throughout the Cosmos as a whole,
-and in each larger or smaller portion of it. In _First Principles_ the
-statements contained in these paragraphs are elaborated, explained, and
-illustrated; and in subsequent volumes of the series, the purpose has
-been to interpret the several great groups of phenomena, Astronomical,
-Geological (both postponed), Biological, Psychological, Sociological,
-and Ethical, in conformity with these general laws of Evolution which
-_First Principles_ enunciates.
-
-       *       *       *       *       *
-
-If it can be shown that any one of the above propositions has been
-adopted from, or has been suggested by, the {143} Positive Philosophy,
-there will be evidence that the Synthetic Philosophy is to that extent
-indebted to it. Or if there can be quoted any expressed conviction of
-M. Comte, that the factors producing changes of all kinds, inorganic
-and organic, co-operate everywhere throughout the Cosmos in the
-same general way, and everywhere work metamorphoses having the same
-essential traits, a much more decided indebtedness may reasonably be
-supposed.
-
-So far as I know it, however, the Positive Philosophy contains none of
-the special ideas above enumerated, nor any of the more general ideas
-they involve.
-
-
-APPENDIX B.
-
-On pp. 119 and 120, I have pointed out that the followers of M. Comte,
-swayed by the spirit of discipleship, habitually ascribe to him a great
-deal which was the common inheritance of the scientific world before
-he wrote, and to which he himself laid no claim. Kindred remarks have
-since been made by others, both in England and in France—the one by Mr.
-Mill, and the other by M. Fouillée. Mr. Mill says:―
-
- “The foundation of M. Comte’s philosophy is thus in no way peculiar
- to him, but the general property of the age, however far as yet from
- being universally accepted even by thoughtful minds. The philosophy
- called Positive is not a recent invention of M. Comte, but a simple
- adherence to the traditions of all the great scientific minds whose
- discoveries have made the human race what it is. M. Comte has never
- presented it in any other light. But he has made the doctrine his own
- by his manner of treating it.”—_Auguste Comte and Positivism_, pp. 8,
- 9.
-
-In his _Histoire de la Philosophie_, 1875, M. Alfred Fouillée writes:―
-
- “Saint-Simon voulut successivement organiser la société à l’aide de
- la science (prétention d’où sortit le positivisme) puis à l’aide de
- l’industrie, et enfin à l’aide d’une religion nouvelle, capable de
- ‘forcer chacun de ses membres à suivre le précepte de l’amour du
- prochain.’”—p. 428.
-
- “Les doctrines sociales de Saint-Simon, jointes au naturalisme
- de Cabanis et de Broussais, donnèrent naissance au ‘positivisme’
- d’Auguste Comte. {144} Ce dernier, comme Saint-Simon, voit dans la
- science sociale ou ‘sociologie’ le terme et le but de toutes les
- recherches scientifiques.”—p. 422.
-
- “A cette méthode Auguste Comte ajouta des vues historiques, qu’il
- croyait entièrement originales, sur les trois états par où passe
- nécessairement selon lui la connaissance humaine: état théologique,
- état métaphysique, et état scientifique. Le germe de cette théorie
- était déjà dans Turgot.”—p. 424.
-
- “En somme, Auguste Comte a eu le mérite d’insister sur les méthodes
- qui conviennent aux sciences de la nature; mais il faut avouer que ces
- méthodes étaient connues bien avant lui.”—p. 425.
-
-
-ENDNOTES TO _REASONS FOR DISSENTING FROM THE PHILOSOPHY OF M. COMTE_.
-
-[14] A clear illustration of this process, is furnished by the
-recent mental integration of Heat, Light, Electricity, etc., as
-modes of molecular motion. If we go a step back, we see that the
-modern conception of Electricity, resulted from the integration in
-consciousness, of the two forms of it involved in the galvanic battery
-and in the electric-machine. And going back to a still earlier stage,
-we see how the conception of statical electricity, arose by the
-coalescence in thought, of the previously-separate forces manifested
-in rubbed amber, in rubbed glass, and in lightning. With such
-illustrations before him, no one can, I think, doubt that the process
-has been the same from the beginning.
-
-[15] Possibly it will be said that M. Comte himself admits that what
-he calls the perfection of the positive system, will probably never be
-reached; and that what he condemns is the inquiry into the _natures_ of
-causes and not the general recognition of cause. To the first of these
-allegations I reply that, as I understand M. Comte, the obstacle to the
-perfect realization of the positive philosophy is the impossibility
-of carrying generalization so far as to reduce all particular facts
-to cases of one general fact—not the impossibility of excluding the
-consciousness of cause. And to the second allegation I reply that the
-essential principle of his philosophy is an avowed ignoring of cause
-altogether. For if it is not, _what becomes of his alleged distinction
-between the perfection of the positive system and the perfection of
-the metaphysical system_? And here let me point out that, by affirming
-exactly the opposite to that which M. Comte thus affirms, I am excluded
-from the positive school. If his own definition of positivism is to
-be taken, then, as I hold that what he defines as positivism is an
-absolute impossibility, it is clear that I cannot be what he calls a
-positivist.
-
-[16] A friendly critic alleges that M. Comte is not fairly represented
-by this quotation, and that he is blamed by his biographer, M. Littré,
-for his too-great insistance on feeling as a motor of humanity. If in
-his “Positive Politics,” which I presume is here referred to, M. Comte
-abandons his original position, so much the better. But I am here
-dealing with what is known as “the Positive Philosophy;” and that the
-passage above quoted does not misrepresent it, is proved by the fact
-that this doctrine is re-asserted at the commencement of the Sociology.
-
-[17] In 1885, during a controversy with one of M. Comte’s English
-disciples, I was blamed for speaking “of Comte as making six sciences,”
-and was told that “in all Comte’s works, except the first, he makes
-seven sciences.” As I was dealing with The Positive Philosophy, I
-thought I could not do better than give the foregoing extract from the
-_Cours de Philosophie Positive_; and it did not occur to me that I was
-called upon to see whether, in any of his later voluminous works, M.
-Comte had made a different statement. My opponent, however, enlarged
-on this “blunder,” as he politely called it: apparently oblivious of
-the fact that if it was a blunder on my part to speak of Comte as
-recognizing six sciences when in his later days he recognized seven, it
-was a much more serious blunder on the part of Comte himself to have
-long overlooked the seventh.
-
-[18] M. Comte’s “Exposition” I read in the original in 1852; and in two
-or three other places have referred to the original to get his exact
-words. The Inorganic Physics, and the first chapter of the Biology, I
-read in Miss Martineau’s condensed translation, when it appeared. The
-rest of M. Comte’s views I know only through Mr. Lewes’s outline, and
-through incidental references.
-
-[19] In his work, _Auguste Comte et la Philosophie Positive_ (1863),
-M. Littré defending the Comtean classification of the sciences from
-the criticism I made upon it in the “Genesis of Science,” deals with
-me wholly as an antagonist. The chapter he devotes to his reply, opens
-by placing me in direct opposition to the English adherents of Comte,
-named in the preceding chapter.
-
-[20] I believed at the time, and have never doubted until now, that the
-choice of this title was absolutely independent of its previous use by
-M. Comte. While writing these pages, I have found reason to think the
-contrary. On referring to _Social Statics_, to see what were my views
-of social evolution in 1850, when M. Comte was to me but a name, I met
-with the following sentence:—“Social philosophy may be aptly divided
-(as political economy has been) into statics and dynamics” (ch. xxx. §
-1). This I remembered to be a reference to a division which I had seen
-in the Political Economy of Mr. Mill. But why had I not mentioned Mr.
-Mill’s name? On referring to the first edition of his work, I found,
-at the opening of Book iv., this sentence:—“The three preceding parts
-include as detailed a view as the limits of this treatise permit, of
-what, by a happy generalization of a mathematical phrase, has been
-called the Statics of the subject.” Here was the solution of the
-question. The division had not been made by Mr. Mill, but by some
-writer (on Political Economy I supposed) who was not named by him; and
-whom I did not know. It is now manifest, however, that while I supposed
-I was giving a more extended use to this division, I was but returning
-to the original use which Mr. Mill had limited to his special topic.
-Another thing is, I think, tolerably manifest. As I evidently wished
-to point out my obligation to some unknown political economist, whose
-division I thought I was extending, I should have named him had I known
-who he was. And in that case should not have put this extension of the
-division as though it were new.
-
-[21] Let me add that the conception developed in _Social Statics_,
-dates back to a series of letters on the “Proper Sphere of Government,”
-published in the _Nonconformist_ newspaper in the latter half of
-1842, and republished as a pamphlet in 1843. In these letters will
-be found, along with many crude ideas, the same belief in the
-conformity of social phenomena to unvariable laws; the same belief
-in human progression as determined by such laws; the same belief in
-the moral modification of men as caused by social discipline; the
-same belief in the tendency of social arrangements “of themselves to
-assume a condition of _stable_ equilibrium;” the same repudiation
-of state-control over various departments of social life; the
-same limitation of state-action to the maintenance of equitable
-relations among citizens. The writing of _Social Statics_ arose from
-a dissatisfaction with the basis on which the doctrines set forth
-in those letters were placed: the second half of that work is an
-elaboration of these doctrines; and the first half a statement of the
-principles from which they are deducible.
-
-[22] Published many years since in America, this statement was
-republished in England eight years since. See _Athenæum_ for July 22nd,
-1882.
-
-
-
-
-{145}
-
-ON LAWS IN GENERAL, AND THE ORDER OF THEIR DISCOVERY.
-
-
-[_The following was contained in the first edition of_ First
-Principles. _I omitted it from the re-organized second edition,
-because it did not form an essential part of the new structure. As it
-is referred to in the foregoing pages, and as its general argument is
-germane to the contents of those pages, I have thought well to insert
-it here. Moreover, though I hope eventually to incorporate it in that
-division of the_ Principles of Sociology _which treats of Intellectual
-Progress, yet as it must be long before it can thus re-appear in its
-permanent place, and as, should I not get so far in the execution of
-my undertaking, it may never thus re-appear at all, it seems proper
-to make it more accessible than it is at present. The first and last
-sections, which served to link it into the argument of the work to
-which it originally belonged, are omitted. The rest has been carefully
-revised, and in some parts considerably altered._]
-
-The recognition of Law being the recognition of uniformity of relations
-among phenomena, it follows that the order in which different groups
-of phenomena are reduced to law, must depend on the frequency with
-which the uniform relations they severally display are distinctly
-experienced. At any given stage of progress, those {146} uniformities
-will be best known with which men’s minds have been oftenest and
-most strongly impressed. In proportion partly to the number of times
-a relation has been presented to consciousness (not merely to the
-senses), and in proportion partly to the vividness with which the terms
-of the relation have been cognized, will be the degree in which the
-constancy of connexion is perceived.
-
-The succession in which relations are generalized being thus
-determined, there result certain derivative principles to which this
-succession must more immediately and obviously conform.    The first
-is _the directness with which personal welfare is affected_. While,
-among surrounding things, many do not appreciably influence us in any
-way, some produce pleasures and some pains, in various degrees; and
-manifestly, those things of which the actions on the organism for
-good or evil are most decided, will, _cæteris paribus_, be those of
-which the laws of action are earliest observed.    Second comes _the
-conspicuousness of one or both phenomena between which a relation is
-to be perceived_. On every side are phenomena so concealed as to be
-detected only by close observation; others not obtrusive enough to
-attract notice; others which moderately solicit the attention; others
-so imposing or vivid as to force themselves on consciousness; and,
-supposing conditions to be the same, these last will of course be
-among the first to have their relations generalized.    In the third
-place, we have _the absolute frequency with which the relations occur_.
-There are coexistences and sequences of all degrees of commonness,
-from those which are ever present to those which are extremely rare;
-and manifestly, the rare coexistences and sequences, as well as the
-sequences which are very long in taking place, will not be reduced to
-law so soon as those which are familiar and rapid.    Fourthly has
-to be added _the relative frequency of occurrence_. Many events and
-appearances are limited to certain times or certain places, or both;
-{147} and, as a relation which does not exist within the environment
-of an observer cannot be perceived by him, however common it may be
-elsewhere or in another age, we have to take account of the surrounding
-physical circumstances, as well as of the state of society, of the
-arts, and of the sciences—all of which affect the frequency with which
-certain groups of facts are observable.    The fifth corollary to be
-noticed is, that the succession in which different classes of relations
-are reduced to law, depends in part on their _simplicity_. Phenomena
-presenting great composition of causes or conditions, have their
-essential relations so masked, that it requires accumulated experiences
-to impress upon consciousness the true connexions of antecedents and
-consequents they involve. Hence, other things equal, the progress of
-generalization will be from the simple to the complex; and this it is
-which M. Comte has wrongly asserted to be the sole regulative principle
-of the progress.    Sixth comes _the degree of concreteness, or absence
-of abstractness_. Concrete relations are the earliest acquisitions.
-Such analyses of them as separate the essential connexions from their
-disguising accompaniments, necessarily come later. The analyses of the
-connexions, always more or less compound, into their elements then
-becomes possible. And so on continually, until the highest and most
-abstract truths have been reached.
-
-These, then, are the several derivative principles. The frequency
-and vividness with which uniform relations are repeated in conscious
-experience, determining the recognition of their uniformity, and this
-frequency and vividness depending on the above conditions, it follows
-that the order in which different classes of facts are generalized,
-must depend on the extent to which the above conditions are fulfilled
-in each class. Let us mark how the facts harmonize with this
-conclusion: taking first a few that elucidate the general truth, and
-afterwards some that {148} exemplify the special truths which we here
-see follow from it.
-
-       *       *       *       *       *
-
-The relations earliest known as uniformities, are those subsisting
-among the common properties of matter—tangibility, visibility,
-cohesion, weight, etc. We have no trace of a time when the resistance
-offered by an object was regarded as caused by the will of the object;
-or when the pressure of a body on the hand holding it, was ascribed to
-the agency of a living being. And accordingly, these are the relations
-of which we are oftenest conscious: being, as they are, objectively
-frequent, conspicuous, simple, concrete, and of immediate personal
-concern.
-
-Similarly with the ordinary phenomena of motion. The fall of a mass on
-the withdrawal of its support, is a sequence which directly affects
-bodily welfare, is conspicuous, simple, concrete, and very often
-repeated. Hence it is one of the uniformities recognized before the
-dawn of tradition. We know of no era when ordinary movements due to
-terrestrial gravitation were attributed to volition. Only when the
-relation is obscured, as where the withdrawal of a support is not
-obvious, or, as in the case of an aërolite, where the antecedent of
-the descent is unperceived, do we find the conception of personal
-agency.    On the other hand, motions of intrinsically the same order
-as that of a falling stone—those of the heavenly bodies—long remain
-ungeneralized; and until their uniformity is seen, and indeed for a
-long time after, are construed as results of will. This difference
-is clearly not dependent on comparative complexity or abstractness,
-since the motion of a planet in an ellipse of slight eccentricity,
-is as simple and concrete a phenomenon as the motion of a projected
-arrow in an ellipse of extreme eccentricity indistinguishable from a
-parabola. But the antecedents are not conspicuous; the sequences are
-of long duration; and they are not often repeated. And that these are
-the causes of their slow {149} reduction to law, we see in the fact
-that they are severally generalized in the order of their frequency and
-conspicuousness—the moon’s monthly cycle, the sun’s annual change, the
-periods of the inferior planets, the periods of the superior planets.
-
-While astronomical sequences were still ascribed to volition,
-certain terrestrial sequences of a different kind, but some of them
-equally without complication, were interpreted in like manner. The
-solidification of water at a low temperature, is a phenomenon that is
-simple, concrete, and of much personal concern. But it is neither so
-frequent as those which we see are earliest generalized, nor is the
-presence of the antecedent so manifest. Though in all but tropical
-climates, mid-winter displays the relation between cold and freezing
-with tolerable constancy; yet, during the spring and autumn, the
-occasional appearance of ice in the mornings has no very obvious
-connexion with coldness of the weather. Sensation being so inaccurate a
-measure, it is not possible for the savage to experience the definite
-relation between a temperature of 32° and the congealing of water;
-and hence the long continued belief in personal agency. Similarly,
-but still more clearly, with the winds. The absence of regularity and
-the inconspicuousness of the antecedents, allowed the mythological
-explanation to survive for a great period.
-
-During the era in which the uniformity of many quite simple inorganic
-relations was still unrecognized, certain organic relations,
-intrinsically very complex and special, were generalized. The
-constant coexistence of feathers and a beak, of four legs with an
-internal bony framework, are facts which were, and are, familiar
-to every savage. Did a savage find a bird with teeth, or a mammal
-clothed with feathers, he would be as much surprised as an instructed
-naturalist. Now these uniformities of organic structure thus early
-perceived, are of exactly the same kind as those more numerous ones
-later established by biology. The constant {150} coexistence of
-mammary glands with two occipital condyles to the skull, of vertebræ
-with teeth lodged in sockets, of frontal horns with the habit of
-rumination, are generalizations as purely empirical as those known to
-the aboriginal hunter. The botanist cannot in the least understand
-the complex relation between papilionaceous flowers and seeds borne
-in flattened pods: he knows these and like connexions simply in the
-same way that the barbarian knows the connexions between particular
-leaves and particular kinds of wood. But the fact that sundry of the
-uniform relations which chiefly make up the organic sciences, were
-very early recognized, is due to the high degrees of vividness and
-frequency with which they were presented to consciousness. Though the
-connexion between the sounds characteristic of a certain bird, and the
-possession of edible flesh, is extremely involved, yet the two terms
-of the relation are conspicuous, often recur in experience, and a
-knowledge of their connexion has a direct bearing on personal welfare.
-Meanwhile innumerable relations of the same order, which are displayed
-with even greater frequency by surrounding plants and animals, remain
-for thousands of years unrecognized, if they are unobtrusive or of no
-apparent moment.
-
-When, passing from this primitive stage to a more advanced stage, we
-trace the discovery of those less familiar uniformities which mainly
-constitute what is distinguished as Science, we find the succession
-in which knowledge of them is reached, to be still determined in the
-same manner. This will become obvious on contemplating separately the
-influence of each derivative condition.
-
-       *       *       *       *       *
-
-How relations that have immediate bearings on the maintenance of life,
-are, other things equal, fixed in the mind before those which have no
-immediate bearings, the history of Science abundantly illustrates. The
-habits of existing uncivilized races, who fix times by moons and barter
-so many of one article for so many of another, show {151} us that
-conceptions of equality and number, which are the germs of mathematical
-science, were developed under the immediate pressure of personal
-wants; and it can scarcely be doubted that those laws of numerical
-relations which are embodied in the rules of arithmetic, were first
-brought to light through the practice of mercantile exchange. Similarly
-with geometry. The derivation of the word shows us that it originally
-included only certain methods of partitioning ground and laying out
-buildings. The properties of the scales and the lever, involving the
-first principle in mechanics, were early generalized under the stimulus
-of commercial and architectural needs. To fix the times of religious
-festivals and agricultural operations, were the motives which led
-to the establishment of the simpler astronomic periods. Such small
-knowledge of chemical relations as was involved in ancient metallurgy,
-was manifestly obtained in seeking how to improve tools and weapons.
-In the alchemy of later times, we see how greatly an intense hope of
-private benefit contributed to the disclosure of a certain class of
-uniformities. Nor is our own age barren of illustrations. “Here,” says
-Humboldt, when in Guiana, “as in many parts in Europe, the sciences
-are thought worthy to occupy the mind, only so far as they confer some
-immediate and practical benefit on society.” “How is it possible to
-believe,” said a missionary to him, “that you have left your country
-to come to be devoured by mosquitoes on this river, and to measure
-lands that are not your own?” Our coasts furnish like instances.
-Every sea-side naturalist knows how great is the contempt with which
-fishermen regard the collection of objects for the microscope or
-aquarium. Their incredulity as to the possible value of such things is
-so great, that they can scarcely be induced even by bribes to preserve
-the refuse of their nets. Nay, we need not go for evidence beyond daily
-table-talk. The demand for “practical science”—for a knowledge that
-can be brought to bear on the business of {152} life—joined to the
-ridicule commonly vented on scientific pursuits having no obvious uses,
-suffice to show that the order in which laws are discovered greatly
-depends on the directness with which knowledge of them affects our
-welfare.
-
-That, when all other conditions are the same, obtrusive relations
-will be generalized before unobtrusive ones, is so nearly a truism
-that examples appear almost superfluous. If it be admitted that by
-the aboriginal man, as by the child, the co-existent properties of
-large surrounding objects are noticed before those of minute objects,
-and that the external relations which bodies present are generalized
-before their internal relations, it must be admitted that in subsequent
-stages of progress, the comparative conspicuousness of relations
-has greatly affected the order in which they were recognized as
-uniform. Hence it happened that after the establishment of those very
-manifest sequences constituting a lunation, and those less manifest
-ones marking a year, and those still less manifest ones marking the
-planetary periods, astronomy occupied itself with such inconspicuous
-sequences as those displayed in the repeating cycle of lunar eclipses,
-and those which suggested the theory of epicycles and eccentrics;
-while modern astronomy deals with still more inconspicuous sequences,
-some of which, as the planetary rotations, are nevertheless the
-simplest which the heavens present. In physics, the early use of
-canoes implied an empirical knowledge of certain hydrostatic relations
-that are intrinsically more complex than sundry static relations
-not empirically known; but these hydrostatic relations were thrust
-upon observation. Or, if we compare the solution of the problem of
-specific gravity by Archimedes with the discovery of atmospheric
-pressure by Torricelli (the two involving mechanical relations of
-the same class), we perceive that the much earlier occurrence of the
-first than the last was determined, neither by a difference in their
-bearings on personal welfare, nor by a difference in the frequency
-with {153} which illustrations of them came under observation, nor
-by relative simplicity; but by the greater obtrusiveness of the
-connexion between antecedent and consequent in the one case than in
-the other. Among miscellaneous illustrations, it may be pointed out
-that the connexions between lightning and thunder, and between rain and
-clouds, were recognized long before others of the same order, simply
-because they thrust themselves on the attention. Or the long-delayed
-discovery of the microscopic forms of life, with all the phenomena
-they present, may be named as very clearly showing how certain groups
-of relations not ordinarily perceptible, though in other respects
-like long-familiar relations, have to wait until changed conditions
-render them perceptible. But, without further details, it needs only to
-consider the inquiries which now occupy the electrician, the chemist,
-the physiologist, to see that science has advanced, and is advancing,
-from the more conspicuous phenomena to the less conspicuous ones.
-
-How the degree of absolute frequency of a relation affects the
-recognition of its uniformity, we see in contrasting certain biological
-facts. The connexion between death and bodily injury, constantly
-displayed not only in men but in all inferior creatures, came to be
-recognized as an instance of natural causation while yet deaths from
-diseases or from some of them continued to be thought supernatural.
-Among diseases themselves, it is observable that unusual ones were
-regarded as of demoniacal origin during ages when the more frequent
-were ascribed to ordinary causes: a truth paralleled among our own
-peasantry, who by the use of charms show a lingering superstition with
-respect to rare disorders, which they do not show with respect to
-common ones, such as colds. Passing to physical illustrations, we may
-note that within the historic period whirlpools were accounted for by
-the agency of water-spirits; but we do not find that within the same
-period the disappearance of water on exposure either to the sun or to
-artificial heat was {154} interpreted in an analogous way: though a
-more marvellous occurrence, and a more complex one, its great frequency
-led to the early recognition of it as a natural uniformity. Rainbows
-and comets do not differ much in conspicuousness, and a rainbow is
-intrinsically the more involved phenomenon; but chiefly because of
-their far greater commonness, rainbows were perceived to have a direct
-dependence on sun and rain while yet comets were regarded as signs of
-divine wrath.
-
-That races living inland must long have remained ignorant of the daily
-and monthly sequences of the tides, and that tropical races could
-not early have comprehended the phenomena of northern winters, are
-extreme illustrations of the influence which relative frequency has
-on the recognition of uniformities. Animals which, where they are
-indigenous, call forth no surprise by their structures or habits,
-because these are so familiar, when taken to countries where they
-have never been seen, are looked at with an astonishment approaching
-to awe—are even thought supernatural: a fact which will suggest
-numerous others that show how the localization of phenomena shares
-in controlling the order in which they are reduced to law. Not only
-however does their localization in space affect the progression,
-but also their localization in time. Facts which are rarely if ever
-manifested in one era, are rendered very frequent in another, simply
-through the changes wrought by civilization. The lever, of which
-the properties are illustrated in the use of sticks and weapons, is
-vaguely understood by every savage—on applying it in a certain way he
-rightly anticipates certain effects; but the wheel-and-axle, pulley,
-and screw, cannot have their powers either empirically or rationally
-known till the advance of the arts has more or less familiarized them.
-Through those various means of exploration which we have inherited
-and added to, we have become acquainted with a vast range of chemical
-relations that were relatively {155} non-existent to the primitive
-man. To highly-developed industries we owe both the substances and
-the appliances that have disclosed to us countless uniformities which
-our ancestors had no opportunity of seeing. These and like instances,
-show that the accumulated materials, and processes, and products,
-which characterize the environments of complex societies, greatly
-increase the accessibility of various classes of relations; and by
-thus multiplying the experiences of them, or making them relatively
-frequent, facilitate the generalization of them. Moreover, various
-classes of phenomena presented by society itself, as for instance
-those which political economy formulates, become relatively frequent,
-and therefore recognizable, in advanced social states; while in less
-advanced ones they are either too rarely displayed to have their
-relations perceived, or, as in the least advanced ones, are not
-displayed at all.
-
-That, where no other circumstances interfere, the order in which
-different uniformities are established varies as their complexity, is
-manifest. The geometry of straight lines was understood before the
-geometry of curved lines; the properties of the circle before the
-properties of the ellipse, parabola, and hyperbola; and the equations
-of curves of single curvature were ascertained before those of curves
-of double curvature. Plane trigonometry comes in order of time and
-simplicity before spherical trigonometry; and the mensuration of
-plane surfaces and solids before the mensuration of curved surfaces
-and solids. Similarly with mechanics: the laws of simple motion were
-generalized before those of compound motion; and those of rectilinear
-motion before those of curvilinear motion. The properties of
-equal-armed levers or scales, were understood before those of levers
-with unequal arms; and the law of the inclined plane was formulated
-earlier than that of the screw, which involves it. In chemistry the
-progress has been from the simple inorganic compounds to the more
-involved or organic compounds. And where, as in the higher sciences,
-the conditions of the exploration are {156} more complicated, we still
-may trace relative complexity as determining the order of discovery
-where other things are equal.
-
-The progression from concrete relations to abstract relations, and from
-the less abstract to the more abstract, is equally obvious. Numeration,
-which in its primary form concerned itself only with groups of actual
-objects, came earlier than simple arithmetic; the rules of which deal
-with numbers apart from objects. Arithmetic, limited in its sphere
-to concrete numerical relations, is alike earlier and less abstract
-than Algebra, which deals with the relations of these relations. And
-in like manner, the Calculus of Operations comes after Algebra, both
-in order of evolution and in order of abstractness. In Mechanics, the
-more concrete relations of forces exhibited in the lever, inclined
-plane, etc., were understood before the more abstract relations
-expressed in the laws of resolution and composition of forces; and
-later than the three abstract laws of motion as formulated by Newton
-came the still more abstract law of inertia. Similarly with Physics and
-Chemistry, there has been an advance from truths entangled in all the
-specialities of particular facts and particular classes of facts, to
-truths disentangled from the disguising incidents under which they are
-manifested—to truths of a higher abstractness.
-
-Brief and rude as is this sketch of a mental development which has been
-long and complicated, I venture to think it shows inductively what
-was deductively inferred, that the order in which separate groups of
-uniformities are recognized, depends not on one circumstance but on
-several circumstances. The various classes of relations are generalized
-in a certain succession, not solely because of one particular kind
-of difference in their natures; but also because they are variously
-placed in time and in space, variously open to observation, and
-variously related to our own constitutions: our perception of them
-being influenced by all these conditions in endless combinations. The
-comparative degrees {157} of importance, of obtrusiveness, of absolute
-frequency, of relative frequency, of simplicity, of concreteness, are
-every one of them factors; and from their unions in proportions that
-are never twice alike, there results a highly complex process of mental
-evolution. But while it is thus manifest that the proximate causes of
-the succession in which relations are reduced to law, are numerous and
-involved; it is also manifest that there is one ultimate cause to which
-these proximate causes are subordinate. As the several circumstances
-that determine the early or late recognition of uniformities are
-circumstances that determine the number and strength of the impressions
-which these uniformities make on the mind, it follows that the
-progression conforms to a certain fundamental principle of psychology.
-We see _a posteriori_, what we concluded _à priori_, that the order
-in which relations are generalized, depends on the frequency and
-impressiveness with which they are repeated in conscious experience.
-
-       *       *       *       *       *
-
-Having roughly analyzed the progress of the past, let us take advantage
-of the light thus thrown on the present, and consider what is implied
-respecting the future.
-
-Note, first, that the likelihood of the universality of Law has
-been ever growing greater. Out of the countless coexistences and
-sequences with which mankind are environed, they have been continually
-transferring some from the group whose order was supposed to be
-arbitrary, to the group whose order is known to be uniform. And
-manifestly, as fast as the relations which are unreduced to law become
-fewer, the probability that among them there are some which do not
-conform to law, becomes less. To put the argument numerically—It is
-clear that when out of surrounding phenomena a hundred of several kinds
-have been found to occur in constant connexions, there arises a slight
-presumption that all phenomena occur in constant connexions. When
-uniformity has been established in a thousand cases, more varied {158}
-in their kinds, the presumption gains strength. And when the known
-cases of uniformity amount to millions, including many of each variety,
-it becomes an ordinary induction that uniformity exists everywhere.
-
-Silently and insensibly their experiences have been pressing men on
-towards the conclusion thus drawn. Not out of a conscious regard
-for these reasons, but from a habit of thought which these reasons
-formulate and justify, all minds have been advancing towards a belief
-in the constancy of surrounding coexistences and sequences. Familiarity
-with concrete uniformities has generated the abstract conception of
-uniformity—the idea of _Law_; and this idea has been in successive
-generations slowly gaining fixity and clearness. Especially has it
-been thus among those whose knowledge of natural phenomena is the
-most extensive—men of science. The mathematician, the physicist,
-the astronomer, the chemist, severally acquainted with the vast
-accumulations of uniformities established by their predecessors, and
-themselves daily adding new ones as well as verifying the old, acquire
-a far stronger faith in law than is ordinarily possessed. With them
-this faith, ceasing to be merely passive, becomes an active stimulus
-to inquiry. Wherever there exist phenomena of which the dependence
-is not yet ascertained, these most cultivated intellects, impelled
-by the conviction that here too there is some invariable connexion,
-proceed to observe, compare, and experiment; and when they discover
-the law to which the phenomena conform, as they eventually do, their
-general belief in the universality of law is further strengthened. So
-overwhelming is the evidence, and such the effect of this discipline,
-that to the advanced student of Nature, the proposition that there
-are lawless phenomena has become not only incredible but almost
-inconceivable.
-
-This habitual recognition of law which already distinguishes modern
-thought from ancient thought, must spread among men at large. The
-fulfilment of fresh predictions that are made possible by every new
-step, and the further {159} command gained over Nature’s forces, prove
-to the uninitiated the validity of scientific generalizations and the
-doctrine they illustrate. Widening education is daily diffusing among
-the mass of men that knowledge of these generalizations which has been
-hitherto confined to the few. And as fast as this diffusion goes on,
-the belief of the scientific must become the belief of the world at
-large.
-
-       *       *       *       *       *
-
-That law is universal, will become an irresistible conclusion when
-it is perceived that _the progress in the discovery of laws itself
-conforms to law_; and when this perception makes it clear why certain
-groups of phenomena have been reduced to law, while other groups are
-still unreduced. When it is seen that the order in which uniformities
-are recognized, must depend on the frequency and vividness with
-which they are repeated in conscious experience; when it is seen
-that, as a matter of fact, the most common, important, conspicuous,
-concrete, and simple, uniformities were the earliest recognized,
-because they were experienced oftenest and most distinctly; it will
-by implication be seen that long after the great mass of phenomena
-have been generalized, there must remain phenomena which, from their
-rareness, or unobtrusiveness, or seeming unimportance, or complexity,
-or abstractness, are still ungeneralized.    Thus will be furnished a
-solution to a difficulty sometimes raised. When it is asked why the
-universality of law is not already fully established, there will be the
-answer that the directions in which it is not yet established are those
-in which its establishment must necessarily be latest. That state of
-things which is inferable beforehand, is just the state which we find
-to exist. If such coexistences and sequences as those of Biology and
-Sociology are not yet reduced to law, the presumption is, not that they
-are irreducible to law, but that their laws elude our present means
-of exploration. Having long ago proved uniformity throughout all the
-lower classes of relations, and having been step by step proving {160}
-uniformity throughout classes of relations successively higher and
-higher, if we have not yet succeeded with the highest classes, it may
-be fairly concluded that our powers are at fault, rather than that the
-uniformity does not exist. And unless we make the absurd assumption
-that the process of generalization, now going on with unexampled
-rapidity, has reached its limit, and will suddenly cease, we must infer
-that ultimately mankind will discover a constant order even among the
-most involved and obscure phenomena.
-
-
-
-
-{161}
-
-THE VALUATION OF EVIDENCE.
-
-
-[_First published in_ The Leader _for June 25, 1853._]
-
-With Spirit-rappings and Table-movings still the rage, and with the
-belief in Spontaneous Combustion still unextinguished, it seems
-desirable that something should be said in justification of that
-general scepticism with which the philosophical meet the alleged
-wonders that periodically turn the heads of the nation. Nothing less
-than a bulky octavo would be needed to contain all that might be
-written on the matter; and unfortunately such an octavo, when written,
-would be little read by those most requiring it. A brief hint or two,
-however, may find listeners among them.
-
-“I tell you I saw it myself,” is the so-thought conclusive assertion
-with which many a controversy is abruptly ended. Commonly those who
-make this assertion think that after it nothing remains to be urged;
-and they are astonished at the unreasonableness of those who still
-withhold their belief. Though they reject many tales of witchcraft,
-many ghost stories whose marvels were attested by eye-witnesses—though
-they have repeatedly seen stage-conjurors seem to do things which they
-do not believe were really done—though they have heard of the Automaton
-Chess-player and the Invisible Girl, and have perhaps seen explanations
-of the modes in which the public were deluded by {162} them—though in
-all these cases they know that the facts were other than the spectators
-supposed them to be; yet they cannot imagine that their own perceptions
-have been vitiated by influences like those which vitiated the
-perceptions of others. Or, to put the thing more charitably and perhaps
-more truly, they forget that such vitiations are constantly occurring.
-
-To observe correctly, though commonly thought very easy, every man
-of science knows to be difficult. Our faculties are liable to report
-falsely from two opposite causes—the presence of hypothesis, and the
-absence of hypothesis. To the dangers arising from one or other of
-these, every observation we make is exposed; and between the two it is
-hard to see any fact _quite_ truly. A few illustrations of the extreme
-distortions arising from the one cause, and the extreme inaccuracy
-consequent on the other, will justify this seeming paradox.
-
-Nearly every one is familiar with the myth prevalent on our sea-coasts,
-respecting the Barnacle Goose. The popular belief was, and indeed is
-still in some places, that the fruits on branches which hang into the
-sea become changed into shell-covered creatures called barnacles, found
-incrusting these submerged branches; and further, that these barnacles
-are in process of time transformed into the birds known as barnacle
-geese. This belief was not confined to the vulgar; it was received
-among naturalists. Nor was it with them simply an adopted rumour. It
-was based on observations which were recorded and approved by the
-highest scientific authorities, and published with their countenance.
-In a paper contained in the _Philosophical Transactions_, Sir Robert
-Moray says:—“In every shell that I opened . . . there appeared nothing
-wanting, as to the external parts, for making up a perfect sea-fowl;
-the little bill like that of a goose, the eyes marked, the head, neck,
-breast, wings, tail, and feet formed, the feathers everywhere perfectly
-shaped and blackish coloured, and the feet like those of other {163}
-waterfowl, to my best remembrance.” Now this myth respecting the
-barnacle goose has been exploded for some century and a half. To a
-modern zoologist who examines one of these cirrhipeds, as the barnacles
-are called, it seems scarcely credible that it could ever have been
-thought a chick; and what Sir Robert Moray could have taken for “head,
-neck, breast, wings, tail, feet, and feathers,” he cannot imagine.
-Under the influence of a pre-conception, here is a man of education
-describing as “a perfect sea-fowl” what is now known to be a modified
-crustacean—a creature belonging to a remote part of the animal kingdom.
-
-A still more remarkable instance of perverted observation exists
-in an old book entitled _Metamorphosis Naturalis_, &c., published
-at Middleburgh in 1662. This work, in which is attempted for the
-first time a detailed account of insect-transformations, contains
-numerous illustrative plates, in which are represented the various
-stages of evolution—larva, pupa, and imago. Those who have any
-knowledge of Entomology will recollect that the chrysalises of all our
-common butterflies exhibit at the anterior end a number of pointed
-projections, producing an irregular outline. Have they ever observed
-in this outline a resemblance to a man’s face? For myself, I can say
-that though in early days I kept brood after brood of butterfly larvæ
-through all their changes, I never perceived any such likeness; nor
-can I see it now. Nevertheless, in the plates of this _Metamorphosis
-Naturalis_, each chrysalis has its projections so modified as to
-represent a burlesque human head—the respective species having
-different profiles given them. Whether the author was a believer
-in metempsychosis, and thought he saw in the chrysalis a disguised
-humanity; or whether, swayed by the false analogy which Butler makes
-so much of, between the change from chrysalis to butterfly and that
-from mortality to immortality, he considered the chrysalis as typical
-of man; does not appear. Here, however, is the fact, that influenced
-by some {164} pre-conception or other, he has made his drawings quite
-different from the actual forms. It is not that he simply thinks this
-resemblance exists—it is not that he merely says he can see it; but his
-preconception so possesses him as to swerve his pencil, and make him
-produce representations laughably unlike the realities.
-
-These, which are extreme cases of distorted perceptions, differ only
-in degree from the distorted perceptions of daily life; and so strong
-is the distorting influence that even the man of science cannot escape
-its effects. Every microscopist knows that if they have conflicting
-theories respecting its nature, two observers shall look through
-the same instrument at the same object, and give quite different
-descriptions of its appearance.
-
-From the dangers of hypothesis let us now turn to the dangers of no
-hypothesis. Little recognized as is the fact, it is nevertheless
-true that we cannot make the commonest observation correctly without
-beforehand having some notion of what we are to observe. You are asked
-to listen to a faint sound, and you find that without a pre-conception
-of the _kind_ of sound you are to hear, you cannot hear it. Provided
-that it is not strong, an unusual flavour in your food may pass quite
-unperceived, unless some one draws attention to it, when you taste it
-distinctly. After knowing him for years, you shall suddenly discover
-that your friend’s nose is slightly awry, and wonder that you never
-remarked it before. Still more striking becomes this inability when
-the facts to be observed are complex. Of a hundred people who listen
-to the dying vibrations of a church bell, almost all fail to perceive
-the harmonics, and assert the sound to be simple. Scarcely any one
-who has not practised drawing, sees, when in the street, that all
-the horizontal lines in the walls, windows, shutters, roofs, seem
-to converge to one point in the distance: a fact which, after a few
-lessons in perspective, becomes visible enough.
-
-Perhaps I cannot more clearly illustrate this necessity for {165}
-hypothesis as a condition to accurate perception, than by narrating a
-portion of my own experience relative to the colours of shadows.
-
-Indian ink was the pigment which, during boyhood, I invariably
-used for shading. Ask any one who has received no culture in art,
-or who has given no thought to it, of what colour a shadow is, and
-the unhesitating reply will be—black. This is uniformly the creed
-of the uninitiated; and in this creed I undoubtingly remained till
-about eighteen. Happening, at that age, to come much in contact with
-an amateur artist, I was told, to my great surprise, that shadows
-are not black but of a neutral tint. This, to me, novel doctrine, I
-strenuously resisted. I have a pretty distinct recollection of denying
-it point blank, and quoting all my experience in support of the denial.
-I remember, too, that the controversy lasted over a considerable
-period; and that it was only after my friend had repeatedly drawn my
-attention to instances in Nature, that I finally gave in. Though I must
-previously have seen myriads of shadows, yet in consequence of the fact
-that very generally the tint approaches to black, I had been unable,
-in the absence of hypothesis, to perceive that in many cases it is
-distinctly not black.
-
-I continued to hold this amended doctrine for some years. It is true
-that from time to time I observed that the tone of the neutral tint
-varied considerably in different shadows; but still the divergencies
-were not such as to shake my faith in the dogma. By-and-bye, however,
-in a popular work on Optics, I met with the statement that the colour
-of a shadow is always the complement of the colour of the light casting
-it. Not seeing the wherefore of this alleged law, which seemed moreover
-to conflict with my established belief, I was led to study the matter
-as a question of causation. _Why_ are shadows coloured? and what
-determines the colour? were the queries that suggested themselves. In
-seeking answers, it soon became manifest {166} that as a space in
-shadow is a space from which the _direct_ light alone is excluded, and
-into which the _indirect_ light (namely, that reflected by surrounding
-objects, by the clouds and by the sky) continues to fall, the colour
-of a shadow must partake of the colour of everything that can either
-radiate or reflect light into it. Hence, the colour of a shadow must
-be _the average colour of the diffused light;_ and must vary, as that
-varies, with the colours of all surrounding things. Thus was at once
-explained the inconstancy I had already noticed; and I presently
-recognized in Nature that which the theory implies—namely, that a
-shadow may have any colour whatever, according to circumstances. Under
-a clear sky, and with no trees, hedges, houses, or other objects at
-hand, shadows are of a pure blue. During a red sunset, mixture of the
-yellow light from the upper part of the western sky with the blue light
-from the eastern sky, produces green shadows. Go near to a gas-lamp on
-a moonlight night, and a pencil-case placed at right angles to a piece
-of paper will be found to cast a purple-blue shadow and a yellow-grey
-shadow, produced by the gas and the moon respectively. And there are
-conditions it would take too long here to describe, under which two
-parts of the same shadow are differently coloured. All which facts
-became obvious to me as soon as I knew that they must exist.
-
-Here, then, respecting certain simple phenomena that are hourly
-visible, are three successive convictions; each of them based on years
-of observation; each of them held with unhesitating confidence; and
-yet only one—as I now believe—true. But for the help of an hypothesis,
-I should probably have remained in the common belief that shadows are
-black. And but for the help of another hypothesis, I should probably
-have remained in the half-true belief that they are neutral tint.
-
-Is it not clear, therefore, that to observe correctly is by no means
-easy? On the one hand, a pre-conception, makes {167} us liable to
-see things not quite as they are, but as we think them. On the other
-hand, in the absence of a pre-conception, we are liable to pass over
-much that we ought to see. Yet we must have either a pre-conception
-or no pre-conception. Evidently, then, all our observations, save
-those guided by true theories already reached, are in danger of either
-distortion or incompleteness.
-
-It remains but to remark, that if our observations are imperfect in
-cases like the foregoing, where the things seen are persistent, and
-may be again and again looked at or continuously contemplated; how
-much more imperfect must they be where the things seen are complex
-processes, changes, or actions, each presenting successive phases,
-which, if not truly observed at the moments they severally occur,
-can never be truly observed at all! Here the chances of error become
-immensely multiplied. And when, in addition, there exists some moral
-excitement,—when, as in these Spirit-rapping and Table-turning
-experiments, the intellect is partially paralysed by fear or wonder
-correct observation becomes next to an impossibility.
-
-
-
-
-{168}
-
-WHAT IS ELECTRICITY?
-
-
-[_First published in_ The Reader _for November 19, 1864._]
-
-Probably few, if any, competent physicists have, of late years, used
-the term “electric fluid” in any other than a conventional sense.
-When distinguishing electricity into the two kinds, “positive” and
-“negative,” or “vitreous” and “resinous,” they have used the ideas
-suggested by these names merely as convenient symbols, and not as
-representatives of different entities. And, now that heat and light are
-proved to be modes of motion, it has become obvious that all the allied
-manifestations of force must be modes of motion.
-
-What is the particular mode of motion which constitutes electricity,
-thus becomes the question. That it is some kind of molecular vibration,
-different from the molecular vibrations which luminous bodies give off,
-is, I presume, taken for granted by all who bring to the consideration
-of the matter a knowledge of recent discoveries. Beyond those simple
-oscillations of molecules from which light and heat result, may we not
-suspect that there will, in some cases, arise compound oscillations?
-Let us consider whether the conditions under which electricity arises
-are not such as to generate compound oscillations; and whether the
-phenomena of electricity are not such as must result from compound
-oscillations.
-
-The universal antecedent to the production of electricity {169} is the
-immediate or mediate contact of heterogeneous substances—substances
-that are heterogeneous either in their molecular constitutions, or in
-their molecular states. If, then, electricity is some mode of molecular
-motion, and if, whenever it is produced, the contact of substances
-having unlike molecules or molecules in unlike states, is the
-antecedent, there seems thrust upon us the conclusion that electricity
-results from some mutual action of molecules whose motions are unlike.
-
-What must be that mutual action of molecules having unlike motions,
-which, as we see, is the universal antecedent of electrical
-disturbance? The answer to this question does not seem difficult to
-reach, if we take the simplest case—the case of contact-electricity.
-When two pieces of metal of the same kind, and at the same temperature,
-are applied to one another, there is no electrical excitation; but, if
-the metals applied to one another be of different kinds, there is a
-genesis of electricity. This, which has been regarded as an anomalous
-fact—a fact so anomalous that it has been much disputed because
-apparently at variance with every hypothesis—is a fact to which an
-interpretation is at once supplied by the hypothesis that electricity
-results from the mutual disturbances of unlike molecular motions.
-For if, on the one hand, we have homogeneous metals in contact,
-their respective molecules, oscillating synchronously, will give and
-take any forces which they impress on one another without producing
-oscillations of new orders. But if, on the other hand, the molecules
-of the one mass have periods of oscillation different from those of
-the other mass, their mutual impacts will not agree with the period
-of oscillation of either, but will generate a new rhythm, differing
-from, and much slower than, that of either. The production of what
-are called “beats” in acoustics, will best illustrate this. It is a
-familiar fact that two strings vibrating at different rates, from
-time to time concur in sending off aërial waves in the {170} same
-direction at the same instant: that then, their vibrations getting
-more and more out of correspondence, they send off their aërial waves
-in the same direction at exactly intermediate instants; and presently,
-coming once more into correspondence, they again generate coinciding
-waves. So that when their periods of vibration differ but little,
-and when consequently it takes an appreciable time to complete their
-alternations of agreement and disagreement, there results an audible
-alternation in the sound—a succession of pulses of louder and feebler
-sound. In other words, besides the primary, simple, and rapid series
-of waves, constituting the two sounds themselves, there is a series
-of slow compound waves, resulting from their repeated conflicts and
-concurrences. Now if, instead of the two strings communicating their
-vibrations to the air, each communicated its vibrations to the other,
-we should have just the same alternation of concurrent and conflicting
-pulses. And if each of the two strings was combined with an aggregate
-of others like itself, in such way that it communicated to its
-neighbours both its normal and its abnormal vibrations, it is clear
-that through each aggregate of strings there would be propagated one of
-these compound waves of oscillation, in addition to their simple rapid
-oscillations. This illustration will, I think, make it manifest that
-when a mass of molecules which have a certain period of vibration, is
-placed in contact with a mass of molecules which have another period
-of vibration, there must result an alternation of coincidences and
-antagonisms in the molecular motions, such as will make the molecules
-alternately increase and decrease one another’s motions. There will
-be instants at which they are moving in the same direction, and
-intervening instants at which they are moving in opposite directions;
-whence will arise periods of greatest and least deviations from their
-ordinary motions. And these greatest and least deviations, being
-communicated to neighbouring molecules, and passed on by them {171} to
-the next, will result in waves of perturbation propagated throughout
-each mass.
-
-Let us now ask what will be the mutual relations of these waves. Action
-and reaction being equal and opposite, it must happen that whatever
-effect a molecule of the mass A produces upon an adjacent molecule of
-the mass B, must be accompanied by an equivalent reverse effect upon
-itself. If a molecule of the mass A is at any instant moving in such
-way as to impress on a molecule of the mass B an additional momentum
-in any given direction, then the momentum of the molecule of A, in
-that direction, will be diminished to an equal amount. That is to say,
-to any wave of increased motion propagated through the molecules of
-B, there must be a reactive wave of decreased motion propagated in
-the opposite direction through the molecules of A. See, then, the two
-significant facts. Any _addition_ of motion, which at one of these
-alternate periods is given by the molecules of A to the molecules of
-B, must be propagated through the molecules of B in a direction _away
-from_ A; and simultaneously there must be a _subtraction_ from the
-motion of the molecules of A, which will be propagated through them
-in a direction _away from_ B. To every wave of _excess_ sent through
-the one mass, there will be a corresponding wave of _defect_ sent
-through the other; and these _positive_ and _negative_ waves will be
-exactly coincident in their times, and exactly equal in their amounts.
-Whence it follows that if these waves, proceeding from the surface of
-contact through the two masses in contrary directions, are brought into
-relation, they will neutralize each other. Action and reaction being
-equal and opposite, these _plus_ and _minus_ molecular motions will
-cancel if they are added together; and there will be a restoration of
-equilibrium.
-
-These positive and negative waves of perturbation will travel
-through the two masses of molecules with great facility. It is now
-an established truth that molecules {172} absorb, in the increase
-of their own vibrations, those rhythmical impulses or waves which
-have periodic times the same as their own; but that they cannot thus
-absorb successive impulses that have periodic times different from
-their own. Hence these differential undulations, being very long
-undulations in comparison with those of the molecules themselves, will
-readily pass through the masses of molecules, or be _conducted_ by
-them. Further observe that, if the two masses of molecules continue
-joined, these positive and negative differential waves travelling away
-from the surface of contact in opposite directions, and severally
-arriving at the outer surfaces of the two masses, will be reflected
-from these; and, travelling back again toward the surface of contact,
-will there meet and neutralize one another. Hence no current will be
-produced along a wire joining the outer surfaces of the masses; since
-neutralization will be more readily effected by this return of the
-waves through the masses themselves. But, though no external current
-arises, the masses will continue in what we call opposite electric
-states; as a delicate electrometer shows that they do. And further,
-if they are parted, the positive and negative waves which have the
-instant before been propagated through them respectively, remaining
-unneutralized, the masses will display their opposite electric states
-in a more conspicuous way. The residual positive and negative waves
-will then neutralize each other along any conductor that is placed
-between them, seeing that the _plus_ waves communicated from the one
-mass to the conductor, meeting with the _minus_ waves communicated from
-the other, and being mutually cancelled as they meet, the conductor
-will become a line of least resistance to the waves of each mass.
-
-Let us pass now to the allied phenomena of thermo-electricity. Suppose
-these two masses of metal to be heated at their surfaces of contact:
-the forms of the {173} masses being such that their surfaces of
-contact can be considerably heated without their remoter parts being
-much heated. What will happen? Prof. Tyndall has shown, in the cases
-of various gases and liquids, that, other things equal, when molecules
-have given to them more of the insensible motion which we call heat,
-there is no alteration in their periods of oscillation, but an
-increase in the amplitudes of their oscillations: the molecules make
-wider excursions in the same times. Assuming that it is the same in
-solids, it will follow that, when the two metals are heated at their
-surfaces of contact, the result will be the same as before in respect
-of the natures and intervals of the differential waves. There will be
-a change, however, in the strengths of these waves. For, if the two
-orders of molecules have severally given to them increased quantities
-of motion, the perturbations which they impress on each other will
-also be increased. These stronger positive and negative waves of
-differential motion will, as before, travel through either mass away
-from the surfaces of contact—that is, toward the cold extremities of
-the masses. From these cold extremities they will, as before, rebound
-toward the surfaces of contact; and, as before, will tend thus to
-equilibriate each other. But they will meet with resistance in thus
-travelling back. It is a well-ascertained fact that raising the
-temperatures of metals decreases their conducting powers. Hence, if
-the two cold ends of the masses be connected by some other mass whose
-molecules can take on with facility these differential undulations—that
-is, if the two ends be joined by a conductor, the positive and negative
-waves will meet and neutralize one another along this conductor,
-instead of being reflected back to the surfaces of contact. In other
-words, there will be established a current along the wire joining the
-two cold ends of the metallic masses.
-
-Carried a step further, this reasoning affords us an explanation of the
-thermo-electric pile. If a number of {174} these bars of different
-metals, as antimony and bismuth, are soldered together, end to end,
-in alternate order, AB, AB, AB, etc., then, so long as they remain
-cold, there is no manifestation of an electric current; or, if all the
-joints are equally heated, there is no manifestation of an electric
-current beyond that which would arise from any relative coolness of
-the two ends of the compound bar. But if alternate joints are heated,
-an electric current is produced in a wire joining the two ends of the
-compound bar—a current that is intense in proportion to the number of
-pairs. What is the cause of this? Clearly, so long as all the joints
-are of the same temperature, the differential waves propagated from
-each joint toward the two adjacent joints will be equal and opposite to
-those from the adjacent joints, and no disturbance will be shown. But
-if alternate joints are heated, the positive and negative differential
-waves propagated away from them will be stronger than those propagated
-from the other joints. Hence, if the joint of bar A with bar B be
-heated, the other end of the bar B, which is joined to A2, not being
-heated, will receive a stronger differential wave than it sends back.
-In addition to the wave which its molecules would otherwise induce in
-the molecules of A2, there is an effect which it conducts from A1;
-and this extra impulse propagated to the other end of B2 is added to
-the impulse which its heated molecules would otherwise give to the
-molecules of A3; and so on throughout the series. The waves being added
-together, become more violent, and the current through the wire joining
-the extremities of the series, more intense.
-
-This interpretation of the facts of thermo-electricity will probably
-be met by the objection that there are, in some cases, thermo-electric
-currents developed between masses of metal of the same kind, and even
-between different parts of the same mass. It may be urged that, if
-unlikeness between the rates of vibration of molecules in contact
-{175} is the cause of these electric disturbances; then, heat ought
-not to produce any electric disturbances when the molecules are of the
-same kind; since heat does not change the periodic times of molecular
-vibrations. This objection, which seems at first sight a serious one,
-introduces us to a confirmation. For where the masses of molecules
-are homogeneous in all other respects, difference of temperature
-does _not_ generate any thermo-electric current. The junction of hot
-with cold mercury sets up no electric excitement. In all cases where
-thermo-electricity is generated between metals of the same kind, there
-is evidence of heterogeneity in their molecular structures—either one
-has been hammered and the other not, or one is annealed and the other
-unannealed. And where the current is between different parts of the
-same mass, there are differences in the crystalline states of the
-parts, or differences between the ways in which the parts have cooled
-after being cast. That is to say, there is proof that the molecules in
-the two masses, or in different parts of the same mass, are in unlike
-relations to their neighbours—are in unlike states of tension. Now,
-however true it may be that molecules of the same kind vibrate at the
-same rate, whatever may be their temperature, it is obviously true so
-long only as their motions are not modified by restraining forces. If
-molecules of the same kind are in one mass arranged into that state
-which constitutes crystallization, while in another mass they are not
-thus bound together; or if in the one their molecular relations have
-been modified by hammering, and in the other not; the differences
-in the restraints under which they respectively vibrate will affect
-their rates of vibration. And if their rates of vibration are rendered
-unequal, then the alleged cause of electrical disturbance comes into
-existence.
-
-To sum up, may it not be said that by some such action alone can the
-phenomena of electricity be explained; {176} and that some such
-action must inevitably arise under the conditions? On the one hand
-electricity, being a mode of motion, implies the transformation of some
-preëxisting motion—implies, also, a transformation such that there are
-two new kinds of motion simultaneously generated, equal and opposite in
-their directions—implies, further, that these differ in being _plus_
-and _minus_, and being therefore capable of neutralizing each other.
-On the other hand, in the above cases, molecular motion is the only
-source of motion that can be assigned; and this molecular motion seems
-calculated, under the circumstances, to produce effects like those
-witnessed. Molecules vibrating at different rates cannot be brought in
-juxtaposition without affecting one another’s motions. They must affect
-one another’s motions by periodically adding to, or deducting from one
-another’s motions; and any excess of motion which those of the one
-order receive, must be accompanied by an equivalent defect of motion in
-those of the other order. When such molecules are units of aggregates
-placed in contact, they must pass on these perturbations to their
-neighbours. And so, from the surface of contact, there must be waves of
-excessive and defective molecular motion, equal in their amounts, and
-opposite in their directions—waves which must exactly compensate one
-another when brought into relation.
-
-I have here dealt only with electrical phenomena of the simplest
-kind. Hereafter I may possibly endeavour to show how this hypothesis
-furnishes interpretations of other forms of Electricity.
-
-       *       *       *       *       *
-
-POSTSCRIPT (1873).—During the nine years which have elapsed since the
-foregoing essay was published, I have found myself no nearer to such
-allied interpretations of other forms of Electricity. Though, from time
-to time, I have recurred to the subject, in the hope of fulfilling the
-{177} expectation raised by the closing sentence, yet no clue has
-encouraged me to pursue the speculation. Only now, when republication
-of the essay in a permanent form once more brings the question before
-me, does there occur a thought which appears worth setting down.
-
-The union of two different ideas, not before placed side by side, has
-generated this thought. In the first number of the _Principles of
-Biology_, issued in January 1863, and dealing, among other “Data of
-Biology,” with organic matter and the effects of forces upon it, I
-ventured to speculate about the molecular actions concerned in organic
-changes, and, among others, those by which light enables plants to take
-the carbon from carbonic acid (§ 13). Pointing out that the ability
-of heat to decompose compound molecules, is generally proportionate
-to the difference between the atomic weights of their component
-elements, and assuming that components having widely-unlike atomic
-weights, have widely-unlike motions, and are therefore affected by
-widely-unlike undulations; the inference drawn was, that in proportion
-as the rhythms of its components differ, a compound molecule will
-be unstable in presence of strong etherial undulations acting upon
-one component more than on the other or others: their movements thus
-being rendered so incongruous that they can no longer hold together.
-It was argued, further, that a tolerably-stable compound molecule
-may, if exposed to strong etherial undulations especially disturbing
-one of its components, be decomposed when in presence of some unlike
-molecule having components whose times of oscillation differ less from
-those of this disturbed component. And a parallel was drawn between
-the de-oxidation of metals by carbon when exposed to the longer
-undulations in a furnace, and the de-carbonization of carbonic acid by
-hydrogen, &c., when exposed to the shorter undulations in a plant’s
-leaves. These ideas I recall chiefly for the purpose of presenting
-clearly the conception of a compound molecule as containing {178}
-diversely-moving components—components having independent and unlike
-oscillations, in addition to the oscillation of the whole molecule
-formed by them. The legitimacy of this conception may, I suppose, be
-assumed. The beautiful experiments by which Prof. Tyndall has proved
-that light decomposes the vapours of certain compounds, illustrates
-this ability which the elements of a compound molecule have, severally
-to take up etherial undulations corresponding to their own; and thus
-to have their individual movements so increased as to cause disruption
-of the compound molecule. This, at least, is the interpretation
-which Prof. Tyndall puts on the facts; and I presume that he puts a
-kindred interpretation upon the facts he has disclosed respecting the
-marvellous power possessed by complex-moleculed vapours to absorb
-heat—the interpretation, namely, that the thermal undulations are,
-in such vapours, taken up in augmenting the movements within each
-molecule, rather than in augmenting the movements of the molecules as
-wholes.
-
-But now, assuming this to be a true conception of compound molecules
-and the effects produced on them by etherial undulations, there
-presents itself the question—What will be the effects produced by
-compound molecules on one another? How will the elements of one
-compound molecule have their rhythmical motions affected by proximity
-to the elements of an unlike compound molecule? May we not suspect
-that effects will be produced on one another, not only by the unlike
-molecules as wholes, but also certain other, and partially-independent,
-effects by their components on one another; and that there will so
-be generated some specialized form of molecular motion? Throughout
-the speculation set forth in the foregoing essay, the supposition is
-that the molecules are those of juxtaposed metals—molecules which,
-whether absolutely simple or not, are relatively simple; and these
-are regarded as producing on one another’s movements perturbations
-of a relatively-simple kind, which admit of being transferred from
-molecule {179} to molecule throughout each mass. In trying to carry
-further this interpretation, it had not occurred to me until now,
-to consider the perturbations produced on one another by compound
-molecules: taking into consideration, not merely the capacity each
-has for affecting the other as a whole, but the capacity which the
-constituents of each individually have for affecting the individual
-constituents of the other. If an individual constituent of a compound
-molecule can, by the successive impacts of etherial undulations, have
-the amplitudes of its oscillations so increased as to detach it; we can
-scarcely doubt that an individual constituent of a compound molecule
-may affect an individual constituent of an unlike compound molecule
-near it: their respective oscillations perturbing one another apart
-from the perturbation produced on one another by the compound molecules
-as wholes. And it seems inferable that the secondary perturbation thus
-arising, will, like the primary perturbation, be such that the action
-and reaction, equal and opposite in their amounts, will produce equal
-and opposite deviations in the molecular movements. From this there
-appear to be several corollaries.
-
-If a compound molecule, having a slow rhythm as a whole in addition
-to the more rapid rhythms of its members, has the power of taking
-up much of that motion we call heat in the increase of its internal
-movements, and to a corresponding degree takes up less in the increase
-of its movements as a whole; then may we not infer that the like will
-hold when other kinds of forces are brought to bear on it? May we
-not anticipate that when a mass of compound molecules of one kind is
-made to act upon a mass of compound molecules of another kind (say by
-friction), the molecular effects mutually produced, partly in agitating
-the molecules as wholes, and partly in agitating their components
-relatively to one another, will become less of the first and more of
-the last, in proportion as the molecules progress in compositeness?
-
-A further implication suggests itself. While much of the {180} force
-mutually exercised will thus go to increase the motion within each
-of the compound molecules that immediately act on one another, it
-appears inferable that relatively little of this intestinal motion
-will be communicated to other molecules. The excesses of oscillation
-given to individual members of a large cluster, will not be readily
-passed on to homologous members of adjacent large clusters; since they
-must be relatively far apart. Whatever motion is transferred, must be
-transferred by waves of the intervening etherial medium; and the power
-of these must decrease rapidly as the distance increases. Obviously
-such difficulty of transfer must, for this reason, become great when
-the molecules become highly compounded.
-
-At the same time will it not follow that such augmentations of
-movement caused in individual members of a cluster, not being readily
-transmissible to homologous members of adjacent clusters, will
-accumulate? The more composite molecules become, the more possible
-will it be for individual components of them to be violently affected
-by individual components of different composite molecules near
-them—the more possible will it be for their mutual perturbations to
-progressively increase?
-
-And now let us consider how these inferences bear on the interpretation
-of Statical Electricity—the form of Electricity most unlike the form
-above dealt with.
-
-The substances which exhibit most conspicuously the phenomena of
-statical electricity are distinguished either by the chemical
-complexity of their molecules, or else by the compositeness of their
-molecules produced allotropically or isomerically, or else by both.
-The simple substances electrically excited by friction, as carbon and
-sulphur, are those having several allotropic states—those capable of
-forming multiple molecules. The conchoidal fracture of the diamond and
-of roll-sulphur, suggest some colloidal form of aggregation, regarded
-by Prof. Graham as a form in which the molecules are united into {181}
-relatively-large groups.[23] In such compound inorganic substances as
-glass, we have, besides the chemical complexity, this same conchoidal
-fracture which, along with other evidence, shows glass to be a colloid;
-and the colloidal form of molecule is to be similarly inferred as
-characterizing resin, amber, &c. That dry animal substances, such as
-silk and hair, are formed of extremely-large molecules, we have clear
-proof; since these, chemically complex in a high degree, also have
-their components united in high multiples. It needs but to name the
-fact that non-electric and conducting substances, such as the metals,
-acids, water, &c., have relatively-simple molecules, to make it clear
-that the capacity for developing statical electricity depends in some
-way upon the presence of molecules of highly composite kinds. And
-there is even still more conclusive proof than that yielded by the
-contrast between these groups—the proof furnished by the fact that
-the same substance may be a conductor or a non-conductor, according
-to its form of molecular aggregation. Thus selenium when crystalline
-is a conductor, but when in that allotropic state called amorphous,
-or non-crystalline, it is a good non-conductor. That is, accepting
-Prof. Graham’s interpretation of these states, when its molecules are
-arranged simply, it is a conductor, but when they are compounded into
-large groups it is a non-conductor, and, by implication, an electric.
-
-So far, then, the _à priori_ inference that a peculiar form of
-molecular perturbation will result when two unlike substances, one of
-which or each of which consists of {182} highly-compounded molecules,
-are made to act on one another, is justified _a posteriori_. And now,
-instead of asking generally what will happen, let us ask what may
-be inferred to happen in a special case. A piece of glass is rubbed
-by silk. The large colloidal molecules forming the surface of each,
-are made to disturb one another. This is an inference about which
-there will, I suppose, be no dispute; since it is that assumed in
-the now-established doctrine of the correlation of heat and motion.
-Besides the effect which, as wholes the molecules mutually produce,
-there is the effect produced on one another by certain of their
-components. Such of these as have times of oscillation which differ,
-but not very widely, generate mutual perturbations that are equal and
-opposite. Could these perturbations be readily propagated away from
-the surface of contact through either mass, the effect would quickly
-dissipate, as in the case of metals; but, for the reason given above,
-these perturbations cannot be transferred with ease to the homologous
-members of the compound molecules behind. Hence the mechanical force
-of the friction, transformed into the molecular movements of these
-superficial constituent molecules, exists in them as _intense_ mutual
-perturbations, which, unable to diffuse, are limited to the surfaces,
-and, indeed, to those parts of the surfaces that have acted on one
-another. In other words, the two surfaces become charged with two equal
-and opposite molecular perturbations—perturbations which, cancelling
-one another if the surfaces are kept in contact, cannot do this if
-the surfaces are parted; but can then cancel one another only if a
-conductor is interposed.
-
-Let me briefly point out some apparent agreements between the
-corollaries from this hypothesis, and the observed phenomena.
-
-We have, first, an interpretation of the fact, otherwise seeming so
-anomalous, that this form of electrical excitement is _superficial_.
-That there should be a mode of {183} activity limited to the surface
-of a substance, is difficult to understand in the absence of some
-conception of the kind suggested.
-
-We have an explanation of the truth, insisted on by Faraday, that
-there can be no charge of one kind of electricity obtained, without
-a corresponding charge of the opposite kind. For it is a necessary
-implication of the hypothesis above set forth, that no molecular
-perturbation of the nature described, can be produced, without there
-being simultaneously produced a counter-perturbation exactly equal to
-it.
-
-May we not also say that some insight is afforded into the phenomena
-of induction? In the cases thus far considered, the two surfaces
-electrified by the mutual perturbations of their molecules, are
-supposed to be in contact. Since, however, apparent contact is not
-actual contact, we must, even in this case, assume that the mutual
-perturbation is effected through an intervening stratum of ether. To
-interpret induction, then, we have first to conceive this stratum
-of ether to be greatly increased in thickness; and then to ask what
-will happen if the molecules of one surface, in this state of extreme
-internal perturbation, act on the molecules of a surface near it.
-Whether the stratum of ether is so thin as to be inappreciable to our
-senses, or whether it is wide enough to be conspicuous, it must still
-happen that if through it the mutual perturbations are conveyed in the
-one case, they will be conveyed in the other; and hence a surface which
-is already the seat of these molecular perturbations of one order, will
-induce perturbations of a counter order in the molecules of an adjacent
-surface.
-
-In additional justification of the hypothesis, I will only point out
-that voltaic electricity seems to admit of a kindred interpretation.
-For any molecular re-arrangement, such as occurs in a chemical
-decomposition and recombination, implies that the movements of
-the {184} molecules concerned are mutually perturbed; and their
-perturbations must conform to the general law already described: the
-molecules must derange one another’s motions in equal and opposite
-ways, and so must generate _plus_ and _minus_ derangements that cancel
-when brought into relation.
-
-Of course I suggest this view simply as one occurring to an outsider.
-Unquestionably it presents difficulties; as, for instance, that no
-manifest explanation is yielded by it of electric attractions and
-repulsions. And there are doubtless objections not obvious to me that
-will at once strike those to whom the facts are more familiar. The
-hypothesis must be regarded as speculative; and as set down on the
-chance that it may be worth consideration.
-
-       *       *       *       *       *
-
-Since the foregoing postscript was put in type, I have received
-criticisms upon it, oral and written, from several leading electricians
-and physicists; and I have profited by them to amend parts of the
-exposition. While I have remained without endorsements of the
-hypothesis, the objections raised have not been such as to make clear
-its untenability.
-
-On one point an addition seems needful to exclude a misconstruction
-apt to arise. The description of the mutually-produced molecular
-perturbations, opposite in their kinds, as resulting in waves that are
-propagated away from the place of disturbance, and that cancel when
-brought into relation, is met by the criticism that waves, proceeding
-in opposite directions and meeting, do not mutually cancel, but,
-passing one another, proceed onwards. There are, however, two respects
-in which the parallelism does not hold, between the waves referred
-to and the waves I have described, which perhaps cannot rightly be
-called waves. The waves referred to, as those on the surface of a
-liquid, {185} are such that each consists of two opposite deviations
-from a mean state. Each shows excess and defect. A series of them is
-a series of _plus_ and _minus_ divergences; and if two such series
-meet one another, they do not cancel. But there is no analogy between
-this case and a case in which the whole effect propagated in one
-direction is a _plus_ motion, and the whole effect propagated in the
-opposite direction is a _minus_ motion—that is, _plus_ and _minus_
-changes in other motions. These, if equal in amount, will cancel when
-they meet. If one is a continual addition to motion in a certain
-direction, and the other a corresponding subtraction from motion in
-that direction, the two, when added together, must produce zero. From
-another point of view the absence of parallelism between the two
-cases may be equally well seen. Waves of the kinds instanced as not
-cancelling one another, are waves produced by some force foreign to
-the medium exhibiting them—an extrinsic force. Hence, proceeding from
-the place of initiation, they are necessarily, considered in their
-totalities, _positive_ in whatever directions they travel; and hence,
-too, when conducted round so as to meet, an exaggerated perturbation
-will result. But in the simplest of the cases here dealt with (that
-of contact-electricity) the perturbation is not of extrinsic origin,
-but of intrinsic origin. There is no external activity at the expense
-of which the quantity of motion in the disturbed matter is positively
-increased. The activity, being such only as is internally possessed,
-can generate no more motion than already exists; and therefore whatever
-gain of motion arises anywhere in the molecules must be at the cost of
-an equal loss elsewhere. Here perturbation cannot be a _plus_ motion
-in all directions from the place of initiation; but any _plus_ motion
-continually generated can result only from an equal and opposite
-_minus_ motion continually generated; and the mutual cancelling becomes
-a corollary from the mutual genesis.
-
-In the course of the discussions which I have had, the {186} following
-way of presenting the argument has occurred to me.
-
-1. Two homogeneous bodies are rubbed together and there results heat:
-the interpretation being that the molar motion is transformed into
-molecular motion. Here motion produces motion—the _form_ only being
-changed.
-
-2. Now of the two bodies one is replaced by a body unlike in nature to
-the other, and they are again rubbed. Again a certain amount of heat
-is produced: some of the molar motion is, as before, transformed into
-molecular motion. But, at the same time, another part of the molar
-motion is changed into—what? Surely not a fluid, a substance, a thing.
-It cannot be that what in the first case produces a change of _state_,
-in the second case produces an _entity_. And in the second case itself,
-it cannot be that while part of the original motion becomes changed
-into another species of motion, part of it becomes changed into a
-species of matter.
-
-3. Must we not say, then, that if, when the two bodies rubbed are
-homogeneous, sensible motion is transformed into insensible motion,
-when they are heterogeneous, sensible motion must still be transformed
-into insensible motion: such difference of nature as this insensible
-motion has, being consequent on the difference of nature between the
-two kinds of molecules acting on one another?
-
-4. If, when the two masses are homogeneous, those molecules which
-compose the two rubbed surfaces disturb one another, and increase one
-another’s oscillations; then, when the two masses are heterogeneous,
-those molecules forming the two rubbed surfaces must also disturb one
-another in some way—increase one another’s agitations.
-
-5. If, when the two sets of molecules are alike in kind, the mutual
-disturbance is such that they simply increase the amplitudes of one
-another’s oscillations, and do this because their times correspond;
-then, must it not be {187} that when they are unlike in kind, the
-mutual disturbance will involve a differential action consequent on the
-unlikeness of their motions? Must not the discord of the oscillations
-produce a result which cannot be produced when the oscillations are
-concordant—a compound form of molecular motion?
-
-6. If masses of relatively-simple molecules, placed in apposition
-and made to act on one another, cause such effects; then must we not
-say that effects of the same class, but of a different order, will
-be caused by the mutual actions, not of the molecules as wholes,
-but of their constituents? If the rubbed surfaces severally consist
-of highly-compounded molecules—each containing, it may be, several
-hundreds of minor molecules, united into a definitely-arranged cluster;
-then, while the molecules as wholes affect one another’s motions,
-must we not infer that the constituents of the one class will affect
-the constituents of the other class in their motions? While the
-molecules as wholes increase one another’s oscillations, or derange one
-another’s oscillations, or both, the components of them cannot be so
-stably arranged that members of the one group are wholly inoperative
-on members of the other group. And if they are operative, then there
-must be a compound form of molecular motion which arises when masses
-of highly-compounded molecules of unlike kinds, are made to act on one
-another.
-
-With this series of propositions and questions, I leave the suggestion
-to its fate; merely remarking that, setting out with the principles
-of molecular physics now accepted, it seems difficult to avoid the
-implication that some actions of the kinds described take place, and
-that there result from them some classes of phenomena—phenomena which,
-if not those we call electrical, remain to be identified.
-
-
-ENDNOTE TO _WHAT IS ELECTRICITY?_.
-
-[23] Though conchoidal fracture may not be conclusive proof of
-colloidality, yet colloidal substances hard enough for fracture always
-display it. Respecting roll-sulphur I may say that though in a few
-days after it is made, it changes from its original state to a state
-in which it consists of minute crystals of another kind irregularly
-massed, yet there is reason for suspecting that these have a matrix
-of amorphous sulphur. I learn from Dr. Frankland that, when sublimed,
-sulphur aggregates partly into minute crystals and partly into an
-amorphous powder distinguished by insolubility.
-
-
-
-
-{188}
-
-MILL _versus_ HAMILTON—THE TEST OF TRUTH.
-
-
-[_First published in_ The Fortnightly Review _for July 1865._]
-
-British speculation, to which, the chief initial ideas and established
-truths of Modern Philosophy are due, is no longer dormant. By his
-_System of Logic_, Mr. Mill probably did more than any other writer to
-re-awaken it. And to the great service he thus rendered some twenty
-years ago, he now adds by his _Examination of Sir William Hamilton’s
-Philosophy_—a work which, taking the views of Sir William Hamilton
-as texts, reconsiders sundry ultimate questions that still remain
-unsettled.
-
-Among these questions is one of much importance which has already
-been the subject of controversy between Mr. Mill and others; and this
-question I propose to discuss afresh. Before doing so, however, it will
-be desirable to glance at two cardinal doctrines of the Hamiltonian
-philosophy from which Mr. Mill shows reasons for dissenting—desirable,
-because comment on them will elucidate what is to follow.
-
-In his fifth chapter, Mr. Mill points out that “what is rejected as
-knowledge by Sir William Hamilton,” is “brought back by him under the
-name of belief.” The quotations justify this description of Sir W.
-Hamilton’s position, and warrant the assertion that the relativity
-of {189} knowledge was held by him but nominally. His inconsistency
-may, I think, be traced to the use of the word “belief” in two quite
-different senses. We commonly say we “believe” a thing for which
-we can assign preponderating evidence, or concerning which we have
-received some indefinable impression. We _believe_ that the next
-House of Commons will not abolish Church-rates; or we _believe_ that
-a person on whose face we look is good-natured. That is, when we can
-give confessedly-inadequate proofs or no proofs at all for the things
-we think, we call them “beliefs.” And it is the peculiarity of these
-beliefs, as contrasted with cognitions, that their connexions with
-antecedent states of consciousness may be easily severed, instead of
-being difficult to sever. But, unhappily, the word “belief” is also
-applied to each of those temporarily or permanently indissoluble
-connexions in consciousness, for the acceptance of which the only
-warrant is that it cannot be got rid of. Saying that I feel a pain,
-or hear a sound, or see one line to be longer than another, is saying
-that there has occurred in me a certain change of state; and it is
-impossible for me to give a stronger evidence of this fact than that
-it is present to my mind. Every argument, too, is resolvable into
-successive affections of consciousness which have no warrants beyond
-themselves. When asked why I assert some mediately known truth, as
-that the three angles of a triangle are equal to two right angles, I
-find that the proof may be decomposed into steps, each of which is an
-immediate consciousness that certain two quantities or two relations
-are equal or unequal—a consciousness for which no further evidence is
-assignable than that it exists in me. Nor, on finally getting down to
-some axiom underlying the whole fabric of demonstration, can I say
-more than that it is a truth of which I am immediately conscious.
-But now observe the confusion that has arisen. The immense majority
-of truths which we accept as beyond doubt, and from which our notion
-of unquestionable truth is abstracted, {190} have this other trait
-in common—they are severally established by affiliation on deeper
-truths. These two characters have become so associated, that one
-seems to imply the other. For each truth of geometry we are able
-to assign some wider truth in which it is involved; for that wider
-truth we are able, if required, to assign some still wider; and so
-on. This being the general nature of the demonstration by which exact
-knowledge is established, there has arisen the illusion that knowledge
-so established is knowledge of higher validity than that immediate
-knowledge which has nothing deeper to rest on. The habit of asking for
-proof, and having proof given, in all these multitudinous cases, has
-produced the implication that proof may be asked for those ultimate
-dicta of consciousness into which all proof is resolvable. And then,
-because no proof of these can be given, there arises the vague feeling
-that they are akin to other things of which no proof can be given—that
-they are uncertain—that they have unsatisfactory bases. This feeling
-is strengthened by the accompanying misuse of words. “Belief” having,
-as above pointed out, become the name of an impression for which we
-can give only a confessedly-inadequate reason, or no reason at all; it
-happens that when pushed hard respecting the warrant for any ultimate
-dictum of consciousness, we say, in the absence of all assignable
-reason, that we _believe_ it. Thus the two opposite poles of knowledge
-go under the same name; and by the reverse connotations of this name,
-as used for the most coherent and least coherent relations of thought,
-profound misconceptions have been generated. Here, it seems to me, is
-the source of Sir William Hamilton’s error. Classing as “beliefs” those
-direct, undecomposable dicta of consciousness which transcend proof,
-he asserts that these are of higher authority than knowledge (meaning
-by knowledge that for which reasons can be given); and in asserting
-this he is fully justified. But when he claims equal authority for
-those affections of consciousness which {191} go under the same name
-of “beliefs,” but differ in being extremely-indirect affections of
-consciousness, or not definite affections of consciousness at all, the
-claim cannot be admitted. By his own showing, no positive cognition
-answering to the word “infinite” exists; while, contrariwise, those
-cognitions which he rightly holds to be above question, are not only
-positive, but have the peculiarity that they cannot be suppressed. How,
-then, can the two be grouped together as of like degrees of validity?
-
-Nearly allied in nature to this, is another Hamiltonian doctrine, which
-Mr. Mill effectively combats. I refer to the corollary respecting
-noumenal existence which Sir William Hamilton draws from the law of
-the Excluded Middle, or, as it might be more intelligibly called, the
-law of the Alternative Necessity. A thing must either exist or not
-exist—must have a certain attribute or not have it: there is no third
-possibility. This is a postulate of all thought; and in so far as it is
-alleged of phenomenal existence, no one calls it in question. But Sir
-William Hamilton, applying the formula beyond the limits of thought,
-draws from it certain conclusions respecting things as they are, apart
-from our consciousness. He says, for example, that though we cannot
-conceive Space as infinite or as finite, yet, “on the principle of the
-Excluded Middle, one or other must be admitted.” This inference Mr.
-Mill shows good reason for rejecting. His argument may be supplemented
-by another, which at once suggests itself if from the words of Sir
-William Hamilton’s propositions we pass to the thoughts for which
-they are supposed to stand. When remembering a certain thing as in
-a certain place, the place and the thing are mentally represented
-together; while to think of the non-existence of the thing in that
-place, implies a consciousness in which the place is represented but
-not the thing. Similarly, if, instead of thinking of an object as
-colourless, we think of it as having colour, the change consists in the
-addition to the {192} concept of an element that was before absent
-from it—the object cannot be thought of first as red and then as not
-red, without one component of the thought being expelled from the
-mind by another. The doctrine of the Excluded Middle, then, is simply
-a generalization of the universal experience that some mental states
-are directly destructive of other states. It formulates a certain
-absolutely-constant law, that no positive mode of consciousness can
-occur without excluding a correlative negative mode; and that the
-negative mode cannot occur without excluding the correlative positive
-mode: the antithesis of positive and negative, being, indeed, merely an
-expression of this experience. Hence it follows that if consciousness
-is not in one of the two modes, it must be in the other. But now,
-under what conditions only can this law of consciousness hold? It can
-hold only so long as there are positive states of consciousness which
-can exclude the negative states, and which the negative states can in
-their turn exclude. If we are not concerned with positive states of
-consciousness at all, no such mutual exclusion takes place, and the
-law of the Alternative Necessity does not apply. Here, then, is the
-flaw in Sir William Hamilton’s proposition. That Space must be infinite
-or finite, are alternatives of which we are not obliged to regard one
-as necessary; seeing that we have no state of consciousness answering
-to either of these words as applied to the totality of Space, and
-therefore no exclusion of two antagonist states of consciousness by one
-another. Both alternatives being unthinkable, the proposition should be
-put thus: Space is either        or is        ; neither of which can
-be conceived, but one of which must be true. In this, as in some other
-cases, Sir William Hamilton continues to work out the forms of thought
-when they no longer contain any substance; and, of course, reaches
-nothing more than verbal conclusions.
-
-Ending here these comments on doctrines of Sir William {193} Hamilton,
-which Mr. Mill rejects on grounds that will be generally recognized
-as valid, let me now pass to a doctrine, partly held by Sir William
-Hamilton, and held by others in ways variously qualified and variously
-extended—a doctrine which, I think, may be successfully defended
-against Mr. Mill’s attack.
-
-       *       *       *       *       *
-
-In the fourth and fifth editions of his _Logic_, Mr. Mill treats, at
-considerable length, the question—Is inconceivability an evidence
-of untruth?—replying to criticisms previously made on his reasons
-for asserting that it is not. The chief answers which he there
-makes to these criticisms, turn upon the interpretation of the word
-_inconceivable_. This word he considers is used as the equivalent of
-the word _unbelievable_; and, translating it thus, readily disposes of
-sundry arguments brought against him. Whether any others who have used
-these words in philosophical discussion, have made them synonymous, I
-do not know; but that they are so used in those reasonings of my own
-which Mr. Mill combats, I was not conscious, and was surprised to find
-alleged. It is now manifest that I had not adequately guarded myself
-against the misconstruction which is liable to arise from the double
-meaning of the word _belief_—a word which, we have seen, is used for
-the most coherent and the least coherent connexions in consciousness,
-because they have the common character that no reason is assignable for
-them. Throughout the argument to which Mr. Mill replies, the word is
-used by me only in the first of these senses. The “invariably existent
-beliefs,” the “indestructible beliefs,” are the indissoluble connexions
-in consciousness—never the dissoluble ones. But _unbelievable_ implies
-the dissoluble ones. By association with the other and more general
-meaning of the word _belief_, the word _unbelievable_ suggests cases
-in which the proposition admits of being represented in thought,
-though it may be with difficulty; and in which, consequently, the
-counter-proposition admits of being {194} decomposed. To be quite
-sure of our ground, let us define and illustrate the meanings of
-_inconceivable_ and _unbelievable._ An inconceivable proposition
-is one of which the terms cannot, by any effort, be brought before
-consciousness in that relation which the proposition asserts between
-them—a proposition of which the subject and the predicate offer
-an insurmountable resistance to union in thought. An unbelievable
-proposition is one which admits of being framed in thought, but is
-so much at variance with experience that its terms cannot be put in
-the alleged relation without effort. Thus, it is unbelievable that
-a cannon-ball fired from England should reach America; but it is
-not inconceivable. Conversely, it is inconceivable that one side of
-a triangle is equal to the sum of the other two sides—not simply
-unbelievable. The two sides cannot be represented in consciousness
-as becoming equal in their joint length to the third side, without
-the representation of a triangle being destroyed; and the concept of
-a triangle cannot be framed without a simultaneous destruction of
-a concept in which these magnitudes are represented as equal. That
-is to say, the subject and predicate cannot be united in the same
-intuition—the proposition is unthinkable. It is in this sense only that
-I have used the word inconceivable; and only when rigorously restricted
-to this sense do I regard the test of inconceivableness as having any
-value.
-
-I had concluded that when this explanation was made, Mr. Mill’s reasons
-for dissent would be removed. Passages in his recently-published
-volume, however, show that, even restricting the use of the word
-inconceivable to the meaning here specified, he still denies that
-a proposition is proved to be true by the inconceivableness of its
-negation. To meet, within any moderate compass, all the issues which
-have grown out of the controversy, is difficult. Before passing to the
-essential question, however, I will endeavour to clear the ground of
-certain minor questions.
-
-Describing Sir William Hamilton’s doctrine respecting {195} the
-ultimate facts of consciousness, or those which are above proof, Mr.
-Mill writes:
-
-“The only condition he requires is that we be not able to ‘reduce it
-[a fact of this class] to a generalization from experience.’ This
-condition is realized by its possessing the ‘character of necessity.’
-‘It must be impossible not to think it. In fact, by its necessity
-alone can we recognize it as an original datum of intelligence, and
-distinguish it from any mere result of generalization and custom.’ In
-this Sir William Hamilton is at one with the whole of his own section
-of the philosophical world; with Reid, with Stewart, with Cousin, with
-Whewell, we may add, with Kant, and even with Mr. Herbert Spencer. The
-test by which they all decide a belief to be a part of our primitive
-consciousness—an original intuition of the mind—is the necessity of
-thinking it. Their proof that we must always, from the beginning, have
-had the belief, is the impossibility of getting rid of it now. This
-argument, applied to any of the disputed questions of philosophy,
-is doubly illegitimate: neither the major nor the minor premise is
-admissible. For in the first place, the very fact that the question
-is disputed, disproves the alleged impossibility. Those against whom
-it is needful to defend the belief which is affirmed to be necessary,
-are unmistakable examples that it is not necessary . . . . These
-philosophers, therefore, and among them Sir William Hamilton, mistake
-altogether the true conditions of psychological investigation, when,
-instead of proving a belief to be an original fact of consciousness by
-showing that it could not have been acquired, they conclude that it
-was not acquired, for the reason, often false, and never sufficiently
-substantiated, that our consciousness cannot get rid of it now.”
-
-This representation, in so far as it concerns my own views, has
-somewhat puzzled me. Considering that I have avowed a general agreement
-with Mr. Mill in the doctrine that all knowledge is from experience,
-and have defended {196} the test of inconceivableness on the very
-ground that it expresses “the net result of our experiences up to
-the present time” (_Principles of Psychology_, § 430)—considering
-that, so far from asserting the distinction quoted from Sir William
-Hamilton, I have aimed to abolish such distinction—considering that I
-have endeavoured to show how all our conceptions, even down to those
-of Space and Time, are “acquired”—considering that I have sought
-to interpret forms of thought (and by implication all intuitions)
-as products of organized and inherited experiences (_Principles of
-Psychology_, § 208); I am taken aback at finding myself classed as
-in the above paragraph. Leaving the personal question, however, let
-me pass to the assertion that the difference of opinion respecting
-the test of necessity itself disproves the validity of the test. Two
-issues are here involved. First, if a particular proposition is by
-some accepted as a necessary belief, but by one or more denied to be
-a necessary belief, is the validity of the test of necessity thereby
-disproved in respect of that particular proposition? Second, if the
-validity of the test is disproved in respect of that particular
-proposition, does it therefore follow that the test cannot be depended
-on in other cases?—does it follow that there are no beliefs universally
-accepted as necessary, and in respect of which the test of necessity is
-valid? Each of these questions may, I think, be rightly answered in the
-negative.
-
-In alleging that if a belief is said by some to be necessary, but by
-others to be not necessary, the test of necessity is thereby shown
-to be no test, Mr. Mill tacitly assumes that all men have powers of
-introspection enabling them in all cases to say what consciousness
-testifies; whereas a great proportion of men are incapable of correctly
-interpreting consciousness in any but its simplest modes, and even
-the remainder are liable to mistake for dicta of consciousness what
-prove on closer examination not to be its dicta. Take the case of an
-arithmetical blunder. {197} A boy adds up a column of figures, and
-brings out a wrong total. Again he does it and again errs. His master
-asks him to go through the process aloud, and then hears him say “35
-and 9 are 46”—an error which he had repeated on each occasion. Now
-without discussing the mental act through which we know that 35 and 9
-are 44, and through which we recognize the necessity of this relation,
-it is clear that the boy’s misinterpretation of consciousness, leading
-him tacitly to deny this necessity by asserting that “35 and 9 are
-46,” cannot be held to prove that the relation is not necessary. This,
-and kindred misjudgments daily made by accountants, merely show that
-there is a liability to overlook what are necessary connexions in our
-thoughts, and to assume as necessary others which are not. In these and
-hosts of cases, men do not distinctly translate into their equivalent
-states of consciousness the words they use. This negligence is with
-many so habitual, that they are unaware that they have not clearly
-represented to themselves the propositions they assert; and are then
-apt, quite sincerely though erroneously, to assert that they can think
-things which it is really impossible to think.
-
-But supposing it to be true that whenever a particular belief is
-alleged to be necessary, the existence of some who profess themselves
-able to believe otherwise, proves that this belief is not necessary;
-must it be therefore admitted that the test of necessity is invalid?
-I think not. Men may mistake for necessary, certain beliefs which are
-not necessary; and yet it may remain true that there _are_ necessary
-beliefs, and that the necessity of such beliefs is our warrant for
-them. Were conclusions thus tested proved to be wrong in a hundred
-cases, it would not follow that the test is an invalid one; any more
-than it would follow from a hundred errors in the use of a logical
-formula, that the logical formula is invalid. If from the premise that
-all horned animals ruminate, it were inferred that the rhinoceros,
-being a horned animal, ruminates; the error would {198} furnish no
-argument against the worth of syllogisms in general—whatever their
-worth may be. Daily there are thousands of erroneous deductions which,
-by those who draw them, are supposed to be warranted by the data
-from which they draw them; but no multiplication of such erroneous
-deductions is regarded as proving that there are no deductions truly
-drawn, and that the drawing of deductions is illegitimate. In these
-cases, as in the case to which they are here paralleled, the only thing
-shown is the need for verification of data and criticism of the acts of
-consciousness.
-
-“This argument,” says Mr. Mill, referring to the argument of necessity,
-“applied to any of the disputed questions of philosophy, is doubly
-illegitimate; . . . the very fact that the question is disputed,
-disproves the alleged impossibility.” Besides the foregoing replies
-to this, there is another. Granting that there have been appeals
-illegitimately made to this test—granting that there are many questions
-too complex to be settled by it, which men have nevertheless proposed
-to settle by it, and have consequently got into controversy; it may
-yet be truly asserted that in respect of all, or almost all, questions
-legitimately brought to judgment by this test, there is _no_ dispute
-about the answer. From the earliest times on record down to our own,
-men have not changed their beliefs concerning the truths of number. The
-axiom that if equals be added to unequals the sums are unequal, was
-held by the Greeks no less than by ourselves, as a direct verdict of
-consciousness, from which there is no escape and no appeal. Each of the
-propositions of Euclid appears to us absolutely beyond doubt as it did
-to them. Each step in each demonstration we accept, as they accepted
-it, because we immediately see that the alleged relation is as alleged,
-and that it is impossible to conceive it otherwise.
-
-[Illustration]
-
-But how are legitimate appeals to the test to be distinguished? The
-answer is not difficult to find. Mr. Mill {199} cites the belief
-in the antipodes as having been rejected by the Greeks because
-inconceivable, but as being held by ourselves to be both conceivable
-and true. He has before given this instance, and I have before objected
-to it (_Principles of Psychology_, § 428), for the reason that the
-states of consciousness involved in the judgment are too complex to
-admit of any trustworthy verdict being given. An illustration will
-show the difference between a legitimate appeal to the test and an
-illegitimate appeal to it. A and B are two lines. How is it decided
-that they are equal or not equal? No way is open but that of comparing
-the two impressions they make on consciousness. I know them to be
-unequal by an immediate act, if the difference is great, or if, though
-only moderately different, they are close together; and supposing the
-difference is but slight, I decide the question by putting the lines
-in apposition when they are movable, or by carrying a movable line
-from one to the other if they are fixed. But in any case, I obtain
-in consciousness the testimony that the impression produced by the
-one line differs from that produced by the other. Of this difference
-I can give no further evidence than that I am conscious of it, and
-find it impossible, while contemplating the lines, to get rid of
-the consciousness. The proposition that the lines are unequal is a
-proposition of which the negation is inconceivable. But now suppose it
-is asked whether B and C are equal; or whether C and D are equal. No
-positive answer is possible. Instead of its being {200} inconceivable
-that B is longer than C, or equal to it, or shorter, it is conceivable
-that it is any one of the three. Here an appeal to the direct verdict
-of consciousness is illegitimate, because on transferring the
-attention from B to C, or C to D, the changes in the other elements
-of the impressions so entangle the elements to be compared, as to
-prevent them from being put in apposition. If the question of relative
-length is to be determined, it must be by rectification of the bent
-line; and this is done through a series of steps, each one of which
-involves an immediate judgment akin to that by which A and B are
-compared. Now as here, so in other cases, it is only simple percepts
-or concepts respecting the relations of which immediate consciousness
-can satisfactorily testify; and as here, so in other cases, it is by
-resolution into such simple percepts and concepts, that true judgments
-respecting complex percepts and concepts are reached. That things which
-are equal to the same thing are equal to one another, is a fact which
-can be known by direct comparison of actual or ideal relations, and can
-be known in no other way: the proposition is one of which the negation
-is inconceivable, and is rightly asserted on that warrant. But that
-the square of the hypothenuse of a right-angled triangle equals the
-sum of the squares of the other two sides, cannot be known immediately
-by comparison of two states of consciousness. Here the truth can be
-reached only mediately, through a series of simple judgments respecting
-the likenesses or unlikenesses of certain relations: each of which
-judgments is essentially of the same kind as that by which the above
-axiom is known, and has the same warrant. Thus it becomes apparent
-that the fallacious result of the test of necessity which Mr. Mill
-instances, is due to a misapplication of the test.
-
-These preliminary explanations have served to make clear the question
-at issue. Let us now pass to the essence of it.
-
-       *       *       *       *       *
-
-Metaphysical reasoning is usually vitiated by some covert {201}
-_petitio principii_. Either the thing to be proved or the thing to be
-disproved, is tacitly assumed to be true in the course of the proof
-or disproof. It is thus with the argument of Idealism. Though the
-conclusion reached is that Mind and Ideas are the only existences; yet
-the steps by which this conclusion is reached, take for granted that
-external objects have just the kind of independent existence which is
-eventually denied. If that extension which the Idealist contends is
-merely an affection of consciousness, has nothing out of consciousness
-answering to it; then, in each of his propositions concerning
-extension, the word should always mean an affection of consciousness
-and nothing more. But if wherever he speaks of distances and dimensions
-we write ideas of distances and dimensions, his propositions are
-reduced to nonsense. So, too, is it with Scepticism. The resolution
-of all knowledge into “impressions” and “ideas,” is effected by an
-analysis which assumes at every step an objective reality producing
-the impressions and the subjective reality receiving them. The
-reasoning becomes impossible if the existence of object and subject
-be not admitted at the outset. Agree with the Sceptic’s doubt, and
-then propose to revise his argument so that it may harmonize with his
-doubt. Of the two alternatives between which he halts, assume, first,
-the reality of object and subject. His argument is practicable; whether
-valid or not. Now assume that object and subject do not exist. He
-cannot stir a step toward his conclusion—nay, he cannot even state his
-conclusion; for the word “impression” cannot be translated into thought
-without assuming a thing impressing and a thing impressed.
-
-Though Empiricism, as at present understood, is not thus suicidal, it
-is open to an analogous criticism on its method, similarly telling
-against the validity of its inference. It proposes to account for our
-so-called necessary beliefs, as well as all our other beliefs; and to
-do this without postulating any one belief as necessary. Bringing {202}
-forward abundant evidence that the connexions among our states of
-consciousness are determined by our experiences—that two experiences
-frequently recurring together in consciousness, become so coherent
-that one strongly suggests the other, and that when their joint
-recurrence is perpetual and invariable, the connexion between them
-becomes indissoluble; it argues that the indissolubility, so produced,
-is all that we mean by necessity. And then it seeks to explain each
-of our so-called necessary beliefs as thus originated. Now could pure
-Empiricism reach this analysis and its subsequent synthesis without
-taking any thing for granted, its arguments would be unobjectionable.
-But it cannot do this. Examine its phraseology, and there arises the
-question, Experiences of _what_? Translate the word into thought,
-and it clearly involves something more than states of mind and the
-connexions among them. For if it does not, then the hypothesis is that
-states of mind are generated by the experiences of states of mind;
-and if the inquiry be pursued, this ends with initial states of mind
-which are not accounted for—the hypothesis fails. Evidently, there is
-tacitly assumed something beyond the mind by which the “experiences”
-are produced—something in which exist the objective relations to
-which the subjective relations correspond—an external world. Refuse
-thus to explain the word “experiences,” and the hypothesis becomes
-meaningless. But now, having thus postulated an external reality as
-the indispensable foundation of its reasonings, pure Empiricism can
-subsequently neither prove nor disprove its postulate. An attempt to
-disprove it, or to give it any other meaning than that originally
-involved, is suicidal; and an attempt to establish it by inference is
-reasoning in a circle. What then are we to say of this proposition
-on which Empiricism rests? Is it a necessary belief, or is it not?
-If necessary, the hypothesis in its pure form is abandoned. If not
-necessary—if not posited {203} _à priori_ as absolutely certain—then
-the hypothesis rests on an uncertainty; and the whole fabric of its
-argument is unstable. More than this is true. Besides the insecurity
-implied by building on a foundation that is confessedly not beyond
-question, there is the much greater insecurity implied by raising
-proposition upon proposition of which each is confessedly not beyond
-question. For to say that there are no necessary truths, is to say
-that each successive inference is not necessarily involved in its
-premises—is an empirical judgment—a judgment not certainly true. Hence,
-applying rigorously its own doctrine, we find that pure Empiricism,
-starting from an uncertainty and progressing through a series of
-uncertainties, cannot claim much certainty for its conclusions.
-
-Doubtless, it may be replied that any theory of human knowledge
-must set out with assumptions—either permanent or provisional; and
-that the validity of these assumptions is to be determined by the
-results reached through them. But that such assumptions may be made
-legitimately, two things are required. In the first place they must
-not be multiplied step after step as occasion requires; otherwise
-the conclusion reached might as well be assumed at once. And in the
-second place, the fact that they _are_ assumptions must not be lost
-sight of: the conclusions drawn must not be put forward as though they
-have a certainty which the premises have not. Now pure Empiricism, in
-common with other theories of knowledge, is open to the criticism, that
-it neglects thus avowedly to recognize the nature of those primary
-assumptions which it lays down as provisionally valid, if it denies
-that they can be necessarily valid. And it is open to the further
-criticism, that it goes on at every step in its argument making
-assumptions which it neglects to specify as provisional; since they,
-too, cannot be known as necessary. Until it has assigned some warrant
-for its original datum and for each of its subsequent inferences, or
-else has {204} acknowledged them all to be but hypothetical, it may be
-stopped either at the outset or at any stage in its argument. Against
-every “because” and every “therefore,” an opponent may enter a caveat,
-until he is told why it is asserted: contending, as he may, that if
-this inference is not necessary he is not bound to accept it; and that
-if it is necessary it must be openly declared to be necessary, and some
-test must be assigned by which it is distinguished from propositions
-that are not necessary.
-
-These considerations will, I think, make it obvious that the first step
-in a metaphysical argument, rightly carried on, must be an examination
-of propositions for the purpose of ascertaining what character is
-common to those which we call unquestionably true, and is implied by
-asserting their unquestionable truth. Further, to carry on this inquiry
-legitimately, we must restrict our analysis rigorously to states of
-consciousness considered in their relations to one another: wholly
-ignoring any thing beyond consciousness to which these states and their
-relations may be supposed to refer. For if, before we have ascertained
-by comparing propositions what is the trait that leads us to class some
-of them as certainly true, we avowedly or tacitly take for granted
-the existence of something beyond consciousness; then, a particular
-proposition is assumed to be certainly true before we have ascertained
-what is the distinctive character of the propositions which we call
-certainly true, and the analysis is vitiated. If we cannot transcend
-consciousness—if, therefore, what we know as truth must be some mental
-state, or some combination of mental states; it must be possible for
-us to say in what way we distinguish this state or these states. The
-definition of truth must be expressible in terms of consciousness;
-and, indeed, cannot otherwise be expressed if consciousness cannot be
-transcended. Clearly, then, the metaphysician’s first step must be to
-shut out from his investigation every thing but what is subjective;
-not taking for granted the {205} existence of any thing objective
-corresponding to his ideas, until he has ascertained what property of
-his ideas it is which he predicates by calling them true. Let us note
-the result if he does this.
-
-       *       *       *       *       *
-
-The words of a proposition are the signs of certain states of
-consciousness; and the thing alleged by a proposition is the connexion
-or disconnexion of the states of consciousness signified. When thinking
-is carried on with precision—when the mental states which we call
-words, are translated into the mental states they symbolize (which
-they very frequently are not)—thinking a proposition consists in the
-occurrence together in consciousness of the subject and predicate. “The
-bird was brown,” is a proposition which implies the union in thought
-of a particular attribute with a group of other attributes. When the
-inquirer compares various propositions thus rendered into states of
-consciousness, he finds that they differ very greatly in respect of
-the facility with which the states of consciousness are connected and
-disconnected. The mental state known as _brown_ may be united with
-those mental states which make up the figure known as _bird_, without
-appreciable effort, or may be separated from them without appreciable
-effort: the bird may easily be thought of as black, or green, or
-yellow. Contrariwise, such an assertion as “The ice was hot,” is one
-to which he finds much difficulty in making his mind respond. The
-elements of the proposition cannot be put together in thought without
-great resistance. Between those other states of consciousness which
-the word _ice_ connotes, and the state of consciousness named _cold_,
-there is an extremely strong cohesion—a cohesion measured by the
-resistance to be overcome in thinking of the ice as _hot_. Further, he
-finds that in many cases the states of consciousness grouped together
-cannot be separated at all. The idea of pressure cannot be disconnected
-from the idea of something occupying space. Motion cannot be thought
-{206} of without an object that moves being at the same time thought
-of. And then, besides these connexions in consciousness which remain
-absolute under all circumstances, there are others which remain
-absolute under special circumstances. Between the elements of those
-more vivid states of consciousness which the inquirer distinguishes
-as perceptions, he finds that there is a temporarily-indissoluble
-cohesion. Though when there arises in him that comparatively faint
-state of consciousness which he calls the idea of a book, he can easily
-think of the book as red, or brown, or green; yet when he has that much
-stronger consciousness which he calls seeing a book, he finds that so
-long as there continue certain accompanying states of consciousness
-which he calls the conditions to perception, those several states of
-consciousness which make up the perception cannot be disunited—he
-cannot think of the book as red, or green, or brown; but finds that,
-along with a certain figure, there absolutely coheres a certain colour.
-
-Still shutting himself up within these limits, let us suppose the
-inquirer to ask himself what he thinks about these various degrees
-of cohesion among his states of consciousness—how he names them, and
-how he behaves toward them. If there comes, no matter whence, the
-proposition—“The bird was brown,” subject and predicate answering
-to these words spring up together in consciousness; and if there
-is no opposing proposition, he unites the specified and implied
-attributes without effort, and believes the proposition. If, however,
-the proposition is—“The bird was necessarily brown,” he makes an
-experiment like those above described, and finding that he can separate
-the attribute of brownness, and can think of the bird as green or
-yellow, he does not admit that the bird was necessarily brown. When
-such a proposition as “The ice was cold” arises in him, the elements
-of the thought behave as before; and so long as no test is applied,
-the union of the consciousness of cold with the {207} accompanying
-states of consciousness, seems to be of the same nature as the union
-between those answering to the words _brown_ and _bird_. But should
-the proposition be changed into—“The ice was necessarily cold,”
-quite a different result happens from that which happened in the
-previous case. The ideas answering to subject and predicate are here
-so coherent, that in the absence of careful examination they might
-pass as inseparable, and the proposition be accepted. But suppose
-the proposition is deliberately tested by trying whether ice can be
-thought of as not cold. Great resistance is offered in consciousness
-to this. Still, by an effort, he can imagine water to have its
-temperature of congelation higher than blood heat; and can so think
-of congealed water as hot instead of cold. Now the extremely strong
-cohesion of states of consciousness, thus experimentally proved by
-the difficulty of separating them, he finds to be what he calls a
-strong belief. Once more, in response to the words—“Along with motion
-there is something that moves,” he represents to himself a moving
-body; and, until he tries an experiment upon it, he may suppose the
-elements of the representation to be united in the same way as those
-of the representations instanced above. But supposing the proposition
-is modified into—“Along with motion there is necessarily something
-that moves,” the response made in thought to these words, discloses
-the fact that the states of consciousness called up in this case are
-indissolubly connected in the way alleged. He discovers this by trying
-to conceive the negation of the proposition—by trying to think of
-motion as _not_ having along with it something that moves; and his
-inability to conceive this negation is the obverse of his inability
-to tear asunder the states of consciousness which constitute the
-affirmation. Those propositions which survive this strain, are the
-propositions he distinguishes as necessary. Whether or not he means any
-thing else by this word, he evidently means that in his consciousness
-the connexions {208} they predicate are, so far as he can ascertain,
-unalterable. The bare fact is that he submits to them because he has
-no choice. They rule his thoughts whether he will or not. Leaving out
-all questions concerning the origin of these connexions—all theories
-concerning their significations, there remains in the inquirer the
-consciousness that certain of his states of consciousness are so welded
-together that all other links in the chain of consciousness yield
-before these give way.
-
-Continuing rigorously to exclude everything beyond consciousness, let
-him now ask himself what he means by reasoning? what is the essential
-nature of an argument? what is the peculiarity of a conclusion?
-Analysis soon shows him that reasoning is the formation of a coherent
-series of states of consciousness. He has found that the thoughts
-expressed by propositions, vary in the cohesions of their subjects and
-predicates; and he finds that at every step in an argument, carefully
-carried on, he tests the strengths of all the connexions asserted and
-implied. He considers whether the object named really does belong to
-the class in which it is included—tries whether he can think of it as
-_not_ like the things it is said to be like. He considers whether the
-attribute alleged is really possessed by all members of the class—tries
-to think of some member of the class that has _not_ the attribute—And
-he admits the proposition only on finding, by this criticism, that
-there is a greater degree of cohesion in thought between its elements,
-than between the elements of the counter-proposition. Thus testing
-the strength of each link in the argument, he at length reaches the
-conclusion, which he tests in the same way. If he accepts it, he does
-so because the argument has established in him an indirect cohesion
-between states of consciousness that were not directly coherent,
-or not so coherent directly as the argument makes them indirectly.
-But he accepts it only supposing that the connexion between the two
-states of consciousness {209} composing it, is not resisted by
-some stronger counter-connexion. If there happens to be an opposing
-argument, of which the component thoughts are felt, when tested, to be
-more coherent; or if, in the absence of an opposing argument, there
-exists an apposing conclusion, of which the elements have some direct
-cohesion greater than that which the proffered argument indirectly
-gives; then the conclusion reached by this argument is not admitted.
-Thus, a discussion in consciousness proves to be simply a trial of
-strength between different connexions in consciousness—a systematized
-struggle serving to determine which are the least coherent states
-of consciousness. And the result of the struggle is, that the least
-coherent states of consciousness separate, while the most coherent
-remain together—form a proposition of which the predicate persists in
-rising up in the mind along with its subject—constitute one of the
-connexions in thought which is distinguished as something known, or as
-something believed, according to its strength.
-
-What corollary may the inquirer draw, or rather what corollary must
-he draw, on pushing the analysis to its limit? If there are any
-indissoluble connexions, he is compelled to accept them. If certain
-states of consciousness absolutely cohere in certain ways, he is
-obliged to think them in those ways. The proposition is an identical
-one. To say that they are necessities of thought is merely another way
-of saying that their elements cannot be torn asunder. No reasoning
-can give to these absolute cohesions in thought any better warrant;
-since all reasoning, being a process of testing cohesions, is itself
-carried on by accepting the absolute cohesions; and can, in the last
-resort, do nothing more than present some absolute cohesions in
-justification of others—an act which unwarrantably assumes in the
-absolute cohesions it offers, a greater value than is allowed to the
-absolute cohesions it would justify. Here, then, the inquirer comes
-down to an {210} ultimate mental uniformity—a universal law of his
-thinking. How completely his thought is subordinated to this law,
-is shown by the fact that he cannot even represent to himself the
-possibility of any other law. To suppose the connexions among his
-states of consciousness to be otherwise determined, is to suppose a
-smaller force overcoming a greater—a proposition which may be expressed
-in words but cannot be rendered into ideas. No matter what he calls
-these indestructible relations, no matter what he supposes to be their
-meanings, he is completely fettered by them. Their indestructibility
-is the proof to him that his consciousness is imprisoned within them;
-and supposing any of them to be in some way destroyed, he perceives
-that indestructibility would still be the distinctive character of the
-bounds that remained—the test of those which he must continue to think.
-
-These results the inquirer arrives at without assuming any other
-existence than that of his own consciousness. They postulate nothing
-about mind or matter, subject or object. They leave wholly untouched
-the questions—what does consciousness imply? and how is thought
-generated? There is not involved in the analysis any hypothesis
-respecting the origin of these relations between thoughts—how there
-come to be feeble cohesions, strong cohesions, and absolute cohesions.
-Whatever some of the terms used may have seemed to connote, it will be
-found, on examining each step, that nothing is essentially involved
-beyond states of mind and the connexions among them, which are
-themselves other states of mind. Thus far, the argument is not vitiated
-by any _petitio principii_.
-
-Should the inquirer enter upon the question, How are these facts to
-be explained? he must consider how any further investigation is to
-be conducted, and what is the possible degree of validity of its
-conclusions. Remembering that he cannot transcend consciousness, he
-sees that anything in the shape of an interpretation must be {211}
-subordinate to the laws of consciousness. Every hypothesis he
-entertains in trying to explain himself to himself, being an hypothesis
-which can be dealt with by him only in terms of his mental states, it
-follows that any process of explanation must itself be carried on by
-testing the cohesions among mental states, and accepting the absolute
-cohesions. His conclusions, therefore, reached only by repeated
-recognitions of this test of absolute cohesion, can never have any
-higher validity than this test. It matters not what name he gives to a
-conclusion—whether he calls it a belief, a theory, a fact, or a truth.
-These words can be themselves only names for certain relations among
-his states of consciousness. Any secondary meanings which he ascribes
-to them must also be meanings expressed in terms of consciousness, and
-therefore subordinate to the laws of consciousness. Hence he has no
-appeal from this ultimate dictum; and seeing this, he sees that the
-only possible further achievement is the reconciliation of the dicta
-of consciousness with one another—the bringing all other dicta of
-consciousness into harmony with this ultimate dictum.
-
-       *       *       *       *       *
-
-Here, then, the inquirer discovers a warrant higher than that
-which any argument can give, for asserting an objective existence.
-Mysterious as seems the consciousness of something which is yet out of
-consciousness, he finds that he alleges the reality of this something
-in virtue of the ultimate law—he is obliged to think it. There is
-an indissoluble cohesion between each of those vivid and definite
-states of consciousness which he calls a sensation, and an indefinable
-consciousness which stands for a mode of being beyond sensation, and
-separate from himself. When grasping his fork and putting food into
-his mouth, he is wholly unable to expel from his mind the notion of
-something which resists the force he is conscious of using; and he
-cannot suppress the nascent thought of an independent existence keeping
-apart his tongue and palate, and giving {212} him that sensation
-of taste which he is unable to generate in consciousness by his own
-activity. Though self-criticism shows him that he cannot know what
-this is which lies outside of him; and though he may infer that not
-being able to say what it is, it is a fiction; he discovers that such
-self-criticism utterly fails to extinguish the consciousness of it as
-a reality. Any conclusion into which he argues himself, that there
-is no objective existence connected with these subjective states,
-proves to be a mere verbal conclusion to which his thoughts will not
-respond. The relation survives every effort to destroy it—is proved
-by experiment, repeated no matter how often, to be one of which the
-negation is inconceivable; and therefore one having supreme authority.
-In vain he endeavours to give it any greater authority by reasoning;
-for whichever of the two alternatives he sets out with, leaves him at
-the end just where he started. If, knowing nothing more than his own
-states of consciousness, he declines to acknowledge any thing beyond
-consciousness until it is proved, he may go on reasoning for ever
-without getting any further; since the perpetual elaboration of states
-of consciousness out of states of consciousness, can never produce
-anything more than states of consciousness. If, contrariwise, he
-postulates external existence, and considers it as merely postulated,
-then the whole fabric of his argument, standing upon this postulate,
-has no greater validity than the postulate gives it, _minus_ the
-possible invalidity of the argument itself. The case must not be
-confounded with those cases in which an hypothesis, or provisional
-assumption, is eventually proved true by its agreement with facts; for
-in these cases the facts with which it is found to agree, are facts
-known in some other way than through the hypothesis: a calculated
-eclipse of the moon serves as a verification of the hypothesis of
-gravitation, because its occurrence is observable without taking for
-granted the hypothesis of gravitation. But when the external world
-{213} is postulated, and it is supposed that the validity of the
-postulate may be shown by the explanation of mental phenomena which
-it furnishes, the vice is, that the process of verification is itself
-possible only by assuming the thing to be proved.
-
-But now, recognizing the indissoluble cohesion between the
-consciousness of _self_ and an unknown _not-self_, as constituting a
-dictum of consciousness which he is both compelled to accept and is
-justified by analysis in accepting, it is competent for the inquirer
-to consider whether, setting out with this dictum, he can base on
-it a satisfactory explanation of what he calls knowledge. He finds
-such an explanation possible. The hypothesis that the more or less
-coherent relations among his states of consciousness, are generated
-by experience of the more or less constant relations in something
-beyond his consciousness, furnishes him with solutions of numerous
-facts of consciousness: not, however, of all, if he assumes that
-this adjustment of inner to outer relations has resulted from his
-own experiences alone. Nevertheless, if he allows himself to suppose
-that this moulding of thoughts into correspondence with things, has
-been going on through countless preceding generations; and that the
-effects of experiences have been inherited in the shape of modified
-organic structures; then he is able to interpret all the phenomena. It
-becomes possible to understand how these persistent cohesions among
-states of consciousness, are themselves the products of often-repeated
-experiences; and that even what are known as “forms of thought,”
-are but the absolute internal uniformities generated by infinite
-repetitions of absolute external uniformities. It becomes possible also
-to understand how, in the course of organizing of these multiplying
-and widening experiences, there may arise partially-wrong connexions
-in thought, answering to limited converse with things; and that these
-connexions in thought, temporarily taken for indissoluble ones, may
-afterwards be made dissoluble by presentation {214} of external
-relations at variance with them. But even when this occurs, it can
-afford no ground for questioning the test of indissolubility; since the
-process by which some connexion previously accepted as indissoluble,
-is broken, is simply the establishment of some antagonistic connexion,
-which proves, on a trial of strength, to be the stronger—which remains
-indissoluble when pitted against the other, while the other gives way.
-And this leaves the test just where it was; showing only that there is
-a liability to error as to what _are_ indissoluble connexions. From
-the very beginning, therefore, to the very end of the explanation,
-even down to the criticism of its conclusions and the discovery of its
-errors, the validity of this test must be postulated. Whence it is
-manifest, as before said, that the whole business of explanation can
-be nothing more than that of bringing all other dicta of consciousness
-into harmony with this ultimate dictum.
-
-       *       *       *       *       *
-
-To the positive justification of a proposition, may be added that
-negative justification which is derived from the untenability of the
-counter-proposition. When describing the attitude of pure Empiricism,
-some indications that its counter-proposition is untenable were given;
-but it will be well here to state, more specifically, the fundamental
-objections to which it is open.
-
-If the ultimate test of truth is not that here alleged, then what
-is the ultimate test of truth? And if there is no ultimate test of
-truth, then what is the warrant for accepting certain propositions
-and rejecting others? An opponent who denies the validity of this
-test, may legitimately decline to furnish any test himself, so long
-as he does not affirm any thing to be true; but if he affirms some
-things to be true and others to be not true, his warrant for doing
-so may fairly be demanded. Let us glance at the possible response to
-the demand. If asked why he holds it to be unquestionably true that
-two quantities which differ {215} in unequal degrees from a third
-quantity are themselves unequal, two replies seem open to him: he may
-say that this is an ultimate fact of consciousness, or that it is an
-induction from personal experiences. The reply that it is an ultimate
-fact of consciousness, raises the question, How is an ultimate fact
-of consciousness distinguished? All beliefs, all conclusions, all
-imaginations even, are facts of consciousness; and if some are to
-be accepted as beyond question because ultimate, while others are
-not to be accepted as beyond question because not ultimate, there
-comes the inevitable inquiry respecting the test of ultimacy. On the
-other hand, the reply that this truth is known only by induction from
-personal experiences, suggests the query—On what warrant are personal
-experiences asserted? The testimony of experience is given only through
-memory; and its worth depends wholly on the trustworthiness of memory.
-Is it, then, that the trustworthiness of memory is less open to doubt
-than the immediate consciousness that two quantities must be unequal if
-they differ from a third quantity in unequal degrees? This can scarcely
-be alleged. Memory is notoriously uncertain. We sometimes suppose
-ourselves to have said things which it turns out we did not say; and
-we often forget seeing things which it is proved we did see. We speak
-of many passages of our lives as seeming like dreams; and can vaguely
-imagine the whole past to be an illusion. We can go much further toward
-conceiving that our recollections do not answer to any actualities,
-than we can go toward conceiving the non-existence of Space. But even
-supposing the deliverances of memory to be above criticism, the most
-that can be said for the experiences to which memory testifies, is that
-we are obliged to think we have had them—cannot conceive the negation
-of the proposition that we have had them; and to say this is to assign
-the warrant which is repudiated.
-
-A further counter-criticism may be made. Throughout the argument
-of pure Empiricism, it is tacitly assumed that {216} there may be
-a Philosophy in which nothing is asserted but what is proved. It
-proposes to admit into the coherent fabric of its conclusions, no
-conclusion that is incapable of being established by evidence; and
-it thus takes for granted that not only may all derivative truths be
-proved, but also that proof may be given of the truths from which
-they are derived, down to the very deepest. The result of thus
-refusing to recognize some fundamental unproved truth, is simply to
-leave its fabric of conclusions without a base. The giving proof of
-any special proposition, is the assimilation of it to some class of
-propositions known to be true. If any doubt arises respecting the
-general proposition which is cited in justification of this special
-proposition, the course is to show that this general proposition
-is deducible from a proposition or propositions of still greater
-generality; and if pressed for proof of each such still more general
-proposition, the only resource is to repeat the process. Is this
-process endless? If so, nothing can be proved—the whole series of
-propositions depends on some unassignable proposition. Has the
-process an end? If so, there must eventually be reached a widest
-proposition—one which cannot be justified by showing that it is
-included by any wider—one which cannot be proved. Or to put the
-argument otherwise: Every inference depends on premises; every premise,
-if it admits of proof, depends on other premises; and if the proof of
-the proof be continually demanded, it must either end in an unproved
-premise, or in the acknowledgment that there cannot be reached any
-premise on which the entire series of proofs depends. Hence Philosophy,
-if it does not avowedly stand on some datum underlying reason, must
-acknowledge that it has nothing on which to stand.
-
-       *       *       *       *       *
-
-The expression of divergence from Mr. Mill on this fundamental
-question, I have undertaken with reluctance, only on finding it
-needful, both on personal and on general {217} grounds, that his
-statements and arguments should be met. For two reasons, especially,
-I regret having thus to contend against the doctrine of one whose
-agreement I should value more than that of any other thinker. In the
-first place, the difference is, I believe, superficial rather than
-substantial; for it is in the interests of the Experience-Hypothesis
-that Mr. Mill opposes the alleged criterion of truth; while it is as
-harmonizing with the Experience-Hypothesis, and reconciling it with
-all the facts, that I defend this criterion. In the second place, this
-lengthened exposition of a single point of difference, unaccompanied
-by an exposition of the numerous points of concurrence, unavoidably
-produces an appearance of dissent very far greater than that which
-exists. Mr. Mill, however, whose unswerving allegiance to truth is on
-all occasions so conspicuously displayed, will fully recognize the
-justification for this utterance of disagreement on a matter of such
-profound importance, philosophically considered; and will not require
-any apology for the entire freedom with which I have criticised his
-views while seeking to substantiate my own.
-
-
-
-
-{218}
-
-REPLIES TO CRITICISMS.
-
-
-[_First published in_ The Fortnightly Review _for November and December
-1873._]
-
-When made by a competent reader, an objection usually implies one
-of two things. Either the statement to which he demurs is wholly or
-partially untrue; or, if true, it is presented in such a way as to
-permit misapprehension. A need for some change or addition is in any
-case shown.
-
-Not recognizing the errors alleged, but thinking rather that
-misapprehensions cause the dissent of those who have attacked the
-metaphysico-theological doctrines held by me, I propose here to meet,
-by explanations and arguments, the chief objections urged: partly with
-the view of justifying these doctrines, and partly with the view of
-guarding against the wrong interpretations which it appears are apt to
-be made.
-
-The pages of a periodical intended for general reading may be thought
-scarcely fitted for the treatment of these highly abstract questions.
-There is now, however, so considerable a class interested in them,
-and they are so deeply involved with the great changes of opinion in
-progress, that I have ventured to hope for readers outside the circle
-of those who occupy themselves with philosophy.
-
-Of course the criticisms to be noticed I have selected, {219} either
-because of their intrinsic force, or because they come from men whose
-positions or reputations give them weight. To meet more than a few of
-my opponents is out of the question.
-
-       *       *       *       *       *
-
-Let me begin with a criticism contained in the sermon preached by the
-Rev. Principal Caird before the British Association, on the occasion
-of its meeting in Edinburgh, in August, 1871. Expressed with a
-courtesy which, happily, is now less rare than of yore in theological
-controversy, Dr. Caird’s objection might, I think, be admitted without
-involving essential change in the conclusion demurred to; while it
-might be shown to tell with greater force against the conclusions of
-thinkers classed as orthodox, Sir W. Hamilton and Dean Mansel, than
-against my own. Describing this as set forth by me, Dr. Caird says:―
-
- “His thesis is that the provinces of science and religion are
- distinguished from each other as the known from the unknown and
- unknowable. This thesis is maintained mainly on a critical examination
- of the nature of human intelligence, in which the writer adopts and
- carries to its extreme logical results the doctrine of the relativity
- of human knowledge which, propounded by Kant, has been reproduced with
- special application to theology by a famous school of philosophers
- in this country. From the very nature of human intelligence, it
- is attempted to be shown that it can only know what is finite and
- relative, and that therefore the absolute and infinite the human mind
- is, by an inherent and insuperable disability, debarred from knowing.
- . . . . May it not be asked, for one thing, whether in the assertion,
- as the result of an examination of the human intellect, that it
- is incapable of knowing what lies beyond the finite, there is not
- involved an obvious self-contradiction? The examination of the mind
- can be conducted only by the mind, and if the instrument be, as is
- alleged, limited and defective, the result of the inquiry must partake
- of that defectiveness. Again, does not the knowledge of a limit imply
- already the power to transcend it? In affirming that human science
- is incapable of crossing the bounds of the finite world, is it not a
- necessary presupposition that you who so affirm have crossed these
- bounds?”
-
-That this objection is one I am not disinclined to recognize, will
-be inferred when I state that it is one I have myself raised. While
-preparing the second edition of the {220} _Principles of Psychology_,
-I found, among my memoranda, a note which still bore the wafers by
-which it had been attached to the original manuscript (unless, indeed,
-it had been transferred from the MS. of _First Principles_, which its
-allusion seems to imply). It was this:―
-
- “I may here remark in passing that the several reasonings,
- including the one above quoted, by which Sir William Hamilton would
- demonstrate the pure relativity of our knowledge—reasonings which
- clearly establish many important truths, and with which in the
- main I agree—are yet capable of being turned against himself, when
- he definitely concludes that it is impossible for us to know the
- absolute. For to positively assert that the absolute cannot be known,
- is in a certain sense to assert a _knowledge_ of it—is to _know_ it
- as _unknowable_. To affirm that human intelligence is confined to the
- conditioned, is to put an _absolute limit_ to human intelligence,
- and implies _absolute knowledge_. It seems to me that the ‘learned
- ignorance’ with which philosophy ends, must be carried a step further;
- and instead of positively saying that the absolute is unknowable, we
- must say that we cannot tell whether it is knowable or not.”
-
-Why I omitted this note I cannot now remember. Possibly it was because
-re-consideration disclosed a reply to the contained objection. For
-while it is true that the intellect cannot prove its own competence,
-since it must postulate its own competence in the course of the
-proof, and so beg the question; yet it does not follow that it cannot
-prove its own incompetence respecting questions of certain kinds. Its
-inability in respect of such questions has two conceivable causes.
-It may be that the deliverances of Reason in general are invalid, in
-which case the incompetence of Reason to solve questions of a certain
-class is implied by its general incompetence; or it may be that the
-deliverances of Reason, valid within a certain range, themselves end
-in the conclusion that Reason is incapable beyond that range. So that
-while there can be no proof of competence, because competence is
-postulated in each step of the demonstration, there may be proof of
-incompetence either (1) if the successive deliverances forming the
-steps of the demonstration, by severally evolving contradictions, show
-their untrustworthiness, or (2) if, being trustworthy, {221} they
-lead to the result that on certain questions Reason cannot give any
-deliverance.
-
-Reason leads both inductively and deductively to the conclusion
-that the sphere of Reason is limited. Inductively, this conclusion
-expresses the result of countless futile attempts to transcend
-this sphere—attempts to understand Matter, Motion, Space, Time,
-Force, in their ultimate natures—attempts which, bringing us always
-to alternative impossibilities of thought, warrant the inference
-that such attempts will continue to fail, as they have hitherto
-failed. Deductively, this conclusion expresses the result of mental
-analysis, which shows us that the product of thought is in all cases
-a relation, identified as such or such; that the process of thought
-is the identification and classing of relations; that therefore Being
-in itself, out of relation, is unthinkable, as not admitting of
-being brought within the form of thought. That is to say, deduction
-explains that failure of Reason established as an induction from many
-experiments. And to call in question the ability of Reason to give this
-verdict against itself in respect of these transcendent problems, is to
-call in question its ability to draw valid conclusions from premises;
-which is to assert a general incompetence necessarily inclusive of the
-special incompetence.
-
-       *       *       *       *       *
-
-Closely connected with the foregoing, is a criticism from Dr. Mansel,
-on which I may here make some comments. In a note to his _Philosophy of
-the Conditioned_ p. 39, he says:―
-
- “Mr. Herbert Spencer, in his work on _First Principles_, endeavours
- to press Sir W. Hamilton into the service of Pantheism and Positivism
- together” [a somewhat strange assertion, by the way, considering that
- I reject them both], “by adopting the negative portion only of his
- philosophy—in which, in common with many other writers, he declares
- the absolute to be inconceivable by the mere intellect,—and rejecting
- the positive portions, in which he most emphatically maintains that
- the belief in a personal God is imperatively demanded by the facts
- of our moral and emotional consciousness. . . . . Sir W. Hamilton’s
- fundamental principle is, that consciousness {222} must be accepted
- entire, and that the moral and religious feelings, which are the
- primary source of our belief in a personal God, are in no way
- invalidated by the merely negative inferences which have deluded men
- into the assumption of an impersonal absolute. . . . . Mr. Spencer, on
- the other hand, takes these negative inferences as the only basis of
- religion, and abandons Hamilton’s great principle of the distinction
- between knowledge and belief.”
-
-Putting these statements in the order most convenient for discussion, I
-will deal first with the last of them. Instead of saying what he does,
-Dr. Mansel should have said that I decline to follow Sir W. Hamilton
-in confounding two distinct, and indeed radically-opposed, meanings
-of the word _belief_. This word “is habitually applied to dicta of
-consciousness for which no proof can be assigned: both those which
-are unprovable because they underlie all proof, and those which are
-unprovable because of the absence of evidence.”[24] In the pages of the
-_Fortnightly Review_ for July, 1865, I exhibited this distinction as
-follows:―
-
- “We commonly say we ‘believe’ a thing for which we can assign some
- preponderating evidence, or concerning which we have received some
- indefinable impression. We _believe_ that the next House of Commons
- will not abolish Church-rates; or we _believe_ that a person on
- whose face we look is good-natured. That is, when we can give
- confessedly-inadequate proofs, or no proofs at all, for the things
- we think, we call them ‘beliefs.’ And it is the peculiarity of these
- beliefs, as contrasted with cognitions, that their connexions with
- antecedent states of consciousness may be easily severed, instead of
- being difficult to sever. But unhappily, the word ‘belief’ is also
- applied to each of those temporarily or permanently indissoluble
- connexions in consciousness, for the acceptance of which the only
- warrant is that it cannot be got rid of. Saying that I feel a pain,
- or hear a sound, or see one line to be longer than another, is saying
- that there has occurred in me a certain change of state; and it is
- impossible for me to give a stronger evidence of this fact than that
- it is present to my mind. . . . . ‘Belief’ having, as above pointed
- out, become the name of an impression for which we can give only a
- confessedly-inadequate reason, or no reason at all; it happens that
- when pushed hard respecting the warrant for any ultimate dictum of
- consciousness, we say, in the absence of all assignable reason, that
- we _believe_ it. Thus the two opposite poles of knowledge go under the
- same name; and by the reverse connotations of this name, as used for
- the most coherent and least coherent relations of thought, profound
- misconceptions have been generated.”
-
-Now that the belief which the moral and religious {223} feelings are
-said to yield of a personal God, is not one of the beliefs which are
-unprovable because they underlie all proof, is obvious. It needs but to
-remember that in works on Natural Theology, the existence of a personal
-God is _inferred_ from these moral and religious feelings, to show that
-it is not contained in these feelings themselves, or joined with them
-as an inseparable intuition. It is not a belief like the beliefs which
-I now have that this is daylight, and that there is open space before
-me—beliefs which cannot be proved because they are of equal simplicity
-with, and of no less certainty than, each step in a demonstration. Were
-it a belief of this most certain kind, argument would be superfluous:
-all races of men and every individual would have the belief in an
-inexpugnable form. Hence it is manifest that, confusing the two very
-different states of consciousness called beliefs, Sir W. Hamilton
-ascribes to the second a certainty that belongs only to the first.
-
-Again, neither Sir W. Hamilton nor Dr. Mansel has enabled us to
-distinguish those “facts of our moral and emotional consciousness”
-which imperatively demand the belief in a personal God, from those
-facts of our (or of men’s) “moral and emotional consciousness” which,
-in those having them, imperatively demand beliefs that Sir W. Hamilton
-would regard as untrue. A New Zealand chief, discovering his wife
-in an infidelity, killed the man; the wife then killed herself that
-she might join her lover in the other world; and the chief thereupon
-killed himself that he might go after them to defeat this intention.
-These two acts of suicide furnish tolerably strong evidence that these
-New Zealanders believed in another world to which, they could go at
-will, and fulfil their desires as they did here. If they were asked
-the justification for this belief, and if the arguments by which they
-sought to establish it were not admitted, they might still fall back
-on emotional {224} consciousness as yielding them an unshakeable
-foundation for it. I do not see why a Fiji Islander, adopting the
-Hamiltonian argument, should not justify by it his conviction that
-after being buried alive, his life in the other world, forthwith
-commencing at the age he has reached in this, will similarly supply
-him with the joys of conquest and the gratifications of cannibalism.
-That he has a conviction to this effect stronger than the religious
-convictions current among civilized people, is proved by the fact that
-he goes to be buried alive quite willingly. And as we may presume that
-his conviction is not the outcome of a demonstration, it must be the
-outcome of some state of feeling—some “emotional consciousness.” Why,
-then, should he not assign the “facts” of his “emotional consciousness”
-as “imperatively demanding” this belief? Manifestly, this principle
-that “consciousness must be accepted entire,” either obliges us to
-accept as true the superstitions of all mankind, or else obliges us to
-say that the consciousness of a certain limited class of cultivated
-people is alone meant. If things are to be believed simply because
-the facts of emotional consciousness imperatively demand the beliefs,
-I do not see why the actual existence of a ghost in a house, is not
-inevitably implied by the intense fear of it that is aroused in the
-child or the servant.
-
-Lastly, and chiefly, I have to deal with Dr. Mansel’s statement that
-“Mr. Spencer, on the other hand, takes these negative inferences as
-the only basis of religion.” This statement is exactly the reverse
-of the truth; since I have contended, against Hamilton and against
-him, that the consciousness of that which is manifested to us through
-phenomena is _positive_, and not _negative_, as they allege, and that
-this positive consciousness supplies an indestructible basis for the
-religious sentiment (_First Principles_, § 26). Instead of giving here
-passages to show this, I may fitly quote the statement and opinion of a
-{225} foreign theologian. M. le pasteur Grotz, of the Reformed Church
-at Nismes, writes thus:―
-
- “La science serait-elle done par nature ennemie de la religion? pour
- être religieux, faut-il proscrire la science?—C’est la science,
- la science expérimentale qui va maintenant parler en faveur de la
- religion; c’est elle qui, par la bouche de l’un des penseurs . . . de
- notre époque, M. Herbert Spencer, va répondre à la fois à M. Vacherot
- et à M. Comte.”
-
-       *       *       *       *       *
-
- “Ici, M. Spencer discute la théorie de l’_inconditionné_; entendez
- par ce mot: Dieu. Le philosophie écossais, Hamilton, et son disciple,
- M. Mansel, disent comme nos positivistes français: ‘Nous ne pouvons
- affirmer l’existence positive de quoi que ce soit au delà des
- phénomènes.’ Seulement, Hamilton et son disciple se séparent de nos
- compatriotes en faisant intervenir une ‘révélation merveilleuse’ qui
- nous fait croire à l’existence de l’inconditionné, et grâce à cette
- révélation vraiment merveilleuse, toute l’orthodoxie revient. Est-il
- vrai que nous ne puissions rien affirmer au delà des phénomènes? M.
- Spencer déclare qu’il y a dans cette assertion une grave erreur. Le
- côté logique, dit-il fort justement, n’est pas le seul; il y a aussi
- le côté psychologique, et, selon nous, il prouve que l’existence
- positive de l’absolu est une donnée nécessaire de la conscience.”
-
- “Là est la base de l’accord entre la religion et la science. Dans un
- chapitre . . . . intitulé _Réconciliation_, M. Spencer etablit et
- développe cet accord sur son véritable terrain.”
-
-       *       *       *       *       *
-
- “M. Spencer, en restant sur le terrain de la logique et de la
- psychologie, et sans recourir à une intervention surnaturelle, a
- établi la legitimité, la nécessité et l’eternelle durée du sentiment
- religieux et de la religion.”[25]
-
-I turn next to what has been said by Dr. Shadworth H. Hodgson, in his
-essay on “The Future of Metaphysic,” published in the _Contemporary
-Review_ for November, 1872. Remarking only, with respect to the
-agreements he expresses in certain views of mine, that I value them
-as coming from a thinker of subtlety and independence, I will confine
-myself here to his disagreements. Dr. Hodgson, before giving his own
-view, briefly describes and criticizes the views of Hegel and Comte,
-with both of whom he partly agrees and partly disagrees, and then {226}
-proceeds to criticize the view set forth by me. After a preliminary
-brief statement of my position, to the wording of which I demur, he
-goes on to say:―
-
- “In his _First Principles_, Part I, second ed., there is a chapter
- headed ‘Ultimate Scientific Ideas,’ in which he enumerates six such
- ideas or groups of ideas, and attempts to show that they are entirely
- incomprehensible. The six are:—1. Space and Time. 2. Matter. 3. Rest
- and Motion. 4. Force. 5. Consciousness. 6. The Soul, or the Ego. Now
- to enter at length into all of these would be an undertaking too large
- for the present occasion; but I will take the first of the six, and
- endeavour to show in its case the entire untenability of Mr. Spencer’s
- view; and since the same arguments may be employed against the rest, I
- shall be content that my case against them should be held to fail if
- my case should fail in respect to Space and Time.”
-
-I willingly join issue with Dr. Hodgson on these terms; and proceed
-to examine, one by one, the several arguments he uses to show the
-invalidity of my conclusions. Following his criticisms in the order
-he has chosen, I begin with the sentence following that which I have
-just quoted. The first part of it runs thus:—“The metaphysical view of
-Space and Time is, that they are elements in all phenomena, whether the
-phenomena are presentations or representations.”
-
-Whether, by “the metaphysical view,” is here meant the view of Kant,
-whether it means Dr. Hodgson’s own view, or whether the expression has
-a more general meaning, I have simply to reply that the metaphysical
-view is incorrect. Dealing with the Kantian version of this doctrine,
-that Space is a form of intuition, I have pointed out that only with
-certain classes of phenomena is Space united indissolubly; that Kant
-habitually considers phenomena belonging to the visual and tactual
-groups, with which the consciousness of space is inseparably joined,
-and overlooks groups with which it is not inseparably joined. Though
-in the adult, perception of sound has certain space-implications,
-mostly, if not wholly, acquired by individual experience; and though it
-would seem from the instructive experiments of Mr. Spalding, that in
-creatures born with nervous systems much more organized than our own
-are at birth, {227} there is some innate perception of the side from
-which a sound comes; yet it is demonstrable that the space-implications
-of sound are not originally given with the sensation as its form
-of intuition. Bearing in mind the Kantian doctrine, that Space is
-the form of sensuous intuitions not only as _presented_ but also as
-_represented_, let us examine critically our musical ideas. As I have
-elsewhere suggested to the reader―
-
- “Let him observe what happens when some melody takes possession of
- his imagination. Its tones and cadences go on repeating themselves
- apart from any space-consciousness—they are not localized. He may or
- may not be reminded of the place where he heard them—this association
- is incidental only. Having observed this, he will see that such
- space-implications as sounds have, are learnt in the course of
- individual experience, and are not given with the sounds themselves.
- Indeed, if we refer to the Kantian definition of form, we get a simple
- and conclusive proof of this. Kant says form is ‘that which effects
- that the content of the phænomenon can be arranged under certain
- relations.’ How then can the content of the phenomenon we call sound
- be arranged? Its parts can be arranged in order of sequence—that is,
- in Time. But there is no possibility of arranging its parts in order
- of coexistence—that is, in Space. And it is just the same with odour.
- Whoever thinks that sound and odour have Space for their form of
- intuition, may convince himself to the contrary by trying to find the
- right and left sides of a sound, or to imagine an odour turned the
- other way upwards.”—_Principles of Psychology_, § 399.—Note.
-
-As I thus dissent, not I think without good reason, from “the
-metaphysical view of Space and Time” as “elements in all phenomena,”
-it will naturally be expected that I dissent from the first criticism
-which Dr. Hodgson proceeds to deduce from it. Dealing first with the
-arguments I have used to show the incomprehensibility of Space and
-Time, if we consider them as objective, and stating in other words the
-conclusion I draw, that “as Space and Time cannot be either nonentities
-nor the attributes of entities, we have no choice but to consider them
-as entities.” Dr. Hodgson continues:―
-
-  “So far good. Secondly, he argues that they cannot be represented
- in thought as such real existences, because ‘to be conceived at
- all, a thing must be conceived as having attributes.’ Now here the
- metaphysical doctrine enables us to conceive them as real existences,
- and rebuts the argument for {228} their inconceivability; for the
- other element, the material element, the feeling or quality occupying
- Space and Time stands in the place and performs the function of the
- required attributes, composing together with the space and time which
- is occupied the empirical phenomena of perception. So far as this
- argument of Mr. Spencer goes, then, we are entitled to say that his
- case for the inconceivability of Space and Time as real existences is
- not made out.”
-
-Whether the fault is in me or not I cannot say, but I fail to see
-that my argument is thus rebutted. On the contrary, it appears to me
-substantially conceded. What kind of entity is that which can exist
-only when occupied by something else? Dr. Hodgson’s own argument is
-a tacit assertion that Space _by itself_ cannot be conceived as an
-existence; and this is all that I have alleged.
-
-Dr. Hodgson deals next with the further argument, familiar to all
-readers, which I have added as showing the insurmountable difficulty
-in the way of conceiving Space and Time as objective entities; namely,
-that “all entities which we actually know as such are limited. . . .
-But of Space and Time we cannot assert either limitation, or the
-absence of limitation.” Without quoting at length the reasons Dr.
-Hodgson gives for distinguishing between Space as _per_ceived and Space
-as _con_ceived, it will suffice if I quote his own statement of the
-result to which they bring him: “So that Space and Time as perceived
-are not finite, but infinite, as conceived are not infinite, but
-finite.”
-
-Most readers will, I think, be startled by the assertion that
-conception is less extensive in range than perception; but, without
-dwelling on this, I will content myself by asking in what case Space
-is perceived as infinite? Surely Dr. Hodgson does not mean to say that
-he can perceive the whole surrounding Space at once—that the Space
-behind is united in perception with the Space in front. Yet this is
-the necessary implication of his words. Taking his statement less
-literally, however, and not dwelling on the fact that in perception
-Space is habitually bounded by objects more or less distant, let
-us test his {229} assertion under the most favourable conditions.
-Supposing the eye directed upwards towards a clear sky; is not the
-space then perceived, laterally limited? The visual area, restricted
-by the visual apertures, cannot include in perception even 180° from
-side to side, and is still more confined in a direction at right angles
-to this. Even in the third direction, to which alone Dr. Hodgson
-evidently refers, it cannot properly be said that it is infinite in
-perception. Look at a position in the sky a thousand miles off. Now
-look at a position a million miles off. What is the difference in
-perception? Nothing. How then can an infinite distance be perceived
-when these immensely-unlike finite distances cannot be perceived as
-differing from one another, or from an infinite distance? Dr. Hodgson
-has used the wrong word. Instead of saying that Space as perceived is
-infinite, he should have said that, in perception, Space is finite in
-two dimensions, and becomes _indefinite_ in the third when this becomes
-great.
-
-I now come to the paragraph beginning “Mr. Spencer then turns to
-the second or subjective hypothesis, that of Kant.” This paragraph
-is somewhat difficult to deal with, because in it my reasoning is
-criticized both from the Kantian point of view and from Dr. Hodgson’s
-own point of view. Dissenting from Kant’s view, Dr. Hodgson says, “I
-hold that both Space and Time and Feeling, or the material element, are
-equally and alike subjective, equally and alike objective.” As I cannot
-understand this, I am unable to deal with those arguments against me
-which Dr. Hodgson bases upon it, and must limit myself to that which he
-urges on behalf of Kant. He says:―
-
-  “But I think that Mr. Spencer’s representation of Kant’s view is
- very incorrect; he seems to be misled by the large term non-ego. Kant
- held that Space and Time were _in their origin_ subjective, but when
- applied to the non-ego resulted in phenomena, and were the formal
- element in those phenomena, among which some were phenomena of the
- internal sense or ego, others of the external sense or non-ego. The
- non-ego to which the forms of Space and Time did not apply and did not
- belong, was the Ding-an-sich, not the {230} phenomenal non-ego. Hence
- the objective existence of Space and Time in phenomena, but not in the
- Ding-an-sich, is a consistent and necessary consequence of Kant’s view
- of their subjective origin.”
-
-If I have misunderstood Kant, as thus alleged, then my comment must be
-that I credited him with an hypothesis less objectionable than that
-which he held. I supposed his view to be that Space, as a form of
-intuition belonging to the _ego_, is imposed by it on the _non-ego_
-(by which I understood the thing in itself) in the act of intuition.
-But now the Kantian doctrine is said to be that Space, originating in
-the _ego_, when applied to the _non-ego_, results in phenomena (the
-_non-ego_ meant being, in that case, necessarily the Ding-an-sich, or
-thing in itself); and that the phenomena so resulting become objective
-existences along with the Space given to them by the subject. The
-subject having imposed Space as a form on the primordial object,
-or thing in itself, and so created phenomena, this Space thereupon
-becomes an objective existence, independent of both the subject and the
-original thing in itself! To Dr. Hodgson this may seem a more tenable
-position than that which I ascribed to Kant; but to me it seems only a
-multiplication of inconceivabilities. I am content to leave it as it
-stands: not feeling my reasons for rejecting the Kantian hypothesis
-much weakened.[26]
-
-The remaining reply which Dr. Hodgson makes runs thus:―
-
-  “But Mr. Spencer has a second argument to prove this
- inconceivability. It is this:—‘If Space and Time are forms of
- thought, they can never be {231} thought of; since it is impossible
- for anything to be at once the _form_ of thought and the _matter_ of
- thought.’ . . . . An instance will show the fallacy best. Syllogism is
- usually held to be a form of thought. Would it be any argument for the
- inconceivability of syllogisms to say, they cannot be at once the form
- and the matter of thought? Can we not syllogize about syllogism? Or,
- more plainly still,—no dog can bite himself, for it is impossible to
- be at once the thing that bites and the thing that is bitten.”
-
-Had Dr. Hodgson quoted the whole of the passage from which he takes
-the above sentence; or had he considered it in conjunction with the
-Kantian doctrine to which it refers (namely, that Space survives in
-consciousness when all contents are expelled, which implies that
-then Space is the thing with which consciousness is occupied, or the
-_object_ of consciousness), he would have seen that his reply has none
-of the cogency he supposes. If, taking his first illustration, he will
-ask himself whether it is possible to “syllogize about syllogism,” when
-syllogism has no content whatever, symbolic or other—has nonentity to
-serve for major, nonentity for minor, and nonentity for conclusion;
-he will, I think, see that syllogism, considered as surviving terms
-of every kind, cannot be syllogized about: the “pure form” of reason
-(supposing it to be syllogism, which it is not) if absolutely
-discharged of all it contains, cannot be represented in thought, and
-therefore cannot be reasoned about. Following Dr. Hodgson to his second
-illustration, I must express my surprise that a metaphysician of his
-acuteness should have used it. For an illustration to have any value,
-the relation between the terms of the analogous case {232} must have
-some parallelism to the relation between the terms of the case with
-which it is compared. Does Dr. Hodgson really think that the relation
-between a dog and the part of himself which he bites, is like the
-relation between _matter_ and _form_? Suppose the dog bites his tail.
-Now the dog, as biting, stands, according to Dr. Hodgson, for the form
-as the containing mental faculty; and the tail, as bitten, stands for
-this mental faculty as contained. Now suppose the dog loses his tail.
-Can the faculty as containing and the faculty as contained be separated
-in the same way? Does the mental form when deprived of all content,
-even itself (granting that it can be its own content), continue to
-exist in the same way that a dog continues to exist when he has lost
-his tail? Even had this illustration been applicable, I should scarcely
-have expected Dr. Hodgson to remain satisfied with it. I should have
-thought he would prefer to meet my argument directly, rather than
-indirectly. Why has he not shown the invalidity of the reasoning used
-in the _Principles of Psychology_ (§ 399, 2nd ed.)? Having there quoted
-the statement of Kant, that “Space and Time are not merely forms of
-sensuous intuition, but _intuitions_ themselves;” I have written―
-
- “If we inquire more closely, this irreconcilability becomes still
- clearer. Kant says:—‘That which in the phænomenon corresponds to
- the sensation, I term its _matter_; but that which effects that the
- content of the phenomenon can be arranged under certain relations, I
- call its _form_.’ Carrying with us this definition of form, as ‘that
- which effects that the content . . . . can be arranged under certain
- relations,’ let us return to the case in which the intuition of Space
- is the intuition which occupies consciousness. Can the content of this
- intuition ‘be arranged under certain relations’ or not? It can be so
- arranged, or rather, it _is_ so arranged. Space cannot be thought of
- save as having parts, near and remote, in this direction or the other.
- Hence, if that is the form of a thing ‘which effects that the content
- . . . . can be arranged under certain relations,’ it follows that
- when the content of consciousness is the intuition of Space, which
- has ‘parts that can be arranged under certain relations,’ there must
- be a form of that intuition. What is it? Kant does not tell us—does
- not appear to perceive that there must be such a form; and could
- not have perceived this without abandoning his hypothesis that the
- space-intuition is primordial.”
-
-Now when Dr. Hodgson has shown me how that “which {233} effects that
-the content . . . . can be arranged under certain relations,” may also
-be that which effects its own arrangement under the same relations, I
-shall be ready to surrender my position; but until then, no analogy
-drawn from the ability of a dog to bite himself will weigh much with me.
-
-Having, as he considers, disposed of the reasons given by me for
-concluding that, considered in themselves, “Space and Time are
-wholly incomprehensible” (he continually uses on my behalf the word
-“inconceivable,” which, by its unfit connotations, gives a wrong aspect
-to my position), Dr. Hodgson goes on to say:-
-
- “Yet Mr. Spencer proceeds to use these inconceivable ideas as the
- basis of his philosophy. For mark, it is Space and Time as we know
- them, the actual and phenomenal Space and Time, to which all these
- inconceivabilities attach. Mr. Spencer’s result, ought, therefore,
- logically to be—Scepticism. What is his actual result? Ontology. And
- how so? Why, instead of rejecting Space and Time as the inconceivable
- things he has tried to demonstrate them to be, he substitutes for them
- an Unknowable, a something which they really are, though we cannot
- know it, and rejects that, instead of them, from knowledge.”
-
-This statement has caused me no little astonishment. That having
-before him the volume from which he quotes, so competent a reader
-should have so completely missed the meaning of the passages (§ 26)
-already referred to, in which I have contended against Hamilton and
-Mansel, makes me almost despair of being understood by any ordinary
-reader. In that section I have, in the first place, contended that
-the consciousness of an Ultimate Reality, though not capable of being
-made a thought, properly so called, because not capable of being
-brought within limits, nevertheless remains as a consciousness that is
-_positive_: is not rendered _negative_ by the negations of limits. I
-have pointed out that―
-
-  “The error, (very naturally fallen into by philosophers intent
- on demonstrating the limits and conditions of consciousness),
- consists in assuming that consciousness contains _nothing but_
- limits and conditions; to the entire neglect of that which is
- limited and conditioned. It is forgotten that there is something
- which alike forms the raw material of definite thought and remains
- after the definiteness which thinking gave to it has been {234}
- destroyed”—something which “ever persists in us as the body of a
- thought to which we can give no shape.”
-
-This _positive_ element of consciousness it is which, “at once
-necessarily indefinite and necessarily indestructible,” I regard as
-the consciousness of the Unknowable Reality. Yet Dr. Hodgson says “Mr.
-Spencer proceeds to use these inconceivable ideas as the basis of his
-philosophy:” implying that such basis consists of negations, instead
-of consisting of that which persists _notwithstanding the negation of
-limits_. And then, beyond this perversion, or almost inversion, of
-meaning, he conveys the notion that I take as the basis of philosophy,
-the “inconceivable ideas” “or self-contradictory notions” which result
-when we endeavour to comprehend Space and Time. He speaks of me as
-proposing to evolve substance out of form, or rather, out of the
-negations of forms—gives his readers no conception that the _Power_
-manifested to us is that which I regard as the Unknowable, while
-what we call Space and Time answer to the unknowable _nexus_ of its
-manifestations. And yet the chapter from which I quote, and still more
-the chapter which follows it, makes this clear—as clear, at least, as I
-can make it by carefully-worded statements and re-statements.
-
-       *       *       *       *       *
-
-Philosophical systems, like theological ones, following the law of
-evolution in general, severally become in course of time more rigid,
-while becoming more complex and more definite; and they similarly
-become less alterable—resist all compromise, and have to be replaced by
-the more plastic systems that descend from them.
-
-It is thus with pure Empiricism and pure Transcendentalism. Down to
-the present time disciples of Locke have continued to hold that all
-mental phenomena are interpretable as results of accumulated individual
-experiences; and, by criticism, have been led simply to elaborate
-their interpretations—ignoring the proofs of inadequacy. On the other
-hand, disciples of Kant, {235} asserting this inadequacy, and led
-by perception of it to adopt an antagonist theory, have persisted in
-defending that theory under a form presenting fatal inconsistencies.
-And then, when there is offered a mode of reconciliation, the spirit
-of no-compromise is displayed: each side continuing to claim the whole
-truth. After it has been pointed out that all the obstacles in the way
-of the experiential doctrine disappear if the effects of ancestral
-experiences are joined with the effects of individual experiences, the
-old form of the doctrine is still adhered to. And meanwhile Kantists
-persist in asserting that the _ego_ is born with intuitional forms
-which are wholly independent of anything in the _non-ego_, after it
-has been shown that the innateness of these intuitional forms may be
-so understood as to escape the insurmountable difficulties of the
-hypothesis as originally expressed.
-
-I am led to say this by reading the remarks concerning my own views,
-made with an urbanity I hope to imitate, by Professor Max Müller, in a
-lecture delivered at the Royal Institution in March, 1873.[27] Before
-dealing with the criticisms contained in this lecture, I must enter a
-demurrer against that interpretation of my views by which Professor Max
-Müller makes it appear that they are more allied to those of Kant than
-to those of Locke. He says:―
-
-  “Whether the pre-historic genesis of these congenital dispositions
- or inherited necessities of thought, as suggested by Mr. Herbert
- Spencer, be right or wrong, does not signify for the purpose which
- Kant had in view. In admitting that there is something in our mind,
- which is not the result of our own _à posteriori_ experience, Mr.
- Herbert Spencer is a thorough Kantian, and we shall see that he is
- a Kantian in other respects too. If it could be proved that nervous
- modifications, accumulated from generation to generation, could result
- in nervous structures that are fixed in proportion as the outer
- relations to which they answer are fixed, we, as followers of Kant,
- should only have to put in the place of Kant’s intuitions of Space
- and Time ‘the constant space-relations expressed in definite nervous
- structures, congenitally framed to act in definite ways, and incapable
- of acting in any other {236} way.’ If Mr. Herbert Spencer had not
- misunderstood the exact meaning of what Kant calls the intuitions of
- Space and Time, he would have perceived that, barring his theory of
- the pre-historic origin of these intuitions, he was quite at one with
- Kant.”
-
-On this passage let me remark, first, that the word “pre-historic,”
-ordinarily employed only in respect to human history, is misleading
-when applied to the history of Life in general; and his use of it
-leaves me in some doubt whether Professor Max Müller has rightly
-conceived the hypothesis he refers to.
-
-My second comment is, that the description of me as “quite at one with
-Kant,” “_barring_” the “theory of the prehistoric origin of these
-intuitions,” curiously implies that it is a matter of comparative
-indifference whether the forms of thought are held to be _naturally
-generated_ by intercourse between the organism and its environing
-relations, during the evolution of the lowest into the highest types,
-or whether such forms are held to be _supernaturally given_ to the
-human mind, and are independent both of environing relations and of
-ancestral minds. But now, addressing myself to the essential point, I
-must meet the statement that I have “misunderstood the exact meaning
-of what Kant calls the intuitions of Space and Time,” by saying that
-I think Professor Max Müller has overlooked certain passages which
-justify my interpretation, and render his interpretation untenable.
-For Kant says “Space is _nothing else_ than the form of all phenomena
-of the external sense;” further, he says that “Time is _nothing but_
-the form of our internal intuition;” and, to repeat words I have used
-elsewhere, “He distinctly shuts out the supposition that there are
-forms of the _non-ego_ to which these forms of the _ego_ correspond,
-by saying that ‘Space is not a conception which has been derived from
-outward experiences.’” Now so far from being in harmony with, these
-statements are in direct contradiction to, the view which I hold; and
-seem to me absolutely irreconcilable with it. How can it be said that,
-“barring” a difference represented as trivial, I am {237} “quite at
-one with Kant,” when I contend that these subjective forms of intuition
-are moulded into correspondence with, and therefore derived from, some
-objective form or _nexus_, and therefore dependent upon it; while the
-Kantian hypothesis is that these subjective forms are not derived from
-the object, but pre-exist in the subject—are imposed by the _ego_ on
-the _non-ego_. It seems to me that not only do Kant’s words, as above
-given, exclude the view which I hold, but also that Kant could not
-consistently have held any such view. Rightly recognizing, as he did,
-these forms of intuition as innate, he was, from his stand-point,
-_obliged_ to regard them as imposed on the matter of intuition in the
-act of intuition. In the absence of the hypothesis that intelligence
-has been evolved, it was _not possible_ for him to regard these
-subjective forms as having been derived from objective forms.
-
-A disciple of Locke might, I think, say that the Evolution-view of
-our consciousness of Space and Time is essentially Lockian, with
-more truth than Professor Max Müller can represent it as essentially
-Kantian. The Evolution-view is completely experiential. It differs
-from the original view of the experientialists by containing a great
-extension of that view. With the relatively-small effects of individual
-experiences, it joins the relatively-vast effects of the experiences of
-antecedent individuals. But the view of Kant is avowedly and absolutely
-unexperiential. Surely this makes the predominance of kinship manifest.
-
-In Professor Max Müller’s replies to my criticisms on Kant, I cannot
-see greater validity than in this affiliation to which I have demurred.
-One of his arguments is that which Dr. Hodgson has used, and which I
-have already answered; and I think that the others, when compared with
-the passages of the _Principles of Psychology_ which they concern, will
-not be found adequate. I refer to them here {238} chiefly for the
-purpose of pointing out that when he speaks of me as bringing “three
-arguments against Kant’s view,” he understates the number. Let me close
-what I have to say on this disputed question, by quoting the summary of
-reasons I have given for rejecting the Kantian hypothesis:―
-
- “Kant tells us that Space is the form of all external intuition; which
- is not true. He tells us that the consciousness of Space continues
- when the consciousness of all things contained in it is suppressed;
- which is also not true. From these alleged facts he _infers_ that
- Space is an _à priori_ form of intuition. I say _infers_, because this
- conclusion is not presented in necessary union with the premises,
- in the same way that the consciousness of duality is necessarily
- presented along with the consciousness of inequality; but it is a
- conclusion voluntarily drawn for the purpose of explaining the alleged
- facts. And then that we may accept this conclusion, which is not
- necessarily presented along with these alleged facts which are not
- true, we are obliged to affirm several propositions which cannot be
- rendered into thought. When Space is itself contemplated, we have
- to conceive it as at once the form of intuition and the matter of
- intuition; which is impossible. We have to unite that which we are
- conscious of as Space with that which we are conscious of as the
- _ego_, and contemplate the one as a property of the other; which is
- impossible. We have at the same time to disunite that which we are
- conscious of as Space, from that which we are conscious of as the
- _non-ego,_ and contemplate the one as separate from the other; which
- is also impossible. Further, this hypothesis that Space is “nothing
- else” than a form of intuition belonging wholly to the _ego_, commits
- us to one of the two alternatives, that the _non-ego_ is formless or
- that its form produces absolutely no effect upon the _ego_; both of
- which alternatives involve us in impossibilities of thought.”—_Prin.
- of Psy.,_ § 399.
-
-Objections of another, though allied, class have been made in a review
-of the _Principles of Psychology_ by Mr. H. Sidgwick—a critic whose
-remarks on questions of mental philosophy always deserve respectful
-consideration.
-
-Mr. Sidgwick’s chief aim is to show what he calls “the mazy
-inconsistency of his [my] metaphysical results.” More specifically, he
-expresses thus the proposition he seeks to justify—“His view of the
-subject appears to have a fundamental incoherence, which shows itself
-in various ways on the surface of his exposition, but of which the root
-lies {239} much deeper, in his inability to harmonise different lines
-of thought.”
-
-Before dealing with the reasons given for this judgment, let me say
-that, in addition to the value which candid criticisms have as showing
-where more explanation is needed, they are almost indispensable as
-revealing to a writer incongruities he had not perceived. Especially
-where, as in this case, the subject-matter has many aspects, and
-where the words supplied by our language are so inadequate in number
-that, to avoid cumbrous circumlocution, they have to be used in
-senses that vary according to the context, it is extremely difficult
-to avoid imperfections of statement. But while I acknowledge sundry
-such imperfections and the resulting incongruities, I cannot see
-that these are, as Mr. Sidgwick says, fundamental. Contrariwise,
-their superficiality seems to me proved by the fact that they may be
-rectified without otherwise altering the expositions in which they
-occur. Here is an instance.
-
-Mr. Sidgwick points out that, when treating of the “Data of
-Psychology,” I have said (in § 56) that, though we reach inferentially
-“the belief that mind and nervous action are the subjective and
-objective faces of the same thing, we remain utterly incapable of
-seeing, and even of imagining, how the two are related” (I quote
-the passage more fully than he does). He then goes on to show that
-in the “Special Synthesis,” where I have sketched the evolution of
-Intelligence under its objective aspect, as displayed in the processes
-by which beings of various grades adjust themselves to surrounding
-actions, I “speak as if” we could see how consciousness “naturally
-arises at a particular stage” of nervous action. The chapter he here
-refers to is one describing that “differentiation of the psychical
-from the physical life” which accompanies advancing organization, and
-more especially advancing development of the nervous system. In it I
-have shown {240} that, while the changes constituting physical life
-continue to be characterized by the _simultaneity_ with which all
-kinds of them go on throughout the organism, the changes constituting
-psychical life, arising as the nervous system develops, become
-gradually more distinguished by their _seriality_. And I have said that
-as nervous integration advances, “there must result an unbroken series
-of these changes—there must arise a consciousness.” Now I admit that
-here is an apparent inconsistency. I ought to have said that “there
-must result an unbroken series of these changes,” which, taking place
-in the nervous system of a highly-organized creature, gives coherence
-to its conduct; and along with which we assume a consciousness,
-because consciousness goes along with coherent conduct in ourselves.
-If Mr. Sidgwick will substitute this statement for the statement as it
-stands, he will see that the arguments and conclusions remain intact.
-A survey of the chapter as a whole, proves that its aim is not in the
-least to explain how nervous changes, considered as waves of molecular
-motion, become the feelings constituting consciousness; but that,
-contemplating the facts objectively in living creatures at large, it
-points out the cardinal distinction between vital actions in general,
-and those particular vital actions which, in a creature displaying
-them, lead us to speak of it as intelligent. It is shown that the rise
-of such actions becomes marked in proportion as the changes taking
-place in the part called the nervous system, are made more and more
-distinctly serial, by union in a supreme centre of co-ordination. The
-introduction of the word consciousness, arises in the effort to show
-what fundamental character there is in these particular physiological
-changes which is _parallel to_ a fundamental character in the
-psychological changes.
-
-Another instance of the way in which Mr. Sidgwick evolves an
-incongruity which he considers fundamental, out of what I should have
-thought he would see is a {241} defective expression, I will give in
-his own words. Speaking of a certain view of mine, he says:―
-
- “He tells us that ‘logic . . . contemplates in its propositions
- certain connexions predicated, which are necessarily involved with
- certain other connexions given: _regarding all these connexions as
- existing in the non-ego_—not, it may be, under the form in which
- we know them, but in some form.’ But in § 473, where Mr. Spencer
- illustrates by a diagram his ‘Transfigured Realism,’ the view seems
- to be this: although we cannot say that the real non-ego resembles
- our notion of it in ‘its elements, relations, or laws,’ we can say
- that ‘a change in the objective reality causes in the subjective state
- a change exactly answering to it—so answering as to _constitute a
- cognition of it_.’ Here the ‘something beyond consciousness’ is no
- longer said to be unknown, as its effect in consciousness ‘constitutes
- a cognition of it.’”
-
-This apparent inconsistency, marked by the italics, would not
-have existed if, instead of “a cognition of it,” I had said, as I
-ought to have said, “_what we call_ a cognition of it”—that is, a
-relative cognition as distinguished from an absolute cognition. In
-ordinary language we speak of as cognitions, those connexions in
-thought which so guide us in our dealings with things, that actual
-experience verifies ideal anticipation: marking off, by opposed words,
-those connexions in thought which _mis_-guide us. The difference
-between accepting a cognition as relatively true and accepting
-it as absolutely true, will be clearly shown by an illustration.
-There is no direct resemblance whatever between the sizes, forms,
-colours, and arrangements, of the figures in an account-book, and the
-moneys or goods, debts or credits, represented by them; and yet the
-forms and arrangements of the written symbols, are such as answer
-in a perfectly-exact way to stocks of various commodities and to
-various kinds of transactions. Hence we say, figuratively, that the
-account-book will “tell us” all about these stocks and transactions.
-Similarly, the diagram Mr. Sidgwick refers to, suggests a way in which
-symbols, registered in us by objects, may have forms and arrangements
-wholly unlike their objective causes and the _nexus_ among those
-causes, while yet they are so related as to guide us correctly in
-our transactions {242} with those objective causes, and, _in that
-sense_, constitute cognitions of them; though they no more constitute
-cognitions in the absolute sense, than do the guiding symbols in the
-account-book constitute cognitions of the things to which they refer.
-So repeatedly is this view implied throughout the _Principles of
-Psychology_, that I am surprised to find a laxity of expression raising
-the suspicion that I entertain any other.
-
-To follow Mr. Sidgwick through sundry criticisms of like kind,
-which may be similarly met, would take more space than I can here
-afford. I must restrict myself now to the alleged “fundamental
-incoherence” of which he thinks these inconsistencies are signs. I
-refer to that reconciliation of Realism and Idealism considered by
-him as an impossible compromise. A difficulty is habitually felt in
-accepting a coalition after long conflict. Whoever has espoused one
-of two antagonist views, and, in defending it, has gained a certain
-comprehension of the opposite view, becomes accustomed to regard these
-as the only alternatives, and is puzzled by an hypothesis which is at
-once both and neither. Yet, since it turns out in nearly all cases
-that, of conflicting doctrines, each contains an element of truth, and
-that controversy ends by combination of their respective half-truths,
-there is _a priori_ probability on the side of an hypothesis which
-qualifies Realism by Idealism.
-
-Mr. Sidgwick expresses his astonishment, or rather bespeaks that of his
-readers, because, while I accept Idealistic criticisms, I nevertheless
-defend the fundamental intuition of Common Sense; and, as he puts
-it, “fires his [my] argument full in the face of Kant, Mill, and
-‘metaphysicians’ generally.”
-
-  “He tells us that ‘metaphysicians’ illegitimately assume that
- ‘beliefs reached through complex intellectual processes,’ are more
- valid than ‘beliefs reached through simple intellectual processes;’
- that the common language they use refuses to express their hypotheses,
- and thus their reasoning inevitably implies the common notions which
- they repudiate; that the belief of Realism has the advantage of
- ‘priority,’ ‘simplicity,’ ‘distinctness.’ {243} But surely this prior,
- simple, distinctly affirmed belief is that of what Mr. Spencer terms
- ‘crude Realism’, the belief that the non-ego is _per se_ extended,
- solid, even coloured (if not resonant and odorous). This is what
- common language implies; and the argument by which Mr. Spencer proves
- the relativity of feelings and relations, still more the subtle and
- complicated analysis by which he resolves our notion of extension into
- an aggregate of feelings and transitions of feeling, lead us away from
- our original simple belief—that (_e.g._) the green grass we see exists
- out of consciousness as we see it—just as much as the reasonings of
- Idealism, Scepticism, or Kantism.”
-
-On the face of it the anomaly seems great; but I should have thought
-that after reading the chapter on “Transfigured Realism,” a critic of
-Mr. Sidgwick’s acuteness would have seen the solution of it. He has
-overlooked an essential distinction. All which my argument implies is
-that the direct intuition of Realism must be held of superior authority
-to the arguments of Anti-Realism, _where their deliverances cannot
-be reconciled_. The one point on which their deliverances cannot be
-reconciled, is the existence of an objective reality. But while,
-against this intuition of Realism, I hold the arguments of Anti-Realism
-to be powerless, because they cannot be carried on without postulating
-that which they end by denying; yet, having admitted objective
-existence as a necessary postulate, it is possible to make valid
-criticisms upon all those judgments which Crude Realism joins with
-this primordial judgment: it is possible to show that a transfigured
-interpretation of properties and relations, is more tenable than the
-original interpretation.
-
-To elucidate the matter, let us take the most familiar case in which
-the indirect judgments of Reason correct the direct judgments of Common
-Sense. The direct judgment of Common Sense is that the Sun moves round
-the Earth. In course of time, Reason, finding some facts at variance
-with this, begins to doubt; and, eventually, hits upon an hypothesis
-which explains the anomalies, but which denies this apparently-certain
-_dictum_ of Common Sense. What is the reconciliation? It consists in
-showing {244} to Common Sense that the new interpretation equally
-well corresponds with direct intuition, while it avoids all the
-difficulties. Common Sense is reminded that the apparent motion of
-an object may be due either to its actual motion or to the motion of
-the observer; and that there are terrestrial experiences in which the
-observer thinks an object he looks at is moving, when the motion is in
-himself. Extending the conception thus given, Reason shows that if the
-Earth revolves on its axis, there will result that apparent motion of
-the Sun which Common Sense interpreted into an actual motion of the
-Sun; and the common-sense observer thereupon becomes able to think
-of sunrise and sunset as due to his position as spectator on a vast
-revolving globe. Now if the astronomer, setting out by recognizing
-these celestial appearances, and proceeding to evolve the various
-anomalies following from the common-sense interpretation of them, had
-drawn the conclusion that there externally exist no Sun and no motion
-at all, he would have done what Idealists do; and his arguments would
-have been equally powerless against the intuition of Common Sense. But
-he does nothing of the kind. He accepts the intuition of Common Sense
-respecting the reality of the Sun and of the motion; but replaces the
-old interpretation of the motion by a new interpretation reconcilable
-with all the facts.
-
-Everyone must see that here, acceptance of the inexpugnable element
-in the common-sense judgment, by no means involves acceptance of the
-accompanying judgments; and I contend that the like discrimination must
-be made in the case we are considering. It does not follow that while,
-against the consciousness which Crude Realism has of an objective
-reality, the arguments of Anti-Realism are futile, they are therefore
-futile against the conceptions which Crude Realism forms of the
-objective reality. If Anti-Realism can show that, granting an objective
-reality, the interpretation of Crude Realism contains insuperable {245}
-difficulties, the process is quite legitimate. And, its primordial
-intuition remaining unshaken, Realism may, on reconsideration, be
-enabled to frame a new conception which harmonizes all the facts.
-
-To show that there is not here the “mazy inconsistency” alleged, let
-us take the case of sound as interpreted by Crude Realism, and as
-re-interpreted by Transfigured Realism. Crude Realism assumes the
-sound present in consciousness to exist as such beyond consciousness.
-Anti-Realism proves the inadmissibility of this assumption in sundry
-ways (all of which, however, set out by talking of sounding bodies
-beyond consciousness, just as Realism talks of them); and then
-Anti-Realism concludes that we know of no existence save the sound as a
-mode of consciousness: which conclusion, and all kindred conclusions,
-I contend are vicious—first, because all the words used connote an
-objective activity; second, because the arguments are impossible
-without postulating at the outset an objective activity; and third,
-because no one of the intuitions out of which the arguments are built,
-is of equal validity with the single intuition of Realism that an
-objective activity exists. But now the Transfigured Realism which
-Mr. Sidgwick thinks “has all the serious incongruity of an intense
-metaphysical dream,” neither affirms the untenable conception of Crude
-Realism, nor, like Anti-Realism, draws unthinkable conclusions by
-suicidal arguments; but, accepting that which is essential in Crude
-Realism, and admitting the difficulties which Anti-Realism insists
-upon, reconciles matters by a re-interpretation analogous to that
-which an astronomer makes of the solar motion. Continuing all along
-to recognize an objective activity which Crude Realism calls sound,
-it shows that the answering sensation is produced by a succession of
-separate impacts which, if made slowly, may be separately identified,
-and which will, if progressively increased in rapidity, produce tones
-higher and higher in pitch. It {246} shows by other experiments that
-sounding bodies are in states of vibration, and that the vibrations
-may be made visible. And it concludes that the objective activity
-is not what it subjectively seems, but is proximately interpretable
-as a succession of aërial waves. Thus Crude Realism is shown that
-while there unquestionably exists an objective activity corresponding
-to the sensation known as sound, yet the facts are not explicable
-on the original supposition that this is like the sensation; while
-they are explicable by conceiving it as a rhythmical mechanical
-action. Eventually this re-interpretation, joined with kindred
-reinterpretations of other sensations, comes to be itself further
-transfigured by analysis of its terms, and re-expression of them in
-terms of molecular motion; but, however abstract the interpretation
-ultimately reached, the objective activity continues to be postulated:
-the primordial judgment of Crude Realism remains unchanged, though it
-has to change the rest of its judgments.
-
-In another part of his argument, however, Mr. Sidgwick implies that
-I have no right to use those conceptions of objective existence by
-which this compromise is effected. Quoting sundry passages to show
-that while I hold the criticisms of the Idealist to be impossible
-without “tacitly or avowedly postulating an unknown something beyond
-consciousness,” I yet admit that “our states of consciousness are the
-only things we can know;” he goes on to argue that I am radically
-inconsistent, because, in interpreting the phenomena of consciousness,
-I continually postulate, not an unknown something, but a something
-of which I speak in ordinary terms, as though its ascribed physical
-characters really exist as such, instead of being, as I admit they are,
-synthetic states of my consciousness. His objection, if I understand
-it, is that for the purposes of Objective Psychology I apparently
-profess to know Matter and Motion in the ordinary realistic way; while,
-as a result of subjective analysis, I reach the conclusion that {247}
-it is impossible to have that knowledge of objective existence which
-Realism supposes we have. Doubtless there seems here to be what he
-calls “a fundamental incoherence.” But I think it exists, not between
-my two expositions, but between the two consciousnesses of subjective
-and objective existence, which we cannot suppress and yet cannot put
-into definite forms. The alleged incoherence I take to be but another
-name for the inscrutability of the relation between subjective feeling
-and its objective correlate which is not feeling—an inscrutability
-which meets us at the bottom of all our analyses. An exposition of this
-inscrutability I have elsewhere summed up thus:―
-
- “See, then, our predicament. We can think of Matter only in terms
- of Mind. We can think of Mind only in terms of Matter. When we have
- pushed our explorations of the first to the uttermost limit, we are
- referred to the second for a final answer; and when we have got the
- final answer of the second, we are referred back to the first for an
- interpretation of it. We find the value of _x_ in terms of _y_; then
- we find the value of _y_ in terms of _x_; and so on we may continue
- for ever without coming nearer to a solution.”—_Prin. of Psy._ § 272.
-
-Carrying a little further this simile, will, I think, show where lies
-the insuperable difficulty felt by Mr. Sidgwick. Taking _x_ and _y_
-as the subjective and objective activities, unknown in their natures
-and known only as phenomenally manifested; and recognizing the fact
-that every state of consciousness implies, immediately or remotely,
-the action of object on subject or subject on object, or both; we
-may say that every state of consciousness will be symbolized by some
-modification of xy—the phenomenally-known product of the two unknown
-factors. In other words, _xy′_, _x′y_, _x′y′_, _x″y′_, _x′y″_, &c.,
-&c., will represent all perceptions and thoughts. Suppose, now,
-that these are thoughts about the object; composing some hypothesis
-respecting its characters as analyzed by physicists. Clearly, all
-such thoughts, be they about shapes, resistances, momenta, molecules,
-molecular motions, or what not, will contain forms of the subjective
-activity _x_. Now let the thoughts {248} be concerning mental
-processes. It must similarly happen that some mode of the unknown
-objective activity _y_, will be in every case a component. Now suppose
-that the problem is the genesis of mental phenomena; and that, in
-the course of the inquiry, bodily organization and the functions of
-the nervous system are brought into the explanation. It will happen,
-as before, that these, considered as objective, have to be described
-and thought about in modes of _xy_. And when by the actions of such
-a nervous system, conceived objectively in modes of _xy_, and acted
-upon by physical forces which are conceived in other modes of _xy_, we
-endeavour to explain the genesis of sensations, perceptions, and ideas,
-which we can think of only in other modes of _xy,_ we find that all our
-factors, and therefore all our interpretations, contain the two unknown
-terms, and that no interpretation is imaginable that will not contain
-the two unknown terms.
-
-What is the defence for this apparently-circular process? Simply that
-it is a process of establishing _congruity_ among our symbols. It is
-finding a mode of so symbolizing the unknown activities, subjective
-and objective, and so operating with our symbols, that all our acts
-may be rightly guided—guided, that is, in such ways that we can
-anticipate, when, where, and in what quantity some one of our symbols,
-or some combination of our symbols, will be found. Mr. Sidgwick’s
-difficulty arises, I think, from having insufficiently borne in mind
-the statements made at the outset, in “The Data of Philosophy,” that
-such conceptions as “are vital, or cannot be separated from the rest
-without mental dissolution, must be assumed as true _provisionally_;”
-that “there is no mode of establishing the validity of any belief
-except that of showing its entire _congruity_ with all other beliefs;”
-and that “Philosophy, compelled to make those fundamental assumptions
-without which thought is impossible, has to justify them by showing
-their _congruity_ with all other dicta of consciousness.” In {249}
-pursuance of this distinctly-avowed mode of procedure, I assume
-provisionally, an objective activity and a subjective activity, and
-certain general forms and modes (Space, Time, Matter, Motion, Force),
-which the subjective activity, operated on by the objective activity,
-ascribes to it, and which I suppose to correspond in some way to
-unknown forms and modes of the objective activity. These provisional
-assumptions, having been carried out to all their consequences, and
-these consequences proved to be congruous with one another and with
-the original assumptions, these original assumptions are justified.
-And if, finally, I assert, as I have repeatedly asserted, that the
-terms in which I express my assumptions and carry on my operations
-are but symbolic, and that all I have done is to show that by certain
-ways of symbolizing, perfect harmony results—invariable agreement
-between the symbols in which I frame my expectations, and the symbols
-which occur in experience—I cannot be blamed for incoherence. On the
-contrary, it seems to me that my method is the most coherent that
-can be devised. Lastly, should it be said that this regarding of
-everything constituting experience and thought as symbolic, has a very
-shadowy aspect; I reply that these which I speak of as symbols, are
-real relatively to our consciousness; and are symbolic only in their
-relation to the Ultimate Reality.
-
-That these explanations will make clear the coherence of views
-which before seemed “fundamentally incoherent,” I feel by no means
-certain; since, as I did not perceive the difficulties presented by
-the exposition as at first made, I may similarly fail to perceive
-the difficulties in this explanation. Originally, I had intended to
-complete the _Principles of Psychology_ by a division showing how
-the results reached in the preceding divisions, physiological and
-psychological, analytic and synthetic, subjective and objective,
-harmonize with one another, and are but different aspects of the same
-aggregate of phenomena. But the work was already {250} bulky; and
-I concluded that this division might be dispensed with, because the
-congruities to be pointed out were sufficiently obvious. So little was
-I conscious of the alleged “inability to harmonize different lines of
-thought.” Mr. Sidgwick’s perplexities, however, show me that such an
-exposition of concords is needful.
-
-       *       *       *       *       *
-
-I have reserved to the last, one of the first objections made to the
-metaphysico-theological doctrine set forth in _First Principles_, and
-implied in the several volumes that have succeeded it. It was urged by
-an able metaphysician, the Rev. James Martineau, in an essay entitled
-“Science, Nescience, and Faith;” and, effective against my argument as
-it stands, shows the need for some development of my argument. That
-Mr. Martineau’s criticism may be understood, I must quote the passages
-it concerns. Continuing the reasoning employed against Hamilton and
-Mansel, to show that our consciousness of that which transcends
-knowledge is _positive_, and not, as they allege, _negative_, I have
-said:―
-
-  “Still more manifest will this truth become when it is observed that
- our conception of the Relative itself disappears, if our conception
- of the Absolute is a pure negation. It is admitted, or rather it is
- contended, by the writers I have quoted above, that contradictories
- can be known only in relation to each other—that Equality, for
- instance, is unthinkable apart from its correlative Inequality; and
- that thus the Relative can itself be conceived only by opposition
- to the Non-relative. It is also admitted, or rather contended, that
- the consciousness of a relation implies a consciousness of both
- the related members. If we are required to conceive the relation
- between the Relative and Non-relative without being conscious of
- both, ‘we are in fact’ (to quote the words of Mr. Mansel differently
- applied) ‘required to compare that of which we are conscious with
- that of which we are not conscious; the comparison itself being an
- act of consciousness, and only possible through the consciousness of
- both its objects.’ What, then, becomes of the assertion that, ‘the
- Absolute is conceived merely by a negation of conceivability,’ or
- as ‘the mere absence of the conditions under which consciousness is
- possible?’ If the Non-relative or Absolute, is present in thought only
- as a mere negation, then the relation between it and the Relative
- becomes unthinkable, because one of the terms of the relation is
- absent from consciousness. {251} And if this relation is unthinkable,
- then is the Relative itself unthinkable, for want of its antithesis:
- whence results the disappearance of all thought whatever.”—_First
- Principles_, § 26.
-
-On this argument Mr. Martineau comments as follows; first re-stating it
-in other words:―
-
- “Take away its antithetic term, and the relative, thrown into
- isolation, is set up as absolute, and disappears from thought. It
- is indispensable therefore to uphold the Absolute in existence,
- as condition of the relative sphere which constitutes our whole
- intellectual domain. Be it so: but when saved on this plea,—to
- preserve the balance and interdependence of two _co_-relatives,—the
- ‘Absolute’ is absolute no more; it is reduced to a term of relation:
- it loses therefore its exile from thought: its disqualification is
- cancelled: and the alleged nescience is discharged.
-
- “So, the same law of thought which warrants the existence, dissolves
- the inscrutableness, of the Absolute.”—_Essays, Philosophical and_
- _Theological_ pp. 186–7.
-
-I admit this to be a telling rejoinder; and one which can be met only
-when the meanings of the words, as I have used them, are carefully
-discriminated, and the implications of the doctrine fully traced out.
-We will begin by clearing the ground of minor misconceptions.
-
-First, let it be observed that though I have used the word Absolute
-as the equivalent of Non-relative, because it is used in the passages
-quoted from the writers I am contending against; yet I have myself
-chosen for the purposes of my argument, the name Non-relative, and I
-do not necessarily commit myself to any propositions respecting the
-Absolute, considered as that which includes both Subject and Object.
-The Non-relative as spoken of by me, is to be understood rather as
-the totality of Being _minus_ that which constitutes the individual
-consciousness, present to us under forms of Relation. Did I use the
-word in some Hegelian sense, as comprehensive of that which thinks and
-that which is thought about, and did I propose to treat of the order of
-things, not as phenomenally manifested but as noumenally proceeding,
-the objection would be fatal. But the aim being simply to formulate
-the order of things as present under relative forms, the antithetical
-Non-relative here named as {252} implied by the conception of the
-Relative, is that which, in any act of thought, is outside of and
-beyond it, rather than that which is inclusive of it. Further, it
-should be observed that this Non-relative, spoken of as a necessary
-complement to the Relative, is not spoken of as a conception but as a
-_consciousness_; and I have in sundry passages distinguished between
-those modes of consciousness which, having limits, and constituting
-thought proper, are subject to the laws of thought, and the mode of
-consciousness which persists when the removal of limits is carried to
-the uttermost, and when distinct thought consequently ceases.
-
-This opens the way to the reply here to be made to Mr. Martineau’s
-criticism—namely, that while by the necessities of thought the Relative
-implies a Non-relative; and while, to think of this antithesis
-completely, requires that the Non-relative shall be made a conception
-proper; yet, for the vague thought which is alone in this case
-possible, it suffices that the Non-relative shall be present as a
-consciousness which though undefined is positive. Let us observe what
-necessarily happens when thought is employed on this ultimate question.
-
-In a preceding part of the argument criticized, I have, in various
-ways, aimed to show that, alike when we analyze the product of
-thought and when we analyze the process of thought, we are brought
-to the conclusion that invariably “a thought involves _relation_,
-_difference_, _likeness_;” and that even from the very nature of Life
-itself, we may evolve the conclusion that “thinking being relationing,
-no thought can ever express more than relations.” What, now, must
-happen if thought, having this law, occupies itself with the final
-mystery? Always implying terms in relation, thought implies that
-both terms shall be more or less defined; and as fast as one of them
-becomes indefinite, the relation also becomes indefinite, and thought
-becomes indistinct. Take the {253} case of magnitudes. I think of an
-inch; I think of a foot; and having tolerably-definite ideas of the
-two, I have a tolerably-definite idea of the relation between them.
-I substitute for the foot a mile; and being able to represent a mile
-much less definitely, I cannot so definitely think of the relation
-between an inch and a mile—cannot distinguish it in thought from the
-relation between an inch and two miles, as clearly as I can distinguish
-in thought the relation between an inch and one foot from the relation
-between an inch and two feet. And now if I endeavour to think of the
-relation between an inch and the 240,000 miles from here to the Moon,
-or the relation between an inch and the 93,000,000 miles from here to
-the Sun, I find that while these distances, practically inconceivable,
-have become little more than numbers to which I frame no answering
-ideas, so, too, has the relation between an inch and either of them
-become practically inconceivable. Evidently then this partial failure
-in the process of forming thought-relations, which happens even with
-finite magnitudes when one of them is immense, passes into complete
-failure when one of them cannot be brought within any limits. The
-relation itself becomes unrepresentable at the same time that one of
-its terms becomes unrepresentable. Nevertheless, in this case it is to
-be observed that the almost-blank form of relation preserves a certain
-qualitative character. It is still distinguishable as belonging to the
-consciousness of extensions, not to the consciousnesses of forces or
-durations; and in so far remains a vaguely-identifiable relation. But
-now suppose we ask what happens when one term of the relation has not
-simply magnitude having no known limits, and duration of which neither
-beginning nor end is cognizable, but is also an existence not to be
-defined? In other words, what must happen if one term of the relation
-is not only quantitatively but also qualitatively unrepresentable?
-Clearly in this case the {254} relation does not simply cease to
-be thinkable except as a relation of a certain class, but it lapses
-completely. When one of the terms becomes wholly unknowable, the
-law of thought can no longer be conformed to; both because one term
-cannot be present, and because relation itself cannot be framed. That
-is to say, the law of thought that contradictories can be known only
-in relation to each other, no longer holds when thought attempts to
-transcend the Relative; and yet, when it attempts to transcend the
-Relative, it must make the attempt in conformity with its law—must
-in some dim mode of consciousness posit a Non-relative, and, in some
-similarly dim mode of consciousness, a relation between it and the
-Relative. In brief then, to Mr. Martineau’s objection I reply, that
-the insoluble difficulties he indicates arise here, as elsewhere, when
-thought is applied to that which transcends the sphere of thought;
-and that just as when we try to pass beyond phenomenal manifestations
-to the Ultimate Reality manifested, we have to symbolize it out of
-such materials as the phenomenal manifestations give us; so we have
-simultaneously to symbolize the connexion between this Ultimate Reality
-and its manifestations, as somehow allied to the connexions among
-the phenomenal manifestations themselves. The truth Mr. Martineau’s
-criticism adumbrates, is that the law of thought fails where the
-elements of thought fail; and this is a conclusion quite conformable
-to the general view I defend. Still holding the validity of my
-argument against Hamilton and Mansel, that in pursuance of their own
-principle the Relative is not at all thinkable _as such_, unless in
-contradistinction to some existence posited, however vaguely, as
-the other term of a relation, conceived however indefinitely; it
-is consistent on my part to hold that in this effort which thought
-inevitably makes to pass beyond its sphere, not only does the product
-of thought become a dim symbol of a product, but the process of thought
-becomes a dim {255} symbol of a process; and hence any predicament
-inferable from the law of thought cannot be asserted.
-
-I may fitly close this reply by a counter-criticism. To the direct
-defence of a proposition, may be added the indirect defence which
-results from showing the untenability of an alternative proposition.
-This criticism on the doctrine of an Unknowable Existence manifested
-to us in phenomena, Mr. Martineau makes in the interests of the
-doctrine held by him, that this existence is, to a considerable
-degree, knowable. We are quite at one in holding that there is an
-indestructible consciousness of Power behind Appearance; but whereas
-I contend that this Power cannot be brought within the forms of
-thought, Mr. Martineau contends that there can be consistently ascribed
-certain attributes of personality—not, indeed, human characteristics
-so concrete as were ascribed in past times; but still, human
-characteristics of the more abstract and higher class. His general
-doctrine is this:—Regarding Matter as independently existing; regarding
-as also independently existing, those primary qualities of Body “which
-are inseparable from the very idea of Body, and may be evolved _a
-priori_ from the consideration of it as solid extension or extended
-solidity;” and saying that to this class “belong Triple Dimension,
-Divisibility, Incompressibility;” he goes on to assert that as these―
-
-  “cannot absent themselves from Body, they have a reality coeval with
- it, and belong eternally to the material datum objective to God: and
- his mode of activity with regard to them must be similar to that which
- alone we can think of his directing upon the relations of Space, viz.
- not Volitional, to cause them, but Intellectual, to think them out.
- The Secondary Qualities, on the other hand, having no logical tie to
- the Primary, but being appended to them as contingent facts, cannot
- be referred to any deductive thought, but remain over as products of
- pure Inventive Reason and Determining Will. This sphere of cognition,
- _a posteriori_ to us,—where we cannot move a step alone but have
- submissively to wait upon experience, is precisely the realm of Divine
- originality: and we are most sequacious where He is most free. While
- on this Secondary field His Mind and ours are thus contrasted, they
- meet in resemblance again upon the Primary: for the evolutions of
- deductive Reason there is but one track possible to all intelligences;
- no {256} _merum arbitrium_ can interchange the false and true, or make
- more than one geometry, one scheme of pure Physics, for all worlds:
- and the Omnipotent Architect Himself, in realizing the Kosmical
- conception, in shaping the orbits out of immensity and determining
- seasons out of eternity, could but follow the laws of curvature,
- measure, and proportion.”—_Essays, Philosophical and Theological_, pp.
- 163–4.
-
-Before the major criticism which I propose to make on this hypothesis,
-let me make a minor one. Not only of space-relations, but also of
-primary physical properties, Mr. Martineau asserts the necessity: not
-a necessity to our minds simply, but an ontological necessity. What
-is true for human thought, is, in respect of these, true absolutely:
-“the laws of curvature, measure, and proportion,” as we know them, are
-unchangeable even by Divine power; as are also the Divisibility and
-Incompressibility of Matter. But if, in these cases, Mr. Martineau
-holds that a necessity in thought implies an answering necessity in
-things, why does he refrain from saying the like in other cases?
-Why, if he tacitly asserts it in respect of space-relations and the
-statical attributes of Body, does he not also assert it in respect of
-the dynamical attributes of Body? The laws conformed to by that mode
-of force now distinguished as “energy,” are as much necessary to our
-thought as are the laws of space-relations. The axioms of Mechanics
-lie on the same plane with the axioms of pure Mathematics. Now if
-Mr. Martineau admits this—if he admits, as he must, the corollary
-that there can be no such manifestation of energy as that displayed
-in the motion of a planet, save at the expense of equivalent energy
-which pre-existed—if he draws the further necessary corollary that
-the direction of a motion cannot be changed by any action, without an
-equal reaction in an opposite direction on something acting—if he bears
-in mind that this holds not only of all visible motions, celestial
-and terrestrial, but that those activities of Body which affect us as
-secondary properties, are also known only through other forms of {257}
-energy, which are equivalents of mechanical energy and conform to
-these same laws—and if, lastly, he infers that none of these derivative
-energies can have given to them their characters and directions,
-save by pre-existing forces, statical and dynamical, conditioned in
-special ways; what becomes of that “realm of Divine originality” which
-Mr. Martineau describes as remaining within the realm of necessity?
-Consistently carried out, his argument implies a universally-inevitable
-order, in which volition can have no such place as that he alleges.
-
-Not pushing Mr. Martineau’s reasoning to this conclusion, so entirely
-at variance with the one he draws, but accepting his statement just
-as it stands, let us consider the solution it offers us. We are left
-by it without any explanation of Space and Time; we are not helped
-in conceiving the origin of Matter; and there is afforded us no
-idea how Matter came to have its primary attributes. All these are
-tacitly assumed to exist uncreated. Creative activity is represented
-as under the restrictions imposed by mathematical necessities, and
-as having for _datum_ (mark the word) a substance which, in respect
-of certain characters, defies modification. But surely this is not
-an interpretation of the mystery of things. The mystery is simply
-relegated to a remoter region, respecting which no inquiry is to be
-made. But the inquiry _must_ be made. After every such solution there
-arises afresh the question—what is the origin and nature of that which
-imposes these limits on creative power? what is the primary God which
-dominates over this secondary God? For, clearly, if the “Omnipotent
-Architect himself” (to use Mr. Martineau’s somewhat inconsistent name)
-is powerless to change the “material datum objective” to him, and
-powerless to change the conditions under which it exists, and under
-which he works, there is obviously implied a power to which he is
-subject. So that in Mr. Martineau’s doctrine also, there is an Ultimate
-{258} Unknowable; and it differs from the doctrine he opposes, only by
-intercalating a partially Knowable between this and the wholly Knowable.
-
-Finding, as explained above, that this interpretation is not consistent
-with itself; and finding, as just shown, that it leaves the essential
-mystery unsolved; I do not see that it has an advantage over the
-doctrine of the Unknowable in its unqualified shape. There cannot,
-I think, be more than temporary rest in a proximate solution which
-takes for its basis the ultimately insoluble. Just as thought cannot
-be prevented from passing beyond Appearance, and trying to conceive
-the Cause behind; so, following out the interpretation Mr. Martineau
-offers, thought cannot be prevented from asking what Cause it is
-which restricts the Cause he assigns. And if we must admit that the
-question under this eventual form cannot be answered, may we not as
-well confess that the question under its immediate form cannot be
-answered? Is it not better candidly to acknowledge the incompetence of
-our intelligence, rather than to persist in calling that an explanation
-which does but disguise the inexplicable? Whatever answer each may
-give to this question, he cannot rightly blame those who, finding in
-themselves an indestructible consciousness of an ultimate Cause, whence
-proceed alike what we call the Material Universe and what we call Mind,
-refrain from affirming anything respecting it; because they find it as
-inscrutable in nature as it is inconceivable in extent and duration.
-
-
-POSTSCRIPT.—With the concluding paragraph of the foregoing article, I
-had hoped to end, for a long time, all controversial writing; and, if
-the article had been published entire in the November number of the
-_Fortnightly_, as originally intended, the need for any addition would
-not have been pressing. But while it was in the printer’s {259} hands,
-two criticisms, more elaborate than those dealt with above, made their
-appearance; and now that the postponed publication of this latter half
-of the article affords the opportunity, I cannot, without risking
-misinterpretations, leave these criticisms unnoticed.
-
-Especially do I feel called upon by courtesy to make some response
-to one who, in the _Quarterly Review_ for October, 1873, has dealt
-with me in a spirit which, though largely antagonistic, is not wholly
-unsympathetic; and who manifestly aims to estimate justly the views he
-opposes. In the space at my disposal, I cannot of course follow him
-through all the objections he has urged. I must content myself with
-brief comments on the two propositions he undertakes to establish. His
-enunciation of these runs thus:―
-
- “We would especially direct attention to two points, to both of which
- we are confident objections may be made; and although Mr. Spencer has
- himself doubtless considered such objections (and they may well have
- struck many of his readers also), we nevertheless do not observe that
- he has anywhere noticed or provided for them.
-
- “The two points we so select are:―
-
- “(1) _That his system involves the denial of all truth._
-
- “(2) _That it is radically and necessarily opposed to all sound
- principles of morals._”
-
-On this passage, ending in these two startling assertions, let me
-first remark that I am wholly without this consciousness the reviewer
-ascribes to me. Remembering that I have expended some little labour in
-developing what I conceive to be a system of truths, I am surprised
-by the supposition that “the denial of all truth” is an implication
-which I am “doubtless” aware may be alleged against this system.
-Remembering, too, that by its programme this system is shown to close
-with two volumes on _The Principles of Morality_, the statement that it
-is “necessarily opposed to all sound principles of morals,” naturally
-astonishes me; and still more the statement that I am doubtless
-conscious it may be so regarded. Saying thus much by way of repudiating
-that latent scepticism {260} attributed to me by the reviewer, I
-proceed to consider what he says in proof of these propositions.
-
-On those seeming incongruities of Transfigured Realism commented on
-by him, I need say no more than I have already said in reply to Mr.
-Sidgwick; by whom also they have been alleged. I will limit myself
-to the corollary he draws from the doctrine of the Relativity of
-Knowledge, as held by me. Rightly pointing out that I hold this in
-common with “Messrs. Mill, Lewes, Bain, and Huxley;” but not adding, as
-he should have done, that I hold it in common with Hamilton, Mansel,
-and the long list of predecessors through whom Hamilton traced it;
-the reviewer proceeds to infer from this doctrine of relativity that
-no absolute truth of any kind can be asserted—not even the absolute
-truth of the doctrine of relativity itself. And then he leaves it to be
-supposed by his readers, that this inference tells especially against
-the system he is criticizing. If, however, the reviewer’s inference is
-valid, this “denial of all truth” must be charged against the doctrines
-of thinkers called orthodox, as well as against the doctrines of those
-many philosophers, from Aristotle down to Kant, who have said the same
-thing. But now I go further, and reply that against that form of the
-doctrine of relativity held by me, this allegation cannot be made with
-the same effect as it can against preceding forms of the doctrine. For
-I diverge from other relativists in asserting that the existence of a
-non-relative is not only a positive deliverance of consciousness, but a
-deliverance transcending in certainty all others whatever; and is one
-without which the doctrine of relativity cannot be framed in thought. I
-have urged that “unless a real Non-relative or Absolute be postulated,
-the Relative itself becomes absolute; and so brings the argument to a
-contradiction;”[28] and elsewhere I have described this consciousness
-of a Non-relative manifested to us through the Relative as {261}
-“deeper than demonstration—deeper even than definite cognition—deep
-as the very nature of mind;”[29] which seems to me to be saying as
-emphatically as possible that, while all other truths may be held as
-relative, this truth must be held as absolute. Yet, strangely enough,
-though contending thus against the pure relativists, and holding
-with the reviewer, that “every asserter of such a [purely-relative]
-philosophy must be in the position of a man who saws across the branch
-of a tree on which he actually sits, at a point between himself
-and the trunk,”[30] I am singled out by him as though this were my
-own predicament! So far, then, from admitting that the view I hold
-“involves the denial of all truth,” I assert that, having at the outset
-posited the co-existence of subject and object as a deliverance of
-consciousness which precedes all reasoning;[31] having subsequently
-shown, analytically, that this postulate is in every way verified,[32]
-and that in its absence the proof of relativity is impossible; my view
-is distinguished by an exactly-opposite trait.
-
-The justification of his second proposition the reviewer commences by
-saying that—“In the first place the process of Evolution, as understood
-by Mr. Spencer, compels him to be at one with Mr. Darwin in his denial
-of the existence of any fundamental and essential distinction between
-Duty and Pleasure.” Following this by a statement respecting the
-genesis of moral sentiments as understood by me (which is extremely
-unlike the one I have given in the _Principles of Psychology_, § 215,
-§§ 503–512, and §§ 524–532), the reviewer goes on to say that “We yield
-with much reluctance to the necessity of affirming that Mr. Spencer
-gives no evidence of ever having acquired a knowledge of the meaning of
-the term ‘morality,’ according to the true sense of the word.”
-
-Just noting that, as shown by the context, the assertion {262} thus
-made is made against all those who hold the Doctrine of Evolution in
-its unqualified form, I reply that in so far as it concerns me, it
-is one the reviewer would scarcely have made had he more carefully
-examined the evidence: not limiting himself to those works of mine
-named at the head of his article. And I cannot but think that had the
-spirit of fairness which he evidently strives to maintain, been fully
-awake when these passages were written, he would have seen that, before
-making so serious an allegation, wider inquiry was needful. If he had
-simply said that, given the doctrine of mental evolution as held by me,
-he failed to see how moral principles are to be established, I should
-not have objected; provided he had also said that I believe they can be
-established, and had pointed out what I hold to be their bases. As it
-is, however, he has so presented his own inference from my premises,
-as to make it seem an inference which I also must draw from my
-premises. Quite a different and much more secure foundation for moral
-principles is alleged by me, than that afforded by moral sentiments and
-conceptions; which he refers to as though they formed the sole basis of
-the ethical conclusions I hold. While the reviewer contends that “Mr.
-Spencer’s moral system is even yet more profoundly defective, as it
-denies any objective distinction between right and wrong in any being,
-whether men are or are not responsible for their actions;” I contend,
-contrariwise, that it is distinguished from other moral systems by
-asserting the objectivity of the distinction, and by endeavouring to
-show that the subjective distinction is derived from the objective
-distinction. In my first work, _Social Statics_, published twenty-three
-years ago, the essential thesis is that, apart from their warrant as
-alleged Divine injunctions, and apart from their authority as moral
-intuitions, the principles of justice are primarily deducible from the
-laws of life as carried on under social conditions. I argued throughout
-that these principles so derived have {263} a supreme authority, to
-which considerations of immediate expediency must yield; and I was for
-this reason classed by Mr. Mill as an anti-utilitarian. More recently,
-in a letter drawn from me by this misapprehension of Mr. Mill, and
-afterwards published by Professor Bain in his _Mental and Moral
-Science_, I have re-stated this position. Already, in an explanatory
-article entitled _Morals and Moral Sentiments_, published in the
-_Fortnightly Review_ for April, 1871, I have quoted passages from that
-letter; and here, considering the gravity of the assertions made by the
-_Quarterly_ reviewer, I hope to be excused for re-quoting them:―
-
- “Morality, properly so called—the science of right conduct—has for
- its object to determine _how_ and _why_ certain modes of conduct are
- detrimental, and certain other modes beneficial. These good and bad
- results cannot be accidental, but must be necessary consequences of
- the constitution of things; and I conceive it to be the business of
- Moral Science to deduce from the laws of life and the conditions
- of existence, what kinds of action necessarily tend to produce
- happiness, and what kinds to produce unhappiness. Having done this,
- its deductions are to be recognized as laws of conduct; and are to
- be conformed to irrespective of a direct estimation of happiness or
- misery.”
-
-       *       *       *       *       *
-
- “If it is true that pure rectitude prescribes a system of things
- far too good for men as they are, it is not less true that mere
- expediency does not of itself tend to establish a system of things
- any better than that which exists. While absolute morality owes to
- expediency the checks which prevent it from rushing into Utopian
- absurdities, expediency is indebted to absolute morality for all
- stimulus to improvement. Granted that we are chiefly interested in
- ascertaining what is _relatively right_, it still follows that we must
- first consider what is _absolutely right_; since the one conception
- presupposes the other.”
-
-And the comment I then made on these passages I may make now, that
-“I do not see how there could well be a more emphatic assertion that
-there exists a primary basis of morals independent of, and in a sense
-antecedent to, that which is furnished by experiences of utility; and
-consequently independent of, and in a sense antecedent to, those moral
-sentiments which I conceive to be generated by such experiences.” I
-will only add that, had my beliefs been directly opposite to those I
-have enunciated, {264} the reviewer might, I think, have found good
-reasons for his assertion. If, instead of demurring to the doctrine
-“that greatest happiness should be the _immediate_ aim of man,”[33] I
-had endorsed that doctrine—if, instead of explaining and justifying “a
-belief in the special sacredness of these highest principles, and a
-sense of the supreme authority of the altruistic sentiments answering
-to them,”[34] I had denied the sacredness and the supreme authority—if,
-instead of saying of the wise man that “the highest truth he sees he
-will fearlessly utter; knowing that, let what may come of it, he is
-thus playing his right part in the world,”[35] I had said that the wise
-man will _not_ do this; the reviewer might with truth have described me
-as not understanding “the term ‘morality’ according to the true sense
-of the word.” And he might then have inferred that the Doctrine of
-Evolution as I hold it, implies denial of the “distinction between Duty
-and Pleasure.” But as it is, I think the evidence will not generally be
-held to warrant his assertion.
-
-I quite agree with the reviewer that the prevalence of a philosophy
-“is no mere question of speculative interest, but is one of the
-highest practical importance.” I join him, too, in the belief that
-“calamitous social and political changes” may be the outcome of a
-mistaken philosophy. Moreover, writing as he does under the conviction
-that there can be no standard of right and wrong save one derived from
-a Revelation interpreted by an Infallible Authority, I can conceive
-the alarm with which he regards so radically opposed a system. Though
-I could have wished that the sense of justice he generally displays
-had prevented him from ignoring the evidence I have above given, I can
-understand how, from his point of view, the Doctrine of Evolution,
-as I understand it, “seems absolutely fatal {265} to every germ of
-morality,” and “entirely negatives every form of religion.” But I am
-unable to understand that modified Doctrine of Evolution which the
-reviewer hints at as an alternative. For, little as the reader would
-anticipate it after these expressions of profound dissent, the reviewer
-displays such an amount of agreement as to suggest that the system he
-is criticizing might be converted, “rapidly and without violence, into
-an ‘allotropic state,’ in which its conspicuous characters would be
-startlingly diverse from those that it exhibits at present.” May I,
-using a different figure, suggest a different transformation, having a
-subjective instead of an objective character? As in a stereoscope, the
-two views representing diverse aspects, often yield at first a jumble
-of conflicting impressions, but, after a time, suddenly combine into a
-single whole which stands out quite clearly; so, may it not be that the
-seemingly-inconsistent Idealism and Realism dwelt on by the reviewer,
-as well as the other seemingly-fundamental incongruities he is struck
-by, will, under more persistent contemplation, unite as complementary
-sides of the same thing?
-
-       *       *       *       *       *
-
-My excuse for devoting some space to a criticism of so entirely
-different a kind as that contained in the _British Quarterly Review_
-for October, 1873, must be that, under the circumstances, I cannot let
-it pass unnoticed without seeming to admit its validity.
-
-Saying that my books should be dealt with by specialists, and tacitly
-announcing himself as an expert in Physics, the reviewer takes me to
-task both for errors in the statement of physical principles and for
-erroneous reasoning in physics. That he discovers no mistakes I do not
-say. It would be marvellous if in such a multitude of propositions,
-averaging a dozen per page, I had made all criticism-proof. Some
-are inadvertencies which I should have been obliged to the reviewer
-for pointing out as such, but which he prefers to {266} instance
-as proving my ignorance. In other cases, taking advantage of an
-imperfection of statement, he proceeds to instruct me about matters
-which either the context, or passages in the same volume, show to be
-quite familiar to me. Here is a sample of his criticisms belonging to
-this class:―
-
- “Nor should we counsel a man to venture upon physical speculations
- who converts the proposition ‘_heat is insensible motion_’ into
- ‘_insensible motion is heat_,’ and hence concludes that when a force
- is applied to a mass so large that no motion is seen to result from
- it, or when, as in the case of sound, motion gets so dispersed that it
- becomes insensible, it turns to heat.”
-
-Respecting the first of the two statements contained in this sentence,
-I will observe that the reader, if not misled by the quotation-marks
-into the supposition that I have made, in so many words, the assertion
-that “insensible motion is heat,” will at any rate infer that this
-assertion is distinctly involved in the passage named. And he will
-infer that the reviewer would never have charged me with such an absurd
-belief, if there was before him evidence proving that I have no such
-belief. What will the reader say, then, when he learns, not simply that
-there is no such statement, and not simply that on the page referred
-to, which I have ascertained to be the one intended, there is no such
-implication visible, even to an expert (and I have put the question to
-one); but when he further learns that in other passages, the fact that
-heat is one only of the modes of insensible motion is distinctly stated
-(see _First Prin_. §§ 66, 68, 171); and when he learns that elsewhere I
-have specified the several forms of insensible motion? If the reviewer,
-who looks so diligently for flaws as to search an essay in a volume he
-is not reviewing to find one term of an incongruity, had sought with
-equal diligence to learn what I thought about insensible motion, he
-would have found in the _Classification of the Sciences_, Table II.,
-that insensible motion is described by me as having the forms of Heat,
-Light, Electricity, Magnetism. Even had there been in {267} the place
-he names, an unquestionable implication of the belief which he ascribes
-to me, fairness might have led him to regard it as an oversight when
-he found it at variance with statements I have elsewhere made. What
-then is to be thought of him when, in the place named, no such belief
-is manifest; either to an ordinary reader or to a specially-instructed
-reader?
-
-No less significant is the state of mind betrayed in the second clause
-of the reviewer’s sentence. By representing me as saying that when
-the motion constituting sound “gets so dispersed that it becomes
-insensible, it turns to heat,” does he intend to represent me as
-thinking that when sound-undulations become too weak to be audible,
-they become heat-undulations? If so, I reply that the passage he refers
-to has no such meaning. Does he then allege that some part of the force
-diffused in sound-waves is expended in generating electricity, by
-the friction of heterogeneous substances (which, however, eventually
-lapses from this special form of molecular motion in that general
-form constituting heat); and that I ought to have thus qualified my
-statement? If so, he would have had me commit a piece of scientific
-pedantry hindering the argument. If he does not mean either of these
-things, what does he mean? Does he contest the truth of the hypothesis
-which enabled Laplace to correct Newton’s estimate of the velocity
-of sound—the hypothesis that heat is evolved by the compression each
-sound-wave produces in the air? Does he deny that the heat so generated
-is at the expense of so much wave-motion lost? Does he question the
-inference that some of the motion embodied in each wave is from instant
-to instant dissipated, partly in this way and partly in the heat
-evolved by fluid friction? Can he show any reason for doubting that
-when the sound-waves have become too feeble to affect our senses, their
-motion still continues to undergo this transformation and diminution
-until it is all lost? If not, why does he implicitly deny that {268}
-the molar motion constituting sound, eventually disappears in
-producing the molecular motion constituting heat?[36]
-
-I will dwell no longer on the exclusively-personal questions raised
-by the reviewer’s statements; but, leaving the reader to judge of the
-rest of my “stupendous mistakes” by the one I have dealt with, I will
-turn to a question worthy to occupy some space, as having an impersonal
-interest—the question, namely, respecting the nature of the warrant we
-have for asserting ultimate physical truths. The contempt which, as a
-physicist, the reviewer expresses for the metaphysical exploration of
-physical ideas, I will pass over with the remark that every physical
-question, probed to the bottom, opens into a metaphysical one; and that
-I should have thought the controversy now going on among chemists,
-respecting the legitimacy of the atomic hypothesis, might have
-shown him as much. On his erroneous statement that I use the phrase
-“Persistence of Force” as an equivalent for the now-generally-accepted
-phrase “Conservation of Energy,” I will observe only that, had he not
-been in so great a hurry to find inconsistencies, he would have seen
-why, for the purposes of my argument, {269} I intentionally use the
-word Force: Force being the generic word, including both that species
-known as Energy, and that species by which Matter occupies space and
-maintains its integrity—a species which, whatever may be its relation
-to Energy, and however clearly recognized as a necessary _datum_ by
-the theory of Energy, is not otherwise considered in that theory. I
-will confine myself to the proposition, disputed at great length by the
-reviewer, that our cognition of the Persistence of Force is _a priori_.
-He relies much on the authority of Professor Tait, whom he twice quotes
-to the effect that―
-
- “Natural philosophy is an experimental, and not an intuitive science.
- No _à priori_ reasoning can conduct us demonstratively to a single
- physical truth.”
-
-Were I to take a hypercritical attitude, I might dwell on the fact that
-Professor Tait leaves the extent of his proposition somewhat doubtful,
-by speaking of “Natural philosophy” as _one_ science. Were I to follow
-further the reviewer’s example, I might point out that “Natural
-philosophy,” in that Newtonian acceptation adopted by Professor
-Tait, includes Astronomy; and, going on to ask what astronomical
-“experiments” those are which conduct us to astronomical truths, I
-might then “counsel” the reviewer not to depend on the authority of one
-who (to use the reviewer’s polite language) “blunders” by confounding
-experiment and observation. I will not, however, thus infer from
-Professor Tait’s imperfection of statement that he is unaware of the
-difference between the two; and shall rate his authority as of no less
-value than I should, had he been more accurate in his expression.
-Respecting that authority I shall simply remark that, if the question
-had to be settled by the authority of any physicist, the authority of
-Mayer, who is diametrically opposed to Prof. Tait on this point, and
-who has been specially honoured, both by the Royal Society and by the
-French Institute, might well counter-weigh his, if not out-weigh it.
-I am not aware, {270} however, that the question is one in Physics.
-It seems to me a question respecting the nature of proof. And, without
-doubting Professor Tait’s competence in Logic and Psychology, I should
-decline to abide by his judgment on such a question, even were there no
-opposite judgment given by a physicist, certainly of not less eminence.
-
-Authority aside, however, let us discuss the matter on its merits.
-In the _Treatise on Natural Philosophy_, by Profs. Thomson and Tait,
-§ 243 (1st ed.), I read that “as we shall show in our chapter on
-‘Experience,’ physical axioms are axiomatic to those only who have
-sufficient knowledge of the action of physical causes to enable them
-to see at once their necessary truth.” In this I agree entirely.
-It is in Physics, as it is in Mathematics, that before necessary
-truths can be grasped, there must be gained by individual experience,
-such familiarity with the elements of the thoughts to be framed,
-that propositions about those elements may be mentally represented
-with distinctness. Tell a child that things which are equal to
-the same thing are equal to one another, and the child, lacking a
-sufficiently-abstract notion of equality, and lacking, too, the
-needful practice in comparing relations, will fail to grasp the axiom.
-Similarly, a rustic, never having thought much about forces and their
-results, cannot form a definite conception answering to the axiom that
-action and reaction are equal and opposite. In the last case as in
-the first, ideas of the terms and their relations require to be made,
-by practice in thinking, so vivid that the involved truths may be
-mentally seen. But when the individual experiences have been multiplied
-enough to produce distinctness in the representations of the elements
-dealt with; then, in the one case as in the other, those mental forms
-generated by ancestral experiences, cannot be occupied by the elements
-of one of these ultimate truths without perception of its necessity.
-If Professor Tait does not admit this, what {271} does he mean by
-speaking of “physical _axioms_,” and by saying that the cultured are
-enabled “to see _at once_ their _necessary_ truth?”
-
-Again, if there are no physical truths which must be classed as _a
-priori_, I ask why Professor Tait joins Sir W. Thomson in accepting
-as bases for Physics, Newton’s Laws of Motion? Though Newton gives
-illustrations of prolonged motion in bodies that are little resisted,
-he gives no _proof_ that a body in motion will continue moving, if
-uninterfered with, in the same direction at the same velocity; nor,
-on turning to the enunciation of this law quoted in the above-named
-work, do I find that Professor Tait does more than exemplify it by
-facts which can themselves be asserted only by taking the law for
-granted. Does Professor Tait deny that the first law of motion is a
-physical truth? If so, what does he call it? Does he admit it to be
-a physical truth, and, denying that it is _a priori_, assert that it
-is established _a posteriori_—that is, by conscious induction from
-observation and experiment? If so, what is the inductive reasoning
-which can establish it? Let us glance at the several conceivable
-arguments which we must suppose him to rely on.
-
-A body set in motion soon ceases to move if it encounters much
-friction, or much resistance from the bodies struck. If less of its
-energy is expended in moving, or otherwise affecting, other bodies, or
-in overcoming friction, its motion continues longer. And it continues
-longest when, as over smooth ice, it meets with the smallest amount
-of obstruction. May we then, proceeding by the method of concomitant
-variations, infer that were it wholly unobstructed its motion would
-continue undiminished? If so, we assume that the diminution of its
-motion observed in experience, is proportionate to the amount of
-energy abstracted from it in producing other motion, either molar or
-molecular. We assume that no variation has taken place in its rate,
-save that caused by deductions in moving other matter; for if {272}
-its motion be supposed to have otherwise varied, the conclusion that
-the differences in the distances travelled result from differences
-in the obstructions met with, is vitiated. Thus the truth to be
-established is already taken for granted in the premises. Nor is the
-question begged in this way only. In every case where it is remarked
-that a body stops the sooner, the more it is obstructed by other bodies
-or media, the law of inertia is assumed to hold in the obstructing
-bodies or media. The very conception of greater or less retardation
-so caused, implies the belief that there can be no retardations
-without proportionate retarding causes; which is itself the assumption
-otherwise expressed in the first law of motion.
-
-Again, let us suppose that instead of inexact observations made on the
-movements occurring in daily experience, we make exact experiments on
-movements specially arranged to yield measured results; what is the
-postulate underlying every experiment? Uniform velocity is defined as
-motion through equal spaces in equal times. How do we measure equal
-times? By an instrument which can be inferred to mark equal times
-only if the oscillations of the pendulum are isochronous; which they
-can be proved to be only if the first and second laws of motion are
-granted. That is to say, the proposed experimental proof of the first
-law, assumes not only the truth of the first law, but of that which
-Professor Tait agrees with Newton in regarding as a second law. Is it
-said that the ultimate time-measure referred to is the motion of the
-Earth round its axis, through equal angles in equal times? Then the
-obvious rejoinder is that the assertion of this, similarly involves an
-assertion of the truth to be proved; since the undiminished rotatory
-movement of the Earth is itself a corollary from the first law of
-motion. Is it alleged that this axial movement of the Earth through
-equal angles in equal times, is ascertainable by reference to the
-stars? I answer that a developed system of Astronomy, leading through
-complex {273} reasonings to the conclusion that the Earth rotates, is,
-in that case, supposed to be needful before there can be established
-a law of motion which this system of Astronomy itself postulates. For
-even should it be said that the Newtonian theory of the Solar System is
-not necessarily pre-supposed, but only the Copernican; still, the proof
-of this assumes that a body at rest (a star being taken as such) will
-continue at rest; which is a part of the first law of motion, regarded
-by Newton as not more self-evident than the remaining part.
-
-Not a little remarkable, indeed, is the oversight made by Professor
-Tait, in asserting that “no _a priori_ reasoning can conduct us
-demonstratively to a single physical truth,” when he has before him
-the fact that the system of physical truths constituting Newton’s
-_Principia_, which he has joined Sir William Thomson in editing, is
-established by _a priori_ reasoning. That there can be no change
-without a cause, or, in the words of Mayer, that “a force cannot become
-nothing, and just as little can a force be produced from nothing,” is
-that ultimate dictum of consciousness on which all physical science
-rests. It is involved alike in the assertion that a body at rest will
-continue at rest, in the assertion that a body in motion must continue
-to move at the same velocity in the same line if no force acts on it,
-and in the assertion that any divergent motion given to it must be
-proportionate to the deflecting force; and it is also involved in the
-axiom that action and reaction are equal and opposite.
-
-The reviewer’s doctrine, in support of which he cites against me the
-authority of Professor Tait, illustrates in Physics that same error
-of the inductive philosophy which, in Metaphysics, I have pointed out
-elsewhere (_Principles of Psychology_, Part VII.). It is a doctrine
-implying that we can go on for ever asking the proof of the proof,
-without finally coming to any deepest cognition which is unproved
-and unprovable. That this is an untenable doctrine, I need {274}
-not say more to show. Nor, indeed, would saying more to show it be
-likely to have any effect, in so far at least as the reviewer is
-concerned; seeing that he thinks I am “ignorant of the very nature of
-the principles” of which I am speaking, and seeing that my notions of
-scientific reasoning “remind” him “of the Ptolemists,” who argued that
-the heavenly bodies must move in circles because the circle is the most
-perfect figure.[37]
-
-Not to try the reader’s patience further, I will end by pointing out
-that, even were the reviewer’s criticisms all valid, they would leave
-unshaken the theory he contends against. Though one of his sentences
-(p. 480) raises the expectation that he is about to assault, and
-greatly to damage, the bases of the system contained in the second part
-of _First Principles_, yet all those propositions which constitute the
-bases, he leaves, not only uninjured, but even untouched,—contenting
-himself with trying to show (with what success we have seen) that the
-fundamental one is an _a posteriori_ truth and not an _a priori_ truth.
-Against the general Doctrine of Evolution, considered as an induction
-from all classes of concrete phenomena, he utters not a word; nor does
-he utter a word to disprove any one of those laws of the redistribution
-of matter and motion, by {275} which the process of Evolution is
-deductively interpreted. Respecting the law of the Instability of
-the Homogeneous, he says no more than to quarrel with one of the
-illustrations. He makes no criticism on the law of the Multiplication
-of Effects. The law of Segregation he does not even mention. Nor does
-he mention the law of Equilibration. Further, he urges nothing against
-the statement that these general laws are severally deducible from the
-ultimate law of the Persistence of Force. Lastly, he does not deny the
-Persistence of Force; but only differs respecting the nature of our
-warrant for asserting it. Beyond pointing out, here a cracked brick and
-there a quoin set askew, he merely makes a futile attempt to show that
-the foundation is not natural rock, but concrete.
-
-From his objections I may, indeed, derive much satisfaction. That a
-competent critic, obviously anxious to do all the mischief he can, and
-not over-scrupulous about the means he uses, has done so little, may be
-taken as evidence that the fabric of conclusions attacked will not be
-readily overthrown.
-
-       *       *       *       *       *
-
-In the _British Quarterly Review_ for January, 1874, the writer of the
-article I have dealt with above, makes a rejoinder. It is of the kind
-which might have been anticipated. There are men to whom the discovery
-that they have done injustice is painful. After proof of having wrongly
-ascribed to another such a nonsensical belief as that insensible
-motion is heat because heat is insensible motion, some would express
-regret. Not so my reviewer. Having by forced interpretations debited
-me with an absurdity, he makes no apology; but, with an air implying
-that he had all along done this, he attacks the allegation I had
-really made—an allegation which is at least so far from an absurdity,
-that he describes it only as not justified by “the present state
-of science.” And here, having incidentally referred to this point,
-I may as well, before {276} proceeding, deal with his substituted
-charge at the same time that I further exemplify his method. Probably
-most of those who see the _British Quarterly_, will be favourably
-impressed by the confidence of his assertion; but those who compare
-my statement with his travesty of it, and who compare both with some
-authoritative exposition, will be otherwise impressed. To his statement
-that I conclude “that friction must ultimately transform _all_ [the
-italics are his] the energy of a sound into heat,” I reply that it is
-glaringly untrue: I have named friction as a second cause only. And
-when he pooh-poohs the effect of compression because it is “merely
-momentary,” is he aware of the meaning of his words? Will he deny that,
-from first to last, during the interval of condensation, heat is being
-generated? Will he deny to the air the power of radiating such heat? He
-will not venture to do so. Take then the interval of condensation as
-one-thousandth of a second. I ask him to inform those whom he professes
-to instruct, what is the probable number of heat-waves which have
-escaped in this interval. Must they not be numbered by thousands of
-millions? In fact, by his “merely momentary,” he actually assumes that
-what is momentary in relation to our time-measures, is momentary in
-relation to the escape of ethereal undulations!
-
-Let me now proceed more systematically, and examine his rejoinder point
-by point. It sets out thus:―
-
- “In the notice of Mr. Spencer’s works that appeared in the last number
- of this _Review_, we had occasion to point out that he held mistaken
- notions of the most fundamental generalizations of dynamics; that he
- had shown an ignorance of the nature of proof in his treatment of the
- Newtonian Law; that he had used phrases such as the Persistence of
- Force in various and inconsistent significations; and more especially
- that he had put forth proofs logically faulty in his endeavour to
- demonstrate certain physical propositions by _à priori_ methods, and
- to show that such proofs must exist. To this article Mr. Spencer has
- replied in the December number of the _Fortnightly Review_. His reply
- leaves every one of the above positions unassailed.”
-
-In my “Replies to Criticisms,” which, as it was, trespassed unduly on
-the pages of the _Fortnightly Review_, I singled {277} out from those
-of his allegations which touched me personally, one that might be
-briefly dealt with as an example; and I stated that, passing over other
-personal questions, as not interesting to the general reader, I should
-devote the small space available to an impersonal one. Notwithstanding
-this, the reviewer, in the foregoing paragraph, enumerates his chief
-positions; asserts that I have not assailed any of them (which is
-untrue); and then leads his readers to the belief that I have not
-assailed them because they are unassailable.
-
-Leaving this misbelief to be dealt with presently, I continue my
-comments on his rejoinder. After referring to the passage I have quoted
-from Prof. Tait’s statement about physical axioms, and after indicating
-the nature of my criticism, the reviewer says:―
-
- “Had Mr. Spencer, however, read the sentence that follows it, we
- doubt whether we should have heard aught of this quotation. It is
- ‘Without further remark we shall give Newton’s Three Laws; it being
- remembered that as the properties of matter might have been such as
- to render a totally different set of laws axiomatic, _these laws must
- be considered as resting on convictions drawn from observation and
- experiment and not on intuitive perception_.’ This not only shows that
- the term ‘axiomatic’ is used in the previous sentence in a sense that
- does not exclude an inductive origin, but it leaves us indebted to
- Mr. Spencer for the discovery of the clearest and most authoritative
- expression of disapproval of his views respecting the nature of the
- Laws of Motion.”
-
-Let us analyze this “authoritative expression.” It contains several
-startling implications, the disclosure of which the reader will find
-not uninteresting. Consider, first, what is implied by framing the
-thought that “the properties of matter might have been such as to
-render a totally different set of laws axiomatic.” I will not stop to
-make the inquiry whether matter having properties fundamentally unlike
-its present ones, can be conceived; though such an inquiry, leading
-to the conclusion that no conception of the kind is possible, would
-show that the proposition is merely a verbal one. It will suffice if
-I examine the nature of this proposition that “the properties of
-matter _might have been_” {278} other than they are. Does it express
-an experimentally-ascertained truth? If so, I invite Prof. Tait to
-describe the experiments. Is it an intuition? If so, then along with
-doubt of an intuitive belief concerning things _as they are_, there
-goes confidence in an intuitive belief concerning things _as they are
-not_. Is it an hypothesis? If so, the implication is that a cognition
-of which the negation is inconceivable (for an axiom is such) may be
-discredited by inference from that which is not a cognition at all,
-but simply a supposition. Does the reviewer admit that no conclusion
-can have a validity greater than is possessed by its premises? or
-will he say that the trustworthiness of cognitions increases in
-proportion as they are the more inferential? Be his answer what it
-may, I shall take it as unquestionable that nothing concluded can
-have a warrant higher than that from which it is concluded, though
-it may have a lower. Now the elements of the proposition before us
-are these:—_As_ “the properties of matter might have been such as
-to render a totally different set of laws axiomatic” [_therefore_]
-“these laws [now in force] must be considered as resting . . . not on
-intuitive perception:” that is, the intuitions in which these laws
-are recognized, must not be held authoritative. Here the cognition
-posited as premiss, is that the properties of matter might have been
-other than they are; and the conclusion is that our intuitions relative
-to existing properties are uncertain. Hence, if this conclusion is
-valid, it is valid because the cognition or intuition respecting
-what might have been, is more trustworthy than the cognition or
-intuition respecting what is! Scepticism respecting the deliverances
-of consciousness about things as they are, is based upon faith in a
-deliverance of consciousness about things as they are not!
-
-I go on to remark that this “authoritative expression of disapproval”
-by which I am supposed to be silenced, even were its allegation as
-valid as it is fallacious, would leave {279} wholly untouched the real
-issue. I pointed out how Prof. Tait’s denial that any physical truths
-could be reached _a priori_, was contradicted by his own statement
-respecting physical axioms. The question thus raised the reviewer
-evades, and substitutes another with which I have just dealt. Now I
-bring forward again the evaded question.
-
-In the passage I quoted, Prof. Tait, besides speaking of physical
-“_axioms_,” says of them that due familiarity with physical phenomena
-gives the power of seeing “_at once_” “their _necessary_ truth.” These
-last words, which express his conception of an axiom, express also the
-usual conception. An axiom is defined as a “self-evident truth,” or a
-truth that is seen _at once_; and the definition otherwise worded is—a
-“truth so evident _at first sight_, that no process of reasoning or
-demonstration can make it plainer.” Now I contend that Prof. Tait, by
-thus committing himself to a definition of physical axioms identical
-with that which is given of mathematical axioms, tacitly admits that
-they have the same _a priori_ character; and I further contend that no
-such nature as that which he describes physical axioms to have, can be
-acquired by experiment or observation during the life of an individual.
-Axioms, if defined as truths of which the _necessity_ is at once seen,
-are thereby defined as truths of which the negation is inconceivable;
-and the familiar contrast between them and the truths established by
-individual experiences, is that these last never become such that their
-negations are inconceivable, however multitudinous the experiences may
-be. Thousands of times has the sportsman heard the report that follows
-the flash from his gun, but still he can imagine the flash as occurring
-silently; and countless daily experiments on the burning of coal, leave
-him able to conceive coal as remaining in the fire without ignition.
-So that the “convictions drawn from observation and experiment” during
-a single life, can never acquire that character which Prof. Tait
-admits physical axioms to have: in other words, physical axioms cannot
-be {280} derived from personal observation and experiment. Thus,
-otherwise applying the reviewer’s words, I “doubt whether we should
-have heard aught of this quotation” to which he calls my attention,
-had he studied the matter more closely; and he “leaves us indebted to”
-him “for the discovery of” a passage which serves to make clearer the
-untenability of the doctrine he so dogmatically affirms.
-
-I turn now to what the reviewer says concerning the special arguments
-I used to show that the first law of motion cannot be proved
-experimentally. After a bare enunciation of my positions, he says:―
-
- “On the utterly erroneous character of these statements we do not
- care to dwell, we wish simply to call our reader’s attention to the
- conclusion arrived at. Is that a disproof of the possibility of an
- inductive proof? We thought that every tolerably educated man was
- aware that the proof of a scientific law _consisted in_ showing that
- _by_ assuming its truth, we could explain the observed phenomena.”
-
-Probably the reviewer expects his readers to conclude that he could
-easily dispose of the statements referred to if he tried. Among
-scientific men, however, this cavalier passing over of my arguments
-will perhaps be ascribed to another cause. I will give him my reason
-for saying this. Those arguments, read in proof by one of the most
-eminent physicists, and by a specially-honoured mathematician,
-had their entire concurrence; and I have since had from another
-mathematician, standing among the very first, such qualified agreement
-as is implied in saying that the first law of motion cannot be
-proved by terrestrial observations (which is in large measure what
-I undertook to show in the paragraphs which the reviewer passes
-over so contemptuously). But his last sentence, telling us what he
-thought “every tolerably educated man was aware” of, is the one which
-chiefly demands attention. In it he uses the word _law_—a word which,
-conveniently wide in meaning, suits his purpose remarkably well. But
-we are here speaking of physical _axioms_. The question is whether
-the justification of a physical {281} axiom consists in showing that
-by assuming its truth, we can explain the observed phenomena. If it
-does, then all distinction between hypothesis and axiom disappears.
-Mathematical axioms, for which there is no other definition than
-that which Prof. Tait gives of physical axioms, must stand on the
-same footing. Henceforth we must hold that our warrant for asserting
-that “things which are equal to the same thing are equal to one
-another,” consists in the observed truth of the geometrical and other
-propositions deducible from it and the associated axioms—the _observed_
-truth, mind; for the fabric of deductions yields none of the required
-warrant until these deductions have been tested by measurement. When we
-have described squares on the three sides of a right-angled triangle,
-cut them out in paper, and, by weighing them, have found that the one
-on the hypothenuse balances the other two; then we have got a fact
-which, joined with other facts similarly ascertained, justifies us in
-asserting that things which are equal to the same thing are equal to
-one another! Even as it stands, this implication will not, I think, be
-readily accepted; but we shall find that its unacceptability becomes
-still more conspicuous when the analysis is pursued to the end.
-
-Continuing his argument to show that the laws of motion have no _a
-priori_ warrant, the reviewer says:―
-
- “Mr. Spencer asserts that Newton gave no proof of the Laws of Motion.
- The whole of the _Principia_ was the proof, and the fact that, taken
- as a system, these laws account for the lunar and planetary motions,
- is the warrant on which they chiefly rest to this day.”
-
-I have first to point out that here, as before, the reviewer escapes
-by raising a new issue. I did not ask what he thinks about the
-_Principia_, and the proof of the laws of motion by it; nor did I ask
-whether others at this day, hold the assertion of these laws to be
-justified mainly by the evidence the Solar System affords. I asked what
-Newton thought. The reviewer had represented the belief that the second
-law of motion is knowable _a priori_, as too {282} absurd even for
-me openly to enunciate. I pointed out that since Newton enunciates it
-openly under the title of an axiom, and offers no proof whatever of it,
-he did explicitly what I am blamed for doing implicitly. And thereupon
-I invited the reviewer to say what he thought of Newton. Instead of
-answering, he gives me his opinion to the effect that the laws of
-motion are proved true by the truth of the _Principia_ deduced from
-them. Of this hereafter. My present purpose is to show that Newton did
-not say this, and gave every indication of thinking the contrary. He
-does not call the laws of motion “hypotheses;” he calls them “axioms.”
-He does not say that he assumes them to be true _provisionally_; and
-that the warrant for accepting them as actually true, will be found in
-the astronomically-proved truth of the deductions. He lays them down
-just as mathematical axioms are laid down—posits them as truths to be
-accepted _a priori_, from which follow consequences that must therefore
-be accepted. And though the reviewer thinks this an untenable position,
-I am quite content to range myself with Newton in thinking it a tenable
-one—if, indeed, I may say so without undervaluing the reviewer’s
-judgment. But now, having shown that the reviewer evaded the issue I
-raised, which it was inconvenient for him to meet, I pass to the issue
-he substitutes for it. I will first deal with it after the methods of
-ordinary logic, before dealing with it after the methods of what may be
-called transcendental logic.
-
-To establish the truth of a proposition postulated, by showing that
-the deductions from it are true, requires that the truth of the
-deductions shall be shown in some way that does not directly or
-indirectly assume the truth of the proposition postulated. If, setting
-out with the axioms of Euclid, we deduce the truths that “the angle
-in a semi-circle is a right angle,” and that “the opposite angles of
-any quadrilateral figure described in a circle, are together equal
-to two right angles,” and so forth; and if, because {283} these
-propositions are true, we say that the axioms are true, we are guilty
-of a _petitio principii_. I do not mean simply that if these various
-propositions are taken as true on the strength of the demonstrations
-given, the reasoning is circular, because the demonstrations assume the
-axioms; but I mean more—I mean that any supposed _experimental_ proof
-of these propositions by measurement, itself assumes the axioms to be
-justified. For even when the supposed experimental proof consists in
-showing that some two lines demonstrated by reason to be equal, are
-equal when tested in perception, the axiom that things which are equal
-to the same thing are equal to one another, is taken for granted. The
-equality of the two lines can be ascertained only by carrying from
-the one to the other, some measure (either a moveable marked line
-or the space between the points of compasses), and by assuming that
-the two lines are equal to one another, because they are severally
-equal to this measure. The ultimate truths of mathematics, then,
-cannot be established by any experimental proof that the deductions
-from them are true; since the supposed experimental proof takes them
-for granted. The same thing holds of ultimate physical truths. For
-the alleged _a posteriori_ proof of these truths, has a vice exactly
-analogous to the vice I have just indicated. Every evidence yielded
-by astronomy that the axioms called “the laws of motion” are true,
-resolves itself into a fulfilled prevision that some celestial body or
-bodies, will be seen in a specified place, or in specified places, in
-the heavens, at some assigned time. Now the day, hour, and minute of
-this verifying observation, can be fixed only on the assumption that
-the Earth’s motion in its orbit and its motion round its axis, continue
-undiminished. Mark, then, the parallelism. One who chose to deny that
-things which are equal to the same thing are equal to one another,
-could never have it proved to him by showing the truth of deduced
-propositions; since the testing process would in {284} every case
-assume that which he denied. Similarly, one who refused to admit that
-motion, uninterfered with, continues in the same straight line at the
-same velocity, could not have it proved to him by the fulfilment of an
-astronomical prediction; because he would say that both the spectator’s
-position in space, and the position of the event in time, were those
-alleged, only if the Earth’s motions of translation and rotation
-were undiminished, which was the very thing he called in question.
-Evidently such a sceptic might object that the seeming fulfilment of
-the prediction, say a transit of Venus, may be effected by various
-combinations of the changing positions of Venus, of the Earth, and of
-the spectator on the Earth. The appearances may occur as anticipated,
-though Venus is at some other place than the calculated one; provided
-the Earth also is at some other place, and the spectator’s position on
-the Earth is different. And if the first law of motion is not assumed,
-it must be admitted that the Earth and the spectator _may_ occupy these
-other places at the predicted time: supposing that in the absence of
-the first law, this predicted time can be ascertained, which it cannot.
-Thus the testing process inevitably begs the question.
-
-That the perfect congruity of all astronomical observations with all
-deductions from “the laws of motion,” gives coherence to this group
-of intuitions and perceptions, and so furnishes a warrant for the
-entire aggregate of them which it would not have were any of them at
-variance, is unquestionable. But it does not therefore follow that
-astronomical observations can furnish a test for _each individual
-assumption_, out of the many which are simultaneously made. I will not
-dwell on the fact that the process of verification assumes the validity
-of the assumptions on which acts of reasoning proceed; for the reply
-may be that these are shown to be valid apart from astronomy. Nor will
-I insist that the assumptions underlying mathematical inferences,
-geometrical and {285} numerical, are involved; since it may be said
-that these are justifiable separately by our terrestrial experiences.
-But, passing over all else that is taken for granted, it suffices to
-point out that, in making every astronomical prediction, the three
-laws of motion and the law of gravitation are _all_ assumed; that if
-the first law of motion is to be held proved by the fulfilment of
-the prediction, it can be so only by taking for granted that the two
-other laws of motion and the law of gravitation are true; and that
-non-fulfilment of the prediction would not disprove the first law of
-motion, since the error might be in one or other of the three remaining
-assumptions. Similarly with the second law: the astronomical proof of
-it depends on the truth of the accompanying assumptions. So that the
-warrants for the assumptions A, B, C, and D, are respectively such
-that A, B, and C being taken as trustworthy, prove the validity of D;
-D being thus proved valid, joins C, and B, in giving a character to
-A; and so throughout. The result is that everything comes out right
-if they happen to be all true; but if one of them is false, it may
-destroy the characters of the other three, though these are in reality
-exact. Clearly, then, astronomical prediction and observation can never
-test any one of the premises by itself. They can only justify the
-entire aggregate of premises, mathematical and physical, joined with
-the entire aggregate of reasoning processes leading from premises to
-conclusions.
-
-I now recall the reviewer’s “thought,” uttered in his habitual manner,
-“that every tolerably educated man was aware that the proof of a
-scientific law _consisted in_ showing that _by_ assuming its truth,
-we could explain the observed phenomena.” Having from the point of
-view of ordinary logic dealt with this theory of proof as applied by
-the reviewer, I proceed to deal with it from the point of view of
-transcendental logic, as I have myself applied it. And here I have to
-charge the reviewer with either being ignorant of, or else deliberately
-ignoring, a cardinal {286} doctrine of the System of Philosophy he
-professes to review—a doctrine set forth not in those four volumes of
-it which he seems never to have looked into; but in the one volume of
-it he has partially dealt with. For this principle which, in respect
-to scientific belief, he enunciates for my instruction, is one which,
-in _First Principles_, I have enunciated in respect to all beliefs
-whatever. In the chapter on the “Data of Philosophy,” where I have
-inquired into the legitimacy of our modes of procedure, and where I
-have pointed out that there are certain ultimate conceptions without
-which the intellect can no more stir “than the body can stir without
-help of its limbs,” I have inquired how their validity or invalidity is
-to be shown; and I have gone on to reply that―
-
- “Those of them which are vital, or cannot be severed from the rest
- without mental dissolution, must be assumed as true _provisionally_
- . . . . leaving the assumption of their unquestionableness to be
- justified by the results.
-
- Ҥ 40. How is it to be justified by the results? As any other
- assumption is justified—by ascertaining that all the conclusions
- deducible from it, correspond with the facts as directly observed—by
- showing the agreement between the experiences it leads us to
- anticipate, and the actual experiences. There is no mode of
- establishing the validity of any belief, except that of showing its
- entire congruity with all other beliefs.”
-
-Proceeding avowedly and rigorously on this principle, I have next
-inquired what is the fundamental _process_ of thought by which this
-congruity is to be determined, and what is the fundamental _product_ of
-thought yielded by this process. This fundamental product I have shown
-to be the coexistence of subject and object; and then, describing this
-as a postulate to be justified by “its subsequently-proved congruity
-with every result of experience, direct and indirect,” I have gone on
-to say that “the two divisions of self and not-self, are re-divisible
-into certain most general forms, the reality of which Science, as
-well as Common Sense, from moment to moment assumes.” Nor is this
-all. Having thus assumed, _only provisionally_, this deepest of all
-intuitions, far transcending an axiom in self-evidence, I {287} have,
-after drawing deductions occupying four volumes, deliberately gone
-back to the assumption (_Prin. of Psy.,_ § 386). After quoting the
-passage in which the principle was laid down, and after reminding the
-reader that the deductions drawn had been found congruous with one
-another; I have pointed out that it still remained to ascertain whether
-this primordial assumption was congruous with all the deductions;
-and have thereupon proceeded, throughout eighteen chapters, to show
-the congruity. And yet having before him the volumes in which this
-principle is set forth with a distinctness, and acted upon with a
-deliberation, which I believe are nowhere paralleled, the reviewer
-enunciates for my benefit this principle of which he “thought that
-every tolerably educated man was aware”! He enunciates it as applying
-to limited groups of beliefs, to which it does not apply; and shuts his
-eyes to the fact that I have avowedly and systematically acted upon it
-in respect to the entire aggregate of our beliefs (axioms included) for
-which it furnishes the ultimate justification!
-
-Here I must add another elucidatory statement, which would have been
-needless had the reviewer read that which he criticizes. His argument
-proceeds throughout on the assumption that I understand _a priori_
-truths after the ancient manner, as truths independent of experience;
-and he shows this more tacitly, where he “trusts” that he is “attacking
-one of the last attempts to deduce the laws of nature from our inner
-consciousness.” Manifestly, a leading thesis of one of the works
-he professes to review, is entirely unknown to him—the thesis that
-forms of thought, and consequently the intuitions which those forms
-of thought involve, result entirely from the effects of experiences,
-organized and inherited. With the _Principles of Psychology_ before
-him, not only does he seem unaware that it contains this doctrine, but
-though this doctrine, set forth in its first edition published nearly
-twenty years ago, has gained {288} considerable currency, he seems
-never to have heard of it. The implication of this doctrine is, not
-that the “laws of nature” are deducible from “our inner consciousness,”
-but that our consciousness has a pre-established correspondence
-with such of those laws (simple, perpetually presented, and never
-negatived) as have, in the course of practically-infinite ancestral
-experiences, registered themselves in our nervous structure. Had he
-taken the trouble to acquaint himself with this doctrine, he would
-have learned that the intuitions of axiomatic truths are regarded by
-me as latent in the inherited brain, just as bodily reflex actions are
-latent in the inherited nervous centres of a lower order; that such
-latent intuitions are made potentially more distinct by the greater
-definiteness of structure due to individual action and culture; and
-that thus, axiomatic truths, having a warrant entirely _a posteriori_
-for the race, have for the individual a warrant which, substantially
-_a priori_, is made complete _a posteriori_. And he would then have
-learned that as, during evolution, Thought has been moulded into
-increasing correspondence with Things; and as such correspondence,
-tolerably complete in respect of the simple, ever-present, and
-invariable relations, as those of space, has made considerable advance
-in respect of the primary dynamical relations; the assertion that
-the resulting intuitions are authoritative, is the assertion that
-the simplest uniformities of nature, as experienced throughout an
-immeasurable past, are better known than they are as experienced during
-an individual life. All which conceptions, however, being, as it seems,
-unheard of by the reviewer, he regards my trust in these primordial
-intuitions as like that of the Ptolemists in their fancies about
-perfection!
-
-       *       *       *       *       *
-
-Thus far my chief antagonists, passive if not active, have been Prof.
-Tait and, by implication, Sir William Thomson, {289} his coadjutor
-in the work quoted against me—men of standing, and the last of them
-of world-wide reputation as a mathematician and physicist. Partly
-because the opinions of such men demand attention, I have dealt with
-the questions raised at some length; and partly, also, because the
-origin and consequent warrant of physical axioms are questions of
-general and permanent interest. The reviewer, who by citing against me
-these authorities has gained for some of his criticisms consideration
-they would otherwise not deserve, I must, in respect of his other
-criticisms, deal with very briefly. Because, for reasons sufficiently
-indicated, I did not assail sundry of his statements, he has reiterated
-them as unassailable. I will here add no more than is needful to show
-how groundless is his assumption.
-
-What the reviewer says on the metaphysical aspects of the propositions
-we distinguish as physical, need not detain us long. His account of my
-exposition of “Ultimate Scientific Ideas,” he closes by saying of me
-that “he is not content with less than showing that all our fundamental
-conceptions are inconceivable.” Whether the reviewer knows what he
-means by an inconceivable conception, I cannot tell. It will suffice to
-say that I have attempted no such remarkable feat as that described. My
-attempt has been to show that objective activities, together with their
-objective forms, are inconceivable by us—that such symbolic conceptions
-of them as we frame, and are obliged to use, are proved, by the
-alternative contradictions which a final analysis of them discloses, to
-have no likeness to the realities. But the proposition that objective
-existence cannot be rendered in terms of subjective existence, the
-reviewer thinks adequately expressed by saying that “our fundamental
-conceptions” (subjective products) “are inconceivable” (cannot be
-framed by subjective processes)! Giving this as a sample from which
-may be judged his fitness for discussing these ultimate questions, I
-pass over his physico-metaphysical criticisms, and proceed at once to
-{290} those which his special discipline may be assumed to render more
-worthy of attention.
-
-Quoting a passage relative to the law that “all central forces vary
-inversely as the squares of the distances,” he derides the assertion
-that “this law is not simply an empirical one, but one deducible
-mathematically from the relations of space—one of which the negation
-is inconceivable.” Now whether this statement can or cannot be fully
-justified, it has at any rate none of that absurdity alleged by the
-reviewer. When he puts the question—“Whence does he [do I] get this?”
-he invites the suspicion that his mind is not characterized by much
-excursiveness. It seems never to have occurred to him that, if rays
-like those of light radiate in straight lines from a centre, the number
-of them falling on any given area of a sphere described from that
-centre, will diminish as the square of the distance increases, because
-the surfaces of spheres vary as the squares of their radii. For, if
-this has occurred to him, why does he ask whence I get the inference?
-The inference is so simple a one as naturally to be recognized by those
-whose thoughts go a little beyond their lessons in geometry.[38] If the
-reviewer means to ask, whence I get the implied assumption that central
-forces act only in straight lines, I reply that this assumption has a
-warrant akin to that of Newton’s first axiom, that a moving body will
-continue moving in a straight line unless interfered with. For that the
-force exerted by one centre on another should act in a curved line,
-implies the conception of some second force, complicating the direct
-effect of the first. And, even could a central force be truly conceived
-as acting in lines not straight, the _average_ {291} distribution of
-its effects upon the inner surface of the surrounding sphere, would
-still follow the same law. Thus, whether or not the law be accepted on
-_a priori_ grounds, the assumed absurdity of representing it to have _a
-priori_ grounds, is not very obvious. Respecting this statement of mine
-the reviewer goes on to say―
-
- “This is a wisdom far higher than that possessed by the discoverer
- of the great law of attraction, who was led to consider it from no
- cogitations on the relations of space, but from observations of the
- movements of the planets; and who was so far from rising to that
- clearness of view of the truth of his great discovery, which is
- expressed by the phrase, ‘its negation is inconceivable,’ that he
- actually abandoned it for a time, because (through an error in his
- estimate of the earth’s diameter) it did not seem fully to account for
- the motion of the moon.”
-
-To the first clause in this sentence, I have simply to give a direct
-denial; and to assert that neither Newton’s “observations of the
-movements of the planets” nor other such observations continued by all
-astronomers for all time, would yield “the great law of attraction.”
-Contrariwise, I contend that when the reviewer says, by implication,
-that Newton had no antecedent hypothesis respecting the cause of the
-planetary motions, he (the reviewer) is not only going beyond his
-possible knowledge, but he is asserting that which even a rudimentary
-acquaintance with the process of discovery, might have shown him was
-impossible. Without framing, beforehand, the supposition that there
-was at work an attractive force varying inversely as the square of the
-distance, no such comparison of observations as that which led to the
-establishment of the theory of gravitation could have been made. On the
-second clause of the sentence, in which the reviewer volunteers for my
-benefit the information that Newton “actually abandoned” his hypothesis
-for a while because it did not bring out right results, I have first
-to tell him that, in an early number of the very periodical containing
-his article,[39] I cited this fact {292} (using these same words)
-at a time when he was at school, or before he went there.[40] I have
-next to assert that this fact is irrelevant; and that Newton, while
-probably seeing it to be a necessary implication of geometrical laws
-that central forces vary inversely as the squares of the distances,
-did not see it to be a necessary implication of any laws, geometrical
-or dynamical, that there exists a force by which the celestial bodies
-affect one another; and therefore doubtless saw that there was no _a
-priori_ warrant for the doctrine of gravitation. The reviewer, however,
-aiming to substitute for my “confused notions” his own clear ones,
-wishes me to identify the proposition—Central forces vary inversely
-as the squares of the distances—with the proposition—There exists a
-cosmical attractive force which varies inversely as the squares of
-the distances. But I decline to identify them; and I suspect that a
-considerable distinction between them was recognized by Newton. Lastly,
-apart from all this, I have to point out that even had Newton thought
-the existence of an attractive force throughout space was an _a priori_
-truth, as well as the law of variation of such a force if it existed;
-he would still, naturally enough, pause before asserting gravitation
-and its law, when he found his deductions did not correspond with the
-facts. To suppose otherwise, is to ascribe to him a rashness which no
-disciplined man of science could be guilty of.
-
-See, then, the critical capacity variously exhibited in the space
-of a single sentence. The reviewer, quite erroneously, thinks that
-observations unguided by hypotheses suffice for physical discoveries.
-He seems unaware that, on _a priori_ grounds, the law of the inverse
-square had been suspected as the law of some cosmical force, before
-Newton. He asserts, without warrant, that no such _a priori_ conception
-preceded, in Newton’s mind, his observations and {293} calculations.
-He confounds the law of variation of a force, with the existence of a
-force varying according to that law. And he concludes that Newton could
-have had no _a priori_ conception of the law of variation, because he
-did not assert the existence of a force varying according to this law
-in defiance of the evidence as then presented to him!
-
-Now that I have analyzed, with these results, the first of his
-criticisms, the reader will neither expect me to waste time in
-similarly dealing with the rest _seriatim_, nor will he wish to have
-his own time occupied in following the analysis. To the evidence thus
-furnished of the reviewer’s fitness for the task he undertakes, it will
-suffice if I add an illustration or two of the _animus_ which leads
-him to make grave imputations on trivial grounds, and to ignore the
-evidence which contradicts his interpretations.
-
-Because I have spoken of a balanced system, like that formed by the sun
-and planets, as having the “peculiarity, that though the constituents
-of the system have relative movements, the system, as a whole, has no
-movement,” he unhesitatingly assumes me to be unaware that in a system
-of bodies whose movements are not balanced, it is equally true that the
-centre of gravity remains constant. Ignorance of a general principle in
-dynamics is alleged against me solely because of this colloquial use
-of the word “peculiarity,” where I should have used a word (and there
-is no word perfectly fit) free from the implication of exclusiveness.
-If the reviewer were to assert that arrogance is a “peculiarity” of
-critics; and if I were thereupon to charge him with entire ignorance of
-mankind, many of whom besides critics are arrogant, he would rightly
-say that my conclusion was a very large one to draw from so small a
-premise.
-
-To this example of strained inference I will join an example of what
-seems like deliberate misconstruction. From one of my essays (not among
-the works he professes to deal with) the reviewer, to strengthen his
-attack, brings {294} a strange mistake; which, even without inquiry,
-any fair-minded reader would see must be an oversight. A statement true
-of a single body acted on by a tractive force, I have inadvertently
-pluralized: being so possessed by another aspect of the question, as to
-overlook the obvious fact that with a plurality of bodies the statement
-became untrue. Not only, however, does the reviewer ignore various
-evidences furnished by the works before him, that I could not really
-think what I had there said, but he ignores a direct contradiction
-contained in the paragraph succeeding that from which he quotes. So
-that the case stands thus:—On two adjacent pages I have made two
-opposite statements, both of which I cannot be supposed to believe. One
-of them is right; and this the reviewer assumes I do not believe. One
-of them is glaringly wrong; and this the reviewer assumes I do believe.
-Why he made this choice no one who reads his criticism will fail to see.
-
-Even had his judgments more authority than is given to them by his
-mathematical honours, this brief characterization would, I think,
-suffice. Perhaps already, in rebutting the assumption that I did not
-answer his allegations because they were unanswerable, I have ascribed
-to them an unmerited importance. For the rest, suggesting that their
-value may be measured by the value of that above dealt with as a
-sample, I leave them to be answered by the works they are directed
-against.
-
-Here I end. The foregoing pages, while serving, I think, the more
-important purpose of making clearer the relations of physical axioms
-to physical knowledge, incidentally justify the assertion that the
-reviewer’s charges of fallacious reasoning and ignorance of the
-nature of proof, recoil on himself. When, in his confident way, he
-undertakes to teach me the nature of our warrant for scientific
-beliefs, ignoring absolutely the inquiry contained in _Principles of
-Psychology_, concerning the relative values of direct intuitions and
-reasoned conclusions, he lays himself open to {295} a sarcasm which
-is sufficiently obvious. And when a certain ultimate principle of
-justification for our beliefs, set forth and acted upon in the _System
-of Synthetic Philosophy_ more distinctly than in any other work, is
-enunciated by him for my instruction, as one which he “thought that
-every tolerably educated man was aware” of, his course is one for
-which I find no fit epithet in the vocabulary I permit myself to
-use. That in some cases he has shown eagerness to found charges on
-misinterpretations little less than deliberate, has been sufficiently
-shown; as also that, in other cases, his own failure to discriminate
-is made the ground for ascribing to me beliefs that are manifestly
-untenable. Save in the single case of a statement respecting collisions
-of bodies, made by me without the needful qualification, I am not
-aware of any errors he detects, except errors of oversight or those
-arising from imperfect expression and inadequate exposition. When he
-unhesitatingly puts the worst constructions on these, it cannot be
-because his own exactness is such that no other constructions occur
-to him; for he displays an unusual capacity for inadvertencies, and
-must have had many experiences showing him how much he might be
-wronged by illiberal interpretations of them. One who in twenty-three
-professed extracts makes fifteen mistakes—words omitted, or added,
-or substituted—should not need reminding how largely mere oversight
-may raise suspicion of something worse. One who shows his notions of
-accurate statement by asserting that as I substitute “persistence”
-for “conservation,” I therefore identify Persistence of _Force_
-with Conservation of _Energy_, and debits me with the resulting
-incongruities—one who, in pursuance of this error, confounds a
-special principle with the general principle it is said to imply, and
-thereupon describes a wider principle as being included in a narrower
-(p. 481)—one who speaks of our “inner consciousness” (p. 488), so
-asserting, by implication, that we have an outer consciousness—one
-who {296} talks of an inconceivable conception; ought surely to be
-aware how readily lax expressions may be turned into proofs of absurd
-opinions. And one who, in the space of a few pages, falls into so many
-solecisms, ought to be vividly conscious that a whole volume thus
-written would furnish multitudinous statements from which a critic,
-moved by a spirit like his own, might evolve abundant absurdities;
-supplying ample occasion for blazoning the tops of pages with insulting
-words.
-
-       *       *       *       *       *
-
-[_A letter, drawn from_ Prof. Tait _by the foregoing criticisms, and
-published by him in_ Nature, _initiated a controversy carried on in
-that periodical between March 26th and June 18th, 1874. Partly in
-justification of my position, and partly as tending to make clearer the
-nature and origin of physical axioms, I append certain portions of the
-correspondence, with some additional explanations and comments. For the
-purpose of elucidation I prefix the theses I have maintained._] {297}
-
-
-THESES.
-
-1. _If A produces B, then 2 A will produce 2 B._
-
- This is the blank form of causal relation quantitatively considered,
- when the causes and effects are simple—that is, are unimpeded by other
- causes and uncomplicated by other effects; and whenever two or more
- causes co-operate, there is no possibility of determining the relation
- between the compound cause and the compound effect except by assuming
- that between each co-operating cause and its separate effect there
- exists this same quantitative relation.
-
-2. _This truth holds whatever the natures of the simple causes and
-simple effects; and is an_ a priori _assumption made in conducting every
-experiment and in reasoning from it._
-
- Every process of weighing, every chemical analysis, every physical
- investigation, proceeds on this truth without assigning warrant for
- it; and in allowing for the effect of any minor cause that interferes
- with the major cause, this same truth is assumed.
-
-3. _When A is an impressed force and B the produced motion, then the
-general truth that if A produces B, 2 A will produce 2 B, becomes the
-more special truth called the Second Law of Motion._
-
- Newton’s amplified statement of this Law is:—“If any force generates
- a motion, a double force will generate double the motion, a triple
- force triple the motion, whether that force be impressed altogether
- and at once, or gradually and successively.” And his further clause,
- asserting that this law holds whether the directions of the forces
- are or are not the same, asserts a proportionality between each
- force and its produced motion, such as we have seen to be invariably
- assumed between each cause and its separate effect, when there are
- co-operating causes.
-
-4. _This Law may be affirmed, without specification of the modes in
-which the impressed force and the resulting motion are to be estimated._
-
- Newton’s statement is abstract. Taking for granted right modes of
- measurement, it asserts that the alteration of motion (rightly
- measured) is proportional to the impressed force (rightly measured).
-
-5. _No_ a posteriori _proof of the general ultimate physical truth (or
-of this more special truth it includes) is possible; because every
-supposed process of verification assumes it._
-
-These, cleared from entanglements, are the theses held by me, and
-defended in the following pages. {298}
-
-
-APPENDIX A.
-
-(_From_ Nature, _April 16, 1874._)
-
-Absence from town has delayed what further remarks I have to make
-respecting the disputed origin of physical axioms.
-
-The particular physical axiom in connection with which the general
-question was raised, was the Second Law of Motion. It stands in the
-_Principia_ as follows:―
-
- “_The alteration of motion is ever proportional to the motive force
- impressed; and is made in the direction of the right line in which
- that force is impressed._
-
- “If any force generates a motion, a double force will generate double
- the motion, a triple force triple the motion, whether that force be
- impressed altogether and at once, or gradually and successively. And
- this motion (being always directed the same way with the generating
- force), if the body moved before, is added to or subducted from
- the former motion, according as they directly conspire with or are
- directly contrary to each other; or obliquely joined, when they
- are oblique, so as to produce a new motion compounded from the
- determination of both.”
-
-As this, like each of the other Laws of Motion, is called an axiom;[41]
-as the paragraph appended to it is simply an amplification, or
-re-statement in a more concrete form; as there are no facts named
-as bases of induction, nor any justifying experiment; and as Newton
-proceeds forthwith to draw deductions; it was a legitimate inference
-that he regarded this truth as _a priori_. My statement to this effect
-was based on the contents of the _Principia_ itself; and I think I
-was warranted in assuming that the nature of the Laws of Motion, as
-conceived by Newton, was to be thence inferred.
-
-The passages quoted by the _British Quarterly_ Reviewer from Newton’s
-correspondence, which were unknown to me, show that this was not
-Newton’s conception of them. Thus far, then, my opponent has the best
-of the {299} argument. Several qualifying considerations have to be
-set down, however.
-
-(1) Clearly, the statements contained in the _Principia_ do not convey
-Newton’s conception; otherwise there would have been no need for his
-explanations. The passages quoted prove that he wished to exclude these
-cardinal truths from the class of hypotheses, which he said he did not
-make; and to do this he had to define them.
-
-(2) By calling them “axioms,” and by yet describing them as principles
-“_deduced_ from phenomena,” he makes it manifest that he gives the word
-“axiom” a sense widely unlike the sense in which it is usually accepted.
-
-(3) Further, the quotations fail to warrant the statement that the
-Laws of Motion are proved true by the truth of the _Principia_. For
-if the fulfilment of astronomical predictions made in pursuance of
-the _Principia_, is held to be the evidence “on which they chiefly
-rest to this day,” then, until thus justified, they are unquestionably
-hypotheses. Yet Newton says they are not hypotheses.
-
-Newton’s view may be found without seeking for it in his letters: it
-is contained in the _Principia_ itself. The scholium to Corollary VI.
-begins thus:―
-
- “Hitherto I have laid down such principles as have been received by
- mathematicians, and are _confirmed_ by abundance of experiments. By
- the two first Laws and the two first Corollaries, Galileo discovered
- that the descent of bodies observed the duplicate ratio of the time,
- and that the motion of projectiles was in the curve of a parabola;
- experience _agreeing_ with both,” &c.
-
-Now as this passage precedes the deductions constituting the
-_Principia_, it shows conclusively, in the first place, that Newton did
-not think “the whole of the _Principia_ was the proof” of the Laws of
-Motion, though the Reviewer asserts that it is. Further, by the words I
-have italicised, Newton implicitly describes Galileo as having asserted
-these Laws of Motion, if not as gratuitous hypotheses (which he says
-they are not), then as _a priori_ intuitions. For a proposition which
-is _confirmed_ by {300} experiment, and which is said to _agree_ with
-experience, must have been entertained before the alleged verifications
-could be reached. And as before he made his experiments on falling
-bodies and projectiles, Galileo had no facts serving as an inductive
-basis for the Second Law of Motion, the law could not have been arrived
-at by induction.
-
-Let me end what I have to say on this vexed question by adding
-a further reason to those I have already given, for saying that
-physical axioms cannot be established experimentally. The belief in
-their experimental establishment rests on the tacit assumption that
-experiments can be made, and conclusions drawn from them, without any
-truths being postulated. It is forgotten that there is a foundation
-of pre-conceptions without which the perceptions and inferences of
-the physicist cannot stand—_pre-conceptions which are the products
-of simpler experiences than those yielded by consciously-made
-experiments_. Passing over the many which do not immediately concern
-us, I will name only that which does,—the exact quantitative relation
-[of proportionality] between cause and effect. It is taken by the
-chemist as a truth needing no proof, that if two volumes of hydrogen
-unite with one volume of oxygen to form a certain quantity of water,
-four volumes of hydrogen uniting with two volumes of oxygen will
-form double the quantity of water. If a cubic foot of ice at 32°
-is liquefied by a specified quantity of heat, it is taken to be
-unquestionable that three times the quantity of heat will liquefy three
-cubic feet. And similarly with mechanical forces, the unhesitating
-assumption is that if one unit of force acting in a given direction
-produces a certain result, two units will produce twice the result.
-Every process of measurement in a physical experiment takes this for
-granted; as we see in one of the simplest of them—the process of
-weighing. If a measured quantity of metal, gravitating towards the
-Earth, counterbalances a quantity of some other substance, the truth
-postulated in every act {301} of weighing is, that any multiple of
-such weight will counterbalance an equi-multiple of such substance.
-That is to say, each unit of force is assumed to work its equivalent
-of effect in the direction in which it acts. Now this is nothing else
-than the assumption which the Second Law of Motion expresses in respect
-to effects of another kind. “If any force generates a motion, a double
-force will generate a double motion,” &c., &c.; and when carried on
-to the composition of motions, the law is, similarly, the assertion
-that any other force, acting in any other direction, will similarly
-produce in that direction a proportionate motion. So that the law
-simply asserts the exact equivalence [or proportionality] of causes
-and effects of this particular class, while all physical experiments
-_assume_ this exact equivalence [or proportionality] among causes and
-effects of all classes. Hence, the proposal to prove the Laws of Motion
-experimentally, is the proposal to make a wider assumption for the
-purpose of justifying one of the narrower assumptions included in it.
-
-Reduced to its briefest form, the argument is this:—If definite
-quantitative relations [of proportionality] between causes and effects
-be assumed _a priori_, then, the Second Law of Motion is an immediate
-corollary. If there are not definite quantitative relations [of
-proportionality] between causes and effects, all the conclusions drawn
-from physical experiments are invalid. And further, in the absence of
-this _a priori_ assumption of equivalence, the quantified conclusion
-from any experiment may be denied, and any other quantification of the
-conclusion asserted.[42]
-
- HERBERT SPENCER.
-
-       *       *       *       *       *
-
-Entire misconstruction of the view expressed above, {302} having been
-shown by a new assailant, who announced himself as also “A Senior
-Wrangler,” Mr. James Collier [my secretary at that time] wrote on my
-behalf an explanatory letter, published in _Nature_ for May 21, 1874,
-from which the following passages are extracts:―
-
-“The cue may be taken from an experience described in Mr. Spencer’s
-_Principles of Psychology_ (§ 468, note), where it is shown that
-when with one hand we pull the other, we have in the feeling of
-tension produced in the limb pulled, a measure of the reaction that
-is equivalent to the action of the other limb. Both terms of the
-relation of cause and effect are in this case present to consciousness
-as muscular tensions, which are our symbols of forces in general.
-While no motion is produced they are felt to be equal, so far as the
-sensations can serve to measure equality; and when excess of tension is
-felt in the one arm, motion is experienced in the other. Here, as in
-the examples about to be given, the relation between cause and effect,
-though numerically indefinite, is definite in the respect that every
-additional increment of cause produces an additional increment of
-effect; and it is out of this and similar experiences that the idea of
-the relation of proportionality grows and becomes organic.
-
-“A child, when biting his food, discovers that the harder he bites the
-deeper is the indentation; in other words, that the more force applied,
-the greater the effect. If he tears an object with his teeth, he finds
-that the more he pulls the more the thing yields. Let him press against
-something soft, as his own person, or his clothes, or a lump of clay,
-and he sees that the part or object pressed yields little or much,
-according to the amount of the muscular strain. He can bend a stick
-the more completely the more force he applies. Any elastic object, as
-a piece of india-rubber or a catapult, can be stretched the farther
-the harder he pulls. If he tries to push a small body, there is little
-resistance and it is easy to move; but he finds that a {303} big body
-presents greater resistance and is harder to move. The experience
-is precisely similar if he attempts to lift a big body and a little
-one; or if he raises a limb, with or without any object attached to
-it. He throws a stone: if it is light, little exertion propels it a
-considerable distance; if very heavy, great exertion only a short
-distance. So, also, if he jumps, a slight effort raises him to a short
-height, a greater effort to a greater height. By blowing with his mouth
-he sees that he can move small objects, or the surface of his morning’s
-milk, gently or violently according as the blast is weak or strong. And
-it is the same with sounds: with a slight strain on the vocal organs he
-produces a murmur; with great strain he can raise a shout.
-
-“The experiences these propositions record all implicate the same
-consciousness—the notion of proportionality between force applied and
-result produced; and it is out of this latent consciousness that the
-axiom of the perfect quantitative equivalence of the relations between
-cause and effect is evolved. To show how rigorous, how irreversible,
-this consciousness becomes, take a boy and suggest to him the following
-statements:—Can he not break a string he has, by pulling? tell him
-to double it, and then he will break it. He cannot bend or break a
-particular stick: let him make less effort and he will succeed. He is
-unable to raise a heavy weight: tell him he errs by using too much
-force. He can’t push over a small chest: he will find it easier to
-upset a larger one. By blowing hard he cannot move a given object: if
-he blows lightly, he will move it. By great exertion he cannot make
-himself audible at a distance: but he will make himself heard with
-less exertion at a greater distance. Tell him to do all or any of
-these, and of course he fails. The propositions are unthinkable, and
-their unthinkableness shows that the consciousness which yields them
-is irreversible. These, then, are preconceptions, properly so called,
-which have {304} grown unconsciously out of the earliest experiences,
-beginning with those of the sucking infant, which are perpetually
-confirmed by fresh experiences, and which have at last become organized
-in the mental structure.
-
-       *       *       *       *       *
-
-“Mr. Spencer’s argument appears to be briefly this:—1. There are
-numberless experiences unconsciously acquired and unconsciously
-accumulated during the early life of the individual (in harmony
-with the acquisitions of all ancestral individuals) which yield the
-preconception, long anteceding anything like conscious physical
-experiments, that physical causes and effects vary together
-quantitatively. This is gained from all orders of physical experiences,
-and forms a universal preconception respecting them, which the
-physicist or other man of Science brings with him to his experiments.
-
-“2. Mr. Spencer showed in three cases—chemical, physical, and
-mechanical—that this preconception, so brought, was tacitly involved
-in the conception which the experimenter drew from the results of his
-experiments.
-
-“3. Having indicated this universal preconception, and illustrated
-its presence in these special conceptions, Mr. Spencer goes on to say
-that it is involved also in the special conception of the relation
-between force and motion, as formulated in the ‘Second Law of Motion.’
-He asserts that this is simply one case out of the numberless cases
-in which all these consciously-reasoned conclusions rest upon the
-unconsciously-formed conclusions that precede reasoning. Mr. Spencer
-alleges that as it has become impossible for a boy to think that
-by a smaller effort he can jump higher, and for a shopman to think
-that smaller weights will outbalance greater quantities, and for the
-physicist to think that he will get increased effects from diminished
-causes, so it is impossible to think that ‘alteration of motion’ is not
-‘proportional to the motive force impressed.’ And he maintains that
-this is, in fact, a {305} latent implication of unconsciously-organized
-experiences, just as much as those which the experimenter necessarily
-postulates.”
-
-       *       *       *       *       *
-
-To meet further misinterpretations, a second letter was written by Mr.
-Collier and published in _Nature_ for June 4, 1874. The following are
-passages from it:―
-
-“Having but limited space, and assuming that the requisite
-qualifications would be made by unbiased readers, I passed over all
-those details of the child’s experiences which would have been required
-in a full exposition. Of course I was aware that in the bending of a
-stick the visible effect does not increase in the same ratio as the
-force applied; and hardly needed the ‘Senior Wrangler’ to tell me
-that the resistance to a body moving through a fluid increases in a
-higher ratio than the velocity. It was taken for granted that he, and
-those who think with him, would see that out of all these experiences,
-in some of which the causes and effects are simple, and in others
-of which they are complex, there grows the consciousness that the
-proportionality is the more distinct the simpler the antecedents and
-consequents. This is part of the preconception which the physicist
-brings with him and acts upon. Perhaps it is within the ‘Senior
-Wrangler’s’ knowledge of physical exploration, that when the physicist
-finds a result not bearing that ratio to its assigned cause which the
-two were ascertained in other cases to have, he immediately assumes the
-presence of some perturbing cause or causes, which modify the ratio.
-There is, in fact, no physical determination made by any experimenter
-which does not assume, as an _a priori_ necessity, that there cannot
-be a deviation from proportion without the presence of such additional
-cause.
-
-“Returning to the general issue, perhaps the ‘Senior Wrangler’ will
-pay some respect to the judgment of one {306} who was a Senior
-Wrangler too, and a great deal more—who was distinguished not only
-as a mathematician but as an astronomer, a physicist, and also as an
-inquirer into the methods of science: I mean Sir John Herschel. In his
-_Discourse on the Study of Natural Philosophy_, he says:―
-
- “‘When we would lay down general rules for guiding and facilitating
- our search, among a great mass of assembled facts, for their common
- cause, we must have regard to the characters of that relation which we
- intend by cause and effect.’
-
-“Of these ‘characters’ he sets down the third and fourth in the
-following terms:―
-
- “‘Increase or diminution of the effect, with the increased or
- diminished intensity of the cause, in cases which admit of increase
- and diminution.’
-
- “‘Proportionality of the effect to its cause in all cases of _direct
- unimpeded_ action.’
-
-“Observe that, in Sir J. Herschel’s view, these are ‘characters’ of
-the relation of cause and effect to be accepted as ‘general rules for
-_guiding_ and facilitating our search’ among physical phenomena—truths
-that must be taken for granted _before_ the search, not truths derived
-_from_ the search. Clearly, the ‘proportionality of the effect to its
-cause in all cases of direct and unimpeded action’ is here taken as
-_a priori_. Sir J. Herschel would, therefore, have asserted, with Mr.
-Spencer, that the Second Law of Motion is _a priori_; since this is one
-of the cases of the ‘proportionality of the effect to its cause.’
-
-“And now let the ‘Senior Wrangler’ do what Sir J. Herschel has not done
-or thought of doing—_prove_ the proportionality of cause and effect.
-Neither he, nor any other of Mr. Spencer’s opponents, has made the
-smallest attempt to deal with this main issue. Mr. Spencer alleges
-that this cognition of proportionality is _a priori_: not in the old
-sense, but in the sense that it grows out of experiences that precede
-reasoning. His opponents, following Prof. Tait in the assertion that
-Physics is a purely experimental science, containing, therefore, no _a
-priori_ truths, affirm that this {307} cognition is _a posteriori_—a
-product of conscious induction. Let us hear what are the experiments.
-It is required to establish the truth that there is proportionality
-between causes and effects, _by a process which nowhere assumes_ that
-if one unit of force produces a certain unit of effect, two units of
-such force will produce two units of such effect. Until the ‘Senior
-Wrangler’ has done this he has left Mr. Spencer’s position untouched.”
-
-
-APPENDIX B.
-
-[After publication of the letters from which the foregoing are
-reproduced, there appeared in _Nature_ certain rejoinders containing
-misrepresentations even more extreme than those preceding them.
-There resulted a direct correspondence with two of the writers—Mr.
-Robert B. Hayward, of Harrow, and Mr. J. F. Moulton, my original
-assailant, the author of the article in the _British Quarterly Review_.
-This correspondence, in which I demanded from these gentlemen the
-justifications for their statements, formed part of this Appendix in
-its pamphlet form, as distributed among those who are competent to
-judge of the questions at issue. It is needless to give permanence
-to the replies and rejoinders. The character of Mr. Moulton’s
-allegations, quite congruous with those I have exposed in the “Replies
-to Criticisms,” may be inferred from one of the sentences closing my
-reply—“Wonderful to relate, my inductive proof that proportionality [of
-cause and effect] is taken for granted, he cites as my inductive proof
-of proportionality itself!” The result of the interchange of letters
-with Mr. Hayward, was to make it clear that “the thing I assert is not
-really disputed; and the thing disputed, I have nowhere asserted.”
-While, however, the controversial part of the correspondence may fitly
-disappear, {308} I retain an expository part embodied in the following
-letter to Mr. Hayward.]
-
-
- 38, Queen’s Gardens, Bayswater,
- June 21st, 1874.
-
-SIR,—Herewith I send you a copy of your letter with my interposed
-comments. I think those comments will make it clear to you that I
-have not committed myself to three different definitions of our
-consciousness of the Second Law of Motion.
-
-As others may still feel a difficulty such as you seem to have felt,
-in understanding that which familiarity has made me regard as simple,
-I will endeavour, by a synthetic exposition, to make clear the way in
-which these later and more complex products of organized experiences
-stand related to earlier and simpler products. To make this exposition
-easier to follow, I will take first our Space-consciousness and the
-derived conceptions.
-
-On the hypothesis of Evolution, the Space-consciousness results from
-organized motor, tactual, and visual experiences. In the _Principles
-of Psychology_, §§ 326–346, I have described in detail what I conceive
-to have been its genesis. Such Space-consciousness so generated,
-is one possessed in greater or less degree by all creatures of any
-intelligence; becoming wider, and more definite, according to the
-degree of mental evolution which converse with the environment has
-produced. How deeply registered the external relations have become in
-the internal structure, is shown by the facts that the decapitated
-frog pushes away with one or both legs the scalpel applied to the hind
-part of its body, and that the chick, as soon as it has recovered from
-the exhaustion of escaping from the egg, performs correctly-guided
-actions (accompanied by consciousness of distance and direction) in
-picking up grains. Ascending at once to such organized and inherited
-Space-consciousness as exists in the child, and which from moment
-to moment {309} it is making more complete by its own experiences
-(aiding the development of its nervous system into the finished
-type of the adult, by the same exercises which similarly aid the
-development of its muscular system), we have to observe that, along
-with increasingly-definite ideas of distance and direction, it gains
-unawares certain more special ideas of geometrical relations. Take
-one group of these. Every time it spreads open its fingers it sees
-increase of the angles between them, going along with increase of the
-distances between the finger-tips. In opening wide apart its own legs,
-and in seeing others walk, it has continually before it the relation
-between increase or decrease of base in a triangle having equal sides,
-and increase or decrease of the angle included by those sides. [The
-relation impressed on it being simply that of _concomitant variation_:
-I do not speak of any more definite relation, which, indeed, is
-unthinkable by the young.] It does not observe these facts in such way
-as to be conscious that it has observed them; but they are so impressed
-upon it as to establish a rigid association between certain mental
-states. Various of its activities disclose space-relations of this
-class more definitely. The drawing of a bow exhibits them in another
-way and with somewhat greater precision; and when, instead of the ends
-of a bow, capable of approaching one another, the points of attachment
-are fixed and the string elastic, the connexion between increasing
-length in the sides of an isosceles triangle and increasing acuteness
-of the included angle, is still more forced upon the attention; though
-it still does not rise into a conscious cognition. This is what I
-mean by an “unconsciously-formed preconception.” When, in course of
-time, the child, growing into the boy, draws diagrams on paper, and,
-among other things, draws isosceles triangles, the truth that, the
-base being the same, the angle at the apex becomes more acute as the
-sides lengthen, is still more definitely displayed to him; and when
-his attention is drawn to this relation he finds that he {310} cannot
-think of it as being otherwise. If he imagines the lengths of the sides
-to change, he cannot exclude the consciousness of the correlative
-change in the angle; and presently, when his mental power is
-sufficiently developed, he perceives that if he continues to lengthen
-the sides in imagination, the lines approach parallelism as the angle
-approaches zero: yielding a conception of the relations of parallel
-lines. Here the consciousness has risen into the stage of definite
-conception. But, manifestly, the definite conception so reached is
-but a finishing of the preconceptions previously reached, and would
-have been impossible in their absence; and these unconsciously-formed
-preconceptions would similarly have been impossible in the absence of
-the still earlier consciousnesses of distance, direction, relative
-position, embodied in the consciousness of Space. The whole evolution
-is one; the arrival at the distinct conception is the growing up to an
-ultimate definiteness and complexity; and it can no more be reached
-without passing through the earlier stages of indefinite consciousness,
-than the adult bodily structure can be reached without passing through
-the structures of the embryo, the infant, and the child.[43]
-
-Through a parallel evolution arises, first the vague {311}
-consciousness of forces as exerted by self and surrounding things;
-presently, some discrimination in respect of their amounts as related
-to their effects; later, an association formed unawares between
-greatness of quantity in the two, and between smallness of quantity in
-the two; later still, a tacit assumption of proportionality, though
-without a distinct consciousness that the assumption has been made;
-and, finally, a rising of this assumption into definite recognition,
-as a truth necessarily holding where the forces are simple. Throughout
-its life every creature has, _within the actions of its moving parts_,
-forces and motions conforming to the Laws of Motion. {312} If it has
-a nervous system, the differences among the muscular tensions and the
-movements initiated, register themselves in a vague way in that nervous
-system. As the nervous system develops, along with more developed
-limbs, there are at once more numerous different experiences . . .
-of momentum generated, of connected actions and reactions (as when
-an animal tears the food which it holds with its paws); and, at the
-same time, there are, in its more developed nervous system, increased
-powers of appreciating and registering these differences. All the
-resulting connexions in consciousness, though unknowingly formed and
-unknowingly entertained, are ever present as guides to action: witness
-the proportion between the effort an animal makes and the distance
-it means to spring; or witness the delicate adjustments of muscular
-strains to changes of motion, made by a swallow catching flies or a
-hawk swooping on its quarry. Manifestly, then, these experiences,
-organized during the earlier stages of mental evolution, form a body of
-consciousnesses, not formulated into cognitions, nor present even as
-preconceptions, but nevertheless present as a mass of associations _in
-which the truths of relation between force and motion are potentially
-present_. On ascending to human beings of the uncultured sort, we reach
-a stage at which some nascent generalization of these experiences
-occur. The savage has not expressed to himself the truth that if he
-wants to propel his spear further he must use more force; nor does
-the rustic put into a distinct thought the truth that to raise double
-the weight he must put forth twice the effort; but in each there is
-a tacit assumption to this effect, as becomes manifest on calling it
-in question. So that, in respect of these and other simple mechanical
-actions, there exist unconsciously-formed preconceptions. And just as
-the geometrical truths presented in a rude way by the relations among
-surrounding objects, are not overtly recognized until there is some
-familiarity with straight lines, and diagrams made of them; {313}
-so, until linear measures, long used, have led to the equal-armed
-lever, or scales, and thus to the notion of equal units of force, this
-mechanical preconception cannot rise into definiteness. Nor after it
-has risen into definiteness does it for a long time reach the form of
-a consciously-held cognition; for neither the village huxter nor the
-more cultivated druggist in the town, recognizes the general abstract
-truth that, when uninterfered with, equi-multiples of causes and their
-effects are necessarily connected. But now observe that this truth,
-acted upon with more or less distinct consciousness of it by the man
-of science, and perfected by him through analysis and abstraction,
-is thus perfected only as the last step in its evolution. This
-definite cognition is but the finished form of a consciousness long in
-preparation—a consciousness the body of which is present in the brute,
-takes some shape in the primitive man, reaches greater definiteness in
-the semi-civilized, becomes afterwards an assumption distinct though
-not formulated, and takes its final development only as it rises into
-a consciously-accepted axiom. Just as there is a continuous evolution
-of the nervous system, so is there a continuous evolution of the
-consciousness accompanying its action. Just as the one grows in volume,
-complexity, and definiteness, so does the other. And just as necessary
-as the earlier stages are to the later in the one case, are they in
-the other. To suppose that the finished conceptions of science can
-exist without the unfinished common knowledge which precedes them,
-or this without still earlier mental acquisitions, is the same thing
-as to suppose that we can have the correct judgments of the adult
-without passing through the crude judgments of the youth, the narrow,
-incoherent ones of the child, and the vague, feeble ones of the infant.
-So far is it from being true that the view of physical axioms held by
-me, is one which bases cognitions on some other source than experience,
-it asserts experience to be the only possible source of these, as of
-other cognitions; but it asserts, further, that {314} not simply is
-the consciously-acquired experience of present actions needful, but
-that _for the very possibility of gaining this_ we are indebted to the
-accumulated experiences of all past actions. Not I, but my antagonists,
-are really chargeable with accepting the ancient _a priori_ view;
-since, without any explanation of them or justification of them, they
-posit as unquestionable the assumptions underlying every experiment
-and the conclusion drawn from it. The belief in physical causation,
-assumed from moment to moment as necessary in every experiment and
-in all reasoning from it, is a belief which, if not justified by the
-hypothesis above set forth, is tacitly asserted as an _a priori_
-belief. Contrariwise, my own position is one which affiliates all such
-beliefs upon experiences acquired during the whole past; which alleges
-those experiences as the only warrant for them; which asserts that
-during the converse between the mind and its environment, necessary
-connexions in Thought, such as those concerning Space, have resulted
-from infinite experiences of corresponding necessary connexions in
-Things; and that, similarly, out of perpetual converse with the Forces
-manifested to us in Space, there has been a progressive establishment
-of internal relations answering to external relations, in such wise
-that there finally emerge as physical axioms, certain necessities of
-Thought which answer to necessities in Things.
-
-I need scarcely say that I have taken the trouble of making my comments
-on your letter, and of writing this further exposition, with a view to
-their ulterior use.
-
- I am, &c.,
- HERBERT SPENCER.
-
-
-APPENDIX C.
-
-SUMMARY OF RESULTS.
-
-Those who deny a general doctrine enunciated by Mayer as the basis
-of his reasonings, habitually assumed by Faraday {315} as a guiding
-principle in drawing his conclusions, distinctly held by Helmholtz,
-and tacitly implied by Sir John Herschel—those, I say, who deny this
-general doctrine and even deride it, should be prepared with clear
-and strong reasons for doing this. Having been attacked, not in the
-most temperate manner, for enunciating this doctrine and its necessary
-implications in a specific form, I have demanded such reasons. Observe
-the responses to the demand.
-
- 1. The _British Quarterly_ Reviewer
- quoted for my instruction the _dictum_ of
- Professor Tait, that “Natural Philosophy
- is an experimental, and not an intuitive
- science. No _à priori_ reasoning can
- conduct us demonstratively to a single
- physical truth.” Thereupon I inquired
- what Professor Tait meant “by speaking of
- ‘physical _axioms_,’ and by saying that
- the cultured are enabled ‘to see _at once_
- their _necessary_ truth?’” . . .               No reply.
-
- 2. Instead of an answer to the question,
- how this intuition of necessity can be
- alleged by Professor Tait consistently with
- his other doctrine, the Reviewer quotes,
- as though it disposed of my question,
- Professor Tait’s statement that “as the
- properties of matter might have been
- such as to render a totally different
- set of laws axiomatic, _these laws_ [of
- motion] _must be considered as resting_
- _on convictions drawn from observation_
- _and experiment, and not on intuitive_
- _perception._” Whereupon I inquired how
- Professor Tait knows that “the properties
- of matter _might have been_” other {316}
- than they are. I asked how it happened
- that his intuition concerning things
- _as they are not_, is so certain that,
- by inference from it, he discredits our
- intuitions concerning things _as they_
- _are_ . . .                                     No reply: Professor
-                                                Tait told, _à propos_
-                                                of my question, a
-                                                story of which no one
-                                                could discover the
-                                                application; but,
-                                                otherwise, declined to
-                                                answer. Nor was any
-                                                answer given by his
-                                                disciple.
-
- 3. Further, I asked how it happened
- that Professor Tait accepted as bases
- for Physics, Newton’s Laws of Motion;
- which were illustrated but not _proved_
- by Newton, and of which no _proofs_
- are supplied by Professor Tait, in the
- _Treatise on Natural Philosophy_. I went on
- to examine what conceivable _a posteriori_
- warrant there can be if there is no warrant
- _a priori_; and I pointed out that neither
- from terrestrial nor from celestial
- phenomena can the First Law of Motion be
- deduced without a _petitio principii_ . . .    No reply: the Reviewer
-                                                characterized my
-                                                reasoning as “utterly
-                                                erroneous” (therein
-                                                differing entirely from
-                                                two {317} eminent
-                                                authorities who read it
-                                                in proof); but beyond
-                                                so characterizing it he
-                                                said nothing.
-
- 4. To my assertion that Newton gave no
- proof of the Laws of Motion, the Reviewer
- rejoined that “the whole of the _Principia_
- was the proof.” On which my comment was
- that Newton called them “axioms,” and that
- axioms are not commonly supposed to be
- proved by deductions from them . . .           The Reviewer quotes
-                                                from one of Newton’s
-                                                letters a passage
-                                                showing that though
-                                                he called the Laws
-                                                of Motion “axioms,”
-                                                he regarded them as
-                                                principles “made
-                                                general by induction;”
-                                                and that therefore he
-                                                could not have regarded
-                                                them as _a priori_.
-
- 5. In rejoinder, I pointed out that
- whatever conception Newton may have had
- of these “axioms,” he explicitly and
- distinctly excluded them from the class
- of “hypotheses.” Hence I inferred that
- he did not regard the whole of the {318}
- _Principia_ as the proof, which the
- Reviewer says it is; since an assumption
- made at the outset, to be afterwards
- justified by the results of assuming it, is
- an “hypothesis” . . .                          No reply.
-
- 6. Authority aside, I examined on its
- merits the assertion that the Laws of
- Motion are, or can be, proved true by
- the ascertained truth of astronomical
- predictions; and showed that the process of
- verification itself assumed those Laws.        No reply.
-
- 7. To make still clearer the fact that
- ultimate physical truths are, and must
- be, accepted as _a priori_, I pointed out
- that in every experiment the physicist
- tacitly assumes a relation between cause
- and effect, such that, if one unit of cause
- produces its unit of effect, two units of
- the cause will produce two units of the
- effect; and I argued that this general
- assumption included the special assumption
- asserted in the Second Law of Motion. . . .    No reply: that is to
-                                                say, no endeavour to
-                                                show the untruth of
-                                                this statement, but a
-                                                quibble based on my
-                                                omission of the word
-                                                “proportionality” in
-                                                places where it was
-                                                implied, though not
-                                                stated.
-
- 8. Attention was drawn to a passage {319}
- from Sir John Herschel’s _Discourse on the_
- _Study of Natural Philosophy_, in which the
- “proportionality of the effect to its cause
- in all cases of _direct unimpeded_ action”
- is included by him among “the characters
- of that relation which we intend by cause
- and effect;” and in which this assumption
- of proportionality is set down as one
- _preceding_ physical exploration, and not
- as one to be established by it . . .           No reply.
-
- 9. Lastly, a challenge to prove this
- proportionality. “It is required to
- establish the truth that there is
- proportionality between causes and effects,
- _by a process which nowhere assumes_
- that if one unit of force produces a
- certain unit of effect, two units of such
- force will produce two units of such
- effect.” . . .                                 No reply.
-
-Thus on all these essential points my three mathematical opponents
-allow judgment to go against them by default. The attention of readers
-has been drawn off from the main issues by the discussion of side
-issues. Fundamental questions have been evaded, and new questions of
-subordinate kinds raised.
-
-What is the implication? One who is able to reach and to carry the
-central position of his antagonist, does not spend his strength on
-small outposts. If he declines to assault the stronghold, it must be
-because he sees it to be impregnable.
-
-       *       *       *       *       *
-
-The trouble I have thus taken to meet criticisms and dissipate
-misapprehensions, I have taken because the attack {320} made on
-the special doctrine defended, is part of an attack on the ultimate
-doctrine underlying the deductive part of _First Principles_—the
-doctrine that the quantity of existence is unchangeable. I agree with
-Sir W. Hamilton that our consciousness of the necessity of causation,
-results from the impossibility of conceiving the totality of Being to
-increase or decrease. The proportionality of cause and effect is an
-implication: denial of it involves the assertion that some quantity
-of cause has disappeared without effect, or some quantity of effect
-has arisen without cause. I have asserted the _a priori_ character
-of the Second Law of Motion, _under the abstract form in which it is
-expressed_, simply because this, too, is an implication, somewhat more
-remote, of the same ultimate truth. And my sole reason for insisting
-on the validity of these intuitions, is that, on the hypothesis of
-Evolution, absolute uniformities in things have produced absolute
-uniformities in thoughts; and that necessary thoughts represent
-infinitely-larger accumulations of experiences than are formed by the
-observations, experiments, and reasonings of any single life.
-
-
-ENDNOTES TO _REPLIES TO CRITICISMS_.
-
-[24] _Principles of Psychology_, Second Edition, § 425, note.
-
-[25] _Le Sentiment Religieux_, par A. Grotz. Paris, J. Cherbuliez, 1870.
-
-[26] Instead of describing me as misunderstanding Kant on this point,
-Dr. Hodgson should have described Kant as having, in successive
-sentences, so changed the meanings of the words he uses, as to make
-either interpretation possible. At the outset of his _Critique of
-Pure Reason_, he says:—“The effect of an object upon the faculty of
-representation, so far as we are affected by the said object, is
-sensation. That sort of intuition which relates to an object by means
-of sensation, is called an empirical intuition. The undetermined
-object of an empirical intuition, is called _phænomenon_. That which
-in the phænomenon corresponds to the sensation, I term its _matter_;”
-[here, remembering the definition just given of phenomenon, objective
-existence is manifestly referred to] “but that which effects that the
-content of the phænomenon can be arranged under certain relations, I
-call its _form_” [so that _form_, as here applied, refers to objective
-existence]. “But that in which our sensations are merely arranged, and
-by which they are susceptible of assuming a certain form, cannot be
-itself sensation.” [In which sentence the word _form_ obviously refers
-to subjective existence.] At the outset, the ‘phenomenon’ and the
-‘sensation’ are distinguished as objective and subjective respectively;
-and then, in the closing sentences, the _form_ is spoken of in
-connexion first with the one and then with the other, as though they
-were the same.
-
-[27] See _Fraser’s Magazine_ for May, 1873.
-
-[28] _First Principles_, § 26.
-
-[29] _Ibid._ § 76 (1st ed.)
-
-[30] Compare _Principles of Psychology_, §§ 88, 95, 391, 401, 406.
-
-[31] _First Principles_, §§ 39–45.
-
-[32] _Principles of Psychology_, part vii.
-
-[33] _Social Statics_, chap. iii.
-
-[34] _Principles of Psychology_, § 531.
-
-[35] _First Principles_, § 34.
-
-[36] Only after the foregoing paragraphs were written, did the remark
-of a distinguished friend show me how certain words were misconstrued
-by the reviewer in a way that had never occurred to me as possible. In
-the passage referred to, I have said that sound-waves “finally die away
-in generating thermal undulations that radiate into space;” meaning,
-of course, that the force embodied in the sound-waves is finally
-_exhausted_ in generating thermal undulations. In common speech, the
-dying-away of a prolonged sound, as that of a church-bell, includes
-its gradual diminution as well as its final cessation. But rather
-than suppose I gave to the words this ordinary meaning, the reviewer
-supposes me to believe, not simply that the _longitudinal_ waves of
-air can pass, _without discontinuity_, into the _transverse_ waves
-of ether, but he also debits me with the belief that the one order
-of waves, having lengths measurable in feet, and rates expressed in
-hundreds per second, can, _by mere enfeeblement_, pass into the other
-order of waves, having lengths of some fifty thousand to the inch, and
-rates expressed in many billions per second! Why he preferred so to
-interpret my words, and that, too, in the face of contrary implications
-elsewhere (instance § 100), will, however, be manifest to every one who
-reads his criticisms.
-
-[37] Other examples of these amenities of controversy, in which I
-decline to imitate my reviewer, have already been given. What occasions
-he supplies me for imitation, were I minded to take advantage of
-them, an instance will show. Pointing out an implication of certain
-reasonings of mine, he suggests that it is too absurd even for me to
-avow explicitly; saying:—“We scarcely think that even Mr. Spencer
-will venture to claim as a datum of consciousness the Second Law of
-Motion, with its attendant complexities of component velocities, &c.”
-Now any one who turns to Newton’s _Principia,_ will find that to the
-enunciation of the Second Law of Motion, nothing whatever is appended
-but an amplified re-statement—there is not even an illustration, much
-less a proof. And from this law, this axiom, this immediate intuition
-or “datum of consciousness,” Newton proceeds forthwith to draw those
-corollaries respecting the composition of forces which underlie all
-dynamics. What, then, must be thought of Newton, who explicitly assumes
-that which the reviewer thinks it absurd to assume implicitly?
-
-[38] That I am certainly not singular in this view, is shown to me,
-even while I write, by the just-issued work of Prof. Jevons on the
-_Principles of Science: a Treatise on Logic and Scientific Method_. In
-vol. ii., p. 141, Prof. Jevons remarks respecting the law of variation
-of the attractive force, that it “is doubtless connected at this point
-with the primary properties of space itself, and is so far conformable
-to our necessary ideas.”
-
-[39] See Essay on “The Genesis of Science,” in the _British Quarterly
-Review_ for July, 1854, p. 127.
-
-[40] I do not say this at random. The reviewer, who has sought rather
-to make known than to conceal his identity, took his degree in 1868.
-
-[41] It is true that in Newton’s time, “axiom” had not the same
-rigorously defined meaning as now; but it suffices for my argument
-that, _standing unproved_ as a basis for physical deductions, it bears
-just the same relation to them that a mathematical axiom does to
-mathematical deductions.
-
-[42] The above letter, written after absence at Easter had involved a
-week’s delay, and written somewhat hurriedly to prevent the delay of
-a second week, was less carefully revised than it should have been.
-The words in square brackets, obviously implied by the reasoning, and
-specifically implied by the illustrations, were not in the letter as
-originally published.
-
-[43] Here, in explaining the genesis of special space-intuitions, I
-have singled out a group of experiences which, in _Nature_, May 28, Mr.
-Hayward had chosen as illustrating the absurdity of supposing that the
-scientific conception of proportionality could be reached as alleged.
-He said:―
-
- “It is hardly a parody of Mr. Collier’s remarks to say:—‘A child
- discovers that the greater the angle between his legs the greater the
- distance between his feet, an experience which implicates the notion
- of proportionality between the angle of a triangle and its opposite
- side;’ a preconception, as it appears to me, with just as good a basis
- as that whose formation Mr. Collier illustrates, but one which, as I
- need hardly add, is soon corrected by a conscious study of geometry or
- by actual measurement.”
-
-I am indebted to Mr. Hayward for giving this instance. It conveniently
-serves two purposes. It serves to exemplify the connexion between the
-crude preconceptions unconsciously formed by earlier experiences, and
-the conceptions consciously evolved out of them by the help of later
-experiences, when the requisite powers of analysis and abstraction
-have been reached. And at the same time it serves to show the failure
-of my opponents to understand how, in the genesis of intelligence,
-the scientific conception of exact proportionality develops from the
-crude, vague, and inaccurate preconception. For while the notion of
-proportionality acquired by the child in Mr. Hayward’s example, is
-not true, it is an approximation towards one which _is_ true, and
-one which is reached when its more developed intelligence is brought
-critically to bear on the facts. Eventually it is discovered that the
-angle is not proportional to the subtending side, but to the subtending
-arc; and this is discovered _in the process of disentangling a simple
-relation from other relations which complicate and disguise it_.
-Between the angle and the arc there is exact proportionality, for
-the reason that only one set of directly-connected space-relations
-are concerned: the distance of the subtending arc from the subtended
-angle, remains constant—there is no change in the relation between the
-increasing angle and the increasing arc; and therefore the two vary
-together in direct proportion. But it is otherwise with the subtending
-side. The parts of this stand in different relations of distance from
-the subtended angle; and as the line is lengthened, each added part
-differs from the preceding parts in its distance from the angle. That
-is to say, one set of simple directly-connected geometrical relations,
-is here involved with another set; and the relation between the side
-and the angle is such that the law of relative increase involves the
-co-operation of two sets of factors. Now the distinguishing the true
-proportionality (between the angle and the arc) from the relation
-which simulates proportionality (between the angle and the side) is
-just that process of final development of exact conceptions, which
-I assert to be the finishing step of all the preceding development;
-and to be impossible in its absence. And the truth to which my
-assailants shut their eyes, is that, just as among these conceptions of
-space-relations, the conception of exact proportionality can be reached
-only by evolution from the crude notion of proportionality, formed
-before reasoning begins; so, among the force-relations, the conception
-of proportionality finally reached, when simple causes and their
-effects are disentangled by analytical intelligence, can be reached
-only by evolution of the crude notion of proportionality, established
-as a preconception by early experiences which reinforce ancestral
-experiences.
-
-
-
-
-{321}
-
-PROF. GREEN’S EXPLANATIONS.
-
-
-[_From the_ Contemporary Review _for Feb. 1881. It would not have
-occurred to me to reproduce this essay, had it not been that there has
-lately been a reproduction of the essay to which it replies. But as
-Mr. Nettleship, in his editorial capacity, has given a permanent shape
-to Professor Green’s unscrupulous criticism, I am obliged to give a
-permanent shape to the pages which show its unscrupulousness._]
-
-Dreary at best, metaphysical controversy becomes especially dreary
-when it runs into rejoinders and re-rejoinders; and hence I feel some
-hesitation in inflicting, even upon those readers of the _Contemporary_
-who are interested in metaphysical questions, anything further
-concerning Prof. Green’s criticism, Mr. Hodgson’s reply to it, and
-Prof. Green’s explanations. Still, it appears to me that I can now
-hardly let the matter pass without saying something in justification
-of the views attacked by Prof. Green; or, rather, in disproof of the
-allegations he makes against them.
-
-I did not, when Prof. Green’s two articles appeared, think it needful
-to notice them: my wish to avoid hindrance to my work, being supported
-partly by the thought that very few would read a discussion so
-difficult to follow, and partly by the thought that, of the few who
-did read it, most would be those whose knowledge of _The Principles
-of Psychology_ enabled them to see how unlike the argument {322} I
-have used is the representation of it given by Prof. Green, and how
-inapplicable his animadversions therefore are. This last belief was, I
-find, quite erroneous; and I ought to have known better than to form
-it. Experience might have shown me that readers habitually assume a
-critic’s version of an author’s statement to be the true version, and
-that they rarely take the trouble to see whether the meaning ascribed
-to a detached passage is the meaning which it bears when taken with
-the context. Moreover, I should have remembered that in the absence of
-disproofs it is habitually assumed that criticisms are valid; and that
-inability rather than pre-occupation prevents the author from replying.
-I ought not, therefore, to have been surprised to learn, as I did
-from the first paragraph of Mr. Hodgson’s article, that Prof. Green’s
-criticisms had met with considerable acceptance.
-
-I am much indebted to Mr. Hodgson for undertaking the defence of my
-views; and after reading Prof. Green’s rejoinder, it seems to me that
-Mr. Hodgson’s chief allegations remain outstanding. I cannot here, of
-course, follow the controversy point by point. I propose to deal simply
-with the main issues.
-
-       *       *       *       *       *
-
-At the close of his answer, Prof. Green refers to “two other
-misapprehensions of a more general nature, which he [Mr. Hodgson]
-alleges against me at the outset of his article.” Not admitting these,
-Prof. Green postpones replies for the present; though by what replies
-he can show his apprehensions to be true ones, I do not see. Further
-misapprehensions of a general nature, which stand as preliminaries to
-his criticisms, may here be instanced, as serving, I think, to show
-that those criticisms are misdirected.
-
-From _The Principles of Psychology_ Prof. Green quotes the following
-sentences:―
-
-  “The relation between these, as antithetically opposed divisions of
- the {323} entire assemblage of manifestations of the Unknowable, was
- our datum. The fabric of conclusions built upon it must be unstable
- if this datum can be proved either untrue or doubtful. Should the
- idealist be right, the doctrine of evolution is a dream.”
-
-And on these sentences he comments thus:―
-
- “To those who have humbly accepted the doctrine of evolution as a
- valuable formulation of our knowledge of animal life, but at the same
- time think of themselves as ‘idealists,’ this statement may at first
- cause some uneasiness. On examination, however, they will find in the
- first place that when Mr. Spencer in such a connection speaks of the
- doctrine of evolution, he is thinking chiefly of its application to
- the explanation of knowledge—an application at least not necessarily
- admitted in the acceptance of it as a theory of animal life.”[44]
-
-From which it appears that Prof. Green’s conception of Evolution is
-that popular conception in which it is identified with that set forth
-in _The Origin of Species_. That my conception of Evolution, referred
-to in the passage he quotes, is a widely different one, would have been
-perceived by him had he referred to the exposition of it contained in
-_First Principles_. My meaning in the passage he quotes is, that since
-Evolution, as I conceive it, is, under certain conditions, the result
-of that universal redistribution of matter and motion which is, and
-ever has been, going on; and since, during those phases of it which are
-distinguishable as astronomic and geologic, the implication is that no
-life, still less consciousness (under any such form as is known to us),
-existed; there is necessarily implied by the theory of Evolution, a
-mode of Being independent of, and antecedent to, the mode of Being we
-now call consciousness. And I implied that, consequently, this theory
-must be a dream, if either ideas are the only existences, or if, as
-Prof. Green appears to think, the object exists only by correlation
-with the subject. How necessary is this more general view as a basis
-for my psychological view, and how erroneous is a criticism which
-ignores it, will be seen on observing that by ignoring it, I am made
-to appear profoundly inconsistent where {324} otherwise there is no
-inconsistency. Prof. Green says that my doctrine―
-
- “ascribes to the object, which in truth is nothing without the
- subject, an independent reality, and then supposes it gradually to
- produce certain qualities in the subject, of which the existence is in
- truth necessary to the possibility of those qualities in the object
- which are supposed to produce them.”[45]
-
-On which my comment is that, ascribing, as I do, “an independent
-reality” to the object, and denying that the object is “nothing without
-the subject,” my doctrine, though wholly inconsistent with that of
-Professor Green, is wholly consistent with itself. Had he rightly
-conceived the doctrine of Transfigured Realism (_Prin. of Psy._ §
-473), Prof. Green would have seen that while I hold that the qualities
-of object and subject, as present to consciousness, being resultants
-of the co-operation of object and subject, exist only through their
-co-operation, and, in common with all resultants, must be unlike their
-factors; yet that there pre-exist those factors, and that without them
-no resultants can exist.
-
-Equally fundamental is another preliminary misconception which Prof.
-Green exhibits. He says―
-
- “We should be sorry to believe that Mr. Spencer and Mr. Lewes regard
- the relation between consciousness and the world as corresponding to
- that between two bodies, of which one is inside the other; but apart
- from some such crude imagination it does not appear, &c.”
-
-Now since I deliberately accept, and have expounded at great
-length, this view which Professor Green does not ascribe to me,
-because he would be “sorry to believe” I entertain such a “crude
-imagination”—since this view is everywhere posited by the doctrine
-of Psychological Evolution as I have set it forth; I am astonished
-at finding it supposed that I hold some other view. Considering that
-Parts II. III. and IV. of the _Principles of Psychology_ are occupied
-with tracing out mental Evolution as a result of converse between
-organism and environment; and {325} considering that throughout Part
-V. the interpretations, analytical instead of synthetical, pre-suppose
-from moment to moment a surrounding world and an included organism;
-I cannot imagine a stranger assumption than that I do not believe
-the relationship between consciousness and the world to be that of
-inclusion of the one by the other. I am aware that Prof. Green does
-not regard me as a coherent thinker; but I scarcely expected he would
-ascribe to me an incoherence so extreme that in Part VI. I abandon the
-fundamental assumption on which all the preceding parts stand, and
-adopt some other. And I should the less have expected so extreme an
-incoherence to be ascribed to me, considering that throughout Part VI.
-this same belief is tacitly implied as part of that realistic belief
-which it is the aim of its argument to explain and justify. Here,
-however, the fact of chief significance is, that as Professor Green
-would be “sorry to believe” I hold the view named, and refrains from
-ascribing to me so “crude an imagination,” it is to be concluded that
-his arguments are directed against some other view which he supposes
-me to hold. If so, one of two conclusions is inevitable. Either his
-criticisms are valid against this other view which he tacitly ascribes
-to me, or they are not. If he admits them to be invalid on the
-assumption that I hold this other view, the matter ends. If he holds
-them to be valid on the assumption that I hold this other view, then
-they must be invalid against the absolutely-different view which I
-actually hold; and again the matter ends.
-
-Even were I to leave off here, I might, I think, say that the
-inapplicability of Prof. Green’s arguments is sufficiently shown;
-but it may be desirable to point out that beyond these general
-misapprehensions, by which they are vitiated, there are special
-misapprehensions. Much to my surprise, considering the careful
-preliminary explanation I have given, he has failed to understand
-the mental attitude assumed by me when describing the synthesis
-of experiences {326} against which he more especially urges his
-objections. In chapters entitled “Partial Differentiation of Subject
-and Object,” “Completed Differentiation of Subject and Object,” and
-“Developed Conception of the Object,” I have endeavoured, as these
-titles imply, to trace up the gradual establishment of this fundamental
-antithesis in a developing intelligence. It appeared to me, and still
-appears, that for coherent thinking there must be excluded at the
-outset, not only whatever implies acquired knowledge of objective
-existence, but also whatever implies acquired knowledge of subjective
-existence. At the close of the chapter preceding those just named, as
-well as in _First Principles_, where this process of differentiation
-was more briefly indicated, I recognized, and emphatically enlarged
-upon, the difficulty of carrying out such an inquiry: pointing out that
-in any attempts we make to observe the way in which subject and object
-become distinguished, we inevitably use those faculties and conceptions
-which have grown up while the differentiation of the two has been going
-on. In trying to discern the initial stages of the process, we carry
-with us all the products which belong to the final stage, and cannot
-free ourselves from them. In _First Principles_ (§ 43) I have pointed
-out that the words _impressions_ and _ideas_, the term _sensation_, the
-phrase _state of consciousness,_ severally involve large systems of
-beliefs; and that if we allow ourselves to recognize their connotations
-we inevitably reason circularly. And in the closing sentence of the
-chapter preceding those above named, I have said―
-
- “Though in every illustration taken we shall have tacitly to posit an
- external existence, and in every reference to states of consciousness
- we shall have to posit an internal existence which has these states;
- yet, as before, we must ignore these implications.”
-
-I should have thought that, with all these cautions before him, Prof.
-Green would not have fallen into the error of supposing that in the
-argument thereupon commenced, the phrase “states of consciousness” is
-used with all its ordinary implications. I should have thought that,
-as in {327} a note appended to the outset of the argument I have
-referred to the parallel argument in _First Principles_, where I have
-used the phrase “manifestations of existence” instead of “states of
-consciousness,” as the least objectionable; and as the argument in the
-_Psychology_ is definitely described in this note as a re-statement in
-a different form of the argument in _First Principles_; he would have
-seen that in the phrase “states of consciousness,” as used throughout
-this chapter, was to be included no more meaning than was included in
-the phrase “manifestations of existence.”[46] I should have thought
-he would have seen that the purpose of the chapter was passively to
-watch, with no greater intelligence than is implied in watching, how
-the manifestations or states, vivid and faint, comport themselves:
-excluding all thought of their meanings—all interpretations of them.
-Nevertheless, Prof. Green charges me with having, at the outset of the
-examination, invalidated my argument by implying, in the terms I use,
-certain products of developed consciousness.[47] He contends that my
-division of the “states of consciousness,” or, as I elsewhere term
-them, “manifestations of existence,” into vivid and faint, is vitiated
-from the first by including along with the vivid ones those faint ones
-needful to constitute them perceptions, in the ordinary sense of the
-word. Because, describing all I passively watch, I speak of a distant
-{328} head-land, of waves, of boats, &c, he actually supposes me to be
-speaking of those developed cognitions under which these are classed as
-such and such objects. What would he have me do? It is impossible to
-give any such account of the process as I have attempted, without using
-names for things and actions. The various manifestations, vivid and
-faint, which in the case described impose themselves on my receptivity,
-must be indicated in some way; and the words indicating them inevitably
-carry with them their respective connotations. What more can I do than
-warn the reader that all these connotations must be ignored, and that
-attention must be paid exclusively to the manifestations themselves,
-and the modes in which they comport themselves. At the stage described
-in this “partial differentiation,” while I suppose myself as yet
-unconscious of my own individuality and of a world as separate from it,
-the obvious implication is, that what I name “states of consciousness,”
-because this is the current term for them, are to have no
-interpretations whatever put upon them; but that their characters and
-modes of behaviour are to be observed, as they might be while yet there
-had been none of that organization of experiences which makes things
-known in the ordinary sense. It is true that, thus misinterpreting me
-in December, Prof. Green, writing again in March, puts into the mouth
-of an imagined advocate the true statement of my view;[48] though he
-(Prof. Green) then proceeds to deny that I can mean what this imagined
-advocate rightly says I mean: taking occasion to allege that I use the
-phrase “states of consciousness” “to give a philosophical character” to
-what would else seem “written too much after the fashion of a newspaper
-correspondent.”[49] Even, however, had he admitted that intended
-meaning which he sees, but denies, the rectification would have been
-somewhat unsatisfactory, coming three months after various {329}
-absurdities, based on his misinterpretation, had been ascribed to me.
-
-But the most serious allegation made by Mr. Hodgson against Prof.
-Green, and which I here repeat, is that he habitually says I regard
-the object as constituted by “the aggregate of vivid states of
-consciousness,” in face of the conspicuous fact that I identify the
-object with the _nexus_ of this aggregate. In his defence Prof. Green
-says―
-
- “If I had made any attempt to show that Mr. Spencer believes
- the object to be no more than an aggregate of vivid states of
- consciousness, Mr. Hodgson’s complaint, that I ignore certain passages
- in which a contrary persuasion is stated, would have been to the
- purpose.”
-
-Let us look at the facts. Treating of the relation between my view and
-the idealistic and sceptical views, he imagines addresses made to me by
-Berkeley and Hume. “‘You agree with me,’ Berkeley might say, ‘that when
-we speak of the external world we are speaking of certain lively ideas
-connected in a certain manner;’”[50] and this identification of the
-world with ideas, I am tacitly represented as accepting. Again, Hume is
-supposed to say to me—“You agree with me that what we call the world
-is a series of impressions;”[51] and here, as before, I am supposed
-silently to acquiesce in this as a true statement of my view. Similarly
-throughout his argument, Prof. Green continually states or implies that
-the object is, in my belief, constituted by the vivid aggregate of
-states of consciousness. At the outset of his second article,[52] he
-says of me:—“He there” [in the _Principles of Psychology_] “identifies
-the object with a certain aggregate of vivid states of consciousness,
-which he makes out to be independent of another aggregate, consisting
-of faint states, and identified with the subject.” And admitting that
-he thus describes my view, he nevertheless alleges that he does not
-misrepresent me, because, as he says,[53] “there is scarcely a page of
-my article in {330} which Mr. Spencer’s conviction of the externality
-and independence of the object, in the various forms in which it is
-stated by him, is not referred to.” But what if it is referred to
-in the process of showing that the externality and independence of
-the object is utterly inconsistent with the conception of it as an
-aggregate of vivid states of consciousness? What if I am continually
-made to seem thus absolutely inconsistent, by omitting the fact that
-not the aggregate of vivid states itself is conceived by me as the
-object, but the _nexus_ binding it together?
-
-A single brief example will typify Prof. Green’s general method of
-procedure. On page 40 of his first article he says—“And in the sequel
-the ‘separation of themselves’ on the part of states of consciousness
-‘into two great aggregates, vivid and faint,’ is spoken of as a
-‘differentiation between the antithetical existences we call object and
-subject.’ If words mean anything, then, Mr. Spencer plainly makes the
-‘object’ an aggregate of conscious states.” But in the entire passage
-from which these words of mine are quoted, which he gives at the bottom
-of the page, a careful reader will observe a word (_omitted_ from Prof.
-Green’s quotation in the text), which quite changes the meaning. I have
-described the result, not as “a differentiation,” but as “a _partial_
-differentiation.” Now, to use Prof. Green’s expression, “if words mean
-anything,” a partial differentiation cannot have the same sense as a
-complete differentiation. If the ‘’object’ has been already constituted
-by this partial differentiation, what does the ‘object’ become when the
-differentiation is completed? Clearly, “if words mean anything,” then,
-had Prof. Green not omitted the word “partial,” it would have been
-manifest that the aggregate of vivid states was _not_ alleged to be the
-object. The mode of treatment which we here see in little, exemplifies
-Prof. Green’s mode of treatment at large. Throughout his two articles
-he criticizes detached portions, and ascribes to them meanings {331}
-quite different from those which they have when joined with the rest.
-
-With the simplicity of “a raw undergraduate” (to some of whose views
-Prof. Green compares some of mine) I had assumed that an argument
-running through three chapters would not be supposed to have its
-conclusion expressed in the first; but now, after the professorial
-lesson I have received, my simplicity will be decreased, and I shall
-be aware that a critic may deal with that which is avowedly partial,
-as though it were entire, and may treat as though it were already
-developed, a conception which the titles of the chapters before him
-show is yet but incipient.
-
-Here I leave the matter, and if anything more is said, shall let it
-pass. Controversy must be cut short, or work must be left undone. I can
-but suggest that metaphysical readers will do well to make their own
-interpretations of my views, rather than to accept without inquiry all
-the interpretations offered them.
-
-
-POSTSCRIPT.—From a note appended by Mr. Nettleship to his republished
-versions of Prof. Green’s articles, it appears that, after the
-foregoing pages were published by me, Prof. Green wrote to the editor
-of the _Contemporary Review_, saying:―
-
- “While I cannot honestly retract anything in the substance of what I
- then wrote, there are expressions in the article which I very much
- regret, so far as they might be taken to imply want of personal
- respect for Mr. Spencer. For reasons sufficiently given in my reply to
- Mr. Hodgson, I cannot plead guilty to the charge of misrepresentation
- which Mr. Spencer repeats; but on reading my first article again in
- cold blood I found that I had allowed controversial heat to betray
- me into the use of language which was unbecoming—especially on the
- part of an unknown writer (not even then a ‘professor’) assailing a
- veteran philosopher. I make this acknowledgment merely for my own
- satisfaction, not under the impression that it can at all concern Mr.
- Spencer” (vol. i., p. 541).
-
-Possibly some of Prof. Green’s adherents will ask how, after he
-has stated that he cannot honestly retract, and that {332} he is
-not guilty of misrepresentation, I can describe his criticism as
-unscrupulous. My reply is that a critic who persists in saying that
-which, on the face of it, is dishonest, and then avers that he cannot
-honestly do otherwise, does not thereby prove his honesty, but
-contrariwise. One who deliberately omits from his quotation the word
-“partial,” and then treats, as though it were complete, that which
-is avowedly incomplete—one who, in dealing with an argument which
-runs through three chapters, recognizes only the first of them—one
-who persists in thinking it proper to do this after the consequent
-distortions of statement have been pointed out to him; is one who,
-if not knowingly dishonest, is lacking in due perception of right
-and wrong in controversy. The only other possible supposition which
-occurs to me, is that such a proceeding is a natural sequence of the
-philosophy to which he adheres. Of course, if Being and non-Being are
-the same, then representation and misrepresentation are the same.
-
-I may add that there is a curious kinship between the ideas implied by
-the letter above quoted and its implied sentiments. Prof. Green says
-that his apology for unbecoming language he makes merely for his “own
-satisfaction.” He does not calm his qualms of conscience by indicating
-his regret to those who read this unbecoming language; nor does he
-express his regret to me, against whom it was vented; but he expresses
-his regret to the editor of the _Contemporary Review_! So that a public
-insult to A is supposed to be cancelled by a private apology to B!
-Here is more Hegelian thinking; or rather, here is Hegelian feeling
-congruous with Hegelian thinking.
-
-
-ENDNOTES TO _PROF. GREEN’S EXPLANATIONS_.
-
-[44] _Contemporary Review_, December, 1877, p. 35.
-
-[45] _Contemporary Review_, December, 1877, p. 37
-
-[46] If I am asked why here I used the phrase “states of consciousness”
-rather than “manifestations of existence,” though I had previously
-preferred the last to the first, I give as my reason the desire
-to maintain continuity of language with the preceding chapter,
-“The Dynamics of Consciousness.” In that chapter an examination
-of consciousness had been made with the view of ascertaining what
-principle of cohesion determines our beliefs, as preliminary to
-observing how this principle operates in establishing the beliefs
-in subject and object. But on proceeding to do this, the phrase
-“state of consciousness” was supposed, like the phrase “manifestation
-of existence,” not to be used as anything more than a name by
-which to distinguish this or that form of being, as an undeveloped
-receptivity would become aware of it, while yet self and not-self were
-undistinguished.
-
-[47] _Contemporary Review_, December, 1877, pp. 49, 50.
-
-[48] _Contemporary Review_, March, 1878, p. 753.
-
-[49] _Ibid._, March, 1878, p. 755.
-
-[50] _Contemporary Review_, December, 1877, p. 44.
-
-[51] _Ibid._, December, 1877, p. 44.
-
-[52] _Ibid._, March, 1878, p. 745.
-
-[53] _Ibid._, January, 1881, p. 115.
-
-
-
-
-{333}
-
-THE PHILOSOPHY OF STYLE.
-
-
-[_First published in_ The Westminster Review _for October 1852._]
-
-Commenting on the seeming incongruity between his father’s
-argumentative powers and his ignorance of formal logic, Tristram
-Shandy says:—“It was a matter of just wonder with my worthy tutor,
-and two or three fellows of that learned society, that a man who knew
-not so much as the names of his tools, should be able to work after
-that fashion with them.” Sterne’s implied conclusion that a knowledge
-of the principles of reasoning neither makes, nor is essential to,
-a good reasoner, is doubtless true. Thus, too, is it with grammar.
-As Dr. Latham, condemning the usual school-drill in Lindley Murray,
-rightly remarks:—“Gross vulgarity is a fault to be prevented; but the
-proper prevention is to be got from habit—not rules.” Similarly, good
-composition is far less dependent on acquaintance with its laws, than
-on practice and natural aptitude. A clear head, a quick imagination,
-and a sensitive ear, will go far towards making all rhetorical precepts
-needless. And where there exists any mental flaw—where there is a
-deficient verbal memory, or an inadequate sense of logical dependence,
-or but little perception of order, or a lack of constructive ingenuity;
-no amount of instruction will insure good writing. Nevertheless, _some_
-result may be expected from a familiarity {334} with the principles of
-style. The endeavour to conform to laws may tell, though slowly. And
-if in no other way, yet, as facilitating revision, a knowledge of the
-thing to be achieved—a clear idea of what constitutes a beauty, and
-what a blemish—cannot fail to be of service.
-
-       *       *       *       *       *
-
-No general theory of expression seems yet to have been enunciated. The
-maxims contained in works on composition and rhetoric, are presented
-in an unorganized form. Standing as isolated dogmas—as empirical
-generalizations, they are neither so clearly apprehended, nor so much
-respected, as they would be were they deduced from some simple first
-principle. We are told that “brevity is the soul of wit.” We hear
-styles condemned as verbose or involved. Blair says that every needless
-part of a sentence “interrupts the description and clogs the image;”
-and again, that “long sentences fatigue the reader’s attention.” It is
-remarked by Lord Kaimes that, “to give the utmost force to a period,
-it ought, if possible, to be closed with the word that makes the
-greatest figure.” Avoidance of parentheses, and the use of Saxon words
-in preference to those of Latin origin, are often insisted upon. But,
-however influential the precepts thus dogmatically expressed, they
-would be much more influential if reduced to something like scientific
-ordination. In this as in other cases, conviction is strengthened when
-we understand the _why_. And we may be sure that recognition of the
-general principle from which the rules of composition result, will not
-only bring them home to us with greater force, but will disclose other
-rules of like origin.
-
-On seeking for some clue to the law underlying these current maxims,
-we may see implied in many of them, the importance of economizing the
-reader’s or hearer’s attention. To so present ideas that they may be
-apprehended with the least possible mental effort, is the desideratum
-towards which most of the rules above quoted point. When we {335}
-condemn writing that is wordy, or confused, or intricate—when we
-praise this style as easy, and blame that as fatiguing, we consciously
-or unconsciously assume this desideratum as our standard of judgment.
-Regarding language as an apparatus of symbols for conveying thought,
-we may say that, as in a mechanical apparatus, the more simple and the
-better arranged its parts, the greater will be the effect produced.
-In either case, whatever force is absorbed by the machine is deducted
-from the result. A reader or listener has at each moment but a limited
-amount of mental power available. To recognize and interpret the
-symbols presented to him, requires part of this power; to arrange and
-combine the images suggested by them requires a further part; and only
-that part which remains can be used for framing the thought expressed.
-Hence, the more time and attention it takes to receive and understand
-each sentence, the less time and attention can be given to the
-contained idea; and the less vividly will that idea be conceived. How
-truly language must be regarded as a hindrance to thought, though the
-necessary instrument of it, we shall clearly perceive on remembering
-the comparative force with which simple ideas are communicated by
-signs. To say, “Leave the room,” is less expressive than to point
-to the door. Placing a finger on the lips is more forcible than
-whispering, “Do not speak.” A beck of the hand is better than, “Come
-here.” No phrase can convey the idea of surprise so vividly as opening
-the eyes and raising the eyebrows. A shrug of the shoulders would
-lose much by translation into words. Again, it may be remarked that
-when oral language is employed, the strongest effects are produced by
-interjections, which condense entire sentences into syllables. And
-in other cases, where custom allows us to express thoughts by single
-words, as in _Beware_, _Heigho_, _Fudge_, much force would be lost by
-expanding them into specific propositions. Hence, carrying out the
-metaphor that {336} language is the vehicle of thought, we may say
-that in all cases the friction and inertia of the vehicle deduct from
-its efficiency; and that in composition, the chief thing to be done,
-is, to reduce the friction and inertia to the smallest amounts. Let
-us then inquire whether economy of the recipient’s attention is not
-the secret of effect, alike in the right choice and collocation of
-words, in the best arrangement of clauses in a sentence, in the proper
-order of its principal and subordinate propositions, in the judicious
-use of simile, metaphor, and other figures of speech, and even in the
-rhythmical sequence of syllables.
-
-The greater forcibleness of Saxon English, or rather non-Latin English,
-first claims our attention. The several special reasons assignable
-for this may all be reduced to the general reason—economy. The most
-important of them is early association. A child’s vocabulary is
-almost wholly Saxon. He says, _I have_, not _I possess_—_I wish_,
-not _I desire_; he does not _reflect_, he _thinks_; he does not beg
-for _amusement_, but for _play_; he calls things _nice_ or _nasty_,
-not _pleasant_ or _disagreeable_. The synonyms learned in after
-years, never become so closely, so organically, connected with the
-ideas signified, as do these original words used in childhood; the
-association remains less strong. But in what does a strong association
-between a word and an idea differ from a weak one? Essentially in the
-greater ease and rapidity of the suggestive action. Both of two words,
-if they be strictly synonymous, eventually call up the same image.
-The expression—It is _acid_, must in the end give rise to the same
-thought as—It is _sour_; but because the term _acid_ was learnt later
-in life, and has not been so often followed by the ideal sensation
-symbolized, it does not so readily arouse that ideal sensation as the
-term _sour_. If we remember how slowly the meanings follow unfamiliar
-words in another language, and how increasing familiarity with them
-brings greater rapidity and ease of comprehension; and if we consider
-that the {337} like effect must have resulted from using the words of
-our mother tongue from childhood upwards; we shall clearly see that the
-earliest learnt and oftenest used words, will, other things equal, call
-up images with less loss of time and energy than their later learnt
-equivalents.
-
-The further superiority possessed by Saxon English in its comparative
-brevity, obviously comes under the same generalization. If it be an
-advantage to express an idea in the smallest number of words, then
-it must be an advantage to express it in the smallest number of
-syllables. If circuitous phrases and needless expletives distract
-the attention and diminish the strength of the impression produced,
-then so, too, must surplus articulations. A certain effort, though
-commonly an inappreciable one, is required to recognize every vowel
-and consonant. If, as all know, it is tiresome to listen to an
-indistinct speaker, or to read an ill-written manuscript; and if, as
-we cannot doubt, the fatigue is a cumulative result of the attention
-needed to catch successive syllables; it follows that attention is
-in such cases absorbed by each syllable. And this being so when the
-syllables are difficult of recognition, it will be so too, though
-in a less degree, when the recognition of them is easy. Hence, the
-shortness of Saxon words becomes a reason for their greater force. One
-qualification, however, must not be overlooked. A word which embodies
-the most important part of the idea to be conveyed, especially when
-emotion is to be produced, may often with advantage be a polysyllabic
-word. Thus it seems more forcible to say—“It is _magnificent_,”
-than—“It is _grand_.” The word _vast_ is not so powerful a one as
-_stupendous_. Calling a thing _nasty_ is not so effective as calling
-it _disgusting_. There seem to be several causes for this exceptional
-superiority of certain long words. We may ascribe it partly to the
-fact that a voluminous, mouth-filling epithet is, by its very size,
-suggestive of largeness or strength, as is shown by the pomposity of
-sesquipedalian verbiage; and when great power or {338} intensity has
-to be suggested, this association of ideas aids the effect. A further
-cause may be that a word of several syllables admits of more emphatic
-articulation; and as emphatic articulation is a sign of emotion,
-the unusual impressiveness of the thing named is implied by it. Yet
-another cause is that a long word (of which the latter syllables
-are generally inferred as soon as the first are spoken) allows the
-hearer’s consciousness more time to dwell on the quality predicated;
-and where, as in the above cases, it is to this predicated quality that
-the entire attention is called, an advantage results from keeping it
-before the mind for an appreciable interval. To make our generalization
-quite correct we must therefore say, that while in certain sentences
-expressing feeling, the word which more especially implies that
-feeling may often with advantage be a many-syllabled one; in the
-immense majority of cases, each word, serving but as a step to the
-idea embodied by the whole sentence, should, if possible, be a single
-syllable.
-
-Once more, that frequent cause of strength in Saxon and other primitive
-words—their onomatopœia, may be similarly resolved into the more
-general cause. Both those directly imitative, as _splash_,_bang_,
-_whiz_, _roar_, &c., and those analogically imitative, as _rough_,
-_smooth_, _keen_, _blunt_, _thin_, _hard_, _crag_, &c., have a greater
-or less likeness to the things symbolized; and by making on the ears
-impressions allied to the ideas to be called up, they save part of the
-effort needed to call up such ideas, and leave more attention for the
-ideas themselves.
-
-Economy of the recipient’s mental energy may be assigned, too, as a
-manifest cause for the superiority of specific over generic words.
-That concrete terms produce more vivid impressions than abstract
-ones, and should, when possible, be used instead, is a current maxim
-of composition. As Dr. Campbell says, “The more general the terms
-are, the picture is the fainter; the more special {339} they are, the
-brighter.” When aiming at effect we should avoid such a sentence as:
-
-―― When the manners, customs, and amusements of a nation are cruel and
-barbarous, the regulations of their penal code will be severe.
-
-And in place of it we should write:
-
-―― When men delight in battles, bull-fights, and combats of gladiators,
-will they punish by hanging, burning, and the rack.
-
-This superiority of specific expressions is clearly due to a saving
-of the effort required to translate words into thoughts. As we do not
-think in generals but in particulars—as, whenever any class of things
-is named, we represent it to ourselves by calling to mind individual
-members of the class; it follows that when a general word is used, the
-hearer or reader has to choose from his stock of images, one or more,
-by which he may figure to himself the whole group. In doing this,
-some delay must arise—some force be expended; and if, by employing
-a specific term, an appropriate image can be at once suggested, an
-economy is achieved, and a more vivid impression produced.
-
-Turning now from the choice of words to their sequence, we find the
-same principle hold good. We have _a priori_ reasons for believing that
-there is some one order of words by which every proposition may be more
-effectively expressed than by any other; and that this order is the
-one which presents the elements of the proposition in the succession
-in which they may be most readily put together. As in a narrative, the
-events should be stated in such sequence that the mind may not have to
-go backwards and forwards in order to rightly connect them; as in a
-group of sentences, the arrangement should be such that each of them
-may be understood as it comes, without waiting for subsequent ones; so
-in every sentence, the sequence of words should be that which suggests
-the constituents of the thought in the order most convenient for
-building it {340} up. Duly to enforce this truth, and to prepare the
-way for applications of it, we must analyze the mental act by which the
-meaning of a series of words is apprehended.
-
-We cannot more simply do this than by considering the proper
-collocation of substantive and adjective. Is it better to place the
-adjective before the substantive, or the substantive before the
-adjective? Ought we to say with the French—_un cheval noir_; or to say
-as we do—a black horse? Probably, most persons of culture will say
-that one order is as good as the other. Alive to the bias produced by
-habit, they will ascribe to that the preference they feel for our own
-form of expression. They will expect those educated in the use of the
-opposite form to have an equal preference for that. And thus they will
-conclude that neither of these instinctive judgments is of any worth.
-There is, however, a psychological ground for deciding in favour of the
-English custom. If “a horse black” be the arrangement, then immediately
-on the utterance of the word “horse,” there arises, or tends to arise,
-in the mind, an idea answering to that word; and as there has been
-nothing to indicate what _kind_ of horse, any image of a horse suggests
-itself. Very likely, however, the image will be that of a brown horse:
-brown horses being the most familiar. The result is that when the word
-“black” is added, a check is given to the process of thought. Either
-the picture of a brown horse already present to the imagination has to
-be suppressed, and the picture of a black one summoned in its place;
-or else, if the picture of a brown horse be yet unformed, the tendency
-to form it has to be stopped. Whichever is the case, some hindrance
-results. But if, on the other hand, “a black horse” be the expression
-used, no mistake can be made. The word “black,” indicating an abstract
-quality, arouses no definite idea. It simply prepares the mind for
-conceiving some object of that colour; and the attention is kept
-suspended until that object is known. If, then, by {341} precedence of
-the adjective, the idea is always conveyed rightly, whereas precedence
-of the substantive is apt to produce a misconception; it follows that
-the one gives the mind less trouble than the other, and is therefore
-more forcible.
-
-Possibly it will be objected that the adjective and substantive come
-so close together, that practically they may be considered as uttered
-at the same moment; and that on hearing the phrase, “a horse black,”
-there is not time to imagine a wrongly coloured horse before the word
-“black” follows to prevent it. It must be owned that it is not easy
-to decide by introspection whether this is so or not. But there are
-facts collaterally implying that it is not. Our ability to anticipate
-the words yet unspoken is one of them. If the ideas of the hearer
-lingered behind the expressions of the speaker, as the objection
-assumes, he could hardly foresee the end of a sentence by the time it
-was half delivered; yet this constantly happens. Were the supposition
-true, the mind, instead of anticipating, would fall more and more
-in arrear. If the meanings of words are not realized as fast as the
-words are uttered, then the loss of time over each word must entail an
-accumulation of delays and leave a hearer entirely behind. But whether
-the force of these replies be or be not admitted, it will scarcely be
-denied that the right formation of a picture must be facilitated by
-presenting its elements in the order in which they are wanted; even
-though the mind should do nothing until it has received them all.
-
-What is here said respecting the succession of the adjective and
-substantive is applicable, by change of terms, to the adverb and verb.
-And without further explanation, it will be manifest, that in the use
-of prepositions and other particles, most languages spontaneously
-conform with more or less completeness to this law.
-
-On similarly analyzing sentence considered as vehicles for entire
-propositions, we find not only that the same principle holds good,
-but that the advantage of respecting {342} it becomes marked. In the
-arrangement of predicate and subject, for example, we are at once shown
-that as the predicate determines the aspect under which the subject is
-to be conceived, it should be placed first; and the striking effect
-produced by so placing it becomes comprehensible. Take the often-quoted
-contrast between—“Great is Diana of the Ephesians,” and—“Diana of
-the Ephesians is great.” When the first arrangement is used, the
-utterance of the word “great,” arousing vague associations of an
-imposing nature prepares the imagination to clothe with high attributes
-whatever follows; and when the words, “Diana of the Ephesians” are
-heard, appropriate imagery already nascent in thought, is used in the
-formation of the picture: the mind being thus led directly, and without
-error, to the intended impression. But when the reverse order is
-followed, the idea, “Diana of the Ephesians,” is formed with no special
-reference to greatness; and when the words, “is great,” are added,
-it has to be formed afresh; whence arises a loss of mental energy,
-and a corresponding diminution of effect. The following verse from
-Coleridge’s “Ancient Mariner,” though incomplete as a sentence, well
-illustrates the same truth.
-
- “_Alone, alone, all, all alone,_
-  _Alone on a wide wide sea!_
-  _And never a saint took pity on_
-  _My soul in agony.”_
-
-Of course the principle equally applies when the predicate is a
-verb or a participle. And as effect is gained by placing first all
-words indicating the quality, conduct, or condition of the subject,
-it follows that the copula also should have precedence. It is true,
-that the general habit of our language resists this arrangement of
-predicate, copula, and subject; but we may readily find instances of
-the additional force gained by conforming to it. Thus in the line from
-“Julius Cæsar”―
-
- “Then _burst_ his mighty heart,”
-
-priority is given to a word embodying both predicate and {343} copula.
-In a passage contained in Sir W. Scott’s “Marmion,” the like order is
-systematically employed with great effect:
-
- “The Border slogan rent the sky!
- _A Home! a Gordon! was_ the cry;
- _Loud were_ the clanging blows;
- _Advanced,—forced back,—now low, now high,_
-   The pennon sunk and rose;
- As _bends_ the bark’s mast in the gale
- When _rent are_ rigging, shrouds, and sail,
-   It waver’d ’mid the foes.”
-
-Pursuing the principle further, it is obvious that for producing the
-greatest effect, not only should the main divisions of a sentence
-observe this sequence, but the sub-divisions of these should have
-their parts similarly arranged. In nearly all cases, the predicate
-is accompanied by some limit or qualification called its complement.
-Commonly, also, the circumstances of the subject, which form its
-complement, have to be specified. And as these qualifications and
-circumstances must determine the mode in which the acts and things
-they belong to are conceived, precedence should be given to them. Lord
-Kaimes notices the fact that this order is preferable; though without
-giving the reason. He says:—“When a circumstance is placed at the
-beginning of the period, or near the beginning, the transition from
-it to the principal subject is agreeable: is like ascending or going
-upward.” A sentence arranged in illustration of this will be desirable.
-Here is one:
-
-―― Whatever it may be in theory, it is clear that in practice the
-French idea of liberty is—the right of every man to be master of the
-rest.
-
-In this case, were the first two clauses, up to the word “practice”
-inclusive, which qualify the subject, to be placed at the end instead
-of the beginning, much of the force would be lost; as thus:
-
-―― The French idea of liberty is—the right of every man to be master of
-the rest; in practice at least, if not in theory.
-
-Similarly with respect to the conditions under which any {344} fact is
-predicated. Observe in the following example the effect of putting them
-last:
-
-―― How immense would be the stimulus to progress, were the honour now
-given to wealth and title given exclusively to high achievements and
-intrinsic worth!
-
-And then observe the superior effect of putting them first:
-
-―― Were the honour now given to wealth and title given exclusively
-to high achievements and intrinsic worth, how immense would be the
-stimulus to progress!
-
-The effect of giving priority to the complement of the predicate, as
-well as the predicate itself, is finely displayed in the opening of
-“Hyperion:”
-
- “_Deep in the shady sadness of a vale_
-  _Far sunken from the healthy breath of morn,_
-  _Far from the fiery noon, and eve’s one star,_
-  _Sat_ grey-haired Saturn, quiet as a stone.”
-
-Here we see, not only that the predicate “sat” precedes the subject
-“Saturn,” and that the three lines in italics, constituting the
-complement of the predicate, come before it; but that in the structure
-of this complement also, the same order is followed: each line being
-so composed that the qualifying words are placed before the words
-suggesting concrete images.
-
-The right succession of the principal and subordinate propositions
-in a sentence depends on the same law. Regard for economy of the
-recipient’s attention, which, as we find, determines the best order
-for the subject, copula, predicate, and their complements, dictates
-that the subordinate proposition shall precede the principal one, when
-the sentence includes two. Containing, as the subordinate proposition
-does, some qualifying or explanatory idea, its priority prevents
-misconception of the principal one; and therefore saves the mental
-effort needed to correct such misconception. This will be seen in the
-annexed example.
-
-―― The secrecy once maintained in respect to the parliamentary debates,
-is still thought needful in diplomacy; and diplomacy being secret,
-England may any day be {345} unawares betrayed by its ministers into
-a war costing a hundred thousand lives, and hundreds of millions of
-treasure: yet the English pique themselves on being a self-governed
-people.
-
-The two subordinate propositions, ending with the semicolon and colon
-respectively, almost wholly determine the meaning of the principal
-proposition with which the sentence concludes; and the effect would be
-lost were they placed last instead of first.
-
-From this general principle of right arrangement may also be inferred
-the proper order of those minor divisions into which the major
-divisions of sentences may be decomposed. In every sentence of any
-complexity the complement to the subject contains several clauses,
-and that to the predicate several others; and these may be arranged
-in greater or less conformity to the law of easy apprehension. Of
-course with these, as with the larger members, the succession should be
-from the less specific to the more specific—from the abstract to the
-concrete.
-
-Now however we must notice a further condition to be fulfilled in the
-proper construction of a sentence; but still a condition dictated by
-the same general principle with the other: the condition, namely,
-that the words or the expressions which refer to the most nearly
-connected thoughts shall be brought the closest together. Evidently
-the single words, the minor clauses, and the leading divisions of
-every proposition, severally qualify each other. The longer the time
-that elapses between the mention of any qualifying member and the
-member qualified, the longer must the mind be exerted in carrying
-forward the qualifying member ready for use. And the more numerous the
-qualifications to be simultaneously remembered and rightly applied,
-the greater will be the mental power expended, and the smaller the
-effect produced. Hence, other things equal, force will be gained by
-so arranging the members of a sentence that these suspensions shall
-at any moment be the fewest in {346} number; and shall also be of
-the shortest duration. The following is an instance of defective
-combination.
-
-―― A modern newspaper-statement, though probably true, would be laughed
-at, if quoted in a book as testimony; but the letter of a court gossip
-is thought good historical evidence, if written some centuries ago.
-
-A re-arrangement of this, in accordance with the principle indicated
-above, will be found to increase the effect. Thus:
-
-―― Though probably true, a modern newspaper-statement quoted in a book
-as testimony, would be laughed at; but the letter of a court gossip, if
-written some centuries ago, is thought good historical evidence.
-
-By making this change, some of the suspensions are avoided and
-others shortened; while there is less liability to produce premature
-conceptions. The passage quoted below from “Paradise Lost” affords a
-fine instance of a sentence well arranged; alike in the priority of the
-subordinate members, in the avoidance of long and numerous suspensions,
-and in the correspondence between the sequence of the clauses and the
-sequence of the phenomena described, which, by the way, is a further
-prerequisite to easy apprehension, and therefore to effect.
-
-                   “As when a prowling wolf,
- Whom hunger drives to seek new haunt for prey,
- Watching where shepherds pen their flocks at eve,
- In hurdled cotes amid the field secure,
- Leaps o’er the fence with ease into the fold:
- Or as a thief, bent to unhoard the cash
- Of some rich burgher, whose substantial doors,
- Cross-barr’d and bolted fast, fear no assault,
- In at the window climbs, or o’er the tiles:
- So clomb the first grand Thief into God’s fold;
- So since into his Church lewd hirelings climb.”
-
-The habitual use of sentences in which all or most of the descriptive
-and limiting elements precede those described and limited, gives rise
-to what is called the inverted style: a title which is, however, by no
-means confined to this {347} structure, but is often used where the
-order of the words is simply unusual. A more appropriate title would be
-the _direct style_, as contrasted with the other, or _indirect style_:
-the peculiarity of the one being, that it conveys each thought step by
-step with little liability to error; and of the other, that it conveys
-each thought by a series of approximations, which successively correct
-the erroneous preconceptions that have been raised.
-
-The superiority of the direct over the indirect form of sentence,
-implied by the several conclusions above drawn, must not, however, be
-affirmed without reservation. Though, up to a certain point, it is well
-for the qualifying clauses of a proposition to precede those qualified;
-yet, as carrying forward each qualifying clause costs some mental
-effort, it follows that when the number of them and the time they are
-carried become great, we reach a limit beyond which more is lost than
-is gained. Other things equal, the arrangement should be such that no
-concrete image shall be suggested until the materials out of which it
-is to be framed have been presented. And yet, as lately pointed out,
-other things equal, the fewer the materials to be held at once, and the
-shorter the distance they have to be borne, the better. Hence in some
-cases it becomes a question whether most mental effort will be entailed
-by the many and long suspensions, or by the correction of successive
-misconceptions.
-
-This question may sometimes be decided by considering the capacity
-of the persons addressed. A greater grasp of mind is required for
-the ready apprehension of thoughts expressed in the direct manner,
-where the sentences are anywise intricate. To recollect a number of
-preliminaries stated in elucidation of a coming idea, and to apply
-them all to the formation of it when suggested, demands a good memory
-and considerable power of concentration. To one possessing these, the
-direct method will mostly seem the best; while to one deficient in
-them it will seem the worst. {348} Just as it may cost a strong man
-less effort to carry a hundred-weight from place to place at once,
-than by a stone at a time; so, to an active mind it may be easier to
-bear along all the qualifications of an idea and at once rightly form
-it when named, than to first imperfectly conceive such idea, and then
-carry back to it, one by one, the details and limitations afterwards
-mentioned. While conversely, as for a boy the only possible mode of
-transferring a hundred-weight, is that of taking it in portions;
-so, for a weak mind, the only possible mode of forming a compound
-conception may be that of building it up by carrying separately its
-several parts.
-
-That the indirect method—the method of conveying the meaning by
-a series of approximations—is best fitted for the uncultivated,
-may indeed be inferred from their habitual use of it. The form
-of expression adopted by the savage, as in—“Water, give me,” is
-the simplest type of this arrangement. In pleonasms, which are
-comparatively prevalent among the uneducated, the same essential
-structure is seen; as, for instance in—“The men, they were there.”
-Again, the old possessive case—“The king, his crown,” conforms to
-the like order of thought. Moreover, the fact that the indirect mode
-is called the natural one, implies that it is the one spontaneously
-employed by the common people; that is—the one easiest for
-undisciplined minds.
-
-There are many cases, however, in which neither the direct nor the
-indirect mode is the best; but in which an intermediate mode is
-preferable to both. When the number of circumstances and qualifications
-to be included in the sentence is great, the judicious course is
-neither to enumerate them all before introducing the idea to which they
-belong, nor to put this idea first and let it be remodelled to agree
-with the particulars afterwards mentioned; but to do a little of each.
-It is desirable to avoid so extremely indirect an arrangement as the
-following:―
-
-―― “We came to our journey’s end, at last, with no {349} small
-difficulty, after much fatigue, through deep roads, and bad weather.”
-
-Yet to transform this into an entirely direct sentence would be
-unadvisable; as witness:―
-
-―― At last, with no small difficulty, after much fatigue, through deep
-roads, and bad weather, we came to our journey’s end.
-
-Dr. Whately, from whom we quote the first of these two arrangements,
-proposes this construction:―
-
-―― “At last, after much fatigue, through deep roads and bad weather, we
-came, with no small difficulty, to our journey’s end.”
-
-Here by introducing the words “we came” a little earlier in the
-sentence, the labour of carrying forward so many particulars is
-diminished, and the subsequent qualification “with no small difficulty”
-entails an addition to the thought that is easily made. But a
-further improvement may be effected by putting the words “we came”
-still earlier; especially if at the same time the qualifications be
-rearranged in conformity with the principle already explained, that
-the more abstract elements of the thought should come before the more
-concrete. Observe the result of making these two changes:
-
-―― At last, with no small difficulty, and after much fatigue, we came,
-through deep roads and bad weather, to our journey’s end.
-
-This reads with comparative smoothness; that is—with less hindrance
-from suspensions and reconstructions of thought.
-
-It should be further remarked, that even when addressing vigorous
-intellects, the direct mode is unfit for communicating ideas of a
-complex or abstract character. So long as the mind has not much to
-do, it may be well able to grasp all the preparatory clauses of a
-sentence, and to use them effectively; but if some subtlety in the
-argument absorb the attention it may happen that the mind, doubly {350}
-strained, will break down, and allow the elements of the thought to
-lapse into confusion.
-
-       *       *       *       *       *
-
-Let us pass now to figures of speech. In them we may equally discern
-the same general law of effect. Implied in rules given for the
-choice and right use of them, we shall find the same fundamental
-requirement—economy of attention. It is indeed chiefly because they so
-well subserve this requirement, that figures of speech are employed.
-
-Let us begin with the figure called Synecdoche. The advantage sometimes
-gained by putting a part for the whole, is due to the more convenient,
-or more vivid, presentation of the idea. If, instead of writing “a
-fleet of ten ships,” we write “a fleet of ten _sail_,” the picture
-of a group of vessels at sea is more readily suggested; and is so
-because the sails constitute the most conspicuous parts of vessels so
-circumstanced. To say, “All _hands_ to the pumps,” is better than to
-say, “All _men_ to the pumps;” as it calls up a picture of the men in
-the special attitude intended, and so saves effort. Bringing “_grey
-hairs_ with sorrow to the grave,” is another expression, the effect of
-which has the same cause.
-
-The effectiveness of Metonymy may be similarly accounted for. “The low
-morality of _the bar_,” is a phrase both more brief and significant
-than the literal one it stands for. A belief in the ultimate supremacy
-of intelligence over brute force, is conveyed in a more concrete form,
-and therefore more representable form, if we substitute _the pen_ and
-_the sword_ for the two abstract terms. To say, “Beware of drinking!”
-is less effective than to say, “Beware of _the bottle_!” and is so,
-clearly because it calls up a less specific image.
-
-The Simile is in many cases used chiefly with a view to ornament; but
-whenever it increases the _force_ of a passage, it does so by being an
-economy. Here is an instance.
-
-―― The illusion that great men and great events came {351} oftener
-in early times than they come now, is due partly to historical
-perspective. As in a range of equidistant columns, the furthest off
-seem the closest; so, the conspicuous objects of the past seem more
-thickly clustered the more remote they are.
-
-To express literally the thought thus conveyed, would take many
-sentences; and the first elements of the picture would become faint
-while the imagination was busy in adding the others. But by the help of
-a comparison much of the effort otherwise required is saved.
-
-Concerning the position of the Simile,[54] it needs only to
-remark, that what has been said about the order of the adjective
-and substantive, predicate and subject, principal and subordinate
-propositions, &c., is applicable here. As whatever qualifies should
-precede whatever is qualified, force will generally be gained by
-placing the simile before the object or act to which it is applied.
-That this arrangement is the best, may be seen in the following passage
-from the “Lady of the Lake:”―
-
- “As wreath of snow, on mountain breast,
- Slides from the rock that gave it rest,
- Poor Ellen glided from her stay,
- And at the monarch’s feet she lay.”
-
-Inverting these couplets will be found to diminish the effect
-considerably. There are cases, however, even where the simile is a
-simple one, in which it may with advantage be placed last; as in these
-lines from Alexander Smith’s “Life Drama:”―
-
-             “I see the future stretch
- All dark and barren as a rainy sea.”
-
-The reason for this seems to be, that so abstract an idea as that
-attaching to the word “future,” does not present {352} itself to the
-mind in any definite form; and hence the subsequent arrival at the
-simile entails no reconstruction of the thought.
-
-Such however are not the only cases in which this order is the more
-forcible. As putting the simile first is advantageous only when it is
-carried forward in the mind to assist in forming an image of the object
-or act; it must happen that if, from length or complexity, it cannot be
-so carried forward, the advantage is not gained. The annexed sonnet, by
-Coleridge, is defective from this cause.
-
- “As when a child, on some long winter’s night,
- Affrighted, clinging to its grandam’s knees,
- With eager wond’ring and perturb’d delight
- Listens strange tales of fearful dark decrees,
- Mutter’d to wretch by necromantic spell;
- Or of those hags who at the witching time
- Of murky midnight, ride the air sublime,
- And mingle foul embrace with fiends of hell;
- Cold horror drinks its blood! Anon the tear
- More gentle starts, to hear the beldame tell
- Of pretty babes, that lov’d each other dear,
- Murder’d by cruel uncle’s mandate fell:
- Ev’n such the shiv’ring joys thy tones impart,
- Ev’n so, thou, Siddons, meltest my sad heart.”
-
-Here, from the lapse of time and accumulation of circumstances,
-the first member of the comparison is forgotten before the second
-is reached; and requires re-reading. Had the main idea been first
-mentioned, less effort would have been required to retain it, and to
-modify the conception of it into harmony with the illustrative ideas,
-than to remember the illustrative ideas, and refer back to them for
-help in forming the final image.
-
-The superiority of the Metaphor to the Simile is ascribed by Dr.
-Whately to the fact that “all men are more gratified at catching the
-resemblance for themselves, than in having it pointed out to them.” But
-after what has been said, the great economy it achieves will seem the
-more probable cause. Lear’s exclamation―
-
- “Ingratitude! thou marble-hearted fiend,” {353}
-
-would lose part of its effect were it changed into―
-
- “Ingratitude! thou fiend with heart like marble;”
-
-and the loss would result partly from the position of the simile and
-partly from the extra number of words required. When the comparison is
-an involved one, the greater force of the metaphor, due to its relative
-brevity, becomes much more conspicuous. If, drawing an analogy between
-mental and physical phenomena, we say,
-
-―― As, in passing through a crystal, beams of white light are
-decomposed into the colours of the rainbow; so, in traversing the
-soul of the poet, the colourless rays of truth are transformed into
-brightly-tinted poetry;―― it is clear that in receiving the two sets
-of words expressing the two halves of the comparison, and in carrying
-the meaning of the one to help in interpreting the other, considerable
-attention is absorbed. Most of this is saved by putting the comparison
-in a metaphorical form, thus:―
-
-―― The white light of truth, in traversing the many-sided transparent
-soul of the poet, is refracted into iris-hued poetry. How much is
-conveyed in a few words by using Metaphor, and how vivid the effect
-consequently produced, is everywhere shown. From “A Life Drama” may be
-quoted the phrase,
-
- “I spear’d him with a jest,”
-
-as a fine instance among the many which that poem contains. A passage
-in the “Prometheus Unbound,” of Shelley, displays the power of the
-metaphor to great advantage.
-
-       “Methought among the lawns together
- We wandered, underneath the young gray dawn,
- And multitudes of dense white fleecy clouds
- Were wandering in thick flocks along the mountains
- _Shepherded_ by the slow unwilling wind.”
-
-This last expression is remarkable for the distinctness with which it
-calls up the features of the scene; bringing the mind by a bound to the
-desired conception.
-
-But a limit is put to the advantageous use of Metaphor, {354} by the
-condition that it must be simple enough to be understood from a hint.
-Evidently, if there be any obscurity in the meaning or application of
-it, no economy of attention will be achieved; but rather the reverse.
-Hence, when the comparison is complex, it is better to put it in the
-form of a Simile. There is, however, a species of figure, sometimes
-classed under Allegory, but which might well be called Compound
-Metaphor, that enables us to retain the brevity of the metaphorical
-form even where the analogy is intricate. This is done by indicating
-the application of the figure at the outset, and then leaving the
-reader or hearer to continue the parallel. Emerson has employed it with
-great effect in the first of his _Lectures on the Times_.
-
- “The main interest which any aspects of the Times can have for us, is
- the great spirit which gazes through them, the light which they can
- shed on the wonderful questions, What are we? and Whither do we tend?
- We do not wish to be deceived. Here we drift, like white sail across
- the wild ocean, now bright on the wave, now darkling in the trough of
- the sea; but from what port did we sail? Who knows? Or to what port
- are we bound? Who knows? There is no one to tell us but such poor
- weather-tossed mariners as ourselves, whom we speak as we pass, or who
- have hoisted some signal, or floated to us some letter in a bottle
- from afar. But what know they more than we? They also found themselves
- on this wondrous sea. No; from the older sailors nothing. Over all
- their speaking-trumpets the gray sea and the loud winds answer—Not in
- us; not in Time.”
-
-The division of Simile from Metaphor is by no means definite. Between
-the one extreme in which the two elements of the comparison are
-detailed at full length and the analogy pointed out, and the other
-extreme in which the comparison is implied instead of stated, come
-intermediate forms, in which the comparison is partly stated and partly
-implied. For instance:―
-
-―― Astonished at the performances of the English plough, the Hindoos
-paint it, set it up, and worship it; thus turning a tool into an idol.
-Linguists do the same with language.—Here there is an evident advantage
-in leaving the reader or hearer to complete the figure. And generally
-these {355} intermediate forms are good in proportion as they do this;
-provided the mode of completion be obvious.
-
-Passing over much that may be said of like purport on Hyperbole,
-Personification, Apostrophe, &c., let us close our remarks on
-construction by a typical example of effective expression. The general
-principle which has been enunciated is that, other things equal, the
-force of a verbal form or arrangement is great, in proportion as the
-mental effort demanded from the recipient is small. The corollaries
-from this general principle have been severally illustrated. But
-though conformity now to this and now to that requirement has been
-exemplified, no case of entire conformity has yet been quoted. It is
-indeed difficult to find one; for the English idiom does not commonly
-permit the order which theory dictates. A few, however, occur in
-Ossian. Here is one:―
-
- “Like autumn’s dark storms pouring from two echoing hills, towards
- each other approached the heroes. Like two deep streams from high
- rocks meeting, mixing, roaring on the plain: loud, rough, and dark in
- battle meet Lochlin and Inisfail. * * * As the noise of the troubled
- ocean when roll the waves on high; as the last peal of the thunder of
- heaven; such is the din of war.”
-
-Except in the position of the verb in the first two similes, the
-theoretically best arrangement is fully carried out in each of these
-sentences. The simile comes before the qualified image, the adjectives
-before the substantives, the predicate and copula before the subject,
-and their respective complements before them. That the passage is
-bombastic proves nothing; or rather, proves our case. For what is
-bombast but a force of expression too great for the magnitude of the
-ideas embodied? All that may rightly be inferred is, that only in rare
-cases should _all_ the conditions to effective expression be fulfilled.
-
-       *       *       *       *       *
-
-A more complex application of the theory may now be {356} made. Not
-only in the structures of sentences, and the uses of figures of speech,
-may we trace economy of the recipient’s mental energy as the cause of
-force; but we may trace this same cause in the successful choice and
-arrangement of the minor images out of which some large thought is to
-be built. To select from a scene or event described, those elements
-which carry many others with them; and so, by saying a few things but
-suggesting many, to abridge the description; is the secret of producing
-a vivid impression. An extract from Tennyson’s “Mariana” will well
-illustrate this.
-
- “All day within the dreamy house,
- The doors upon their hinges creaked,
- The blue fly sung in the pane; the mouse
- Behind the mouldering wainscot shriek’d,
- Or from the crevice peer’d about.”
-
-The several circumstances here specified bring with them many
-appropriate associations. When alone the creaking of a distant door
-is much more obtrusive than when talking to friends. Our attention
-is rarely drawn by the buzzing of a fly in the window, save when
-everything is still. While the inmates are moving about the house,
-mice usually keep silence; and it is only when extreme quietness
-reigns that they peep from their retreats. Hence each of the facts
-mentioned, presupposing various others, calls up these with more or
-less distinctness; and revives the feeling of dull solitude with
-which they are connected in our experience. Were all of them detailed
-instead of suggested, the mental energies would be so frittered away
-in attending that little impression of dreariness would be produced.
-Similarly in other cases. In the choice of component ideas, as in the
-choice of expressions, the aim must be to convey the greatest quantity
-of thoughts with the smallest quantity of words.
-
-The same principle may sometimes be advantageously carried yet further,
-by indirectly suggesting some entirely {357} distinct thought in
-addition to the one expressed. Thus if we say,
-
-―― The head of a good classic is as full of ancient myths, as that of
-a servant-girl of ghost stories; it is manifest that besides the fact
-asserted, there is an implied opinion respecting the small value of
-much that passes as classical learning; and as this implied opinion
-is recognized much sooner than it can be put into words, there is
-gain in omitting it. In other cases, again, great effect is produced
-by an overt omission; provided the nature of the idea left out is
-obvious. A good instance occurs in _Heroes and Hero-worship_. After
-describing the way in which Burns was sacrificed to the idle curiosity
-of lion-hunters—people who sought to amuse themselves, and who got
-their amusement while “the Hero’s life went for it!” Carlyle suggests a
-parallel thus:―
-
-“Richter says, in the Island of Sumatra there is a kind of
-‘Light-chafers,’ large Fire-flies, which people stick upon spits, and
-illuminate the ways with at night. Persons of condition can thus travel
-with a pleasant radiance, which they much admire. Great honour to the
-Fire-flies! But—!—”
-
-       *       *       *       *       *
-
-Before inquiring whether the law of effect thus far traced, explains
-the impressiveness of poetry as compared with prose, it will be needful
-to notice some causes of force in expression which had not yet been
-mentioned. These are not, properly speaking, additional causes; but
-rather secondary ones, originating from those already specified.
-One is that mental excitement spontaneously prompts those forms of
-speech which have been pointed out as the most effective. “Out with
-him!” “Away with him!” are the cries of angry citizens at a disturbed
-meeting. A voyager, describing a terrible storm he had witnessed, would
-rise to some such climax as—“Crack went the ropes, and down came the
-mast.” Astonishment {358} may be heard expressed in the phrase—“Never
-was there such a sight!” All of which sentences are constructed after
-the direct type. Again, there is the fact that excited persons are
-given to figures of speech. The vituperation of the vulgar abounds with
-them. “Beast,” “brute,” “gallows rogue,” “cut-throat villain,” these,
-and like metaphors or metaphorical epithets, call to mind a street
-quarrel. Further, it may be noticed that extreme brevity is a trait
-of passionate language. The sentences are generally incomplete; and
-frequently important words are left to be gathered from the context.
-Great admiration does not vent itself in a precise proposition, as—“It
-is beautiful;” but in the simple exclamation,—“Beautiful!” He who, when
-reading a lawyer’s letter, should say, “Vile rascal!” would be thought
-angry; while, “He is a vile rascal,” would imply comparative coolness.
-Thus alike in the order of the words, in the frequent use of figures,
-and in extreme conciseness, the natural utterances of excitement
-conform to the theoretical conditions to forcible expression.
-
-Hence such forms of speech acquire a secondary strength from
-association. Having, in daily intercourse, heard them in connection
-with vivid mental impressions; and having been accustomed to meet with
-them in writing of unusual power; they come to have in themselves
-a species of force. The emotions that have from time to time been
-produced by the strong thoughts wrapped up in these forms, are
-partially aroused by the forms themselves. These create a preparatory
-sympathy; and when the striking ideas looked for are reached, they are
-the more vividly pictured.
-
-The continuous use of words and forms that are alike forcible in
-themselves and forcible from their associations, produces the
-impressive species of composition which we call poetry. The poet
-habitually adopts those symbols of thought, and those methods of
-using them, which instinct {359} and analysis agree in choosing as
-most effective. On turning back to the various specimens which have
-been quoted, it will be seen that the direct or inverted form of
-sentence predominates in them; and that to a degree inadmissible in
-prose. Not only in the frequency, but in what is termed the violence
-of the inversions, may this distinction be remarked. The abundant
-use of figures, again, exhibits the same truth. Metaphors, similes,
-hyperboles, and personifications, are the poet’s colours, which he has
-liberty to employ almost without limit. We characterize as “poetical”
-the prose which uses these appliances of language with frequency;
-and condemn it as “over florid” or “affected” long before they occur
-with the profusion allowed in verse. Once more, in brevity—the other
-requisite of forcible expression which theory points out and emotion
-spontaneously fulfils—poetical phraseology differs from ordinary
-phraseology. Imperfect periods are frequent; elisions are perpetual;
-and many minor words which would be deemed essential in prose, are
-dispensed with.
-
-Thus poetry is especially impressive partly because it conforms to
-all the laws of effective speech, and partly because in so doing
-it imitates the natural utterances of excitement. While the matter
-embodied is idealized emotion, the vehicle is the idealized language
-of emotion. As the musical composer catches the cadences in which our
-feelings of joy and sympathy, grief and despair, vent themselves,
-and out of these germs evolves melodies suggesting higher phases of
-these feelings; so, the poet develops from the typical expressions in
-which men utter passion and sentiment, those choice forms of verbal
-combination in which concentrated passion and sentiment may be fitly
-presented.
-
-There is one peculiarity of poetry conducing much to its effect—the
-peculiarity which is indeed usually thought its characteristic
-one—still remaining to be considered: we {360} mean its rhythmical
-structure. This, improbable though it seems, will be found to come
-under the same generalization with the others. Like each of them, it
-is an idealization of the natural language of emotion, which is not
-uncommonly more or less metrical if the emotion be not too violent; and
-like each of them it economizes the reader’s or hearer’s attention. In
-the peculiar tone and manner we adopt in uttering versified language,
-may be discerned its relationship to the feelings; and the pleasure
-which its measured movement gives, is ascribable to the comparative
-ease with which words metrically arranged can be recognized. This last
-position will not be at once admitted; but explanation will justify it.
-If, as we have seen, there is an expenditure of mental energy in so
-listening to verbal articulations as to identify the words, or in that
-silent repetition of them which goes on in reading, then, any mode of
-so combining words as to present a regular recurrence of certain traits
-which can be anticipated, will diminish that strain on the attention
-entailed by the total irregularity of prose. Just as the body, when
-receiving a series of varying concussions, must keep its muscles ready
-to meet the most violent of them, as not knowing when such may come;
-so, the mind when receiving unarranged articulations, must keep its
-perceptive faculties active enough to recognize the least easily caught
-sounds. And as, if the concussions recur in a definite order, the body
-may husband its forces by adjusting the resistance needful for each
-concussion; so, if the syllables be rhythmically arranged, the mind may
-economize its energies by anticipating the attention required for each
-syllable. Far-fetched though this idea will be thought, introspection
-countenances it. That we _do_ take advantage of metrical language to
-adjust our perceptive faculties to the expected articulations, is clear
-from the fact that we are balked by halting versification. Much as at
-the bottom of a flight of stairs, a step more or less than we counted
-upon gives us a {361} shock; so, too, does a misplaced accent or a
-supernumerary syllable. In the one case, we _know_ that there is an
-erroneous pre-adjustment; and we can scarcely doubt that there is one
-in the other. But if we habitually pre-adjust our perceptions to the
-measured movement of verse, the physical analogy above given renders
-it probable that by so doing we economize attention; and hence that
-metrical language is more effective than prose, because it enables us
-to do this.
-
-Were there space, it might be worth while to inquire whether the
-pleasure we take in rhyme, and also that which we take in euphony, are
-not partly ascribable to the same general cause.
-
-       *       *       *       *       *
-
-A few paragraphs only, can be devoted to a second division of our
-subject. To pursue in detail the laws of effect, as applying to the
-larger features of composition, would carry us beyond our limits. But
-we may briefly indicate a further aspect of the general principle
-hitherto traced, and hint a few of its wider applications.
-
-Thus far, we have considered only those causes of force in language
-which depend on economy of the mental _energies_. We have now to
-glance at those which depend on economy of the mental _sensibilities_.
-Questionable though this division may be as a psychological one, it
-will serve roughly to indicate the remaining field of investigation.
-It will suggest that besides considering the extent to which any
-faculty or group of faculties is tasked in receiving a form of words
-and constructing its contained idea, we have to consider the state
-in which this faculty or group of faculties is left; and how the
-reception of subsequent sentences and images will be influenced by
-that state. Without going fully into so wide a topic as the action
-of faculties and its reactive effects, it will suffice to recall
-the fact that every faculty is exhausted by exercise. {362} This
-generalization, which our bodily experiences force upon us, and which
-in daily speech is recognized as true of the mind as a whole, is true
-of each mental power, from the simplest of the senses to the most
-complex of the sentiments. If we hold a flower to the nose for long,
-we become insensible to its scent. We say of a brilliant flash of
-lightning that it blinds us; which means that our eyes have for a time
-lost their ability to appreciate light. After eating honey, we are
-apt to think our tea is without sugar. The phrase “a deafening roar,”
-implies that men find a very loud sound temporarily incapacitates them
-for hearing faint sounds. To a hand which has for some time carried
-a heavy body, small bodies afterwards lifted seem to have lost their
-weight. Now, the truth thus exemplified, may be traced throughout.
-Alike of the reflective faculties, the imagination, the perceptions
-of the beautiful, the ludicrous, the sublime, it may be shown that
-action exhausts; and that in proportion as the action is violent the
-subsequent prostration is great.
-
-Equally throughout the whole nature, may be traced the law that
-exercised faculties are ever tending to resume their original states.
-Not only after continued rest, do they regain their full powers—not
-only are brief cessations in the demands on them followed by partial
-re-invigoration; but even while they are in action, the resulting
-exhaustion is ever being neutralized. The processes of waste and
-repair go on together. Hence with faculties habitually exercised—as
-the senses of all persons, or the muscles of any one who is strong—it
-happens that, during moderate activity, the repair is so nearly equal
-to the waste, that the diminution of power is scarcely appreciable.
-It is only when effort has been long continued, or has been violent,
-that repair becomes so far in arrear of waste as to cause a perceptible
-enfeeblement. In all cases, however, when, by the action of a faculty,
-waste has been incurred, _some_ lapse {363} of time must take place
-before full efficiency can be reacquired; and this time must be long in
-proportion as the waste has been great.
-
-Keeping in mind these general truths, we shall be in a condition
-to understand certain causes of effect in composition now to be
-considered. Every perception received, and every conception framed,
-entailing some amount of waste in the nervous system, and the
-efficiency of the faculties employed being for a time, though often
-but momentarily, diminished; the resulting partial inability affects
-the acts of perception and conception that immediately succeed. Hence
-the vividness with which images are pictured must, in many cases,
-depend on the order of their presentation; even when one order is as
-convenient to the understanding as the other. Sundry facts illustrate
-this truth, and are explained by it: instance climax and anti-climax.
-The marked effect obtained by placing last the most striking of any
-series of ideas, and the weakness—often the ludicrous weakness—produced
-by reversing this arrangement, depends on the general law indicated.
-As immediately after looking at the sun we cannot perceive the light
-of a fire, while by looking at the fire first and the sun afterwards
-we can perceive both; so, after receiving a brilliant, or weighty, or
-terrible thought, we cannot properly appreciate a less brilliant, less
-weighty, or less terrible one, though by reversing the order, we can
-appreciate each. In Antithesis, again, the like truth is exemplified.
-The opposition of two thoughts which are the reverse of each other in
-some prominent trait, insures an impressive effect; and does this by
-giving a momentary relaxation to the faculties addressed. If, after a
-series of ordinary images exciting in a moderate degree to the emotion
-of reverence, or approbation, or beauty, the mind has presented to
-it an insignificant, or unworthy, or ugly image; the structure which
-yields the emotion of reverence, or approbation, or beauty, having for
-the time nothing to do, tends to resume {364} its full power; and
-will immediately afterwards appreciate anything vast, admirable, or
-beautiful better than it would otherwise do. Conversely, where the idea
-of absurdity due to extreme insignificance is to be produced, it may be
-intensified by placing it after something impressive; especially if the
-form of phrase implies that something still more impressive is coming.
-A good illustration of the effect gained by thus presenting a petty
-idea to a consciousness which has not yet recovered from the shock of
-an exciting one, occurs in a sketch by Balzac. His hero writes to a
-mistress who has cooled towards him, the following letter:―
-
- “Madame,—Votre conduite m’étonne autant qu’elle m’afflige. Non
- contente de me déchirer le cœur par vos dédains, vous avez
- l’indélicatesse de me retenir une brosse à dents, que mes moyens
- ne me permettent pas de remplacer, mes propriétés étant grevées
- d’hypothèques au delà de leur valeur.
-
- “Adieu, trop belle et trop ingrate amie! Puissions-nous nous revoir
- dans un monde meilleur!
-                                                   “CHARLES-EDOUARD.”
-
-Thus the phenomena of Climax, Antithesis, and Anticlimax, alike result
-from this general principle. Improbable as these momentary variations
-in susceptibility may seem, we cannot doubt their occurrence when we
-contemplate the analogous variations in the susceptibility of the
-senses. Every one knows that a patch of black on a white ground looks
-blacker, and a patch of white on a black ground looks whiter, than
-elsewhere. As the blackness and the whiteness are really the same,
-the only assignable cause, is a difference in their actions upon us,
-dependent on the different states of our faculties. The effect is due
-to a visual antithesis.
-
-But this extension of the general principle of economy—this further
-condition to effective composition, that the sensitiveness of the
-faculties must be husbanded—includes much more than has been yet
-hinted. Not only does it follow that certain arrangements and certain
-juxtapositions of connected ideas are best; but also that some modes
-of dividing and presenting a subject will be more striking {365} than
-others, irrespective of logical cohesion. We are shown why we must
-progress from the less interesting to the more interesting; alike in
-the composition as a whole, and in each successive portion. At the
-same time, the indicated requirement negatives long continuity of
-the same kind of thought, or repeated production of like effects.
-It warns us against the error committed by Pope in his poems and by
-Bacon in his essays—the error of constantly employing forcible forms
-of expression. As the easiest posture by and by becomes fatiguing,
-and is with pleasure exchanged for one less easy; so, the most
-perfectly-constructed sentences unceasingly used must cause weariness,
-and relief will be given by using those of inferior kinds. Further,
-we may infer not only that we ought to avoid generally combining our
-words in one manner, however good, or working out our figures and
-illustrations in one way, however telling; but that we ought to avoid
-anything like uniform adherence to the wider conditions of effect. We
-should not make every division of our subject progress in interest; we
-should not always rise to a climax. As we saw that in single sentences
-it is but rarely allowable to fulfil all the conditions to strength;
-so, in the larger sections of a composition we must not often conform
-entirely to the principles indicated. We must subordinate the component
-effects to the total effect.
-
-The species of composition which the law we have traced out indicates
-as the perfect one, is the one which genius tends naturally to produce.
-As we found that the kinds of sentence which are theoretically best,
-are those commonly employed by superior minds, and by inferior minds
-when temporarily exalted; so, we shall find that the ideal form for a
-poem, essay, or fiction, is that which the ideal writer would evolve
-spontaneously. One in whom the powers of expression fully responded
-to the state of feeling, would unconsciously use that variety in the
-mode {366} of presenting his thoughts, which Art demands. Constant
-employment of one species of phraseology implies an undeveloped
-linguistic faculty. To have a specific style is to be poor in speech.
-If we remember that in the far past, men had only nouns and verbs to
-convey their ideas with, and that from then to now the progress has
-been towards more numerous implements of thought, and towards greater
-complexity and variety in their combinations; we may infer that, in the
-use of sentences, we are at present much what the primitive man was
-in the use of words; and that a continuance of the process which has
-hitherto gone on, must produce increasing heterogeneity in our modes
-of expression. As now, in a fine nature, the play of the features, the
-tones of the voice and its cadences, vary in harmony with every thought
-uttered; so, in one possessed of fully-developed powers of language,
-the mould in which each combination of words is cast will vary with,
-and be appropriate to, the mental state. That a perfectly-endowed man
-must unconsciously write in all styles, we may infer from considering
-how styles originate. Why is Johnson pompous, Goldsmith simple? Why is
-one author abrupt, another involved, another concise? Evidently in each
-case the habitual mode of utterance depends on the habitual balance of
-the nature. The dominant feelings have by use trained the intellect to
-represent them. But while long habit has made it do this efficiently,
-it remains, from lack of practice, unable to do the like for the less
-active feelings; and when these are excited, the usual verbal forms
-undergo but slight modifications. But let the ability of the intellect
-to represent the mental state be complete, and this fixity of style
-will disappear. The perfect writer will be now rhythmical and now
-irregular; here his language will be plain and there ornate; sometimes
-his sentences will be balanced and at other times unsymmetrical; for
-a while there will be considerable sameness, and then again great
-variety. His mode of {367} expression naturally responding to his
-thought and emotion, there will flow from his pen a composition
-changing as the aspects of his subject change. He will thus without
-effort conform to what we have seen to be the laws of effect. And
-while his work presents to the reader that variety needful to prevent
-continuous exertion of the same faculties, it will also answer to the
-description of all highly-organized products both of man and nature. It
-will be, not a series of like parts simply placed in juxtaposition, but
-one whole made up of unlike parts that are mutually dependent.
-
-
-POSTSCRIPT.—The conclusion that because of their comparative brevity
-and because of those stronger associations formed by more frequent
-use, words of Old-English origin are preferable to words derived from
-Latin or Greek, should be taken with two qualifications, which it seems
-needful to add here.
-
-In some cases the word furnished by our original tongue, and the
-corresponding word directly or indirectly derived from Latin, though
-nominally equivalents, are not actually such; and the word of Latin
-origin, by certain extra connotations it has acquired, may be the more
-expressive. For instance, we have no word of native origin which can
-be advantageously substituted for the word “grand.” No such words as
-“big” or “great,” which connote little more than superiority in size
-or quantity, can be used instead: they do not imply that qualitative
-superiority which is associated with the idea of grandeur. As adopted
-into our own language, the word “grand” has been differentiated from
-“great” by habitual use in those cases where the greatness has an
-æsthetic superiority. In this case, then, a word of Latin origin
-is better than its nearest equivalent of native origin, because by
-use it has acquired an additional meaning. And here, too, we may
-conveniently {368} note the fact that the greater brevity of a word
-does not invariably conduce to greater force. Where the word, instead
-of being one conveying a subordinate component of the idea the sentence
-expresses, is one conveying the central element of the idea, on
-which the attention may with advantage rest a moment, a longer word
-is sometimes better than a shorter word. Thus it may be held that
-the sentence—“It is grand” is not so effective as the sentence—“It
-is magnificent.” Besides the fact that here greater length of the
-word favours a longer dwelling on the essential part of the thought,
-there is the fact that its greater length, aided by its division
-into syllables, gives opportunity for a cadence appropriate to the
-feeling produced by the thing characterized. By an ascent of the voice
-on the syllable “nif,” and an utterance of this syllable, not only
-in a higher note, but with greater emphasis than the preceding or
-succeeding syllables, there is implied that emotion which contemplation
-of the object produces; and the emotion thus implied is, by sympathy,
-communicated. One may say that in the case of these two words, if the
-imposingness is alone to be considered, the word “magnificent” may with
-advantage be employed; but if the sentence expresses a proposition
-in which, not the imposingness itself, but something _about_ the
-imposingness, is to be expressed, then the word “grand” is preferable.
-
-The second qualification above referred to, concerns the superiority
-of words derived from Latin or Greek, in cases where more or less
-abstract ideas have to be expressed. In such cases it is undesirable
-to use words having concrete associations; for such words, by the very
-vividness with which they call up thoughts of particular objects or
-particular actions, impede the formation of conceptions which refer,
-not to particular objects and actions, but to general truths concerning
-objects or actions of kinds that are more or less various. Thus, such
-an expression as “the colligation of facts” is better for philosophical
-purposes than such {369} an expression as “the tying together of
-facts.” This last expression cannot be used without suggesting the
-thought of a bundle of material things bound up by a string or cord—a
-thought which, in so far as the materiality of its components is
-concerned, conflicts with the conception to be suggested. Though it is
-true that when its derivation is remembered, “colligation” raises the
-same thought, yet, as the thought is not so promptly or irresistibly
-raised, it stands less in the way of the abstract conception with which
-attention should be exclusively occupied.
-
-
-ENDNOTE TO _THE PHILOSOPHY OF STYLE_.
-
-[54] Properly the term “simile” is applicable only to the entire
-figure, including the two things compared and the comparison drawn
-between them. But as there exists no name for the illustrative member
-of the figure, there seems no alternative but to employ “simile” to
-express this also. The context will in each case show in which sense
-the word is used.
-
-
-
-
-{370}
-
-USE AND BEAUTY.
-
-
-[_First published in_ The Leader _for January 3, 1852._]
-
-In one of his essays, Emerson remarks, that what Nature at one time
-provides for use, she afterwards turns to ornament; and he cites in
-illustration the structure of a sea-shell, in which the parts that have
-for a while formed the mouth are at the next season of growth left
-behind, and become decorative nodes and spines.
-
-Ignoring the implied teleology, which does not here concern us, it has
-often occurred to me that this same remark might be extended to the
-progress of Humanity. Here, too, the appliances of one era serve as
-embellishments to the next. Equally in institutions, creeds, customs,
-and superstitions, we may trace this evolution of beauty out of what
-was once purely utilitarian.
-
-The contrast between the feeling with which we regard portions of the
-Earth’s surface still left in their original state, and the feeling
-with which the savage regarded them, is an instance that comes first
-in order of time. If any one walking over Hampstead Heath, will note
-how strongly its picturesqueness is brought out by contrast with
-the surrounding cultivated fields and the masses of houses lying
-in the distance; and will further reflect that, had this irregular
-gorse-covered surface extended on all sides to the horizon, it {371}
-would have looked dreary and prosaic rather than pleasing; he will
-see that to the primitive man a country so clothed presented no beauty
-at all. To him it was merely a haunt of wild animals, and a ground
-out of which roots might be dug. What have become for us places of
-relaxation and enjoyment—places for afternoon strolls and for gathering
-flowers—were his places for labour and food, probably arousing in his
-mind none but utilitarian associations.
-
-Ruined castles afford obvious instances of this metamorphosis of the
-useful into the beautiful. To feudal barons and their retainers,
-security was the chief, if not the only end, sought in choosing the
-sites and styles of their strongholds. Probably they aimed as little at
-the picturesque as do the builders of cheap brick houses in our modern
-towns. Yet what were erected for shelter and safety, and what in those
-early days fulfilled an important function in the social economy, have
-now assumed a purely ornamental character. They serve as scenes for
-picnics; pictures of them decorate our drawing-rooms; and each supplies
-its surrounding districts with legends for Christmas Eve.
-
-On following out the train of thought suggested by this last
-illustration, we may see that not only do the material exuviæ of past
-social states become the ornaments of our landscapes; but that past
-habits, manners, and arrangements, serve as ornamental elements in
-our literature. The tyrannies which, to the serfs who bore them, were
-harsh and dreary facts; the feuds which, to those who took part in
-them, were very practical life-and-death affairs; the mailed, moated,
-sentinelled security which was irksome to the nobles who needed it; the
-imprisonments, and tortures, and escapes, which were stern and quite
-prosaic realities to all concerned in them; have become to us material
-for romantic tales—material which, when woven into Ivanhoes and
-Marmions, serves for amusement in leisure hours, and becomes poetical
-by contrast with our daily lives.
-
-Thus, also, is it with extinct creeds. Stonehenge, which {372} in the
-hands of the Druids had a governmental influence over men, is in our
-day a place for antiquarian excursions; and its attendant priests are
-worked up into an opera. Greek sculptures, preserved for their beauty
-in our galleries of art, and copied for the decoration of pleasure
-grounds and entrance halls, once lived in men’s minds as gods demanding
-obedience; as did also the grotesque idols that now amuse the visitors
-to our museums.
-
-Equally marked is this change of function in the case of minor
-superstitions. The fairy lore, which in past times was matter of
-grave belief, and held sway over people’s conduct, have since been
-transformed into ornament for _A Midsummer Night’s Dream_, _The
-Tempest_, _The Fairy Queen,_ and endless small tales and poems; and
-still affords subjects for children’s story-books, themes for ballets,
-and plots for Planché’s burlesques. Gnomes, and genii, and afrits,
-losing their terrors, give piquancy to the woodcuts in our illustrated
-edition of the _Arabian Nights_. While ghost-stories, and tales
-of magic and witchcraft, after serving to amuse boys and girls in
-their leisure hours, become matter for jocose allusions that enliven
-tea-table conversation.
-
-Even our serious literature and our speeches are relieved by ornaments
-drawn from such sources. A Greek myth is often used as a parallel by
-which to vary the monotony of some grave argument. The lecturer breaks
-the dead level of his practical discourse by illustrations drawn from
-bygone customs, events, or beliefs. And metaphors, similarly derived,
-give brilliancy to political orations, and to _Times_ leading articles.
-
-Indeed, on careful inquiry, I think it will be found that we turn to
-purposes of beauty most byegone phenomena which are at all conspicuous.
-The busts of great men in our libraries, and their tombs in our
-churches; the once useful but now purely ornamental heraldic symbols;
-the monks, nuns, and convents, which give interest to a certain class
-of novels; the bronze mediæval soldiers used for {373} embellishing
-drawing-rooms; the gilt Apollos which recline on time-pieces; the
-narratives that serve as plots for our great dramas; and the events
-that afford subjects for historical pictures;—these and such like
-illustrations of the metamorphosis of the useful into the beautiful,
-are so numerous as to suggest that, did we search diligently enough,
-we should find that in some place, or under some circumstance, nearly
-every notable product of the past has assumed a decorative character.
-
-And here the mention of historical pictures reminds me that an
-inference may be drawn from all this, bearing directly on the practice
-of art. It has of late years been a frequent criticism upon our
-historical painters, that they err in choosing their subjects from
-the past; and that, would they found a genuine and vital school, they
-must render on canvas the life and deeds and aims of our own time. If,
-however, there be any significance in the foregoing facts, it seems
-doubtful whether this criticism is a just one. For if it be the course
-of things that what has performed some active function in society
-during one era, becomes available for ornament in a subsequent one; it
-almost follows that, conversely, whatever is performing some active
-function now, or has very recently performed one, does not possess the
-ornamental character; and is, consequently, inapplicable to any purpose
-of which beauty is the aim, or of which it is a needful ingredient.
-
-Still more reasonable will this conclusion appear, when we consider
-the nature of this process by which the useful is changed into the
-ornamental. An essential pre-requisite to all beauty is _contrast_.
-To obtain artistic effect, light must be put in juxtaposition with
-shade, bright colours with dull colours, a fretted surface with a plain
-one. _Forte_ passages in music must have _piano_ passages to relieve
-them; concerted pieces need interspersing with solos; and rich chords
-must not be continuously repeated. In the drama we demand contrast
-of characters, of scenes, of sentiment, of {374} style. In prose
-composition an eloquent passage should have a comparatively plain
-setting; and in poems great effect is obtained by occasional change
-of versification. This general principle will, I think, explain the
-transformation of the bygone useful into the present beautiful. It
-is by virtue of their contrast with our present modes of life, that
-past modes of life look interesting and romantic. Just as a picnic,
-which is a temporary return to an aboriginal condition, derives, from
-its unfamiliarity, a certain poetry which it would not have were it
-habitual; so, everything ancient gains, from its relative novelty to
-us, an element of interest. Gradually as, by the growth of society, we
-leave behind the customs, manners, arrangements, and all the products,
-material and mental, of a bygone age—gradually as we recede from these
-so far that there arises a conspicuous difference between them and
-those we are familiar with; so gradually do they begin to assume to us
-a poetical aspect, and become applicable for ornament. And hence it
-follows that things and events which are close to us, and which are
-accompanied by associations of ideas not markedly contrasted with our
-ordinary associations, are _relatively_ inappropriate for purposes
-of art. I say relatively because an incident of modern life or even
-of daily life may acquire adequate fitness for art purposes by an
-unusualness of some other kind than that due to unlikeness between past
-and present.
-
-
-
-
-{375}
-
-THE SOURCES OF ARCHITECTURAL TYPES.
-
-
-[_First published in_ The Leader _for October 23, 1852._]
-
-When lately looking through the gallery of the Old Water-Colour
-Society, I was struck with the incongruity produced by putting regular
-architecture into irregular scenery. In one case, where the artist had
-introduced a symmetrical Grecian edifice into a mountainous and wild
-landscape, the discordant effect was particularly marked. “How very
-unpicturesque,” said a lady to her friend, as they passed; showing that
-I was not alone in my opinion. Her phrase, however, set me speculating.
-Why unpicturesque? Picturesque means, like a picture—like what men
-choose for pictures. Why then should this be not fit for a picture?
-
-Thinking the matter over, it seemed to me that the artist had sinned
-against that harmony of sentiment which is essential to a good picture.
-When the other constituents of a landscape have irregular forms, any
-artificial structure introduced should have an irregular form, that
-it may seem _part_ of the landscape. The same general character must
-pervade it and the surrounding objects; otherwise it, and the scene
-amid which it stands, become not _one_ thing but _two_ things; and
-we say that it looks out of place. Or, speaking psychologically,
-the associated ideas called {376} up by a building with its wings,
-windows, columns, and all its parts symmetrically disposed, differ
-widely from the ideas associated with an unsymmetrical landscape; and
-the one set of ideas tends to banish the other.
-
-Pursuing the train of thought, sundry illustrative facts came to mind.
-I remembered that a castle, which is usually more irregular in outline
-than any other kind of building, pleases us most when seated amid
-crags and precipices; while a castle on a plain seems incongruous.
-The partly-regular and partly-irregular forms of our old farm-houses,
-and our gabled gothic manors and abbeys, appear quite in harmony
-with an undulating, wooded country. In towns we prefer symmetrical
-architecture; and in towns it produces in us no feeling of incongruity,
-because all surrounding things—men, horses, vehicles—are symmetrical
-also.
-
-And here I was reminded of a notion that has frequently recurred to me;
-namely, that there is some relationship between the several kinds of
-architecture and the several classes of natural objects. Buildings in
-the Greek and Roman styles seem, in virtue of their symmetry, to take
-their type from animal life. In the partially-irregular Gothic, ideas
-derived from the vegetable world appear to predominate. And wholly
-irregular buildings, such as castles, may be considered as having
-inorganic forms for their basis.
-
-Whimsical as this speculation looks at first sight, it is countenanced
-by numerous facts. The connexion between symmetrical architecture and
-animal forms, may be inferred from the _kind_ of symmetry we expect,
-and are satisfied with, in regular buildings. In a Greek temple we
-require that the front shall be symmetrical in itself, and that the two
-flanks shall be alike; but we do not look for uniformity between the
-flanks and the front, nor between the front and the back. The identity
-of this symmetry with that found in animals is obvious. Again, why is
-it that a {377} building making any pretensions to symmetry displeases
-us if not quite symmetrical? Probably the reply will be—Because we
-see that the designer’s idea is not fully carried out; and that
-hence our love of completeness is offended. But then there come the
-further questions—How do we know that the architect’s conception was
-symmetrical? Whence comes this notion of symmetry which we have, and
-which we attribute to him? Unless we fall back upon the old doctrine
-of innate ideas, we must admit that the idea of bi-lateral symmetry is
-derived from without; and to admit this is to admit that it is derived
-from the higher animals.
-
-That there is some relationship between Gothic architecture and vegetal
-forms is generally admitted. The often-remarked similarity between a
-groined nave and an avenue of trees with interlacing branches, shows
-that the fact has forced itself on observation. It is not only in
-this, however, that the kinship is seen. It is seen still better in
-the essential characteristic of Gothic; namely, what is termed its
-_aspiring_ tendency. That predominance of vertical lines which so
-strongly distinguishes Gothic from other styles, is the most marked
-peculiarity of trees, when compared with animals or rocks. A tall
-Gothic tower, with its elongated apertures and clusters of thin
-projections running from bottom to top, suggests a vague idea of growth.
-
-Of the alleged connexion between inorganic forms and the wholly
-irregular and the castellated styles of building, we have, I think,
-some proof in the fact that when an edifice is irregular, the _more_
-irregular it is the more it pleases us. I see no way of accounting for
-this fact, save by supposing that the greater the irregularity the more
-strongly are we reminded of the inorganic forms typified, and the more
-vividly are aroused the agreeable ideas of rugged and romantic scenery
-associated with those forms.
-
-Further evidence of these relationships of styles of {378}
-architecture to classes of natural objects, is supplied by the
-kinds of decoration they respectively present. The public buildings
-of Greece, while characterized in their outlines by the bi-lateral
-symmetry seen in the higher animals, have their pediments and
-entablatures covered with sculptured men and beasts. Egyptian temples
-and Assyrian palaces, similarly symmetrical in their general plan, are
-similarly ornamented on their walls and at their doors. In Gothic,
-again, with its grove-like ranges of clustered columns, we find rich
-foliated ornaments abundantly employed. And accompanying the totally
-irregular, inorganic outlines of old castles, we see neither vegetal
-nor animal decorations. The bare, rock-like walls are surmounted by
-battlements, consisting of almost plain blocks, which remind us of the
-projections on the edge of a rugged cliff.
-
-But perhaps the most significant fact is the harmony observable between
-each type of architecture and the scenes in which it is indigenous.
-For what is the explanation of this harmony, unless it be that
-the predominant character of surrounding things has, in some way,
-determined the mode of building adopted?
-
-That the harmony exists is clear. Equally in the cases of Egypt,
-Assyria, Greece, and Rome, town life preceded the construction of the
-symmetrical buildings that have come down to us. And town life is one
-in which, as already observed, the majority of familiar objects are
-symmetrical. We habitually feel the naturalness of this association.
-Amid the fields, a formal house, with a central door flanked by equal
-numbers of windows to right and left, strikes us as unrural—looks as
-though transplanted from a street; and we cannot look at one of those
-stuccoed villas, with mock-windows arranged to balance the real ones,
-without being reminded of the suburban residence of a retired tradesman.
-
-In styles indigenous in the country, we not only find {379} the
-general irregularity characteristic of surrounding things, but we may
-trace some kinship between each kind of irregularity and the local
-circumstances. We see the broken rocky masses amid which castles are
-often placed, mirrored in their stern, inorganic forms. In abbeys, and
-such-like buildings, which are commonly found in sheltered districts,
-we find no such violent dislocations of masses and outlines; and the
-nakedness appropriate to the fortress is replaced by decorations
-reflecting the neighbouring woods. Between a Swiss cottage and a Swiss
-view there is an evident relationship. The angular roof, so bold and
-so disproportionately large when compared to other roofs, reminds one
-of the adjacent mountain peaks; and the broad overhanging eaves have
-a sweep and inclination like those of the lower branches of a pine
-tree. Consider, too, the apparent kinship between the flat roofs that
-prevail in Eastern cities, interspersed with occasional minarets, and
-the plains that commonly surround them, dotted here and there by palm
-trees. Contemplate a picture of one of these places, and you are struck
-by the predominance of horizontal lines, and their harmony with the
-wide stretch of the landscape.
-
-That the congruity here pointed out should hold in every case must
-not be expected. The Pyramids, for example, do not seem to come
-under this generalization. Their repeated horizontal lines do indeed
-conform to the flatness of the neighbouring desert; but their general
-contour seems to have no adjacent analogue. Considering, however,
-that migrating races, carrying their architectural systems with them,
-would naturally produce buildings having no relationship to their new
-localities; and that it is not always possible to distinguish styles
-which are indigenous, from those which are naturalized; numerous
-anomalies must be looked for.
-
-The general idea above illustrated will perhaps be somewhat
-misinterpreted. Possibly some will take the {380} proposition to
-be that men _intentionally_ gave to their buildings the leading
-characteristics of neighbouring objects. But this is not what is
-meant. I do not suppose that they did so in times past, any more
-than they do so now. The hypothesis is, that in their choice of
-forms men are unconsciously influenced by the forms encircling them.
-That flat-roofed, symmetrical architecture should have originated
-in the East, among pastoral tribes surrounded by their herds and by
-wide plains, seems to imply that the builders were swayed by the
-horizontality and symmetry to which they were habituated. And the
-harmony which we have found to exist in other cases between indigenous
-styles and their localities, implies the general action of like
-influences. Indeed, on considering the matter psychologically, I do
-not see how it could well be otherwise. For as all conceptions must be
-made up of images, and parts of images, received through the senses;
-and as imagination will most readily run in the direction of habitual
-perceptions; it follows that the characteristic which predominates in
-habitual perceptions must impress itself on designs.
-
-
-
-
-{381}
-
-GRACEFULNESS.
-
-
-[_First published in_ The Leader _for December 25, 1852._]
-
-We do not ascribe gracefulness to cart-horses, tortoises, and
-hippopotami, in all of which the powers of movement are relatively
-inferior; but we ascribe it to greyhounds, antelopes, race-horses, all
-of which have highly efficient locomotive organs. What, then, is this
-distinctive peculiarity of structure and action which we call Grace?
-
-One night while watching a dancer, and inwardly condemning her _tours
-de force_ as barbarisms which would be hissed, were not people such
-cowards as always to applaud what they think it the fashion to applaud,
-I remarked that the truly graceful motions occasionally introduced,
-were those performed with comparatively little effort. After calling to
-mind sundry confirmatory facts, I presently concluded that grace, as
-applied to motion, describes motion that is effected with economy of
-force; grace, as applied to animal forms, describes forms capable of
-this economy; grace, as applied to postures, describes postures which
-may be maintained with this economy; and grace, as applied to inanimate
-objects, describes such as exhibit certain analogies to these attitudes
-and forms.
-
-That this generalization, if not the whole truth, contains at least a
-large part of it, will, I think, become obvious, on {382} considering
-how habitually we couple the words _easy_ and _graceful_; and still
-more, on calling to mind some of the facts on which this association
-is based. The attitude of a soldier, drawing himself bolt upright when
-his serjeant shouts “attention,” is more remote from gracefulness than
-when he relaxes at the words “stand at ease.” The _gauche_ visitor
-sitting stiffly on the edge of his chair, and his self-possessed host,
-whose limbs and body dispose themselves as convenience dictates, are
-contrasts as much in effort as in elegance. When standing, we commonly
-economise power by throwing the weight chiefly on one leg, which we
-straighten to make it serve as a column, while we relax the other; and
-to the same end, we allow the head to lean somewhat on one side. Both
-these attitudes are imitated in sculpture as elements of grace.
-
-Turning from attitudes to movements, current remarks will be found to
-imply the same relationship. No one praises as graceful, a walk that
-is irregular or jerking, and so displays waste of power; no one sees
-any beauty in the waddle of a fat man, or the trembling steps of an
-invalid, in both of which effort is visible. But the style of walking
-we admire is moderate in velocity, perfectly rhythmical, unaccompanied
-by violent swinging of the arms, and giving us the impression that
-there is no conscious exertion, while there is no force thrown away.
-In dancing, again, the prevailing difficulty—the proper disposal of
-the arms—well illustrates the same truth. Those who fail in overcoming
-this difficulty give the spectator the impression that their arms are
-a trouble to them; they are held stiffly in some meaningless attitude,
-at an obvious expense of power; they are checked from swinging in the
-directions in which they would naturally swing; or they are so moved
-that, instead of helping to maintain the equilibrium, they endanger it.
-A good dancer, on the contrary, makes us feel that, so far from the
-arms being in the way, they are of great use. Each {383} motion of
-them, while it seems naturally to result from a previous motion of the
-body, is turned to some advantage. We perceive that it has facilitated
-instead of hindered the general action; or, in other words—that an
-economy of effort has been achieved. Any one wishing to distinctly
-realize this fact, may readily do so by studying the action of the
-arms in walking. Let him place his arms close to his sides, and there
-keep them, while walking with some rapidity. He will unavoidably fall
-into a backward and forward motion of the shoulders, of a wriggling,
-ungraceful character. After persevering in this for a space, until he
-finds that the action is not only ungraceful but fatiguing, let him
-allow his arms to swing as usual. The wriggling of the shoulders will
-cease; the body will move equably forward; and comparative ease will
-be felt. On analyzing this fact, he may perceive that the backward
-motion of each arm is simultaneous with the forward motion of the
-corresponding leg. If he will attend to his muscular sensations, he
-will find that this backward swing of the arm is a counterbalance to
-the forward swing of the leg; and that it is easier to produce this
-counterbalance by moving the arm than by contorting the body, as he
-otherwise must do.[55]
-
-The action of the arms in walking being thus understood, it will be
-manifest that the graceful employment of them in dancing is simply a
-complication of the same thing; and that a good dancer is one having so
-acute a muscular perception as at once to feel in what direction the
-arms {384} should be moved to counterbalance any motion of the body or
-legs.
-
-This connexion between gracefulness and economy of force, will be
-most clearly recognized by those who skate. They will remember that
-all early attempts, and especially the first timid experiments
-in figure-skating, are alike awkward and fatiguing; and that the
-acquirement of skill is also the acquirement of ease. The requisite
-confidence, and a due command of the feet having been obtained, those
-twistings of the trunk and gyrations of the arms, previously used to
-maintain the balance, are found needless. The body is allowed to follow
-without control the impulse given to it; the arms to swing where they
-will; and it is clearly felt that the graceful way of performing any
-evolution is the way that costs least effort. Spectators can scarcely
-fail to see the same fact, if they look for it.
-
-The reference to skating suggests that graceful motion might be defined
-as motion in curved lines. Certainly, straight and zig-zag movements
-are excluded from the conception. The sudden stoppages which angular
-movements imply, are its antithesis; for a leading trait of grace is
-continuity, flowingness. It will be found, however, that this is merely
-another aspect of the same truth; and that motion in curved lines is
-economical motion. Given certain successive positions to be assumed by
-a limb, then if it be moved in a straight line to the first of these
-positions, suddenly arrested, and then moved in another direction
-straight to the second position, and so on, it is clear that at each
-arrest, the momentum previously given to the limb must be destroyed at
-a certain cost of force, {385} and a new momentum given to it at a
-further cost of force; whereas, if, instead of arresting the limb at
-its first position, its motion be allowed to continue, and a lateral
-force be impressed to make it diverge towards the second position, a
-curvilinear motion is the necessary result; and by making use of the
-original momentum, force is economized.
-
-If the truth of these conclusions respecting graceful movements be
-admitted, it cannot, I think, be doubted, that graceful form is that
-kind of form which implies relatively small effort required for
-self-support, and relatively small effort required for movement. Were
-it otherwise, there would arise the incongruity that graceful form
-would either not be associated at all with graceful movement, or that
-the one would habitually occur in the absence of the other; both which
-alternatives being at variance with our experience, we must conclude
-that there exists the relationship indicated. Any one hesitating to
-admit this, will, I think, do so no longer on remembering that the
-animals which we consider graceful, are those so slight in build as
-not to be burdened by their own weight, and those noted for fleetness
-and agility; while those we class as ungraceful, are those which are
-alike cumbrous and have the faculty of locomotion but little developed.
-In the case of the greyhound, especially, we see that the particular
-modification of the canine type in which economy of weight is the most
-conspicuous, and in which the facility of muscular motion has been
-brought to the greatest perfection, is the one which we call most
-graceful.
-
-How trees and inanimate objects should come to have this epithet
-applied to them, seems less obvious. But remembrance of the fact
-that we commonly, and perhaps unavoidably, regard all objects under
-a certain anthropomorphic aspect, will help us to understand it. The
-stiff branch of an oak tree standing out at right angles to the trunk,
-gives us a vague notion of great force expended to {386} keep it in
-that position; and we call it ungraceful, under the same feeling that
-we call the holding out an arm at right angles to the body ungraceful.
-Conversely, the lax drooping boughs of a weeping-willow are vaguely
-associated with limbs in attitudes requiring little effort to maintain
-them; and the term graceful, by which we describe these, we apply by
-metaphor to the boughs of the willow.
-
-I may as well here venture the hypothesis, that the idea of Grace as
-displayed by other beings, has its subjective basis in Sympathy. The
-same faculty which makes us shudder on seeing another in danger—which
-sometimes causes motions of our own limbs on seeing another struggle
-or fall, gives us a vague participation in all the muscular sensations
-which those around us are experiencing. When their motions are violent
-or awkward, we feel in a slight degree the disagreeable sensations
-which we should have were they our own. When they are easy, we
-sympathize with the pleasant sensations they imply in those exhibiting
-them.
-
-
-ENDNOTE TO _GRACEFULNESS_.
-
-[55] A parallel fact, further elucidating this, is supplied by a
-locomotive engine. On looking at the driving wheel, there will be
-found, besides the boss to which the connecting rod is attached, a
-corresponding mass of metal on the opposite side of the wheel, and
-equidistant from the centre; or, if the engine be one having inside
-cylinders, then, on looking between the spokes of the driving-wheel,
-it will be seen that against each crank is a block of iron, similar
-to it in size, but projecting from the axle in the reverse direction.
-Evidently, being placed on opposite sides of the centre of motion, each
-crank and its counterbalance move in opposite directions relatively to
-the axle; and by so doing, neutralize each other’s perturbing effects,
-and permit a smooth rotation. This relationship which exists between
-the motions of the counterbalance and the crank, is analogous to that
-which exists between the motions of the arms and legs in walking; and
-in the early days of railway-locomotion, before these counterbalance
-weights were used, locomotive driving-wheels were subject to violent
-oscillations, analogous to those jerkings of the shoulders which arise
-when we walk fast without moving our arms.
-
-
-
-
-{387}
-
-PERSONAL BEAUTY.
-
-
-[_First published in_ The Leader _for April 15, and May 13, 1854._]
-
-
-It is a common opinion that beauty of character and beauty of aspect
-are unrelated. I have never been able to reconcile myself to this
-opinion. Indeed, even those who hold it do so in an incomplete sense;
-for notwithstanding their theory they continue to manifest surprise
-when they find a mean deed committed by one of noble countenance—a fact
-implying that underneath their professed induction lies a still living
-conviction at variance with it.
-
-Whence this conviction? How is it that a belief in the connexion
-between worth and beauty primarily exists in all? It cannot be innate.
-Must it not, then, be from early experiences? And must it not be that
-in those who continue to believe in this connexion, spite of their
-reasonings, the early and wide experiences outweigh the later and
-exceptional ones?
-
-Those who do not admit the relationship between mental and facial
-beauty, usually remark that the true connexion is between character
-and expression. While they doubt, or rather deny, that the _permanent_
-forms of the features are {388} in any way indices of the forms of
-the mind, they assert that the _transitory_ forms of the features are
-such indices. These positions seem scarcely consistent. For may we
-not say that the transitory forms, by perpetual repetition, register
-themselves on the face, and _produce_ permanent forms? Does not an
-habitual frown by-and-by leave ineffaceable marks on the brow? Is not
-a chronic scornfulness presently followed by a modified set in the
-angles of the mouth? Does not that compression of the lips significant
-of great determination, often stereotype itself; and so give a changed
-form to the lower part of the face? And if there be any truth in the
-doctrine of hereditary transmission, must there not be a tendency to
-the re-appearance of these modifications as new types of feature in the
-offspring? In brief, may we not say that _expression is feature in the
-making_; and that if expression means something, the form of feature
-produced by it means something?
-
-Possibly it will be urged, in reply, that changes of expression affect
-only the muscles and skin of the face; that the permanent marks they
-produce can extend but to these; that, nevertheless, the beauty of
-a face is mainly dependent upon the form of its bony framework;
-that hence, in this chief respect, there cannot take place such
-modifications as those described; and that, therefore, the relationship
-of aspect to character, while it may hold in the details, does not hold
-in the generals.
-
-The rejoinder is, that the framework of the face _is_ modified by
-modifications in the tissues which cover it. It is an established
-doctrine in physiology, that throughout the skeleton the greater
-or less development of bones is dependent on the greater or less
-development of the attached muscles; that is, on the exercise of them.
-Hence, permanent changes in the muscular adjustments of the face will
-be followed by permanent changes in its osseous structure.
-
-Not to dwell in general statements, however, let me cite cases in which
-the connexion between organic ugliness and {389} mental inferiority,
-and the converse connexion between organic beauty and comparative
-perfection of mind, are distinctly traceable.
-
-It will be admitted that the projecting jaw, characteristic of the
-lower human races, is a facial defect—is a trait which no sculptor
-would give to an ideal bust. At the same time, it is a fact that
-prominence of jaw is associated in the mammalia generally with
-comparative lack of intelligence. This relationship, it is true, does
-not hold uniformly. It is not a direct but an indirect one; and is thus
-liable to be disturbed. Nevertheless, it holds among the higher tribes;
-and on inquiry we shall see why it holds. In conformity with the law
-that organs develop in proportion as they are exercised, the jaws are
-relatively large where the demands made on them are great; and diminish
-in size as their functions become less numerous and less onerous. Now,
-in the lower mammals the jaws are the sole organs of manipulation—are
-used not only for mastication, but for seizing, carrying, gnawing, and,
-indeed, for everything save locomotion, which is the solitary office
-performed by the limbs. Advancing upwards, we find that the fore-limbs
-begin to aid the jaws, and gradually to relieve them of part of their
-duties. Some creatures use them for burrowing; some, as the felines,
-for striking; many, to keep steady the prey they are tearing; and
-when we arrive at the monkeys, whose fore-limbs possess such power
-of prehension that objects can not only be seized, but carried and
-pulled to pieces by them, we see that the jaws have fewer functions.
-Accompanying this series of changes, we see a double change in the form
-of the head. The increased complexity of the limbs, the greater variety
-of actions they perform, and the more numerous perceptions they give,
-imply a greater development of the brain and of its bony envelope. At
-the same time, the size of the jaws has diminished in correspondence
-with the diminution of their functions. And by this simultaneous
-protrusion of the upper part of the cranium {390} and recession of its
-lower part, what is called the _facial angle_ has increased.
-
-Well, these co-ordinate changes in functions and forms have continued
-during the civilization of the human race. On contrasting the European
-and the Papuan, we see that what the one cuts in two with knife and
-fork, the other tears with his jaws; what the one softens by cooking,
-the other eats in its hard, raw state; the bones which the one
-utilises by stewing, the other gnaws; and for sundry of the mechanical
-manipulations which the one has tools for, the other uses his teeth.
-From the Bushman state upwards, there has been a gradual increase
-in the complexity of our appliances. We not only use our hands to
-save our jaws, but we make implements to save our hands; and in our
-engine-factories may be found implements for the making of implements.
-This progression in the arts of life has had intellectual progression
-for its necessary correlative. Each new complication requires a new
-increment of intelligence for its production; and the daily use of
-it develops the intelligence still further. Thus that simultaneous
-protrusion of the brain and recession of the jaws, which among lower
-animals has accompanied increase of skill and sagacity, has continued
-during the advance of Humanity from barbarism to civilization; and has
-been, throughout, the result of a discipline involving increase of
-mental power. And so it becomes manifest that there exists an organic
-relationship between that protuberance of the jaws which we consider
-ugly, and a certain inferiority of nature.
-
-Again, that lateral jutting-out of the cheek-bones, which similarly
-characterizes the lower races of men, and which is similarly thought
-by us a detraction from beauty, is similarly related to lower habits
-and lower intelligence. The chief agents in closing the jaws are the
-temporal muscles; and these are consequently the chief active agents
-in biting and mastication. In proportion as the jaws have much work,
-and correspondingly large size, must the temporal muscles {391} be
-massive. But the temporal muscles pass between the skull and the
-zygomatic arches, or lateral parts of the cheek-bones. Consequently,
-where the temporal muscles are massive, the spaces between the
-zygomatic arches and the skull must be great; and the lateral
-projection of the zygomatic arches great also, as we see it in the
-uncivilized and partially civilized races. Like large jaws, therefore,
-of which it is an accompaniment, excessive size of the cheek-bones is
-both an ugliness and an index of imperfection.
-
-Certain other defects of feature, between which and mental defects it
-is not thus easy to trace the connexion, may yet be fairly presumed
-to have such connexion in virtue of their constant co-existence with
-the foregoing ones: alike in the uncivilized races and in the young
-of the civilized races. Peculiarities of face which we find regularly
-associated with those just shown to be significant of intellectual
-inferiority, and which like them disappear as barbarism grows into
-civilization, may reasonably be concluded to have like them a
-psychological meaning. Thus is it with depression of the bridge of the
-nose; which is a characteristic both of barbarians and of our babes,
-possessed by them in common with the higher quadrumana. Thus, also,
-is it with that forward opening of the nostrils, which renders them
-conspicuous in a front view of the face—a trait alike of infants,
-savages, and apes. And the same may be said of wide-spread alæ to
-the nose, of great width between the eyes, of long mouth, of large
-mouth,—indeed of all those leading peculiarities of feature which are
-by general consent called ugly.
-
-And then mark how, conversely, the type of face usually admitted to
-be the most beautiful, is one that possesses opposite peculiarities.
-In the ideal Greek head, the forehead projects so much, and the jaws
-recede so much, as to render the facial angle larger than we ever find
-it in fact. The cheek-bones are so small as scarcely to be traceable.
-The bridge of the nose is so high as to be almost or quite in {392}
-a line with the forehead. The alæ of the nose join the face with but
-little obliquity. In the front view the nostrils are almost invisible.
-The mouth is small, and the upper lip short and deeply concave. The
-outer angles of the eyes, instead of keeping the horizontal line, as
-is usual, or being directed upwards, as in the Mongolian type, are
-directed slightly downwards. And the form of the brow indicates an
-unusually large frontal sinus—a characteristic entirely absent in
-children, in the lowest of the human races, and in the allied genera of
-the _primates_.
-
-If, then, recession of the forehead, protuberance of the jaws, and
-largeness of the cheek-bones, three leading elements of ugliness,
-are demonstrably indicative of mental inferiority—if such other
-facial defects as great width between the eyes, flatness of the nose,
-spreading of its alæ, frontward opening of the nostrils, length of
-the mouth, and largeness of the lips, are habitually associated with
-these, and disappear along with them as intelligence increases, both
-in the race and in the individual; is it not a fair inference that
-all such faulty traits of feature signify deficiencies of mind? If,
-further, our ideal of human beauty is characterized not simply by the
-absence of these traits, but by the presence of opposite ones—if this
-ideal, as found in sculptures of the Greek gods, has been used to
-represent superhuman power and intelligence—and if the race so using
-it were themselves distinguished by a mental superiority, which, if
-we consider their disadvantages, produced results unparalleled; have
-we not yet stronger reasons for concluding that the chief components
-of beauty and ugliness are severally connected with perfection and
-imperfection of mental nature? And when, lastly, we remember that
-the variations of feature constituting expression are confessedly
-significant of character—when we remember that these tend by repetition
-to organize themselves, to affect not only the skin and muscles
-but the bones of the face, and to be transmitted to offspring—when
-we thus find that there is a {393} psychological meaning alike in
-each passing adjustment of the features, in the marks that habitual
-adjustments leave, in the marks inherited from ancestors, and in
-those main outlines of the facial bones and integuments indicating
-the type or race; are we not almost forced to the conclusion that all
-forms of feature are related to forms of mind, and that we consider
-them admirable or otherwise according as the traits of nature they
-imply are admirable or otherwise? In the extremes the relationship is
-demonstrable. That transitory aspects of face accompany transitory
-mental states, and that we consider these aspects ugly or beautiful
-according as the mental states they accompany are ugly or beautiful,
-no one doubts. That those permanent and most marked aspects of face
-dependent on the bony framework, accompany those permanent and
-most marked mental states which express themselves in barbarism
-and civilization; and that we consider as beautiful those which
-accompany mental superiority, and as ugly those which accompany mental
-inferiority, is equally certain. And if this connexion unquestionably
-holds in the extremes—if, as judged by average facts, and by our
-half-instinctive convictions, it also holds more or less visibly in
-intermediate cases, it becomes an almost irresistible induction, that
-the aspects which please us are the outward correlatives of inward
-perfections, while the aspects which displease us are the outward
-correlatives of inward imperfections.
-
-I am quite aware that when tested in detail this induction seems not
-to be borne out. I know that there are often grand natures behind
-plain faces; and that fine countenances frequently hide small souls.
-But these anomalies do not destroy the general truth of the law, any
-more than the perturbations of planets destroy the general ellipticity
-of their orbits. Some of them, indeed, may be readily accounted for.
-There are many faces spoiled by the misproportion of features that are
-in themselves good; others, by defects of skin, which, though they
-indicate defects of {394} visceral constitution, have no relationship
-to the higher parts of the nature. Moreover the facts that have been
-assigned afford reason for thinking that the leading elements of facial
-beauty are not directly associated with _moral_ characteristics, but
-with _intellectual_ ones—are the results of long-continued civilized
-habits, long cessation of domestic barbarism, long culture of the
-manipulative powers; and so may co-exist with emotional traits not at
-all admirable. It is true that the highest intellectual manifestations
-imply a good balance of the higher feelings; but it is also true that
-great quickness, great sagacity in ordinary affairs, great practical
-skill, can be possessed without these, and very frequently are so. The
-prevalent beauty of the Italians, co-existing though it does with a
-low moral state, becomes, on this hypothesis, reconcileable with the
-general induction; as do also many of the anomalies we see around us.
-
-There is, however, a more satisfactory explanation to be offered than
-any of these—an explanation which I think renders it possible to admit
-the seeming contradictions which the detailed facts present, and yet
-to hold by the theory. But as more space will be required for showing
-this than can here be spared, I must defer going further until next
-week. In the meantime, my own conviction may be expressed in a formula
-in which I have often before uttered it:—The saying that beauty is but
-skin-deep, is but a skin-deep saying.
-
-
-II.
-
-All the civilized races, and probably also the uncivilized ones, are
-of mixed origin; and, as a consequence, have physical and mental
-constitutions in which are mingled several aboriginal constitutions
-more or less differing from each other. This heterogeneity of
-constitution seems to me the chief cause of the incongruities between
-aspect and nature which we daily meet with. Given a pure race, subject
-to constant conditions of climate, food, and habits {395} of life,
-and there is reason to believe that between external appearance and
-internal structure there will be a constant connexion. Unite this race
-with another equally pure, but adapted to different conditions and
-having a correspondingly different physique, face, and mind, and there
-will occur in the descendants, not a homogeneous mean between the two
-constitutions, but a seemingly irregular combination of characteristics
-of the one with characteristics of the other—one feature traceable to
-this race, a second to that, and a third uniting the attributes of
-both; while in disposition and intellect there will be found a like
-medley of the two originals.
-
-The fact that the forms and qualities of any offspring are not a mean
-between the forms and qualities of its parents, but a mixture of
-them, is illustrated in every family. The features and peculiarities
-of a child are separately referred by observers to father and mother
-respectively—nose and mouth to this side; colour of the hair and eyes
-to that—this moral peculiarity to the first; this intellectual one to
-the second—and so with contour and idiosyncrasies of body. Manifestly
-if each organ or faculty in a child was an average of the two
-developments of such organ or faculty in the parents, it would follow
-that all brothers and sisters should be alike; or should, at any rate,
-differ no more than their parents differed from year to year. So far
-however, from finding this to be the case, we find not only that great
-irregularities are produced by mixture of traits, but that there is no
-constancy in the mode of mixture, or the extent of variation produced
-by it.
-
-This imperfect union of parental constitutions in the constitutions of
-offspring, is still more clearly illustrated by the re-appearance of
-peculiarities traceable to bygone generations. Forms, dispositions,
-and diseases, possessed by distant progenitors, habitually come out
-from time to time in descendants. Some single feature, or some solitary
-tendency, will again and again show itself, after being apparently
-lost. It is notoriously thus with gout, scrofula, {396} and insanity.
-On some of the monumental brasses in our old churches are engraved
-heads having traits still persistent in the same families. Wherever,
-as in portrait galleries, a register of ancestral faces has been kept,
-the same fact is more or less apparent. The pertinacity with which
-particular characteristics re-produce themselves is well exemplified
-in America, where traces of negro blood can be detected in the finger
-nails, when no longer visible in the complexion. Among breeders of
-animals it is well known that, after several generations in which no
-visible modifications were traceable, the effects of a cross will
-suddenly make their appearance. In all which facts we see the general
-truth that an organism produced from two organisms constitutionally
-different, is not a homogeneous mean; but is made up of components,
-taken in variable ways and proportions from the originals.
-
-In a recent number of the _Quarterly Journal of the Agricultural
-Society_ were published some facts respecting the mixture of French
-and English races of sheep, bearing collaterally on this point. Sundry
-attempts had been made to improve the poor French breeds by our fine
-English ones. For a long time these attempts failed. The hybrids bore
-no trace of their English male ancestry; but were as dwarfed and
-poverty-stricken as their French dams. Eventually the cause of failure
-was found to lie in the relative heterogeneity and homogeneity of the
-two constitutions. The superior English sheep were of mixed race; the
-French sheep, though inferior, were of pure race; and the compound,
-imperfectly co-ordinated constitution of the one could not maintain
-itself against the simple and completely balanced constitution of the
-other. This, at first an hypothesis, was presently demonstrated. French
-sheep of mixed constitution having been obtained by uniting two of the
-pure French breeds, it was found that these hybrid French sheep, when
-united with the English ones, produced a cross in which the English
-characteristics were duly {397} displayed. Now, this inability of a
-mixed constitution to stand its ground against an unmixed one, quite
-accords with the above induction. An unmixed constitution is one in
-which all the organs are exactly fitted to each other—are perfectly
-balanced: the system as a whole, is in stable equilibrium. A mixed
-constitution, on the contrary, being made up of organs belonging to
-two separate sets, cannot have them in exact fitness—cannot have them
-perfectly balanced; and a system in comparatively unstable equilibrium
-results. But in proportion to the stability of the equilibrium will be
-the power to resist disturbing forces. Hence, when two constitutions,
-in stable and unstable equilibrium respectively, become disturbing
-forces to each other, the unstable one will be overthrown, and the
-stable one will assert itself unchanged.
-
-The imperfect co-ordination of parts in a mixed constitution, and this
-consequent instability of its equilibrium, are intimately connected
-with the vexed question of genera, species, and varieties; and, with a
-view partly to the intrinsic interest of this question, and partly to
-the further elucidation of the topic in hand, I must again digress.
-
-The current physiological test of distinct species is the production
-of a non-prolific hybrid. The ability of the offspring to reproduce
-itself is held to indicate that its parents are of the same species,
-however widely they may differ in appearance; and its inability
-to do this is taken as proof that, nearly allied as its parents
-may seem, they are distinct in kind. Of late, however, facts have
-been accumulating that tend more and more to throw doubt on this
-generalization. Cattle-breeders have established it as a general
-fact, that the offspring of two different breeds of sheep or oxen
-dwindle away in a few generations if allied with themselves; and
-that a good result can be obtained only by mixing them with one or
-other of the original breeds—a fact implying that what is true of
-so-called species, is, under a modified form, true of varieties also.
-{398} The same phenomena are observable in the mixtures of different
-races of men. They, too, it is alleged, cannot maintain themselves as
-separate varieties; but die out unless there is intermarriage with
-the originals. In brief, it seems that the hybrids produced from two
-distinct races of organisms may die out in the first, second, third,
-fourth, fifth, &c., generation, according as the constitutional
-difference of the races is greater or less. Now, the experience of
-the French sheep-breeders, above-quoted, suggests a rationale of
-these various results. For if it be true that an organism produced
-by two unlike organisms is not a mean between them, but a mixture of
-parts of the one with parts of the other—if it be true that these
-parts belonging to two different sets are of necessity imperfectly
-co-ordinated; then it becomes manifest that in proportion as the
-difference between the parent organisms is greater or less, the
-defects of co-ordination in the offspring will be greater or less.
-Whence it follows that, according to the degree of organic incongruity
-between the parents, we may have every gradation in the offspring,
-from a combination of parts so incongruous that it will not work at
-all, up to a combination complete enough to subsist permanently as a
-race. And this is just what we find in fact. Between organisms widely
-differing in character, no intermediate organism is possible. When
-the difference is less, a non-prolific hybrid is produced—an organism
-so ill co-ordinated as to be capable only of incomplete life. When
-the difference is still less, there results an organism capable of
-reproducing itself; but not of bequeathing to its offspring complete
-constitutions. And as the degrees of difference are further diminished,
-the incompleteness of constitution is longer and longer in making its
-appearance; until we come to those varieties of the same species which
-differ so slightly that their offspring are as permanent as themselves.
-Even in these, however, the organic equilibrium seems less perfect;
-as is illustrated {399} in the case I have quoted. And in connexion
-with this inference, it would be interesting to inquire whether pure
-constitutions are not superior to mixed ones, in their power of
-maintaining the balance of vital functions under disturbing conditions.
-Is it not a fact, that the pure breeds are _hardier_ than the mixed
-ones? Are not the mixed ones, though superior in size, less capable of
-resisting unfavourable influences—extremes of temperature, bad food,
-&c.? And is not the like true of mankind?
-
-Returning to the topic in hand, it is manifest that these facts
-and reasonings serve further to enforce the general truth, that
-the offspring of two organisms not identical in constitution is a
-heterogeneous mixture of the two, and not a homogeneous mean between
-them.
-
-If, then, bearing in mind this truth, we remember the composite
-character of the civilized races—the mingling in ourselves, for
-example, of Celt, Saxon, Norman, Dane, with sprinklings of other
-tribes; if we consider the complications of constitution that have
-arisen from the unions of these, not in any uniform manner, but with
-utter irregularity; and if we recollect that the incongruities thus
-produced pervade the whole nature, mental and bodily—nervous tissue
-and other tissues; we shall see that there must exist in all of us an
-imperfect correspondence between parts of the organism that are really
-related; and that as one manifestation of this, there must be more or
-less of discrepancy between the features and those parts of the nervous
-system with which they have a physiological connexion.
-
-If this be so, then the difficulties which stand in the way of the
-belief that beauty of character is related to beauty of face are
-considerably diminished. It becomes possible to admit that plainness
-may co-exist with nobility of nature, and fine features with baseness;
-and yet to hold that mental and facial perfection are fundamentally
-connected, and will, when the present causes of incongruity have worked
-themselves out, be ever found united.
-
-
-
-
-{400}
-
-THE ORIGIN AND FUNCTION OF MUSIC.
-
-
-[_First published in_ Fraser’s Magazine _for October 1857._]
-
-When Carlo, standing, chained to his kennel, sees his master in the
-distance, a slight motion of the tail indicates his but faint hope that
-he is about to be let out. A much more decided wagging of the tail,
-passing by-and-by into lateral undulations of the body, follows his
-master’s nearer approach. When hands are laid on his collar, and he
-knows that he is really to have an outing, his jumping and wriggling
-are such that it is by no means easy to loose his fastenings. And when
-he finds himself actually free, his joy expends itself in bounds, in
-pirouettes, and in scourings hither and thither at the top of his
-speed. Puss, too, by erecting her tail, and by every time raising her
-back to meet the caressing hand of her mistress, similarly expresses
-her gratification by certain muscular actions; as likewise do the
-parrot by awkward dancings on his perch, and the canary by hopping and
-fluttering about his cage with unwonted rapidity. Under emotions of an
-opposite kind, animals equally display muscular excitement. The enraged
-lion lashes his sides with his tail, knits his brows, protrudes his
-claws. The cat sets up her back; the dog retracts his upper lip; the
-horse throws back his ears. And in the struggles of creatures in pain,
-we see that a like relation {401} holds between excitement of the
-muscles and excitement of the nerves of sensation.
-
-In ourselves, distinguished from lower creatures by feelings alike more
-powerful and more varied, parallel facts are at once more conspicuous
-and more numerous. Let us look at them in groups. We shall find that
-pleasurable sensations and painful sensations, pleasurable emotions
-and painful emotions, all tend to produce active demonstrations in
-proportion to their intensity.
-
-In children, and even in adults who are not restrained by regard for
-appearances, a highly agreeable taste is followed by a smacking of the
-lips. An infant will laugh and bound in its nurse’s arms at the sight
-of a brilliant colour or the hearing of a new sound. People are apt to
-beat time with head or feet to music which particularly pleases them.
-In a sensitive person an agreeable perfume will produce a smile; and
-smiles will be seen on the faces of a crowd gazing at some splendid
-burst of fireworks. Even the pleasant sensation of warmth felt on
-getting to the fireside out of a winter’s storm, will similarly express
-itself in the face.
-
-Painful sensations, being mostly far more intense than pleasurable
-ones, cause muscular actions of much more decided kinds. A sudden
-twinge produces a convulsive start of the whole body. A pain less
-violent, but continuous, is accompanied by a knitting of the brows, a
-setting of the teeth or biting of the lip, and a contraction of the
-features generally. Under a persistent pain of a severer kind, other
-muscular actions are added: the body is swayed to and fro; the hands
-clench anything they can lay hold of; and should the agony rise still
-higher, the sufferer rolls about on the floor almost convulsed.
-
-Though more varied, the natural language of the pleasurable emotions
-comes within the same generalization. A smile, which is the commonest
-expression of gratified feeling, is a contraction of certain facial
-muscles; and when the smile broadens into a laugh, we see a more
-violent and {402} more general muscular excitement produced by an
-intenser gratification. Rubbing together of the hands, and that other
-motion which Hood describes as the washing of “hands with invisible
-soap in imperceptible water,” have like implications. Children
-may often be seen to “jump for joy,” Even in adults of excitable
-temperament, an action approaching to it is sometimes witnessed. And
-dancing has all the world through been regarded as natural to an
-elevated state of minds. Many of the special emotions show themselves
-in special muscular actions. The gratification resulting from success,
-raises the head and gives firmness to the gait. A hearty grasp of the
-hand is currently taken as indicative of friendship. Under a gush of
-affection the mother clasps her child to her breast, feeling as though
-she could squeeze it to death. And so in sundry other cases. Even in
-that brightening of the eye with which good news is received we may
-trace the same truth; for this sparkling appearance is due to an extra
-contraction of the muscle which raises the eyelid, and so allows more
-light to fall upon, and be reflected from, the wet surface of the
-eyeball.
-
-The bodily indications of painful emotion are equally numerous, and
-still more vehement. Discontent is shown by raised eyebrows and
-wrinkled forehead; disgust by a curl of the lip, offence by a pout.
-The impatient man beats a tattoo with his fingers on the table, swings
-his pendant leg with increasing rapidity, gives needless pokings to
-the fire, and presently paces with hasty strides about the room. In
-great grief there is wringing of the hands, and even tearing of the
-hair. An angry child stamps, or rolls on its back and kicks its heels
-in the air; and in manhood, anger, first showing itself in frowns, in
-distended nostrils, in compressed lips, goes on to produce grinding of
-the teeth, clenching of the fingers, blows of the fist on the table,
-and perhaps ends in a violent attack on the offending person, or in
-throwing about and breaking the furniture. From {403} that pursing of
-the mouth indicative of slight displeasure, up to the frantic struggles
-of the maniac, we find that mental irritation tends to vent itself in
-bodily activity.
-
-All feelings, then—sensations or emotions, pleasurable or painful—have
-this common characteristic, that they are muscular stimuli. Not
-forgetting the few apparently exceptional cases in which emotions
-exceeding a certain intensity produce prostration, we may set it down
-as a general law, that alike in man and animals, there is a direct
-connexion between feeling and movement; the last growing more vehement
-as the first grows more intense. Were it allowable here to treat the
-matter scientifically, we might trace this general law down to the
-principle known among physiologists as that of _reflex action_.[56]
-Without doing this, however, the above numerous instances justify the
-generalization that every kind of mental excitement ends in excitement
-of the muscles; and that the two preserve a more or less constant ratio
-to each other.
-
-       *       *       *       *       *
-
-“But what has all this to do with _The Origin and Function of Music_?”
-asks the reader. Very much, as we shall presently see. All music is
-originally vocal. All vocal sounds are produced by the agency of
-certain muscles. These muscles, in common with those of the body at
-large, are excited to contraction by pleasurable and painful feelings.
-And therefore it is that feelings demonstrate themselves in sounds as
-well as in movements. Therefore it is that Carlo barks as well as leaps
-when he is let out—that puss purrs as well as erects her tail—that the
-canary chirps as well as flutters. Therefore it is that the angry lion
-roars while he lashes his sides, and the dog growls while he retracts
-his lip. Therefore it is that the maimed animal not only struggles, but
-howls. And it is from this cause that in human beings bodily suffering
-expresses itself not only in {404} contortions, but in shrieks and
-groans—that in anger, and fear, and grief, the gesticulations are
-accompanied by shouts and screams—that delightful sensations are
-followed by exclamations—and that we hear screams of joy and shouts of
-exultation.
-
-We have here, then, a principle underlying all vocal phenomena;
-including those of vocal music, and by consequence those of music in
-general. The muscles that move the chest, larynx, and vocal chords,
-contracting like other muscles in proportion to the intensity of the
-feelings; every different contraction of these muscles involving,
-as it does, a different adjustment of the vocal organs; every
-different adjustment of the vocal organs causing a change in the sound
-emitted;—it follows that variations of voice are the physiological
-results of variations of feeling. It follows that each inflection or
-modulation is the natural outcome of some passing emotion or sensation;
-and it follows that the explanation of all kinds of vocal expression,
-must be sought in this general relation between mental and muscular
-excitements. Let us, then, see whether we cannot thus account for the
-chief peculiarities in the utterance of the feelings: grouping these
-peculiarities under the heads of _loudness_, _quality or timbre_,
-_pitch_, _intervals_, and _rate of variation_.
-
-       *       *       *       *       *
-
-Between the lungs and the organs of voice, there is much the same
-relation as between the bellows of an organ and its pipes. And as the
-loudness of the sound given out by an organ-pipe increases with the
-strength of the blast from the bellows; so, other things equal, the
-loudness of a vocal sound increases with the strength of the blast
-from the lungs. But the expulsion of air from the lungs is effected by
-certain muscles of the chest and abdomen. The force with which these
-muscles contract, is proportionate to the intensity of the feeling
-experienced. Hence, _a priori_, loud sounds will be the habitual
-results of strong feelings. That they are so we have daily proof. The
-pain which {405} if moderate, can be borne silently, causes outcries
-if it becomes extreme. While a slight vexation makes a child whimper,
-a fit of passion calls forth a howl that disturbs the neighbourhood.
-When the voices in an adjacent room become unusually audible, we infer
-anger, or surprise, or joy. Loudness of applause is significant of
-great approbation; and with uproarious mirth we associate the idea of
-high enjoyment. Commencing with the silence of apathy, we find that
-the utterances grow louder as the sensations or emotions, whether
-pleasurable or painful, grow stronger.
-
-That different _qualities_ of voice accompany different mental states,
-and that under states of excitement the tones are more sonorous than
-usual, is another general fact admitting of a parallel explanation.
-The sounds of common conversation have but little resonance; those
-of strong feeling have much more. Under rising ill temper the voice
-acquires a metallic ring. In accordance with her constant mood, the
-ordinary speech of a virago has a piercing quality quite opposite to
-that softness indicative of placidity. A ringing laugh marks joyous
-temperament. Grief, unburdening itself, uses tones approaching in
-_timbre_ to those of chanting; and in his most pathetic passages
-an eloquent speaker similarly falls into tones more vibratory than
-those common to him. Now any one may readily convince himself that
-resonant vocal sounds can be produced only by a certain muscular effort
-additional to that ordinarily needed. If after uttering a word in his
-speaking voice, the reader, without changing the pitch or the loudness,
-will _sing_ this word, he will perceive that before he can sing it,
-he has to alter the adjustment of the vocal organs; to do which a
-certain force must be used; and by putting his fingers on that external
-prominence marking the top of the larynx, he will have further evidence
-that to produce a sonorous tone the organs must be drawn out of their
-usual position. Thus, then, the fact that the tones of excited feeling
-are more vibratory than those of common {406} conversation, is another
-instance of the connexion between mental excitement and muscular
-excitement. The speaking voice, the recitative voice, and the singing
-voice, severally exemplify one general principle.
-
-That the _pitch_ of the voice varies according to the action of the
-vocal muscles, scarcely needs saying. All know that the middle notes,
-in which they converse, are made without appreciable effort; and all
-know that to make either very high notes or very low notes requires
-considerable effort. In either ascending or descending from the pitch
-of ordinary speech, we are conscious of increasing muscular strain,
-which, at each extreme of the register, becomes painful. Hence it
-follows from our general principle, that while indifference or calmness
-will use the medium tones, the tones used during excitement will be
-either above or below them; and will rise higher and higher, or fall
-lower and lower, as the feelings grow stronger. This physiological
-deduction we also find to be in harmony with familiar facts. The
-habitual sufferer utters his complaints in a voice raised considerably
-above the natural key; and agonizing pain vents itself in either
-shrieks or groans—in very high or very low notes. Beginning at his
-talking pitch, the cry of the disappointed urchin grows more shrill as
-it grows louder. The “Oh!” of astonishment or delight, begins several
-notes below the middle voice, and descends still lower. Anger expresses
-itself in high tones, or else in “curses not loud but _deep_.” Deep
-tones, too, are always used in uttering strong reproaches. Such an
-exclamation as “Beware!” if made dramatically—that is, if made with a
-show of feeling—must be many notes lower than ordinary. Further, we
-have groans of disapprobation, groans of horror, groans of remorse. And
-extreme joy and fear are alike accompanied by shrill outcries.
-
-Nearly allied to the subject of pitch, is that of _intervals_; and
-the explanation of them carries our argument a step {407} further.
-While calm speech is comparatively monotonous, emotion makes use of
-fifths, octaves, and even wider intervals. Listen to any one narrating
-or repeating something in which he has no interest, and his voice will
-not wander more than two or three notes above or below his medium
-note, and that by small steps; but when he comes to some exciting
-event he will be heard not only to use the higher and lower notes of
-his register, but to go from one to the other by larger leaps. Being
-unable in print to imitate these traits of feeling, we feel some
-difficulty in fully conveying them to the reader. But we may suggest
-a few remembrances which will perhaps call to mind a sufficiency of
-others. If two men living in the same place, and frequently seeing
-one another, meet, say at a public assembly, any phrase with which
-one accosts the other—as “Hallo, are you here?”—will have an ordinary
-intonation. But if one of them, after a long absence, has unexpectedly
-returned, the expression of surprise with which his friend greets
-him—“Hallo! how came you here?”—will be uttered in much more strongly
-contrasted tones. The two syllables of the word “Hallo” will be, the
-one much higher and the other much lower than before; and the rest of
-the sentence will similarly ascend and descend by longer steps. Again,
-if, supposing her maid to be in an adjoining room, the mistress of the
-house calls “Mary,” the two syllables of the name will be spoken in an
-ascending interval of a third. If Mary does not reply, the call will
-be repeated probably in a descending fifth; implying the slightest
-shade of annoyance at Mary’s inattention. Should Mary still make no
-answer, the increasing annoyance will show itself by the use of a
-descending octave on the next repetition of the call. And supposing the
-silence to continue, the lady, if not of a very even temper, will show
-her irritation at Mary’s seemingly intentional negligence by finally
-calling her in tones still more widely contrasted—the first syllable
-{408} being higher and the last lower than before. Now, these and
-analogous facts, which the reader will readily accumulate, clearly
-conform to the law laid down. For to make large intervals requires
-more muscular action than to make small ones. But not only is the
-_extent_ of vocal intervals thus explicable as due to the relation
-between nervous and muscular excitement, but also, in some degree,
-their _direction_, as ascending or descending. The middle notes being
-those which demand no appreciable effort of muscular adjustment;
-and the effort becoming greater as we either ascend or descend; it
-follows that a departure from the middle notes in either direction
-will mark increasing emotion; while a return towards the middle notes
-will mark decreasing emotion. Hence it happens that an enthusiastic
-person, uttering such a sentence as—“It was the most splendid sight I
-ever saw!” will ascend to the first syllable of the word “splendid,”
-and thence will descend: the word “splendid” marking the climax of
-the feeling produced by the recollection. Hence, again, it happens
-that, under some extreme vexation produced by another’s stupidity,
-an irascible man, exclaiming—“What a confounded fool the fellow is!”
-will begin somewhat below his middle voice, and descending to the word
-“fool,” which he will utter in one of his deepest notes, will then
-ascend. And it may be remarked, that the word “fool” will not only
-be deeper and louder than the rest, but will also have more emphasis
-of articulation—another mode in which muscular excitement is shown.
-There is some danger, however, in giving instances like this; seeing
-that as the mode of rendering will vary according to the intensity of
-the feeling which the reader feigns to himself, the right cadence may
-not be hit upon. With single words there is less difficulty. Thus the
-“Indeed!” with which a surprising fact is received, mostly begins on
-the middle note of the voice, and rises with the second syllable; or,
-if disapprobation as well as astonishment is felt, the {409} first
-syllable will be below the middle note, and the second lower still.
-Conversely, the word “Alas!” which marks not the rise of a paroxysm
-of grief, but its decline, is uttered in a cadence descending towards
-the middle note; or, if the first syllable is in the lower part of
-the register, the second ascends towards the middle note. In the
-“Heigh-ho!” expressive of mental or muscular prostration, we may see
-the same truth; and if the cadence appropriate to it be inverted, the
-absurdity of the effect clearly shows how the meaning of intervals is
-dependent on the principle we have been illustrating.
-
-The remaining characteristic of emotional speech which we have to
-notice, is that of _variability of pitch_. It is scarcely possible here
-to convey adequate ideas of this more complex manifestation. We must
-be content with simply indicating some occasions on which it may be
-observed. On a meeting of friends, for instance—as when there arrives
-a party of much-wished-for visitors—the voices of all will be heard to
-undergo changes of pitch not only greater but much more numerous than
-usual. If a speaker at a public meeting is interrupted by some squabble
-among those he is addressing, his comparatively level tones will be
-in marked contrast with the rapidly changing ones of the disputants.
-And among children, whose feelings are less under control than those
-of adults, this peculiarity is still more decided. During a scene of
-complaint and recrimination between two excitable little girls, the
-voices may be heard to run up and down the gamut several times in
-each sentence. In such cases we once more recognize the same law: for
-muscular excitement is shown not only in strength of contraction, but
-also in the rapidity with which different muscular adjustments succeed
-one another.
-
-Thus we find all the leading vocal phenomena to have a physiological
-basis. They are so many manifestations of the general law that feeling
-is a stimulus to muscular {410} action—a law conformed to throughout
-the whole economy, not of man only, but of every sensitive creature—a
-law, therefore, which lies deep in the nature of animal organization.
-The expressiveness of these various modifications of voice is therefore
-innate. Each of us, from babyhood upwards, has been spontaneously
-making them, when under the various sensations and emotions by which
-they are produced. Having been conscious of each feeling at the same
-time that we heard ourselves make the consequent sound, we have
-acquired an established association of ideas between such sound and
-the feeling which caused it. When the like sound is made by another,
-we ascribe the like feeling to him; and by a further consequence we
-not only ascribe to him that feeling, but have a certain degree of it
-aroused in ourselves: for to become conscious of the feeling which
-another is experiencing, is to have that feeling awakened in our own
-consciousness, which is the same thing as experiencing the feeling.
-Thus these various modifications of voice become not only a language
-through which we understand the emotions of others, but also the means
-of exciting our sympathy with such emotions.
-
-       *       *       *       *       *
-
-Have we not here, then, adequate data for a theory of music? These
-vocal peculiarities which indicate excited feeling, _are those which
-especially distinguish song from ordinary speech_. Every one of the
-alterations of voice which we have found to be a physiological result
-of pain or pleasure, _is carried to an extreme in vocal music_. For
-instance, we saw that, in virtue of the general relation between mental
-and muscular excitement, one characteristic of passionate utterance is
-_loudness_. Well, its comparative loudness is one of the distinctive
-marks of song as contrasted with the speech of daily life. Though
-there are _piano_ passages in contrast with the _forte_ passages, yet
-the average loudness of the singing voice is much greater than {411}
-that of the speaking voice; and further, the _forte_ passages of an
-air are those intended to represent the climax of its emotion. We
-next saw that the tones in which emotion expresses itself, are, in
-conformity with this same law, of a more sonorous _timbre_ than those
-of calm conversation. Here, too, song displays a still higher degree
-of the peculiarity; for the singing tone is the most resonant we can
-make. Again, it was shown that, from a like cause, mental excitement
-vents itself in the higher and lower notes of the register; using the
-middle notes but seldom. And it scarcely needs saying that vocal music
-is still more distinguished by its comparative neglect of the notes in
-which we talk, and its habitual use of those above or below them; and,
-moreover, that its most passionate effects are commonly produced at
-the two extremities of its scale, but especially at the upper one. A
-yet further trait of strong feeling, similarly accounted for, was the
-habitual employment of larger intervals than are employed in common
-converse. This trait, also, every ballad and _aria_ systematically
-elaborates: add to which, that the direction of these intervals, which,
-as diverging from or converging towards the medium tones, we found to
-be physiologically expressive of increasing or decreasing emotion,
-may be observed to have in music like meanings. Once more, it was
-pointed out that not only extreme but also rapid variations of pitch,
-are characteristic of mental excitement; and once more we see in the
-quick changes of every melody, that song carries the characteristic as
-far, if not farther. Thus, in respect alike of _loudness_, _timbre_,
-_pitch_, _intervals_, and _rate of variation_, song employs and
-exaggerates the natural language of the emotions;—it arises from a
-systematic combination of those vocal peculiarities which are the
-physiological effects of acute pleasure and pain.
-
-Besides these chief characteristics of song as distinguished from
-common speech, there are sundry minor ones {412} similarly explicable
-as due to the relation between mental and muscular excitement; and
-before proceeding further, these should be briefly noticed. Thus,
-certain passions, and perhaps all passions when pushed to an extreme,
-produce (probably through their influence over the action of the heart)
-an effect the reverse of that which has been described: they cause a
-physical prostration, one symptom of which is a general relaxation
-of the muscles, and a consequent trembling. We have the trembling of
-anger, of fear, of hope, of joy; and the vocal muscles being implicated
-with the rest, the voice too becomes tremulous. Now, in singing,
-this tremulousness of voice is effectively used by some vocalists in
-pathetic passages; sometimes, indeed, because of its effectiveness,
-too much used by them—as by Tamberlik, for instance. Again, there
-is a mode of musical execution known as the _staccato_, appropriate
-to energetic passages—to passages expressive of exhilaration, of
-resolution, of confidence. The action of the vocal muscles which
-produces this staccato style, is analogous to the muscular action which
-produces the sharp, decisive, energetic movements of body indicating
-these states of mind; and therefore it is that the staccato style
-has the meaning we ascribe to it. Conversely, slurred intervals are
-expressive of gentler and less active feelings; and are so because they
-imply the smaller muscular vivacity due to a lower mental energy. The
-difference of effect resulting from difference of _time_ in music, is
-also attributable to this same law. Already it has been pointed out
-that the more frequent changes of pitch which ordinarily result from
-passion, are imitated and developed in song; and here we have to add,
-that the various rates of such changes, appropriate to the different
-styles of music, are further traits having the same derivation. The
-slowest movements, _largo_ and _adagio_, are used where such depressing
-emotions as grief, or such unexciting emotions as reverence, are to be
-portrayed; while the more rapid movements, _andante_, {413} _allegro_,
-_presto_, represent successively increasing degrees of mental vivacity;
-and do this because they imply that muscular activity which flows
-from this mental vivacity. Even the _rhythm_, which forms a remaining
-distinction between song and speech, may not improbably have a kindred
-cause. Why the actions excited by strong feeling should tend to become
-rhythmical, is not obvious; but that they do so there are divers
-evidences. There is the swaying of the body to and fro under pain or
-grief, of the leg under impatience or agitation. Dancing, too, is a
-rhythmical action natural to elevated emotion. That under excitement
-speech acquires a certain rhythm, we may occasionally perceive in the
-highest efforts of an orator. In poetry, which is a form of speech used
-for the better expression of emotional ideas, we have this rhythmical
-tendency developed. And when we bear in mind that dancing, poetry, and
-music are connate—are originally constituent parts of the same thing,
-it becomes clear that the measured movement common to them all implies
-a rhythmical action of the whole system, the vocal apparatus included;
-and that so the rhythm of music is a more subtle and complex result of
-this relation between mental and muscular excitement.
-
-But it is time to end this analysis, which possibly we have already
-carried too far. It is not to be supposed that the more special
-peculiarities of musical expression are to be definitely explained.
-Though probably they may all in some way conform to the principle that
-has been worked out, it is impracticable to trace that principle in its
-more ramified applications. Nor is it needful to our argument that it
-should be so traced. The foregoing facts sufficiently prove that what
-we regard as the distinctive traits of song, are simply the traits
-of emotional speech intensified and systematized. In respect of its
-general characteristics, we think it has been made clear that vocal
-music, and by {414} consequence all music, is an idealization of the
-natural language of passion.
-
-       *       *       *       *       *
-
-As far as it goes, the scanty evidence furnished by history confirms
-this conclusion. Note first the fact (not properly an historical one,
-but fitly grouped with such) that the dance-chants of savage tribes
-are very monotonous; and in virtue of their monotony are more nearly
-allied to ordinary speech than are the songs of civilized races.
-Joining with this the fact that there are still extant among boatmen
-and others in the East, ancient chants of a like monotonous character,
-we may infer that vocal music originally diverged from emotional speech
-in a gradual, unobtrusive manner; and this is the inference to which
-our argument points. From the characters of the intervals the same
-conclusion may be drawn.
-
- “The songs of savages in the lowest scale of civilization are
- generally confined to the compass of few notes, seldom extending
- beyond the interval of the _fifth_. Sometimes, however, a sudden
- transition into the octave occurs, especially in sudden exclamations,
- or where a word naturally dictates an emphatic raising of the
- voice. The _fifth_ especially plays a prominent part in primitive
- vocal music. . . . But it must not be supposed that each interval
- is distinctly intoned: on the contrary, in the transition from one
- interval to another, all the intermediate intervals are slightly
- touched in a way somewhat similar to a violinist drawing his finger
- rapidly over the string from one note to another to connect them;
- and as the intervals themselves are seldom clearly defined, it will
- easily be understood how nearly impossible it is to write down such
- songs in our notation so as to convey a correct idea of their natural
- effect.”[57]
-
-Further evidence to the same effect is supplied by Greek history.
-The early poems of the Greeks—which, be it remembered, were sacred
-legends embodied in that rhythmical, metaphorical language which strong
-feeling excites—were not recited, but chanted: the tones and cadences
-{415} were made musical by the same influences which made the speech
-poetical. By those who have investigated the matter, this chanting
-is believed to have been not what we call singing, but nearly allied
-to our recitative—nearly allied but simpler. Several facts conspire
-to show this. The earliest stringed instruments had sometimes four,
-sometimes five strings: Egyptian frescoes delineate some of the simpler
-harps as thus constituted, and there are kindred representations of
-the lyres and allied instruments of the Assyrians, Hebrews, Greeks and
-Romans. That the earliest Greek lyre had but four strings, and that the
-recitative of the poet was uttered in unison with its sounds, Neumann
-finds definite proof in a verse ascribed to Terpander, celebrating his
-introduction of the seven-stringed lyre:―
-
- “The four-tonèd hymns now rejecting,
-   And yearning for songs new and sweet,
- With seven strings softly vibrating,
-   The lyre anon shall we greet.”
-
-Hence it follows that the primitive recitative was simpler than our
-modern recitative, and, as such, much less remote from common speech
-than our own singing is. For recitative, or musical recitation, is in
-all respects intermediate between speech and song. Its average effects
-are not so _loud_ as those of song. Its tones are less sonorous in
-_timbre_ than those of song. Commonly it diverges to a smaller extent
-from the middle notes—uses notes neither so high nor so low in _pitch_.
-The _intervals_ habitual to it are neither so wide nor so varied. Its
-_rate of variation_ is not so rapid. And at the same time that its
-primary _rhythm_ is less decided, it has none of that secondary rhythm
-produced by recurrence of the same or parallel musical phrases, which
-is one of the marked characteristics of song. Thus, then, we may not
-only infer, from the evidence furnished by existing barbarous tribes,
-that the vocal music of pre-historic times was emotional speech very
-slightly exalted; but we see that the earliest vocal music of which we
-have {416} any account, differed much less from emotional speech than
-does the vocal music of our days.
-
-That recitative—beyond which, by the way, the Chinese and Hindoos
-seem never to have advanced—grew naturally out of the modulations and
-cadences of strong feeling, we have indeed current evidence. There are
-even now to be met with occasions on which strong feeling vents itself
-in this form. Whoever has been present when a meeting of Quakers was
-addressed by one of their number (whose practice it is to speak only
-under the influence of religious emotion), must have been struck by
-the quite unusual tones, like those of a subdued chant, in which the
-address was made. On passing a chapel in Wales during service, the
-raised and sing-song voice of the preacher draws the attention. It is
-clear, too, that the intoning used in churches is representative of
-this mental state; and has been adopted on account of the congruity
-between it and the contrition, supplication, or reverence, verbally
-expressed.
-
-And if, as we have good reason to believe, recitative arose by degrees
-out of emotional speech, it becomes manifest that by a continuance
-of the same process song has arisen out of recitative. Just as, from
-the orations and legends of savages, expressed in the metaphorical,
-allegorical style natural to them, there sprung epic poetry, out of
-which lyric poetry was afterwards developed; so, from the exalted
-tones and cadences in which such orations and legends were delivered,
-came the chant or recitative music, from which lyrical music has since
-grown up. And there has not only thus been a simultaneous and parallel
-genesis, but there has been reached a parallelism of results. For
-lyrical poetry differs from epic poetry, just as lyrical music differs
-from recitative: each still further intensifies the natural language
-of the emotions. Lyrical poetry is more metaphorical, more hyperbolic,
-more elliptical, and adds the rhythm of lines to the rhythm of feet;
-just as lyrical music is louder, more sonorous, more extreme in its
-{417} intervals, and adds the rhythm of phrases to the rhythm of
-bars. And the known fact that out of epic poetry the stronger passions
-developed lyrical poetry as their appropriate vehicle, strengthens the
-inference that they similarly developed lyrical music out of recitative.
-
-Nor indeed are we without evidences of the transition. It needs but
-to listen to an opera to hear the leading gradations. Between the
-comparatively level recitative of ordinary dialogue, the more varied
-recitative with wider intervals and higher tones used in exciting
-scenes, the still more musical recitative which preludes an air, and
-the air itself, the successive steps are but small; and the fact that
-among airs themselves gradations of like nature may be traced, further
-confirms the conclusion that the highest form of vocal music was
-arrived at by degrees.
-
-We have some clue to the influences which have induced this
-development; and may roughly conceive the process of it. As the
-tones, intervals, and cadences of strong emotion were the elements
-out of which song was elaborated; so, we may expect to find that
-still stronger emotion produced the elaboration; and we have evidence
-implying this. Musical composers are men of acute sensibilities. The
-Life of Mozart depicts him as one of intensely active affections
-and highly impressionable temperament. Various anecdotes represent
-Beethoven as very susceptible and very passionate. Mendelssohn is
-described by those who knew him as having been full of fine feeling.
-And the almost incredible sensitiveness of Chopin has been illustrated
-in the memoirs of George Sand. An unusually emotional nature being thus
-the general characteristic of musical composers, we have in it just
-the agency required for the development of recitative and song. Any
-cause of excitement will generate just those exaggerations which we
-have found to distinguish the lower vocal music from emotional speech,
-and the higher vocal music from the lower. Thus it becomes credible
-that the four-toned recitative of the {418} early Greek poets (like
-all poets, nearly allied to composers in the comparative intensity of
-their feelings), was really nothing more than the slightly exaggerated
-emotional speech natural to them, which grew by frequent use into
-an organized form. And we may infer that the accumulated agency of
-subsequent poet-musicians, inheriting and adding to the products of
-those who went before them, sufficed, in the course of many centuries,
-to develope this simple four-toned recitative into a vocal music having
-great complexity and range.
-
-Not only may we so understand how more sonorous tones, greater extremes
-of pitch, and wider intervals, were gradually introduced; but also how
-there arose a greater variety and complexity of musical expression.
-For this same passionate, enthusiastic temperament, which leads the
-musical composer to express the feelings possessed by others as well as
-himself, in more marked cadences than they would use, also leads him to
-give musical utterance to feelings which they either do not experience,
-or experience in but slight degrees. And thus we may in some measure
-understand how it happens that music not only so strongly excites
-our more familiar feelings, but also produces feelings we never had
-before—arouses dormant sentiments of which we do not know the meaning;
-or, as Richter says—tells us of things we have not seen and shall not
-see.
-
-       *       *       *       *       *
-
-Indirect evidences of several kinds remain to be briefly pointed
-out. One of them is the difficulty, not to say impossibility, of
-otherwise accounting for the expressiveness of music. Whence comes
-it that special combinations of notes should have special effects
-upon our emotions?—that one should give us a feeling of exhilaration,
-another of melancholy, another of affection, another of reverence?
-Is it that these special combinations have intrinsic meanings apart
-from the human constitution?—that a certain number of aërial waves
-per second, followed by a certain other {419} number, in the nature
-of things signify grief, while in the reverse order they signify
-joy; and similarly with all other intervals, phrases, and cadences?
-Few will be so irrational as to think this. Is it, then, that the
-meanings of these special combinations are conventional only?—that
-we learn their implications, as we do those of words, by observing
-how others understand them? This is an hypothesis not only devoid of
-evidence, but directly opposed to the experience of every one; and
-it is excluded by the fact that children, unconventionalised though
-they are, show great susceptibility to music. How, then, are musical
-effects to be explained? If the theory above set forth be accepted,
-the difficulty disappears. If music, taking for its raw material the
-various modifications of voice which are the physiological results of
-excited feeling, intensifies, combines, and complicates them—if it
-exaggerates the loudness, the resonance, the pitch, the intervals,
-and the variability, which, in virtue of an organic law, are the
-characteristics of passionate speech—if, by carrying out these further,
-more consistently, more unitedly, and more sustainedly,it produces
-an idealized language of emotion; then its power over us becomes
-comprehensible. But in the absence of this theory the expressiveness of
-music appears inexplicable.
-
-Again, the preference we feel for certain qualities of sound presents
-a like difficulty, admitting only of a like solution. It is generally
-agreed that the tones of the human voice are more pleasing than any
-others. If music takes its rise from the modulations of the human voice
-under emotion, it is a natural consequence that the tones of that voice
-appeal to our feelings more than any others, and are considered more
-beautiful than any others. But deny that music has this origin, and the
-only alternative is the untenable one that the vibrations proceeding
-from a vocalist’s throat are, objectively considered, of a higher order
-than those from a horn or a violin.
-
-Once more, the question—How is the expressiveness of {420} music to be
-otherwise accounted for? may be supplemented by the question—How is the
-genesis of music to be otherwise accounted for? That music is a product
-of civilization, is manifest; for though some of the lowest savages
-have their dance-chants, these are of a kind scarcely to be dignified
-by the title musical: at most, they supply but the vaguest rudiment
-of music, properly so called. And if music has been by slow steps
-developed in the course of civilization, it must have been developed
-out of something. If, then, its origin is not that above alleged, what
-is its origin?
-
-Thus we find that the negative evidence confirms the positive, and
-that, taken together, they furnish strong proof. We have seen that
-there is a physiological relation, common to man and all animals,
-between feeling and muscular action; that as vocal sounds are produced
-by muscular action, there is a consequent physiological relation
-between feeling and vocal sounds; that all the modifications of voice
-expressive of feeling are the direct results of this physiological
-relation; that music, adopting all these modifications, intensifies
-them more and more as it ascends to its higher and higher forms;
-that, from the ancient epic poet chanting his verses, down to the
-modern musical composer, men of unusually strong feelings prone to
-express them in extreme forms, have been naturally the agents of these
-successive intensifications; and that so there has little by little
-arisen a wide divergence between this idealized language of emotion
-and its natural language: to which direct evidence we have just added
-the indirect—that on no other tenable hypothesis can either the
-expressiveness of music or the genesis of music be explained.
-
-       *       *       *       *       *
-
-And now, what is the _function_ of music? Has music any effect beyond
-the immediate pleasure it produces? Analogy suggests that it has. The
-enjoyments of a good dinner do not end with themselves, but minister to
-bodily well-being. Though people do not marry with a view to maintain
-the race, yet the passions which impel them to marry secure its {421}
-maintenance. Parental affection is a feeling which, while it conduces
-to parental happiness, ensures the nurture of offspring. Men love to
-accumulate property, often without thought of the benefits it produces;
-but in pursuing the pleasure of acquisition they indirectly open the
-way to other pleasures. The wish for public approval impels all of
-us to do many things which we should otherwise not do,—to undertake
-great labours, face great dangers, and habitually rule ourselves in
-ways that smooth social intercourse; so that, in gratifying our love
-of approbation we subserve divers ulterior purposes. And, generally,
-our nature is such that in fulfilling each desire, we in some way
-facilitate fulfilment of the rest. But the love of music seems to exist
-for its own sake. The delights of melody and harmony do not obviously
-minister to the welfare either of the individual or of society. May we
-not suspect, however, that this exception is apparent only? Is it not
-a rational inquiry—What are the indirect benefits which accrue from
-music, in addition to the direct pleasure it gives?
-
-But that it would take us too far out of our track, we should prelude
-this inquiry by illustrating at some length a certain general law
-of progress;—the law that alike in occupations, sciences, arts, the
-divisions which had a common root, but by gradual divergence have
-become distinct, and are now being separately developed, are not truly
-independent, but severally act and react on one another to their mutual
-advancement. Merely hinting thus much, however, by way of showing that
-there are many analogies to justify us, we go on to express the opinion
-that there exists a relationship of this kind between music and speech.
-
-All speech is compounded of two elements, the words and the tones in
-which they are uttered—the signs of ideas and the signs of feelings.
-While certain articulations express the thought, certain modulations
-express the more or less of pain or pleasure which the thought gives.
-Using the word _cadence_ in an unusually extended sense, as {422}
-comprehending all variations of voice, we may say that _cadence is the
-commentary of the emotions upon the propositions of the intellect_.
-This duality of spoken language, though not formally recognized, is
-recognized in practice by every one; and every one knows that very
-often more weight attaches to the tones than to the words. Daily
-experience supplies cases in which the same sentence of disapproval
-will be understood as meaning little or meaning much, according to the
-vocal inflections which accompany it; and daily experience supplies
-still more striking cases in which words and tones are in direct
-contradiction—the first expressing consent, while the last express
-reluctance; and the last being believed rather than the first.
-
-These two distinct but interwoven elements of speech have been
-undergoing a simultaneous development. We know that in the course of
-civilization words have been multiplied, new parts of speech have been
-introduced, sentences have grown more varied and complex; and we may
-fairly infer that during the same time new modifications of voice have
-come into use, fresh intervals have been adopted, and cadences have
-become more elaborate. For while, on the one hand, it is absurd to
-suppose that, along with the undeveloped verbal forms of barbarism,
-there existed developed vocal inflections; it is, on the other hand,
-necessary to suppose that, along with the higher and more numerous
-verbal forms needed to convey the multiplied and complicated ideas of
-civilized life, there have grown up those more involved changes of
-voice which express the feelings proper to such ideas. If intellectual
-language is a growth, so also, without doubt, is emotional language a
-growth.
-
-Now, the hypothesis which we have hinted above, is that, beyond the
-direct pleasure which it gives, music has the indirect effect of
-developing this language of the emotions. Having its root, as we
-have endeavoured to show, in those tones, intervals, and cadences of
-speech which express {423} feeling—arising by the combination and
-intensifying of these, and coming finally to have an embodiment of its
-own; music has all along been reacting upon speech, and increasing
-its power of rendering emotion. The use in recitative and song of
-inflections more expressive than ordinary ones, must from the beginning
-have tended to develope the ordinary ones. The complex musical phrases
-by which composers have conveyed complex emotions, may rationally
-be supposed to influence us in making those involved cadences of
-conversation by which we convey our subtler thoughts and feelings. If
-the cultivation of music has any effect on the mind, what more natural
-effect is there than this of developing our perception of the meanings
-of qualities, and modulations of voice; and giving us a correspondingly
-increased power of using them? Just as chemistry, arising out of
-the processes of metallurgy and the industrial arts, and gradually
-growing into an independent study, has now become an aid to all kinds
-of production—just as physiology, originating from medicine and once
-subordinate to it, but latterly pursued for its own sake, is in our day
-coming to be the science on which the progress of medicine depends;—so,
-music, having its root in emotional language, and gradually evolved
-from it, has ever been reacting upon and further advancing it.
-
-It will scarcely be expected that much direct evidence in support of
-this conclusion can be given. The facts are of a kind which it is
-difficult to measure, and of which we have no records. Some suggestive
-traits, however, are to be noted. May we not say, for instance, that
-the Italians, among whom modern music was earliest cultivated, and who
-have more especially excelled in melody (the division of music with
-which our argument is chiefly concerned)—may we not say that these
-Italians speak in more varied and expressive inflections and cadences
-than any other people? On the other hand, may we not say that, confined
-almost exclusively as they have hitherto been to their national {424}
-airs, and therefore accustomed to but a limited range of musical
-expression, the Scotch are unusually monotonous in the intervals and
-modulations of their speech? And again, do we not find among different
-classes of the same nation, differences that have like implications?
-The gentleman and the clown stand in decided contrast with respect to
-variety of intonation. Listen to the conversation of a servant-girl,
-and then to that of a refined lady, and the more delicate and complex
-changes of voice used by the latter will be conspicuous. Now, without
-going so far as to say that out of all the differences of culture to
-which the upper and lower classes are subjected, difference of musical
-culture is that to which alone this difference of speech is ascribable;
-yet we may fairly say that there seems a much more obvious connexion of
-cause and effect between these than between any others. Thus, while the
-inductive evidence to which we can appeal is but scanty and vague, yet
-what there is favours our position.
-
-       *       *       *       *       *
-
-Probably most will think that the function here assigned to music is
-one of very little moment. But reflection may lead them to a contrary
-conviction. In its bearings upon human happiness, this emotional
-language which musical culture develops and refines, is only second in
-importance to the language of the intellect; perhaps not even second
-to it. For these modifications of voice produced by feelings, are the
-means of exciting like feelings in others. Joined with gestures and
-expressions of face, they give life to the otherwise dead words in
-which the intellect utters its ideas; and so enable the hearer not only
-to _understand_ the state of mind they accompany, but to _partake_ of
-that state. In short, they are the chief media of _sympathy_. And if we
-consider how much both our general welfare and our immediate pleasures
-depend on sympathy, we shall recognize the importance of whatever makes
-this sympathy greater. If we bear in mind that by their fellow-feeling
-men are led {425} to behave justly and kindly to one another—that
-the difference between the cruelty of the barbarous and the humanity
-of the civilized, results from the increase of fellow-feeling; if we
-bear in mind that this faculty which makes us sharers in the joys and
-sorrows of others, is the basis of all the higher affections; if we
-bear in mind how much our direct gratifications are intensified by
-sympathy,—how, at the theatre, the concert, the picture gallery, we
-lose half our enjoyment if we have no one to enjoy with us;—we shall
-see that the agencies which communicate it can scarcely be overrated
-in value. The tendency of civilization is to repress the antagonistic
-elements of our characters and to develope the social ones—to curb
-our purely selfish desires and exercise our unselfish ones—to replace
-private gratifications by gratifications resulting from, or involving,
-the pleasures of others. And while, by this adaptation to the social
-state, the sympathetic side of our nature is being unfolded, there
-is simultaneously growing up a language of sympathetic intercourse—a
-language through which we communicate to others the happiness we feel,
-and are made sharers in their happiness. This double process, of which
-the effects are already appreciable, must go on to an extent of which
-we can as yet have no adequate conception. The habitual concealment of
-our feelings diminishing, as it must, in proportion as our feelings
-become such as do not demand concealment, the exhibition of them will
-become more vivid than we now dare allow it to be; and this implies
-a more expressive emotional language. At the same time, feelings
-of higher and more complex kinds, as yet experienced only by the
-cultivated few, will become general; and there will be a corresponding
-development of the emotional language into more involved forms. Just as
-there has silently grown up a language of ideas, which, rude as it at
-first was, now enables us to convey with precision the most subtle and
-complicated thoughts; so, there is still silently growing up a language
-of feelings, which, notwithstanding its present {426} imperfection, we
-may expect will ultimately enable men vividly and completely to impress
-on each other the emotions which they experience from moment to moment.
-
-Thus if, as we have endeavoured to show, it is the function of music to
-facilitate the development of this emotional language, we may regard
-music as an aid to the achievement of that higher happiness which it
-indistinctly shadows forth. Those vague feelings of unexperienced
-felicity which music arouses—those indefinite impressions of an unknown
-ideal life which it calls up, may be considered as a prophecy, the
-fulfilment of which music itself aids. The strange capacity which we
-have for being affected by melody and harmony, may be taken to imply
-both that it is within the possibilities of our nature to realize those
-intenser delights they dimly suggest, and that they are in some way
-concerned in the realization of them. If so the power and the meaning
-of music become comprehensible; but otherwise they are a mystery.
-
-We will only add that, if the probability of these corollaries be
-admitted, then music must take rank as the highest of the fine arts—as
-the one which, more than any other, ministers to human welfare. And
-thus, even leaving out of view the immediate gratifications it is
-hourly giving, we cannot too much applaud that musical culture which is
-becoming one of the characteristics of our age.
-
-
-POSTSCRIPT.
-
-An opponent, or partial opponent, of high authority, whose views were
-published some fourteen years after the above essay, must here be
-answered: I mean Mr. Darwin. Diligent and careful as an observer beyond
-naturalists in general, and still more beyond those who are untrained
-in research, his judgment on a question which must be {427} decided by
-induction is one to be received with great respect. I think, however,
-examination will show that in this instance Mr. Darwin’s observations
-are inadequate, and his reasonings upon them inconclusive. Swayed
-by his doctrine of sexual selection, he has leaned towards the view
-that music had its origin in the expression of amatory feeling, and
-has been led to over-estimate such evidence as he thinks favours that
-view, while ignoring the difficulties in its way, and the large amount
-of evidence supporting another view. Before considering the special
-reasons for dissenting from his hypothesis, let us look at the most
-general reasons.
-
-The interpretation of music which Mr. Darwin gives, agrees with my own
-in supposing music to be developed from vocal noises; but differs in
-supposing a particular class of vocal noises to have originated it—the
-amatory class. I have aimed to show that music has its germs in the
-sounds which the voice emits under excitement, and eventually gains
-this or that character according to the kind of excitement; whereas
-Mr. Darwin argues that music arises from those sounds which the male
-makes during the excitements of courtship, that they are consciously
-made to charm the female, and that from the resulting combinations of
-sounds arise not love-music only but music in general. That certain
-tones of voice and cadences having some likeness of nature are
-spontaneously used to express grief, others to express joy, others to
-express affection, and others to express triumph or martial ardour, is
-undeniable. According to the view I have set forth, the whole body of
-these vocal manifestations of emotion form the root of music. According
-to Mr. Darwin’s view, the sounds which are prompted by the amatory
-feeling only, having originated musical utterance, there are derived
-from these all the other varieties of musical utterance which aim to
-express other kinds of feeling. This roundabout derivation has, I
-think, less probability than the direct derivation. {428}
-
-This antithesis and its implications will perhaps be more clearly
-understood on looking at the facts under their nervo-muscular aspect.
-Mr. Darwin recognizes the truth of the doctrine with which the
-foregoing essay sets out, that feeling discharges itself in action:
-saying of the air-breathing vertebrata that―
-
- “When the primeval members of this class were strongly excited and
- their muscles violently contracted, purposeless sounds would almost
- certainly have been produced; and these, if they proved in any way
- serviceable, might readily have been modified or intensified by the
- preservation of properly adapted variations.” (_The Descent of Man_,
- vol. ii., p. 331.)
-
-But though this passage recognizes the general relation between
-feelings and those muscular contractions which cause sounds, it does so
-inadequately; since it ignores, on the one hand, those loudest sounds
-which accompany intense sensations—the shrieks and groans of bodily
-agony; while, on the other hand, it ignores those multitudinous sounds
-not produced “under the excitement of love, rage, and jealousy,” but
-which accompany ordinary amounts of feelings, various in their kinds.
-And it is because he does not bear in mind how large a proportion of
-vocal noises are caused by other excitements, that Mr. Darwin thinks “a
-strong case can be made out, that the vocal organs were primarily used
-and perfected in relation to the propagation of the species” (p. 330).
-
-Certainly the animals around us yield but few facts countenancing his
-view. The cooing of pigeons may, indeed, be named in its support; and
-it may be contended that caterwauling furnishes evidence; though I
-doubt whether the sounds are made by the male to charm the female. But
-the howling of dogs has no relation to sexual excitements; nor has
-their barking, which is used to express emotion of almost any kind.
-Pigs grunt sometimes through pleasurable expectation, sometimes during
-the gratifications of eating, sometimes from a general content while
-seeking about for food. The bleatings of sheep, again, occur under the
-promptings of various feelings, usually of no great {429} intensity:
-social and maternal rather than sexual. The like holds with the lowing
-of cattle. Nor is it otherwise with poultry. The quacking of ducks
-indicates general satisfaction, and the screams occasionally vented by
-a flock of geese seem rather to express a wave of social excitement
-than anything else. Save after laying an egg, when the sounds have
-the character of triumph, the cluckings of a hen show content; and on
-various occasions cock-crowing apparently implies good spirits only.
-In all cases an overflow of nervous energy has to find vent; and while
-in some cases it leads to wagging of the tail, in others it leads to
-contraction of the vocal muscles. That this relation holds, not of one
-kind of feeling, but of many kinds, is a truth which seems to me at
-variance with the view “that the vocal organs were primarily used and
-perfected in relation to the propagation of the species.”
-
-The hypothesis that music had its origin in the amatory sounds made
-by the male to charm the female, has the support of the popular idea
-that the singing of birds constitutes a kind of courtship—an idea
-adopted by Mr. Darwin when he says that “the male pours forth his
-full volume of song, in rivalry with other males, for the sake of
-captivating the female.” Usually, Mr. Darwin does not accept without
-criticism and verification, the beliefs he finds current; but in this
-case he seems to have done so. Even cursory observation suffices to
-dissipate this belief, initiated, I suppose, by poets. In preparation
-for dealing with the matter I have made memoranda concerning various
-songbirds, dating back to 1883. On the 7th of February of that year I
-heard a lark singing several times; and, still more remarkably, during
-the mild winter of 1884 I saw one soar, and heard it sing, on the
-10th January. Yet the lark does not pair till March. Having heard the
-redbreast near the close of August, 1888, I noted the continuance of
-its song all through the autumn and winter, up to Christmas {430} eve,
-Christmas day, the 29th of December, and again on the 18th January,
-1889. How common is the singing of the thrush during mild weather in
-winter, everyone must have observed. The presence of thrushes behind my
-house has led to the making of notes on this point. The male sang in
-November, 1889; I noted the song again on Christmas eve, again on the
-13th January, 1890, and from time to time all through the rest of that
-month. I heard little of his song in February, which is the pairing
-season; and none at all, save a few notes early in the morning, during
-the period of rearing the young. But now that, in the middle of May,
-the young, reared in a nest in my garden, have sometime since flown,
-he has recommenced singing vociferously at intervals throughout the
-day; and doubtless, in conformity with what I have observed elsewhere,
-will go on singing till July. How marked is the direct relation between
-singing and the conditions which cause high spirits, is perhaps best
-shown by a fact I noted on the 4th December, 1888, when, the day being
-not only mild but bright, the copses on Holmwood Common, Dorking,
-were vocal just as on a spring day, with a chorus of birds of various
-kinds—robins, thrushes, chaffinches, linnets, and sundry others of
-which I did not know the names. Ornithological works furnish verifying
-statements. Wood states that the hedge-sparrow continues “to sing
-throughout a large portion of the year, and only ceasing during the
-time of the ordinary moult.” The song of the blackcap, he says, “is
-hardly suspended throughout the year;” and of caged birds which sing
-continuously, save when moulting, he names the grosbeak, the linnet,
-the goldfinch, and the siskin.
-
-I think these facts show that the popular idea adopted by Mr. Darwin
-is untenable. What then is the true interpretation? Simply that like
-the whistling and humming of tunes by boys and men, the singing of
-birds results from overflow of energy—an overflow which in both cases
-{431} ceases under depressing conditions. The relation between
-courtship and singing, so far as it can be shown to hold, is not a
-relation of cause and effect, but a relation of concomitance: the two
-are simultaneous results of the same cause. Throughout the animal
-kingdom at large, the commencement of reproduction is associated with
-an excess of those absorbed materials needful for self-maintenance;
-and with a consequent ability to devote a part to the maintenance of
-the species. This constitutional state is one with which there goes a
-tendency to superfluous expenditure in various forms of action—unusual
-vivacity of every kind, including vocal vivacity. While we thus see
-why pairing and singing come to be associated, we also see why there
-is singing at other times when the feeding and weather are favourable;
-and why, in some cases, as in those of the thrush and the robin, there
-is more singing after the breeding season than before or during the
-breeding season. We are shown, too, why these birds, and especially the
-thrush, so often sing in the winter: the supply of worms on lawns and
-in gardens being habitually utilized by both, and thrushes having the
-further advantage that they are strong enough to break the shells of
-the hybernating snails: this last ability being connected with the fact
-that thrushes and blackbirds are the first among the singing birds to
-build. It remains only to add that the alleged singing of males against
-one another with the view of charming the females is open to parallel
-criticisms. How far this competition happens during the pairing season
-I have not observed, but it certainly happens out of the pairing
-season. I have several times heard blackbirds singing alternately in
-June. But the most conspicuous instance is supplied by the redbreasts.
-These habitually sing against one another during the autumn months:
-reply and rejoinder being commonly continued for five minutes at a time.
-
-Even did the evidence support the popular view, adopted {432} by Mr.
-Darwin, that the singing of birds is a kind of courtship—even were
-there good proof, instead of much disproof, that a bird’s song is a
-developed form of the sexual sounds made by the male to charm the
-female; the conclusion would, I think, do little towards justifying
-the belief that human music has had a kindred origin. For, in the
-first place, the bird-type in general, developed as it is out of
-the reptilian type, is very remotely related to that type of the
-_Vertebrata_ which ascends to Man as its highest exemplar; and, in the
-second place, song-birds belong, with but few exceptions, to the single
-order of _Insessores_—one order only, of the many orders constituting
-the class. So that, if the _Vertebrata_ at large be represented by a
-tree, of which Man is the topmost twig, then it is at a considerable
-distance down the trunk that there diverges the branch from which
-the bird-type is derived; and the group of singing-birds forms but a
-terminal sub-division of this branch—lies far out of the ascending
-line which ends in Man. To give appreciable support to Mr. Darwin’s
-view, we ought to find vocal manifestations of the amatory feeling
-becoming more pronounced as we ascend along that particular line of
-inferior _Vertebrata_ out of which Man has arisen. Just as we find
-other traits which pre-figure human traits (instance arms and hands
-adapted for grasping) becoming more marked as we approach Man; so
-should we find, becoming more marked, this sexual use of the voice,
-which is supposed to end in human song. But we do not find this. The
-South-American monkeys (“the Howlers,” as they are sometimes called),
-which, in chorus, make the woods resound for hours together with their
-“dreadful concert,” appear, according to Rengger, to be prompted by
-no other desire than that of making a noise. Mr. Darwin admits, too,
-that this is generally the case with the gibbons: the only exception
-he is inclined to make being in the case of _Hylobates agilis_, which,
-on the testimony of Mr. Waterhouse, he says ascends and descends the
-scale by {433} half-tones.[58] This comparatively musical set of
-sounds, he thinks, may be used to charm the female; though there is no
-evidence forthcoming that this is the case. When we remember that in
-the forms nearest to the human—the chimpanzees and the gorilla—there is
-nothing which approaches even thus far towards musical utterance, we
-see that the hypothesis has next to none of that support which ought to
-be forthcoming. Indeed in his _Descent of Man_, vol. ii., p. 332, Mr.
-Darwin himself says:—“It is a surprising fact that we have not as yet
-any good evidence that these organs are used by male mammals to charm
-the females:” an admission which amounts to something like a surrender.
-
-Even more marked is the absence of proof when we come to the human
-race itself—or rather, not absence of proof but presence of disproof.
-Here, from the _Descriptive Sociology_, where the authorities will be
-found under the respective heads, I quote a number of testimonies of
-travellers concerning primitive music: commencing with those referring
-to the lowest races.
-
-“The songs of the natives [of Australia] . . . are chiefly made on
-the spur of the moment, and refer to something that has struck the
-attention at the time.” “The Watchandies seeing me much interested
-in the genus Eucalyptus soon composed a song on this subject.” The
-Fuegians are fond of music and generally sing in their boats, doubtless
-keeping time, as many primitive peoples do. “The principal subject
-of the songs of the Araucanians is the exploits of their heroes:”
-when at work their “song was simple, referring mostly to their
-labour,” and was the same “for every {434} occasion, whether the
-burden of the song be joy or sorrow.” The Greenlanders sing of “their
-exploits in the chase” and “chant the deeds of their ancestors.” “The
-Indians of the Upper Mississippi vocalize an incident, as—‘They have
-brought us a fat dog,’:” then the chorus goes on for a minute. Of
-other North-American Indians we read—“the air which the women sang
-was pleasing . . . the men first gave out the words, which formed
-a consummate glorification of themselves.” Among the Carriers (of
-North America) there are professed composers, who “turn their talent
-to good account on the occasion of a feast, when new airs are in
-great request.” Of the New Zealanders we read:—“The singing of such
-compositions [laments] resembles cathedral chanting.” “Passing events
-are described by extemporaneous songs, which are preserved when good.”
-“When men worked together appropriate airs were sung.” When presenting
-a meal to travellers, women would chant—“What shall be our food? shell
-fish and fern-root, that is the root of the earth.” Among the Sandwich
-Islanders “most of the traditions of remarkable events in their history
-are preserved in songs.” When taught reading they could not “recite a
-lesson without chanting or singing it.” Cook found the Tahitians had
-itinerant musicians who gave narrative chants quite unpremeditated. “A
-Samoan can hardly put his paddle in the water without striking up some
-chant.” A chief of the Kyans, “Tamawan, jumped up and while standing
-burst out into an extempore song, in which Sir James Brooke and myself,
-and last not least the wonderful steamer, was mentioned with warm
-eulogies.” In East Africa “the fisherman will accompany his paddle,
-the porter his trudge, and the housewife her task of rubbing down
-grain, with song.” In singing, the East African “contents himself with
-improvising a few words without sense or rhyme and repeats them till
-they nauseate,” Among the Dahomans any incident “from the arrival of
-a stranger to an {435} earthquake” is turned into a song. When rowing,
-the Coast-negroes sing “either a description of some love intrigue or
-the praise of some woman celebrated for her beauty.” In Loango “the
-women as they till the field make it echo with their rustic songs.”
-Park says of the Bambarran—“they lightened their labours by songs,
-one of which was composed extempore; for I was myself the subject of
-it.” “In some parts of Africa nothing is done except to the sound of
-music.” “They are very expert in adapting the subjects of these songs
-to current events.” The Malays “amuse all their leisure hours . . .
-with the repetition of songs, which are for the most part proverbs
-illustrated. . . . Some that they rehearse in a kind of recitative
-at their _bimbangs_ or feasts are historical love-tales.” A Sumatran
-maiden will sometimes begin a tender song and be answered by one of the
-young men. The ballads of the Kamtschadales are “inspired apparently by
-grief, love, or domestic feeling;” and their music conveys “a sensation
-of sorrow and vague, unavailing regret.” Of their love-songs it is said
-“the women generally compose them.” A Kirghiz “singer sits on one knee
-and sings in an unnatural tone of voice, his lay being usually of an
-amorous character.” Of the Yakuts we are told “their style of singing
-is monotonous . . . their songs described the beauty of the landscape
-in terms which appeared to me exaggerated.”
-
-In these statements, which, omitting repetitions, are all which the
-_Descriptive Sociology_ contains relevant to the issue, several
-striking facts are manifest. Among the lowest races the only musical
-utterances named are those which refer to the incidents of the
-moment, and seem prompted by feelings which those incidents produce.
-The derivation of song or chant from emotional speech in general,
-thus suggested, is similarly suggested by the habits of many higher
-races; for they, too, show us that the musically-expressed feelings
-relevant to the immediate occasion, or to past occasions, are feelings
-of various kinds: now of simple good {436} spirits and now of joy
-or triumph—now of surprise, praise, admiration, and now of sorrow,
-melancholy, regret. Only among certain of the more advanced races, as
-the semi-civilized Malays and peoples of Northern Asia, do we read of
-love-songs; and then, strange to say, these are mentioned as mostly
-coming, not from men, but from women. Out of all the testimonies there
-is not one which tells of a love-song spontaneously commenced by a man
-to charm a woman. Entirely absent among the rudest types and many of
-the more developed types, amatory musical utterance, where first found,
-is found under a form opposite to that which Mr. Darwin’s hypothesis
-implies; and we have to seek among civilized peoples before we meet, in
-serenades and the like, music of the kind which, according to his view,
-should be the earliest.[59]
-
-Even were his view countenanced by the facts, there would remain
-unexplained the process by which sexually-excited sounds have been
-evolved into music. In the foregoing essay I have indicated the various
-qualities, relations, and combinations of tones, spontaneously prompted
-by emotions of all kinds, which exhibit, in undeveloped forms, the
-traits of recitative and melody. To have reduced his hypothesis to a
-shape admitting of comparison, Mr. Darwin should have shown that the
-sounds excited by sexual emotions possess these same traits; and, to
-have proved that his hypothesis is the more tenable, should have shown
-that they possess these same traits in a greater degree. But he has not
-attempted to do this. He has simply suggested that instead of having
-its roots in the vocal sounds caused by feelings of all kinds, music
-has its roots in the vocal {437} sounds caused by the amatory feeling
-only: giving no reason why the effects of the feelings at large should
-be ignored, and the effects of one particular feeling alone recognized.
-
-       *       *       *       *       *
-
-Nineteen years after my essay on “The Origin and Function of Music” was
-published, Mr. Edmund Gurney criticized it in an article which made its
-appearance in the _Fortnightly Review_ for July 1876. Absorption in
-more important work prevented me from replying. Though, some ten years
-ago, I thought of defending my views against those of Mr. Darwin and
-Mr. Gurney, the occurrence of Mr. Darwin’s death obliged me to postpone
-for a time any discussion of his views; and then, the more recent
-unfortunate death of Mr. Gurney caused a further postponement. I must
-now, however, say that which seems needful, though there is no longer
-any possibility of a rejoinder from him.
-
-Some parts of Mr. Gurney’s criticism I have already answered by
-implication; for he adopts the hypothesis that music originated in
-the vocal utterances prompted by sexual feeling. To the reasons above
-given for rejecting this hypothesis, I will add here, what I might have
-added above, that it is at variance with one of the fundamental laws of
-evolution. All development proceeds from the general to the special.
-First there appear those traits which a thing has in common with many
-other things; then those traits which it has in common with a smaller
-class of things; and so on until there eventually arise those traits
-which distinguish it from everything else. The genesis which I have
-described conforms to this fundamental law. It posits the antecedent
-fact that feeling in general produces muscular contraction in general;
-and the less general fact that feeling in general produces, among other
-muscular contractions, those which move the respiratory and vocal
-apparatus. With these it joins the still less general fact that sounds
-indicative of feelings vary in sundry {438} respects according to the
-intensity of the feelings; and then enumerates the still less general
-facts which show us the kinship between the vocal manifestations of
-feeling and the characters of vocal music: the implication being that
-there has gone on a progressive specialization. But the view which
-Mr. Gurney adopts from Mr. Darwin is that from the special actions
-producing the special sounds accompanying sexual excitement, were
-evolved those various actions producing the various sounds which
-accompany all other feelings. Vocal expression of a particular emotion
-came first, and from this proceeded vocal expressions of emotions in
-general: the order of evolution was reversed.
-
-To deficient knowledge of the laws of evolution are due sundry of Mr.
-Gurney’s objections. He makes a cardinal error in assuming that a more
-evolved thing is distinguished from less evolved things in respect
-of _all_ the various traits of evolution; whereas, very generally, a
-higher degree of evolution in some or most respects, is accompanied
-by an equal or lower degree of evolution in other respects. On the
-average, increase of locomotive power goes along with advance of
-evolution; and yet numerous mammals are more fleet than man. The stage
-of development is largely indicated by degree of intelligence; and
-yet the more intelligent parrot is inferior in vision, in speed, and
-in destructive appliances, to the less-intelligent hawk. The contrast
-between birds and mammals well illustrates the general truth. A
-bird’s skeleton diverges more widely from the skeleton of the lower
-vertebrates in respect of heterogeneity than does the skeleton of a
-mammal; and the bird has a more developed respiratory system, as well
-as a higher temperature of blood, and a superior power of locomotion.
-Nevertheless, many mammals in respect of bulk, in respect of various
-appliances (especially for prehension), and in respect of intelligence,
-are more evolved than birds. Thus it is obviously a mistake to assume
-that whatever is more {439} highly evolved in general character is
-more highly evolved in every trait.
-
-Of Mr. Gurney’s several objections which are based on this mistake here
-is an example. He says—“Loudness though a frequent is by no means a
-universal or essential element, either of song or of emotional speech”
-(p. 107). Under one of its aspects this criticism is self-destructive;
-for if, though both relatively loud in most cases, song and emotional
-speech are both characterized by the occasional use of subdued tones,
-then this is a further point of kinship between them—a kinship which
-Mr. Gurney seeks to disprove. Under its other aspect this criticism
-implies the above-described misconception. If in a song, or rather
-in some part or parts of a song, the trait of loudness is absent,
-while the other traits of developed emotional utterance are present,
-it simply illustrates the truth that the traits of a highly-evolved
-product are frequently not all present together.
-
-A like answer is at hand to the next objection he makes. It runs thus:―
-
- “In the recitative which he [Mr. Spencer] himself considers naturally
- and historically a step between speech and song, the rapid variation
- of pitch is impossible, and such recitative is distinguished from the
- tones even of common speech precisely by being more monotonous” (p.
- 108).
-
-But Mr. Gurney overlooks the fact that while, in recitative, some
-traits of developed emotional utterance are not present, two of its
-traits are present. One is that greater resonance of tone, caused by
-greater contraction of the vocal chords, which distinguishes it from
-ordinary speech. The other is the relative elevation of pitch, or
-divergence from the medium tones of voice: a trait similarly implying
-greater strain of certain vocal muscles, resulting from stronger
-feeling.
-
-Another difficulty raised by Mr. Gurney he would probably not have set
-down had he been aware that one character of musical utterance which
-he thinks {440} distinctive, is a character of all phenomena into
-which motion enters as a factor. He says:—“Now no one can suppose that
-the sense of rhythm can be derived from emotional speech” (p. 110).
-Had he referred to the chapter on “The Rhythm of Motion” in _First
-Principles_, he would have seen that, in common with inorganic actions,
-all organic actions are completely or partially rhythmical—from
-appetite and sleep to inspirations and heart-beats; from the winking
-of the eyes to the contractions of the intestines; from the motions
-of the legs to discharges through the nerves. Having contemplated
-such facts he would have seen that the rhythmical tendency which is
-perfectly displayed in musical utterance, is imperfectly displayed in
-emotional speech. Just as under emotion we see swayings of the body and
-wringings of the hands, so do we see contractions of the vocal organs
-which are now stronger and now weaker. Surely it is manifest that the
-utterances of passion, far from being monotonous, are characterized by
-rapidly-recurring ascents and descents of tone and by rapidly-recurring
-emphases: there is rhythm, though it is an irregular rhythm.
-
-Want of knowledge of the principles of evolution has, in another place,
-led Mr. Gurney to represent as an objection what is in reality a
-verification. He says:―
-
- “Music is distinguished from emotional speech in that it proceeds not
- only by fixed degrees in time, but by fixed degrees in the scale. This
- is a constant quality through all the immense quantity of embryo and
- developed scale-systems that have been used; whereas the transitions
- of pitch which mark emotional affections of voice are, as Helmholtz
- has pointed out, of a gliding character” (p. 113).
-
-Had Mr. Gurney known that evolution in all cases is from the indefinite
-to the definite, he would have seen that as a matter of course the
-gradations of emotional speech must be indefinite in comparison with
-the gradations of developed music. Progress from the one to the
-other is in part _constituted_ by increasing definiteness in the
-time-intervals and increasing definiteness in the tone-intervals.
-Were it {441} otherwise, the hypothesis I have set forth would lack
-one of its evidences. To his allegation that not only the “developed
-scale-systems” but also the “embryo” scale-systems are definite, it
-may obviously be replied that the mere existence of any scale-system
-capable of being written down, implies that the earlier stage of
-the progress has already been passed through. To have risen to a
-scale-system is to have become definite; and until a scale-system has
-been reached vocal phrases cannot have been recorded. Moreover had Mr.
-Gurney remembered that there are many people with musical perceptions
-so imperfect that when making their merely recognizable, and sometimes
-hardly recognizable, attempts to whistle or hum melodies, they show
-how vague are their appreciations of musical intervals, he would have
-seen reason for doubting his assumption that definite scales were
-reached all at once. The fact that in what we call bad ears there
-are all degrees of imperfection, joined with the fact that where the
-imperfection is not great practice may remedy it, suffice of themselves
-to show that definite perceptions of musical intervals were reached by
-degrees.
-
-Some of Mr. Gurney’s objections are strangely insubstantial. Here is an
-example:―
-
- “The fact is that song, which moreover in our time is but a limited
- branch of music, is perpetually making conscious efforts; for
- instance, the most peaceful melody may be a considerable strain to a
- soprano voice, if sung in a very high register: while speech continues
- to obey in a natural way the physiological laws of emotion” (p. 117).
-
-That in exaggerating and emphasizing the traits of emotional speech,
-the singer should be led to make “conscious efforts” is surely natural
-enough. What would Mr. Gurney have said of dancing? He would scarcely
-have denied that saltatory movements often result spontaneously from
-excited feeling; and he could hardly have doubted that primitive
-dancing arose as a systematized form of such movements. Would he
-have considered the belief that stage-dancing is evolved from these
-spontaneous movements {442} to be negatived by the fact that a
-stage-dancer’s bounds and gyrations are made with “conscious efforts”?
-
-In his elaborate work on _The Power of Sound_, Mr. Gurney, repeating in
-other forms the objections I have above dealt with, adds to them some
-others. One of these, which appears at first sight to have much weight,
-I must not pass by. He thus expresses it.
-
- “Any one may convince himself that not only are the intervals used
- in emotional speech very large, twelve diatonic notes being quite an
- ordinary skip, but that he uses extremes of both high and low pitch
- with his speaking voice, which, if he tries to dwell on them and make
- them resonant, will be found to lie beyond the compass of his singing
- voice” (p. 479).
-
-Now the part of my hypothesis which Mr. Gurney here combats is that,
-as in emotional speech so in song, feeling, by causing muscular
-contractions, causes divergencies from the middle tones of the voice,
-which become wider as it increases; and that this fact supports the
-belief that song is developed from emotional speech. To this Mr.
-Gurney thinks it a conclusive answer that higher notes are used by the
-speaking voice than by the singing voice. But if, as his words imply,
-there is a physical impediment to the production of notes in the one
-voice as high as those in the other, then my argument is justified if,
-in either voice, extremes of feeling are shown by extremes of pitch.
-If, for example, the celebrated _ut de poitrine_ with which Tamberlik
-brought down the house in one of the scenes of William Tell, was
-recognized as expressing the greatest intensity of martial patriotism,
-my position is warranted, even though in his speaking voice he could
-have produced a still higher note.
-
-Of answers to Mr. Gurney’s objections the two most effective are
-suggested by the passage in which he sums up his conclusions. Here are
-his words.
-
-  “It is enough to recall how every consideration tended to the same
- result; that the oak grew from the acorn; that the musical faculty
- and pleasure, which have to do with music and nothing else, are the
- representatives and {443} linear descendants of a faculty and pleasure
- which were musical and nothing else; and that, however rudely and
- tentatively applied to speech, Music was a _separate order_” (p. 492).
-
-Thus, then, it is implied that the true germs of music stand towards
-developed music as the acorn to the oak. Now suppose we ask—How many
-traits of the oak are to be found in the acorn? Next to none. And then
-suppose we ask—How many traits of music are to be found in the tones of
-emotional speech? Very many. Yet while Mr. Gurney thinks that music had
-its origin in something which might have been as unlike it as the acorn
-is unlike the oak, he rejects the theory that it had its origin in
-something as much like it as the cadences of emotional speech; and he
-does this because there are sundry differences between the characters
-of speech-cadences and the characters of music. In the one case he
-tacitly assumes a great unlikeness between germ and product; while
-in the other case he objects because germ and product are not in all
-respects similar!
-
-I may end by pointing out how extremely improbable, _a priori_, is Mr.
-Gurney’s conception. He admits, as perforce he must, that emotional
-speech has various traits in common with recitative and song—relatively
-greater resonance, relatively greater loudness, more marked divergences
-from medium tones, the use of the extremes of pitch in signifying the
-extremes of feeling, and so on. But, denying that the one is derived
-from the others, he implies that these kindred groups of traits have
-had independent origins. Two sets of peculiarities in the use of the
-voice which show various kinships, have nothing to do with one another!
-I think it merely requires to put the proposition in this shape to see
-how incredible it is.
-
-       *       *       *       *       *
-
-Sundry objections to the views contained in the essay on “The Origin
-and Function of Music,” have arisen from misconception of its scope.
-An endeavour to explain the _origin_ of music, has been dealt with
-as though it were a theory of music in its entirety. An hypothesis
-{444} concerning the rudiments has been rejected because it did not
-account for everything contained in the developed product. To preclude
-this misapprehension for the future, and to show how much more is
-comprehended in a theory of music than I professed to deal with, let me
-enumerate the several components of musical effect. They may properly
-be divided into _sensational_, _perceptional_, and _emotional_.
-
-That the sensational pleasure is distinguishable from the other
-pleasures which music yields, will not be questioned. A sweet sound
-is agreeable in itself, when heard out of relation to other sounds.
-Tones of various _timbres_, too, are severally appreciated as having
-their special beauties. Of further elements in the sensational pleasure
-have to be named those which result from certain congruities between
-notes and immediately succeeding notes. This pleasure, like the primary
-pleasure which fine quality yields, appears to have a purely physical
-basis. We know that the agreeableness of simultaneous tones depends
-partly on the relative frequency of recurring correspondences of the
-vibrations producing them, and partly on the relative infrequency
-of beats, and we may suspect that there is a kindred cause for the
-agreeableness of successive tones; since the auditory apparatus which
-has been at one instant vibrating in a particular manner, will take
-up certain succeeding vibrations more readily than others. Evidently
-it is a question of the _degree_ of congruity; for the most congruous
-vibrations, those of the octaves, yield less pleasure when heard in
-succession than those of which the congruity is not so great. To
-obtain the greatest pleasure in this and other things, there requires
-both likeness and difference. Recognition of this fact introduces us
-to the next element of sensational pleasure—that due to contrast;
-including contrast of pitch, of loudness, and of _timbre_. In this
-case, as in other cases, the disagreeableness caused by frequent
-repetition of the same sensation (here literally called “monotony”)
-results from the exhaustion which any single {445} nervous agent
-undergoes from perpetual stimulation; and contrast gives pleasure
-because it implies action of an agent which has had rest. It follows
-that much of the sensational pleasure to be obtained from music depends
-on such adjustments of sounds as bring into play, without conflict,
-many nervous elements: exercising all and not overexerting any. We
-must not overlook a concomitant effect. With the agreeable sensation
-is joined a faint emotion of an agreeable kind. Beyond the simple
-definite pleasure yielded by a sweet tone, there is a vague, diffused
-pleasure. As indicated in the _Principles of Psychology_ (§ 537),
-each nervous excitation produces reverberation throughout the nervous
-system at large; and probably this indefinite emotional pleasure is
-a consequence. Doubtless some shape is given to it by association.
-But after observing how much there is in common between the diffused
-feeling aroused by smelling at a deliciously scented flower and that
-aroused by listening to a sweet tone, it will, I think, be perceived
-that the more general cause predominates.
-
-The division between the sensational effects and the perceptional
-effects is of course indefinite. As above implied, part of the
-sensational pleasure depends on the relation between each tone and the
-succeeding tone; and hence this pleasure gradually merges into that
-which arises from perceiving the structural connexions between the
-phrases and between the larger parts of musical compositions. Much
-of the gratification given by a melody consists in the consciousness
-of the relations between each group of sounds heard and the groups
-of sounds held in memory as having just passed, as well as those
-represented as about to come. In many cases the passage listened
-to would not be regarded as having any beauty were it not for its
-remembered connexions with passages in the immediate past and the
-immediate future. If, for example, from the first movement of
-Beethoven’s Funeral-March sonata the first five notes are detached,
-they appear to be meaningless; {446} but if, the movement being known,
-they are joined with imaginations of the anticipated phrases, they
-immediately acquire meaning and beauty. Indefinable as are the causes
-of this perceptional pleasure in many cases, some causes of it are
-definable. Symmetry is one. A chief element in melodic effect results
-from repetitions of phrases which are either identical, or differ
-only in pitch, or differ only in minor variations: there being in the
-first case the pleasure derived from perception of complete likeness,
-and in the other cases the greater pleasure derived from perception
-of likeness with difference—a perception which is more involved, and
-therefore exercises a greater number of nervous agents. Next comes, as
-a source of gratification, the consciousness of pronounced unlikeness
-or contrast; such as that between passages above the middle tones and
-passages below, or as that between ascending phrases and descending
-phrases. And then we rise to larger contrasts; as when, the first theme
-in a melody having been elaborated, there is introduced another having
-a certain kinship though in many respects different, after which there
-is a return to the first theme: a structure which yields more extensive
-and more complex perceptions of both differences and likenesses. But
-while perceptional pleasures include much that is of the highest, they
-also include much that is of the lowest. A certain kind of interest, if
-not of beauty, is producible by the likenesses and contrasts of musical
-phrases which are intrinsically meaningless or even ugly. A familiar
-experience exemplifies this. If a piece of paper is folded and on one
-side of the crease there is drawn an irregular line in ink, which,
-by closing the paper, is blotted on the opposite side of the crease,
-there results a figure which, in virtue of its symmetry, has some
-beauty; no matter how entirely without beauty the two lines themselves
-may be. Similarly, some interest results from the parallelism of
-musical phrases, notwithstanding utter lack of interest in the
-phrases themselves. The kind of interest {447} resulting from such
-parallelisms, and from many contrasts, irrespective of any intrinsic
-worth in their components, is that which is most appreciated by the
-musically-uncultured, and gives popularity to miserable drawing-room
-ballads and vulgar music-hall songs.
-
-The remaining element of musical effect consists in the idealized
-rendering of emotion. This, as I have sought to show, is the primitive
-element, and will ever continue to be the vital element; for if “melody
-is the soul of music,” then expression is the soul of melody—the
-soul without which it is mechanical and meaningless, whatever may
-be the merit of its form. This primitive element may with tolerable
-clearness be distinguished from the other elements, and may coexist
-with them in various degrees: in some cases being the predominant
-element. Anyone who, in analytical mood, listens to such a song as
-_Robert, toi que j’aime_, cannot, I think, fail to perceive that its
-effectiveness depends on the way in which it exalts and intensifies
-the traits of passionate utterance. No doubt as music develops, the
-emotional element (which affects structure chiefly through the forms
-of phrases) is increasingly complicated with, and obscured by, the
-perceptional element; which both modifies these phrases and unites them
-into symmetrical and contrasted combinations. But though the groups
-of notes which emotion prompts admit of elaboration into structures
-that have additional charms due to artfully-arranged contrasts and
-repetitions, the essential element is liable to be thus submerged in
-the non-essential. Only in melodies of high types, such as the _Addio_
-of Mozart and _Adelaide_ of Beethoven, do we see the two requirements
-simultaneously fulfilled. Musical genius is shown in achieving the
-decorative beauty without losing the beauty of emotional meaning.
-
-It goes without saying that there must be otherwise accounted for
-that relatively modern element in musical effect which has now almost
-outgrown in importance the {448} other elements—I mean harmony. This
-cannot be affiliated on the natural language of emotion; since, in
-such language, limited to successive tones, there cannot originate
-the effects wrought by simultaneous tones. Dependent as harmony is on
-relations among rates of aerial pulses, its primary basis is purely
-mechanical; and its secondary basis lies in the compound vibrations
-which certain combinations of mechanical rhythms cause in the
-auditory apparatus. The resulting pleasure must, therefore, be due
-to nervous excitations of kinds which, by their congruity, exalt one
-another; and thus generate a larger volume of agreeable sensation. A
-further pleasure of sensational origin which harmony yields is due to
-contrapuntal effects. Skilful counterpoint has the general character
-that it does not repeat in immediate succession similar combinations of
-tones and similar directions of change; and by thus avoiding temporary
-over-tax of the nervous structures brought into action, keeps them in
-better condition for subsequent action. Absence of regard for this
-requirement characterizes the music of Gluck, of whom Handel said—“He
-knows no more counterpoint than my cook;” and it is this disregard
-which produces its cloying character. Respecting the effects of harmony
-I will add only that the vague emotional accompaniment to the sensation
-produced by a single sweet tone, is paralleled by the stronger
-emotional accompaniment to the more voluminous and complex sensation
-produced by a fine chord. Clearly this vague emotion forms a large
-component in the pleasure which harmony gives.
-
-While thus recognizing, and indeed emphasizing, the fact that of many
-traits of developed music my hypothesis respecting the origin of music
-yields no explanation, let me point out that this hypothesis gains a
-further general support from its conformity to the law of evolution.
-Progressive integration is seen in the immense contrast between the
-small combinations of tones constituting a cadence of grief, or anger,
-or triumph, and the vast combinations of {449} tones, simultaneous
-and successive, constituting an oratorio. Great advance in coherence
-becomes manifest when, from the lax unions among the sounds in which
-feeling spontaneously expresses itself, or even from those few musical
-phrases which constitute a simple air, we pass to those elaborate
-compositions in which portions small and large are tied together into
-extended organic wholes. On comparing the unpremeditated inflexions
-of the voice in emotional speech, vague in tones and times, with
-those premeditated ones which the musician arranges for stage or
-concert room, in which the divisions of time are exactly measured, the
-successive intervals precise, and the harmonies adjusted to a nicety,
-we observe in the last a far higher definiteness. And immense progress
-in heterogeneity is seen on putting side by side the monotonous chants
-of savages with the musical compositions familiar to us; each of which
-is relatively heterogeneous within itself, and the assemblage of which
-forms an immeasurably heterogeneous aggregate.
-
-       *       *       *       *       *
-
-Strong support for the theory enunciated in this essay, and defended
-in the foregoing paragraphs, is furnished by the testimonies of two
-travellers in Hungary, given in works published in 1878 and 1888
-respectively. Here is an extract from the first of the two.
-
- “Music is an instinct with these Hungarian gipsies. They play by
- ear, and with a marvellous precision, not surpassed by musicians
- who have been subject to the most careful training. . . . The airs
- they play are most frequently compositions of their own, and are in
- character quite peculiar. . . I heard on this occasion one of the
- gipsy airs which made an indelible impression on my mind; it seemed
- to me the thrilling utterance of a people’s history. There was the
- low wail of sorrow, of troubled passionate grief, stirring the heart
- to restlessness, then the sense of turmoil and defeat; but upon this
- breaks suddenly a wild burst of exultation, of rapturous joy—a triumph
- achieved, which hurries you along with it in resistless sympathy.
- The excitable Hungarians can literally become intoxicated with this
- music—and no wonder. You cannot reason upon it, or explain it, but its
- strains compel you to sensations of despair and joy, of exultation
- and excitement, as though under the influence of some potent
- charm.”—_Round about the Carpathians_, by Andrew F. Crosse, pp. 11,
- 12. {450}
-
-
-Still more graphic and startling is the description given by a more
-recent traveller, E. Gerard.
-
-  “Devoid of printed notes, the Tzigane is not forced to divide his
- attention between a sheet of paper and his instrument, and there is
- consequently nothing to detract from the utter abandonment with which
- he absorbs himself in his playing. He seems to be sunk in an inner
- world of his own; the instrument sobs and moans in his hands, and is
- pressed tight against his heart as though it had grown and taken root
- there. This is the true moment of inspiration, to which he rarely
- gives way, and then only in the privacy of an intimate circle, never
- before a numerous and unsympathetic audience. Himself spell-bound by
- the power of the tones he evokes, his head gradually sinking lower
- and lower over the instrument, the body bent forward in an attitude
- of rapt attention, and his ear seeming to hearken to far-off ghostly
- strains audible to himself alone, the untaught Tzigane achieves a
- perfection of expression unattainable by mere professional training.
-
- This power of identification with his music is the real secret of
- the Tzigane’s influence over his audience. Inspired and carried away
- by his own strains, he must perforce carry his hearers with him as
- well; and the Hungarian listener throws himself heart and soul into
- this species of musical intoxication, which to him is the greatest
- delight on earth. There is a proverb which says, ‘The Hungarian only
- requires a gipsy fiddler and a glass of water in order to make him
- quite drunk;’ and, indeed, intoxication is the only word fittingly to
- describe the state of exaltation into which I have seen a Hungarian
- audience thrown by a gipsy band.
-
- Sometimes, under the combined influence of music and wine, the
- Tziganes become like creatures possessed; the wild cries and stamps of
- an equally excited audience only stimulate them to greater exertions.
- The whole atmosphere seems tossed by billows of passionate harmony;
- we seem to catch sight of the electric sparks of inspiration flying
- through the air. It is then that the Tzigane player gives forth
- everything that is secretly lurking within him—fierce anger, childish
- wailings, presumptuous exaltation, brooding melancholy, and passionate
- despair; and at such moments, as a Hungarian writer has said, one
- could readily believe in his power of drawing down the angels from
- heaven into hell!
-
- Listen how another Hungarian has here described the effect of their
- music:—‘How it rushes through the veins like electric fire! How it
- penetrates straight to the soul! In soft plaintive minor tones the
- _adagio_ opens with a slow rhythmical movement: it is a sighing
- and longing of unsatisfied aspirations; a craving for undiscovered
- happiness; the lover’s yearning for the object of his affection; the
- expression of mourning for lost joys, for happy days gone for ever;
- then abruptly changing to a major key, the tones get faster and more
- agitated; and from the whirlpool of harmony the melody gradually
- detaches itself, alternately drowned in the foam of overbreaking
- waves, to reappear floating on the surface with undulating
- motion—collecting as it were fresh power for a renewed burst of fury.
- But {451} quickly as the storm came it is gone again, and the music
- relapses into the melancholy yearnings of heretofore.’” _The Land
- beyond the Forest_, vol. II, pp. 122–4. Lond. 1888.
-
-After the evidence thus furnished, argument is almost superfluous. The
-origin of music as the developed language of emotion seems to be no
-longer an inference but simply a description of the fact.
-
-
-ENDNOTES TO _THE ORIGIN AND FUNCTION OF MUSIC_.
-
-[56] Those who seek information on this point may find it in an
-interesting tract by Mr. Alexander Bain, on _Animal Instinct and
-Intelligence_.
-
-[57] _The Music of the Most Ancient Nations, &c._, by Carl Engel. This
-quotation is not contained in my essay as originally published, nor
-in the version of it first reproduced in 1858. Herr Engel’s work was
-issued in 1864, seven years after the date of the essay.
-
-[58] It is far more probable that the ascents and descents made by
-this gibbon consisted of indefinitely-slurred tones. To suppose that
-each was a series of definite semi-tones strains belief to breaking
-point; considering that among human beings the great majority, even of
-those who have good ears, are unable to go up or down the chromatic
-scale without being taught to do so. The achievement is one requiring
-considerable practice; and that such an achievement should be
-spontaneous on the part of a monkey is incredible.
-
-[59] After the above paragraphs had been sent to the printers I
-received from an American anthropologist, the Rev. Owen Dorsey, some
-essays containing kindred evidence. Of over three dozen songs and
-chants of the Omaha, Ponka, and other Indians, in some cases given
-with music and in other cases without, there are but five which have
-any reference to amatory feeling; and while in these the expression of
-amatory feeling comes from women, nothing more than derision of them
-comes from men.
-
-
-
-
-{452}
-
-THE PHYSIOLOGY OF LAUGHTER.
-
-
-[_First published in_ Macmillan’s Magazine _for March 1860._]
-
-Why do we smile when a child puts on a man’s hat? or what induces us
-to laugh on reading that the corpulent Gibbon was unable to rise from
-his knees after making a tender declaration? The usual reply to such
-questions is, that laughter results from a perception of incongruity.
-Even were there not, on this reply, the obvious criticism that laughter
-often occurs from extreme pleasure or from mere vivacity, there would
-still remain the real problem—How comes a sense of the incongruous
-to be followed by these peculiar bodily actions? Some have alleged
-that laughter is due to the pleasure of a relative self-elevation,
-which we feel on seeing the humiliation of others. But this theory,
-whatever portion of truth it may contain, is, in the first place, open
-to the fatal objection that there are various humiliations to others
-which produce in us anything but laughter; and, in the second place,
-it does not apply to the many instances in which no one’s dignity is
-implicated: as when we laugh at a good pun. Moreover, like the other,
-it is merely a generalization of certain conditions to laughter;
-and not an explanation of the odd movements which occur under these
-conditions. Why, when greatly delighted, or impressed with certain
-unexpected contrasts {453} of ideas, should there be a contraction
-of particular facial muscles and particular muscles of the chest and
-abdomen? Such answer to this question as may be possible, can be
-rendered only by physiology.
-
-       *       *       *       *       *
-
-Every child has made the attempt to hold the foot still while it
-is tickled, and has failed; and there is scarcely any one who has
-not vainly tried to avoid winking when a hand has been suddenly
-passed before the eyes. These examples of muscular movements which
-occur independently of the will, or in spite of it, illustrate
-what physiologists call reflex-action; as likewise do sneezing and
-coughing. To this class of cases, in which involuntary motions are
-accompanied by sensations, has to be added another class of cases, in
-which involuntary motions are unaccompanied by sensations:—instance
-the pulsations of the heart; the contractions of the stomach during
-digestion. Further, the majority of seemingly-voluntary acts in such
-creatures as insects, worms, molluscs, are considered by physiologists
-to be as purely automatic as is the dilatation or closure of the iris
-under variations in the quantity of light; and similarly exemplify the
-law, that an impression on the end of an afferent nerve is conveyed
-to some ganglionic centre, and is thence usually reflected along an
-efferent nerve to one or more muscles which it causes to contract.
-
-In a modified form this principle holds with voluntary acts. Nervous
-excitation always _tends_ to beget muscular motion; and when it rises
-to a certain intensity always does beget it. Not only in reflex
-actions, whether with or without sensation, do we see that special
-nerves, when raised to states of tension, discharge themselves on
-special muscles with which they are indirectly connected; but those
-external actions through which we read the feelings of others, show us
-that, under any considerable tension, the nervous system in general
-discharges itself on the muscular system in general: either with or
-without the {454} guidance of the will. The shivering produced by
-cold implies irregular muscular contractions, which, though at first
-only partly involuntary, become, when the cold is extreme, almost
-wholly involuntary. When you have severely burnt your finger it is very
-difficult to preserve a dignified composure: contortion of face, or
-movement of limb, is pretty sure to follow. If a man receives good news
-with neither facial change nor bodily motion, it is inferred that he
-is not much pleased, or that he has extraordinary self-control: either
-inference implying that joy almost universally produces contraction
-of the muscles, and so, alters the expression, or attitude, or both.
-And when we hear of the feats of strength which men have performed
-when their lives were at stake—when we read how, in the energy of
-despair, even paralyzed patients have regained for a time the use of
-their limbs; we see still more clearly the relation between nervous
-and muscular excitements. It becomes manifest both that emotions and
-sensations tend to generate bodily movements, and that the movements
-are violent in proportion as the emotions or sensations are intense.[60]
-
-This, however, is not the sole direction in which nervous excitement
-expends itself. Viscera as well as muscles may receive the discharge.
-That the heart and blood-vessels (which, indeed, being all contractile,
-may in a restricted sense be classed with the muscular system) are
-quickly affected by pleasures and pains, we have daily proved to
-us. Every sensation of any acuteness accelerates the pulse; and how
-sensitive the heart is to emotions, is testified by the familiar
-expressions which use heart and feeling as convertible terms. Similarly
-with the digestive organs. Without detailing the various ways in which
-these may be influenced by our mental states, it suffices to mention
-the marked benefits derived by dyspeptics, as well as other invalids,
-from cheerful society, welcome news, {455} change of scene, to show
-how pleasurable feeling stimulates the viscera in general into greater
-activity.
-
-There is still another direction in which any excited portion of the
-nervous system may discharge itself; and a direction in which it
-usually does discharge itself when the excitement is not strong. It
-may pass on the stimulus to some other portion of the nervous system.
-This is what occurs in quiet thinking and feeling. The successive
-states which constitute consciousness, result from this. Sensations
-excite ideas and emotions; these in their turns arouse other ideas
-and emotions; and so on continuously. That is to say, the tension
-existing in particular nerve-centres, or groups of nerve-centres, when
-they yield us certain sensations, ideas, or emotions, generates an
-equivalent tension in some other nervous structures, with which there
-is a connexion: the flow of energy passing on, the one idea or feeling
-dies in producing the next.
-
-Thus, then, while we are totally unable to comprehend how the
-excitement of certain nerve-centres should generate feeling—while, in
-the production of consciousness by physical agents acting on physical
-structures, we come to a mystery never to be solved; it is yet quite
-possible for us to know by observation what are the successive forms
-which this mystery may take. We see that there are three channels along
-which nerve-centres in a state of tension may discharge themselves; or
-rather, I should say, three classes of channels. They may pass on the
-excitement to other nerve-centres that have no direct connexions with
-the bodily members, and may so cause other feelings and ideas; or they
-may pass on the excitement to one or more motor nerves, and so cause
-muscular contractions; or they may pass on the excitement to nerves
-which supply the viscera, and may so stimulate one or more of these.
-
-For simplicity’s sake I have described these as alternative routes,
-one or other of which any current of nerve-force must take; thereby,
-as it may be thought, implying that {456} such current will be
-exclusively confined to some one of them. But this is by no means the
-case. Rarely, if ever, does it happen that a state of nervous tension,
-present to consciousness as a feeling, expends itself in one direction
-only. Very generally it may be observed to expend itself in two; and
-it is probable that the discharge is never absolutely absent from any
-one of the three. There is, however, variety in the _proportions_ in
-which the discharge is divided among these different channels under
-different circumstances. In a man whose fear impels him to run, the
-mental tension generated is only in part transformed into a muscular
-stimulus: there is a surplus which causes a rapid current of ideas. An
-agreeable state of feeling produced, say by praise, is not wholly used
-up in arousing the succeeding phase of the feeling and the new ideas
-appropriate to it; but a certain portion overflows into the visceral
-nervous system, increasing the action of the heart and facilitating
-digestion. And here we come upon a class of considerations and facts
-which open the way to a solution of our special problem.
-
-For, starting with the truth that at any moment the existing quantity
-of liberated nerve-force which in an inscrutable way produces in us
-the state we call feeling, _must_ expend itself in some direction, it
-follows that, if of the several channels it may take, one is wholly or
-partially closed, more must be taken by the others; or that if two are
-closed, the discharge along the remaining one must be more intense; and
-that, conversely, should anything determine an unusual efflux in one
-direction, there will be a diminished efflux in other directions.
-
-Daily experience illustrates these conclusions. It is commonly remarked
-that the suppression of external signs of feeling, makes feeling more
-intense. The deepest grief is silent grief. Why? Because the nervous
-excitement not discharged in muscular action, discharges itself
-in other nervous excitements—arouses more numerous and more {457}
-remote associations of melancholy ideas, and so increases the mass
-of feelings. People who conceal their anger are habitually found to
-be more revengeful than those who explode in loud speech and vehement
-action. Why? Because, as before, the emotion is reflected back,
-accumulates, and intensifies. Similarly, men who, as proved by their
-powers of representation, have the keenest appreciation of the comic,
-are usually able to do and say the most ludicrous things with perfect
-gravity.
-
-On the other hand, all are familiar with the truth that bodily activity
-deadens emotion. Under great irritation we get relief by walking about
-rapidly. Extreme effort in the bootless attempt to achieve a desired
-end, greatly diminishes the intensity of the desire. Those who are
-forced to exert themselves after misfortunes, do not suffer nearly
-so much as those who remain quiescent. If any one wishes to check
-intellectual excitement, he cannot choose a more efficient method
-than running till he is exhausted. Moreover, these cases, in which
-the production of feeling and thought is hindered by determining the
-nervous energy towards bodily movements, have their counterparts in
-the cases in which bodily movements are hindered by extra absorption
-of nervous energy in sudden thoughts and feelings. If, when walking,
-there flashes on you an idea that creates great surprise, hope, or
-alarm, you stop; or if sitting cross-legged, swinging your pendent
-foot, the movement is at once arrested. From the viscera, too, intense
-mental action abstracts energy. Joy, disappointment, anxiety, or any
-moral perturbation rising to a great height, destroys appetite; or, if
-food has been taken, arrests digestion; and even a purely intellectual
-activity, when extreme, does the like.
-
-Facts, then, bear out these _a priori_ inferences, that the nervous
-excitement at any moment present to consciousness as feeling, must
-expend itself in some way or other; that of the three classes of
-channels open to it, it must {458} take one, two, or more, according
-to circumstances; that the closure or obstruction of one, must increase
-the discharge through the others; and, conversely, that if, to answer
-some demand, the efflux of nervous energy in one direction is unusually
-great, there must be a corresponding decrease of the efflux in other
-directions. Setting out from these premises, let us now see what
-interpretation is to be put on the phenomena of laughter.
-
-       *       *       *       *       *
-
-That laughter is a form of muscular excitement, and so illustrates
-the general law that feeling passing a certain pitch habitually vents
-itself in bodily action, scarcely needs pointing out. It perhaps needs
-pointing out, however, that strong feeling of almost any kind produces
-this result. It is not a sense of the ludicrous, only, which does it;
-nor are the various forms of joyous emotion the sole additional causes.
-We have, besides, the sardonic laughter and the hysterical laughter
-which result from mental distress; to which must be added certain
-sensations, as tickling, and, according to Mr. Bain, cold, and some
-kinds of acute pain.
-
-Strong feeling, mental or physical, being, then, the general cause of
-laughter, we have to note that the muscular actions constituting it
-are distinguished from most others by this, that they are purposeless.
-In general, bodily motions that are prompted by feelings are directed
-to special ends; as when we try to escape a danger, or struggle to
-secure a gratification. But the movements of chest and limbs which
-we make when laughing have no object. And now remark that these
-quasi-convulsive contractions of the muscles, having no object, but
-being results of an uncontrolled discharge of energy, we may see whence
-arise their special characters—how it happens that certain classes of
-muscles are affected first, and then certain other classes. For an
-overflow of nerve-force undirected by any motive, will manifestly take
-first the {459} most habitual routes; and if these do not suffice,
-will next overflow into the less habitual ones. Well, it is through the
-organs of speech that feeling passes into movement with the greatest
-frequency. The jaws, tongue, and lips are used not only to express
-strong irritation or gratification, but that very moderate flow of
-mental energy which accompanies ordinary conversation, finds its chief
-vent through this channel. Hence it happens that certain muscles round
-the mouth, small and easy to move, are the first to contract under
-pleasurable emotion. The class of muscles which, next after those of
-articulation, are most constantly set in action (or extra action, let
-us say) by feelings of all kinds, are those of respiration. Under
-pleasurable or painful sensations we breathe more rapidly: possibly
-as a consequence of the increased demand for oxygenated blood. The
-sensations that accompany exertion also bring on hard breathing; which
-here more evidently responds to the physiological needs. And emotions,
-too, agreeable and disagreeable, both, at first, excite respiration;
-though the last subsequently depress it. That is to say, of the bodily
-muscles, the respiratory are more constantly implicated than any others
-in those various acts which our feelings impel us to; and, hence,
-when there occurs an undirected discharge of nervous energy into the
-muscular system, it happens that, if the quantity be considerable, it
-convulses not only certain of the articulatory and vocal muscles, but
-also those which expel air from the lungs. Should the feeling to be
-expended be still greater in amount—too great to find vent in these
-classes of muscles—another class comes into play. The upper limbs are
-set in motion. Children frequently clap their hands in glee; by some
-adults the hands are rubbed together; and others, under still greater
-intensity of delight, slap their knees and sway their bodies backwards
-and forwards. Last of all, when the other channels for the escape of
-the surplus nerve-force have been filled to {460} overflowing, a yet
-further and less-used group of muscles is spasmodically affected: the
-head is thrown back and the spine bent inwards—there is a slight degree
-of what medical men call opisthotonos. Thus, then, without contending
-that the phenomena of laughter in all their details are to be so
-accounted for, we see that in their _ensemble_ they conform to these
-general principles:—that feeling excites to muscular action; that when
-the muscular action is unguided by a purpose the muscles first affected
-are those which feeling most habitually stimulates; and that as the
-feeling to be expended increases in quantity it excites an increasing
-number of muscles, in a succession determined by the relative frequency
-with which they respond to the regulated dictates of feeling. To which
-as a qualifying and complicating factor must be added the relative
-sizes of the muscles; since, other things equal, the smaller muscles
-will be moved more readily than the larger.
-
-There still, however, remains the question with which we set out.
-The explanation here given applies only to the laughter produced
-by acute pleasure or pain: it does not apply to the laughter which
-follows certain perceptions of incongruity. It is an insufficient
-explanation that in these cases, laughter is a result of the pleasure
-we take in escaping from the restraint of grave feelings. That this
-is a part-cause is true. Doubtless very often, as Mr. Bain says, “it
-is the coerced form of seriousness and solemnity without the reality
-that gives us that stiff position from which a contact with triviality
-or vulgarity relieves us, to our uproarious delight,” And in so far
-as mirth is caused by the gush of agreeable feeling which follows
-the cessation of unpleasant mental strain, it further illustrates
-the general principle above set forth. But no explanation is thus
-afforded of the mirth which ensues when the short silence between the
-_andante_ and _allegro_ in one of Beethoven’s symphonies, is broken by
-a loud sneeze. In this, and hosts of like cases, the mental tension
-is not coerced but {461} spontaneous—not disagreeable but agreeable;
-and the coming impressions to which attention is directed, promise a
-gratification which few, if any, desire to escape. Hence, when the
-unlucky sneeze occurs, it cannot be that the laughter of the audience
-is due simply to the release from an irksome attitude of mind: some
-other cause must be sought.
-
-This cause we shall arrive at by carrying our analysis a step further.
-We have but to consider the quantity of feeling which exists under such
-circumstances, and then to ask what are the conditions determining the
-direction of its discharge, to reach a solution. Take a case. You are
-sitting in a theatre, absorbed in the progress of an interesting drama.
-Some climax has been reached which has aroused your sympathies—say, a
-reconciliation between the hero and heroine, after long and painful
-misunderstanding. The feelings excited by this scene are not of a kind
-from which you seek relief; but are, on the contrary, a grateful relief
-from the painful feelings with which you have witnessed the previous
-estrangement. Moreover, the sentiments these fictitious personages
-have for the moment inspired you with, are not such as would lead you
-to rejoice in any indignity offered to them; but rather, such as would
-make you resent the indignity. And now, while you are contemplating the
-reconciliation with a pleasurable sympathy, there appears from behind
-the scenes a tame kid, which, having stared round at the audience,
-walks up to the lovers and sniffs at them. You cannot help joining
-in the roar which greets this _contretemps_. Inexplicable as is this
-irresistible burst on the hypothesis of a pleasure in escaping from
-mental restraint; or on the hypothesis of a pleasure from relative
-increase of self-importance, when witnessing the humiliation of
-others; it is readily explicable if we consider what, in such a case,
-must become of the feeling that existed at the moment the incongruity
-arose. A large mass of emotion had been produced; or, to speak in
-physiological language, a large portion of the nervous {462} system
-was in a state of tension. There was also great expectation with
-respect to the further evolution of the scene—a quantity of vague,
-nascent thought and emotion, into which the existing quantity of
-thought and emotion was about to pass. Had there been no interruption,
-the body of new ideas and feelings next excited, would have sufficed to
-absorb the whole of the liberated nervous energy. But now, this large
-amount of nervous energy, instead of being allowed to expend itself
-in producing an equivalent amount of the new thoughts and emotions
-which were nascent, is suddenly checked in its flow. The channels
-along which the discharge was about to take place, are closed. The new
-channel opened—that afforded by the appearance and proceedings of the
-kid—is a small one; the ideas and feelings suggested are not numerous
-and massive enough to carry off the nervous energy to be expended. The
-excess must therefore discharge itself in some other direction; and in
-the way already explained, there results an efflux through the motor
-nerves to various classes of the muscles, producing the half-convulsive
-actions we term laughter.
-
-This explanation is in harmony with the fact that when, among several
-persons who witness the same ludicrous occurrence, there are some
-who do not laugh, it is because there has arisen in them an emotion
-not participated in by the rest, and which is sufficiently massive
-to absorb all the nascent excitement. Among the spectators of an
-awkward tumble, those who preserve their gravity are those in whom
-there is excited a degree of sympathy with the sufferer, sufficiently
-great to serve as an outlet for the feeling which the occurrence had
-turned out of its previous course. Sometimes anger carries off the
-arrested current; and so prevents laughter. An instance of this was
-lately furnished me by a friend who had been witnessing the feats at
-Franconi’s. A tremendous leap had just been made by an acrobat over a
-number of horses. The clown, seemingly envious of this success, made
-ostentatious preparation for doing the like; {463} and then, taking
-the preliminary run with immense energy, stopped short on reaching the
-first horse, and pretended to wipe some dust from its haunches. In most
-of the spectators, merriment was excited; but in my friend, wound up by
-the expectation of the coming leap to a state of great nervous tension,
-the effect of the baulk was to produce indignation. Experience thus
-proves what the theory implies; namely, that the discharge of arrested
-feelings into the muscular system, takes place only in the absence
-of other adequate channels—does not take place if there arise other
-feelings equal in amount to those arrested.
-
-Evidence still more conclusive is at hand. If we contrast the
-incongruities which produce laughter with those which do not, we
-see that in the non-ludicrous ones the unexpected feeling aroused,
-though wholly different in kind, is not less in quantity or intensity.
-Among incongruities which may excite anything but a laugh, Mr. Bain
-instances—“A decrepit man under a heavy burden, five loaves and two
-fishes among a multitude, and all unfitness and gross disproportion;
-an instrument out of tune, a fly in ointment, snow in May, Archimedes
-studying geometry in a siege, and all discordant things; a wolf in
-sheep’s clothing, a breach of bargain, and falsehood in general; the
-multitude taking the law in their own hands, and everything of the
-nature of disorder; a corpse at a feast, parental cruelty, filial
-ingratitude, and whatever is unnatural; the entire catalogue of
-the vanities given by Solomon, are all incongruous, but they cause
-feelings of pain, anger, sadness, loathing, rather than mirth.” Now in
-these cases, where the totally unlike state of consciousness suddenly
-produced, is not inferior in mass to the preceding one, the conditions
-to laughter are not fulfilled. As above shown, laughter naturally
-results only when consciousness is unawares transferred from great
-things to small—only when there is what we may call a _descending_
-incongruity.
-
-And now observe, finally, the fact, alike inferable _a priori_ {464}
-and illustrated in experience, that an _ascending_ incongruity not
-only fails to cause laughter, but works on the muscular system an
-effect of the reverse kind. When after something very insignificant
-there arises without anticipation something very great, the emotion we
-call wonder results; and this emotion is accompanied not by contraction
-of the muscles, but by relaxation of them. In children and country
-people, that falling of the jaw which occurs on witnessing an imposing
-and unexpected change, exemplifies this effect. Persons wonder-struck
-at the production of a striking result by a seemingly-inadequate cause,
-are frequently described as unconsciously dropping the things they held
-in their hands. Such are just the effects to be anticipated. After
-an average state of consciousness, absorbing but a small quantity of
-nervous energy, is aroused without notice, a strong emotion of awe,
-terror, or admiration; joined with the astonishment due to an apparent
-want of adequate causation. This new state of consciousness demands
-far more nervous energy than that which it has suddenly replaced; and
-this increased absorption of nervous energy in mental changes, involves
-a temporary diminution of the outflow in other directions: whence the
-pendent jaw and the relaxing grasp.
-
-One further observation is worth making. Among the several sets of
-channels into which surplus feeling might be discharged, was named
-the nervous system of the viscera. The sudden overflow of an arrested
-mental excitement, which, as we have seen, results from a descending
-incongruity, must doubtless stimulate not only the muscular system, as
-we see it does, but also the internal organs: the heart and stomach
-must come in for a share of the discharge. And thus there seems to be
-a good physiological basis for the popular notion that mirth-creating
-excitement facilitates digestion.
-
-       *       *       *       *       *
-
-Though, in doing so, I go beyond the boundaries of the {465} immediate
-topic, I may fitly point out that the method of inquiry here followed,
-opens the way to interpretation of various phenomena besides those of
-laughter. To show the importance of pursuing it, I will indicate the
-explanation it furnishes of another familiar class of facts.
-
-All know how generally a large amount of emotion disturbs the action of
-the intellect, and interferes with the power of expression. A speech
-delivered with great facility to tables and chairs, is by no means so
-easily delivered to an audience. Every schoolboy can testify that his
-trepidation, when standing before a master, has often disabled him
-from repeating a lesson which he had duly learnt. In explanation of
-this we commonly say that the attention is distracted—that the proper
-train of ideas is broken by the intrusion of ideas that are irrelevant.
-But the question is, in what manner does unusual emotion produce this
-effect; and we are here supplied with a tolerably obvious answer. The
-repetition of a lesson, or set speech previously thought out, implies
-the flow of a very moderate amount of nervous excitement through a
-comparatively narrow channel. The thing to be done is simply to call
-up in succession certain previously-arranged ideas—a process in which
-no great amount of mental energy is expended. Hence, when there is a
-large quantity of emotion, which must be discharged in some direction
-or other; and when, as usually happens, the restricted series of
-intellectual actions to be gone through, does not suffice to carry
-it off; there result discharges along other channels besides the one
-prescribed: there are aroused various ideas foreign to the train of
-thought to be pursued; and these tend to exclude from consciousness
-those which should occupy it.
-
-And now observe the meaning of those bodily actions spontaneously set
-up under these circumstances. The schoolboy saying his lesson, commonly
-has his fingers actively engaged—perhaps in twisting about a broken
-pen, or perhaps in squeezing the angle of his jacket; and if told to
-keep his {466} hands still, he soon again falls into the same or a
-similar trick. Many anecdotes are current of public speakers having
-incurable automatic actions of this class: barristers who perpetually
-wound and unwound pieces of tape; members of parliament ever putting
-on and taking off their spectacles. So long as such movements are
-unconscious, they facilitate the mental actions. At least this seems
-a fair inference from the fact that confusion frequently results from
-putting a stop to them: witness the case narrated by Sir Walter Scott
-of his school-fellow, who became unable to say his lesson after the
-removal of the waistcoat button which he habitually fingered while in
-class. But why do they facilitate the mental actions? Clearly because
-they draw off a portion of the surplus nervous excitement. If, as above
-explained, the quantity of mental energy generated is greater than can
-find vent along the narrow channel of thought that is open to it; and
-if, in consequence, it is apt to produce confusion by rushing into
-other channels of thought; then, by allowing it an exit through the
-motor nerves into the muscular system, the pressure is diminished, and
-irrelevant ideas are less likely to intrude on consciousness.
-
-This further illustration will, I think, justify the position that
-something may be achieved by pursuing in other cases this kind of
-psychological inquiry. A complete explanation of the phenomena,
-requires us to trace out _all_ the consequences of any given state of
-consciousness; and we cannot do this without studying the effects,
-bodily and mental, as varying in quantity at one another’s expense. We
-should probably learn much if in every case we asked—Where is all the
-nervous energy gone?
-
-
-ENDNOTE TO _THE PHYSIOLOGY OF LAUGHTER_.
-
-[60] For numerous illustrations see essay on “The Origin and Function
-of Music.”
-
-END OF VOL. II.
-
-
-
-
-MR. HERBERT SPENCER’S WORKS.
-
-
-_A SYSTEM OF SYNTHETIC PHILOSOPHY._
-
-
- _8th Thousand._
- (WITH AN APPENDIX DEALING WITH CRITICISMS.)
- In one vol. 8vo, cloth, price 16s.,
- FIRST PRINCIPLES.
-
-CONTENTS.
-
-PART I.—THE UNKNOWABLE.
-
- 1. Religion and Science.
- 2. Ultimate Religious Ideas.
- 3. Ultimate Scientific Ideas.
- 4. The Relativity of All Knowledge.
- 5. The Reconciliation.
-
-PART II.—THE KNOWABLE.
-
- 1. Philosophy Defined
- 2. The Data of Philosophy.
- 3. Space, Time, Matter, Motion, and Force.
- 4. The Indestructibility of Matter.
- 5. The Continuity of Motion.
- 6. The Persistence of Force.
- 7. The Persistence of Relations among Forces.
- 8. The Transformation and Equivalence of Forces.
- 9. The Direction of Motion.
- 10. The Rhythm of Motion.
- 11. Recapitulation, Criticism, and Recommencement.
- 12. Evolution and Dissolution.
- 13. Simple and Compound Evolution.
- 14. The Law of Evolution.
- 15. The Law of Evolution, continued.
- 16. The Law of Evolution, continued.
- 17. The Law of Evolution, concluded.
- 18. The Interpretation of Evolution.
- 19. The Instability of the Homogeneous.
- 20. The Multiplication of Effects.
- 21. Segregation.
- 22. Equilibration.
- 23. Dissolution.
- 24. Summary and Conclusion.
-
-
- _4th Thousand._
- In two vols. 8vo, cloth, price 34s.
- THE PRINCIPLES OF BIOLOGY.
-
-CONTENTS OF VOL. I.
-
-PART I.—THE DATA OF BIOLOGY.
-
- 1. Organic Matter.
- 2. The Actions of Forces on Organic Matter.
- 3. The Re-actions of Organic Matter on Forces.
- 4. Proximate Definition of Life.
- 5. The Correspondence between Life and its Circumstances.
- 6. The Degree of Life varies as the Degree of Correspondence.
- 7. The Scope of Biology.
-
-PART II.—THE INDUCTIONS OF BIOLOGY.
-
- 1. Growth.
- 2. Development.
- 3. Function.
- 4. Waste and Repair.
- 5. Adaptation.
- 6. Individuality.
- 7. Genesis.
- 8. Heredity.
- 9. Variation.
- 10. Genesis, Heredity, and Variation.
- 11. Classification.
- 12. Distribution.
-
-PART III.—THE EVOLUTION OF LIFE.
-
- 1. Preliminary.
- 2. General Aspects of the Special-Creation-Hypothesis.
- 3. General Aspects of the Evolution-Hypothesis.
- 4. The Arguments from Classification.
- 5. The Arguments from Embryology.
- 6. The Arguments from Morphology.
- 7. The Arguments from Distribution.
- 8. How is Organic Evolution caused?
- 9. External Factors.
- 10. Internal Factors.
- 11. Direct Equilibration.
- 12. Indirect Equilibration.
- 13. The Co-operation of the Factors.
- 14. The Convergence of the Evidences.
-
-APPENDIX.
-
- The Spontaneous-Generation Question.
-
-CONTENTS OF VOL. II.
-
-PART IV.—MORPHOLOGICAL DEVELOPMENT.
-
- 1. The Problems of Morphology.
- 2. The Morphological Composition of Plants.
- 3. The Morphological Composition of Plants, continued.
- 4. The Morphological Composition of Animals.
- 5. The Morphological Composition of Animals, continued.
- 6. Morphological Differentiation in Plants.
- 7. The General Shapes of Plants.
- 8. The Shapes of Branches.
- 9. The Shapes of Leaves.
- 10. The Shapes of Flowers.
- 11. The Shapes of Vegetal Cells.
- 12. Changes of Shape otherwise caused.
- 13. Morphological Differentiation in Animals.
- 14. The General Shapes of Animals.
- 15. The Shapes of Vertebrate Skeletons.
- 16. The Shapes of Animal Cells.
- 17. Summary of Morphological Development.
-
-PART V.—PHYSIOLOGICAL DEVELOPMENT.
-
- 1. The Problems of Physiology.
-
- 2. Differentiations between the Outer and Inner Tissues of Plants.
-
- 3. Differentiations among the Outer Tissues of Plants.
-
- 4. Differentiations among the Inner Tissues of Plants.
-
- 5. Physiological Integration in Plants.
-
- 6. Differentiations between the Outer and Inner Tissues of Animals.
-
- 7. Differentiations among the Outer Tissues of Animals.
-
- 8. Differentiations among the Inner Tissues of Animals.
-
- 9. Physiological Integration in Animals.
-
- 10. Summary of Physiological Development.
-
-PART VI.—LAWS OF MULTIPLICATION.
-
- 1. The Factors.
-
- 2. _À Priori_ Principle.
-
- 3. Obverse _à priori_ Principle.
-
- 4. Difficulties of Inductive Verification.
-
- 5. Antagonism between Growth and Asexual Genesis.
-
- 6. Antagonism between Growth and Sexual Genesis.
-
- 7. Antagonism between Development and Genesis, Asexual and Sexual.
-
- 8. Antagonism between Expenditure and Genesis.
-
- 9. Coincidence between high Nutrition and Genesis.
-
- 10. Specialities of these Relations.
-
- 11. Interpretation and Qualification.
-
- 12. Multiplication of the Human Race.
-
- 13. Human Evolution in the Future.
-
-APPENDIX.
-
- A Criticism on Professor Owen’s Theory of the Vertebrate Skeleton.
-
- On Circulation and the Formation of Wood in Plants.
-
-
- _5th Thousand._
- (WITH AN ADDITIONAL PART.)
- In two vols. 8vo, cloth, price 36s.,
- THE PRINCIPLES OF PSYCHOLOGY.
-
-CONTENTS OF VOL. I.
-
-PART I.—THE DATA OF PSYCHOLOGY.
-
- 1. The Nervous System.
- 2. The Structure of the Nervous System.
- 3. The Functions of the Nervous System.
- 4. The Conditions essential to Nervous Action.
- 5. Nervous Stimulation and Nervous Discharge.
- 6. Æstho-Physiology.
-
-PART II.—THE INDUCTIONS OF PSYCHOLOGY.
-
- 1. The Substance of Mind.
- 2. The Composition of Mind.
- 3. The Relativity of Feelings.
- 4. The Relativity of Relations between Feelings.
- 5. The Revivability of Feelings.
- 6. The Revivability of Relations between Feelings.
- 7. The Associability of Feelings.
- 8. The Associability of Relations between Feelings.
- 9. Pleasures and Pains.
-
-PART III.—GENERAL SYNTHESIS.
-
- 1. Life and Mind as Correspondence.
- 2. The Correspondence as Direct and Homogeneous.
- 3. The Correspondence as Direct but Heterogeneous.
- 4. The Correspondence as extending in Space.
- 5. The Correspondence as extending in Time.
- 6. The Correspondence as increasing in Speciality.
- 7. The Correspondence as increasing in Generality.
- 8. The Correspondence as increasing in Complexity.
- 9. The Co-ordination of Correspondences.
- 10. The Integration of Correspondences.
- 11. The Correspondences in their Totality.
-
-PART IV.—SPECIAL SYNTHESIS.
-
- 1. The Nature of Intelligence.
- 2. The Law of Intelligence.
- 3. The Growth of Intelligence.
- 4. Reflex Action.
- 5. Instinct.
- 6. Memory.
- 7. Reason.
- 8. The Feelings.
- 9. The Will.
-
-PART V.—PHYSICAL SYNTHESIS.
-
- 1. A Further Interpretation Needed.
- 2. The Genesis of Nerves.
- 3. The Genesis of Simple Nervous Systems.
- 4. The Genesis of Compound Nervous Systems.
- 5. The Genesis of Doubly-Compound Nervous Systems.
- 6. Functions as Related to these Structures.
- 7. Psychical Laws as thus Interpreted.
- 8. Evidence from Normal Variations.
- 9. Evidence from Abnormal Variations.
- 10. Results.
-
-APPENDIX.
-
- On the Action of Anæsthetics and Narcotics.
-
-CONTENTS OF VOL. II.
-
-PART VI.—SPECIAL ANALYSIS.
-
- 1. Limitation of the Subject.
-
- 2. Compound Quantitative Reasoning.
-
- 3. Compound Quantitative Reasoning, continued.
-
- 4. Imperfect and Simple Quantitative Reasoning.
-
- 5. Quantitative Reasoning in General.
-
- 6. Perfect Qualitative Reasoning.
-
- 7. Imperfect Qualitative Reasoning.
-
- 8. Reasoning in General.
-
- 9. Classification, Naming, and Recognition.
-
- 10. The Perception of Special Objects.
-
- 11. The Perception of Body as presenting Dynamical, Statico-Dynamical,
- and Statical Attributes.
-
- 12. The Perception of Body as presenting Statico-Dynamical and
- Statical Attributes.
-
- 13. The Perception of Body as presenting Statical Attributes.
-
- 14. The Perception of Space.
-
- 15. The Perception of Time.
-
- 16. The Perception of Motion.
-
- 17. The Perception of Resistance.
-
- 18. Perception in General.
-
- 19. The Relations of Similarity and Dissimilarity.
-
- 20. The Relations of Cointension and Non-Cointension.
-
- 21. The Relations of Coextension and Non-Coextension.
-
- 22. The Relations of Coexistence and Non-Coexistence.
-
- 23. The Relations of Connature and Non-Connature.
-
- 24. The Relations of Likeness and Unlikeness.
-
- 25. The Relation of Sequence.
-
- 26. Consciousness in General.
-
- 27. Results.
-
-PART VII.—GENERAL ANALYSIS.
-
- 1. The Final Question.
- 2. The Assumption of Metaphysicians.
- 3. The Words of Metaphysicians.
- 4. The Reasonings of Metaphysicians.
- 5. Negative Justification of Realism.
- 6. Argument from Priority.
- 7. The Argument from Simplicity.
- 8. The Argument from Distinctness.
- 9. A Criterion Wanted.
- 10. Propositions qualitatively distinguished.
- 11. The Universal Postulate.
- 12. The test of Relative Validity.
- 13. Its Corollaries.
- 14. Positive Justification of Realism.
- 15. The Dynamics of Consciousness.
- 16. Partial Differentiation of Subject and Object.
- 17. Completed Differentiation of Subject and Object.
- 18. Developed Conception of the Object.
- 19. Transfigured Realism.
-
-PART VIII.—CONGRUITIES.
-
- 1. Preliminary.
- 2. Co-ordination of Data and Inductions.
- 3. Co-ordination of Syntheses.
- 4. Co-ordination of Special Analyses.
- 5. Co-ordination of General Analyses.
- 6. Final Comparison.
-
-PART IX.—COROLLARIES.
-
- 1. Special Psychology.
- 2. Classification.
- 3. Development of Conceptions.
- 4. Language of the Emotions.
- 5. Sociality and Sympathy.
- 6. Egoistic Sentiments.
- 7. Ego-Altruistic Sentiments.
- 8. Altruistic Sentiments.
- 9. Æsthetic Sentiments.
-
-
- _3rd Edition, revised and enlarged._
- In 8vo., cloth, price 21s., Vol. I. of
- THE PRINCIPLES OF SOCIOLOGY.
-
-CONTENTS.
-
-PART I.—THE DATA OF SOCIOLOGY.
-
- 1. Super-Organic Evolution.
-
- 2. The Factors of Social Phenomena.
-
- 3. Original External Factors.
-
- 4. Original Internal Factors.
-
- 5. The Primitive Man—Physical.
-
- 6. The Primitive Man—Emotional.
-
- 7. The Primitive Man—Intellectual.
-
- 8. Primitive Ideas.
-
- 9. The Ideas of the Animate and the Inanimate.
-
- 10. The Ideas of Sleep and Dreams.
-
- 11. The Ideas of Swoon, Apoplexy, Catelepsy, Ecstacy, and other forms
- of Insensibility.
-
- 12. The Ideas of Death and Resurrection.
-
- 13. The Ideas of Souls, Ghosts, Spirits, Demons.
-
- 14. The Ideas of Another Life.
-
- 15. The Ideas of Another World.
-
- 16. The Ideas of Supernatural Agents.
-
- 17. Supernatural Agents as causing Epilepsy and Convulsive Actions,
- Delirium and Insanity, Disease and Death.
-
- 18. Inspiration, Divination, Exorcism, and Sorcery.
-
- 19. Sacred Places, Temples, and Altars; Sacrifice, Fasting, and
- Propitiation; Praise and Prayer.
-
- 20. Ancestor-Worship in General.
-
- 21. Idol-Worship and Fetich-Worship.
-
- 22. Animal-Worship.
-
- 23. Plant-Worship.
-
- 24. Nature-Worship.
-
- 25. Deities.
-
- 26. The Primitive Theory of Things.
-
- 27. The Scope of Sociology.
-
-PART II.—THE INDUCTIONS OF SOCIOLOGY.
-
- 1. What is a Society?
- 2. A Society is an Organism.
- 3. Social Growth.
- 4. Social Structures.
- 5. Social Functions.
- 6. Systems of Organs.
- 7. The Sustaining System.
- 8. The Distributing System.
- 9. The Regulating System.
- 10. Social Types and Constitutions.
- 11. Social Metamorphoses.
- 12. Qualifications and Summary.
-
-PART III.—THE DOMESTIC RELATIONS.
-
- 1. The Maintenance of Species.
-
- 2. The Diverse Interests of the Species, of the Parents, and of the
- Offspring.
-
- 3. Primitive Relations of the Sexes.
-
- 4. Exogamy and Endogamy.
-
- 5. Promiscuity.
-
- 6. Polyandry.
-
- 7. Polygyny.
-
- 8. Monogamy.
-
- 9. The Family.
-
- 10. The _Status_ of Women.
-
- 11. The _Status_ of Children.
-
- 12. Domestic Retrospect and Prospect.
-
-
- _2nd Thousand._
- In 8vo, cloth, price 18s. Vol. II of
- THE PRINCIPLES OF SOCIOLOGY.
-
- (_Containing the two following divisions, which may still_
- _be had separately._)
-
-
- In one vol. 8vo, cloth, price 7s.,
- CEREMONIAL INSTITUTIONS.
-
-CONTENTS.
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- 2. Trophies.
- 3. Mutilations.
- 4. Presents.
- 5. Visits.
- 6. Obeisances.
- 7. Forms of Address.
- 8. Titles.
- 9. Badges and Costumes.
- 10. Further Class-Distinctions.
- 11. Fashion.
- 12. Ceremonial Retrospect and Prospect.
-
-
- In one vol. 8vo, cloth, price 12s.
- POLITICAL INSTITUTIONS.
-
-CONTENTS.
-
- 1. Preliminary.
- 2. Political Organization in General.
- 3. Political Integration.
- 4. Political Differentiation.
- 5. Political Forms and Forces.
- 6. Political Heads—Chiefs, Kings, etc.
- 7. Compound Political Heads.
- 8. Consultative Bodies.
- 9. Representative Bodies.
- 10. Ministries.
- 11. Local Governing Agencies.
- 12. Military Systems.
- 13. Judicial Systems.
- 14. Laws.
- 15. Property.
- 16. Revenue.
- 17. The Militant Type of Society.
- 18. The Industrial Type of Society.
- 19. Political Retrospect and Prospect.
-
-
- _2nd Thousand._
- In one vol. 8vo., cloth, price 5_s._
- ECCLESIASTICAL INSTITUTIONS.
-
-(_Being Part VI. of the PRINCIPLES OF SOCIOLOGY._)
-
-CONTENTS.
-
- 1. The Religious Idea.
- 2. Medicine-men and Priests.
- 3. Priestly Duties of Descendants.
- 4. Eldest Male Descendants as Quasi-Priests.
- 5. The Ruler as Priest.
- 6. The Rise of a Priesthood.
- 7. Polytheistic and Monotheistic Priesthoods.
- 8. Ecclesiastical Hierarchies.
- 9. An Ecclesiastical System as a Social Bond.
- 10. The Military Functions of Priests.
- 11. The Civil Functions of Priests.
- 12. Church and State.
- 13. Nonconformity.
- 14. The Moral Influences of Priesthoods.
- 15. Ecclesiastical Retrospect and Prospect.
- 16. Religious Retrospect and Prospect.
-
-
- _5th Thousand._
-
- WITH AN APPENDIX, CONTAINING AN ADDITIONAL CHAPTER, AND
- REPLIES TO CRITICISMS.
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- In one vol. 8vo, cloth, price 8s.,
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-(_Being Part I. of the PRINCIPLES OF ETHICS._)
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-CONTENTS.
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- 1. Conduct in General.
- 2. The Evolution of Conduct.
- 3. Good and Bad Conduct.
- 4. Ways of Judging Conduct.
- 5. The Physical View.
- 6. The Biological View.
- 7. The Psychological View.
- 8. The Sociological View.
- 9. Criticisms and Explanations.
- 10. The Relativity of Pains and Pleasures.
- 11. Egoism _versus_ Altruism.
- 12. Altruism _versus_ Egoism.
- 13. Trial and Compromise.
- 14. Conciliation.
- 15. Absolute Ethics and Relative Ethics.
- 16. The Scope of Ethics.
-
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-CONTENTS.
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- 1. Our Need of it.
- 2. Is there a Social Science?
- 3. Nature of the Social Science.
- 4. Difficulties of the Social Science.
- 5. Objective Difficulties.
- 6. Subjective Difficulties—Intellectual.
- 7. Subjective Difficulties—Emotional.
- 8. The Educational Bias.
- 9. The Bias of Patriotism.
- 10. The Class-Bias.
- 11. The Political Bias.
- 12. The Theological Bias.
- 13. Discipline.
- 14. Preparation in Biology.
- 15. Preparation in Psychology.
- 16. Conclusion.
-     Postscript.
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- 2. The Coming Slavery.
- 3. The Sins of Legislators.
- 4. The Great Political Superstition.
-    Postscript.
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- _4th Thousand._
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-CONTENTS OF VOL. I.
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- 1. Progress: its Law and Cause.
- 2. Manners and Fashion.
- 3. The Genesis of Science.
- 4. The Physiology of Laughter.
- 5. The Origin and Function of Music.
- 6. The Nebular Hypothesis.
- 7. Bain on the Emotions and the Will.
- 8. Illogical Geology.
- 9. The Development Hypothesis.
- 10. The Social Organism.
- 11. Use and Beauty.
- 12. The Sources of Architectural Types.
- 13. The Use of Anthropomorphism.
-
-CONTENTS OF VOL. II.
-
- 1. The Philosophy of Style.
- 2. Over-Legislation.
- 3. The Morals of Trade.
- 4. Personal Beauty.
- 5. Representative Government.
- 6. Prison Ethics.
- 7. Railway Morals and Railway Policy.
- 8. Gracefulness.
- 9. State-Tamperings with Money and Banks.
- 10. Parliamentary Reform: the Dangers and the Safeguards.
- 11. Mill _versus_ Hamilton—the Test of Truth.
-
-
- _3rd Edition._
- In one vol. 8vo., price 8s.,
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- ESSAYS:
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-CONTENTS.
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- 1. The Classification of the Sciences (with a Postscript, replying to
- Criticisms).
-
- 2. Reasons for Dissenting from the Philosophy of M. Comte.
-
- 3. Laws in General.
-
- 4. The Origin of Animal-Worship.
-
- 5. Specialized Administration.
-
- 6. “The Collective Wisdom.”
-
- 7. Political Fetichism.
-
- 8. What is Electricity?
-
- 9. The Constitution of the Sun.
-
- 10. Mr. Martineau on Evolution.
-
- 11. Replies to Criticisms.
-
- 12. Transcendental Physiology.
-
- 13. The Comparative Psychology of Man.
-
-
- Price 2s. 6d.,
- THE FACTORS OF ORGANIC EVOLUTION.
-
-
- DESCRIPTIVE SOCIOLOGY; OR GROUPS OF SOCIOLOGICAL FACTS, CLASSIFIED AND
- ARRANGED BY HERBERT SPENCER,
-
-COMPILED AND ABSTRACTED BY
-
-DAVID DUNCAN, M.A., Professor of Logic, &c., in the Presidency College,
-Madras; RICHARD SCHEPPIG, Ph.D.; and JAMES COLLIER.
-
-EXTRACT FROM THE PROVISIONAL PREFACE.
-
-Something to introduce the work of which an instalment is annexed,
-seems needful, in anticipation of the time when completion of a volume
-will give occasion for a Permanent Preface.
-
-In preparation for _The Principles of Sociology_, requiring as bases of
-induction large accumulations of data, fitly arranged for comparison,
-I, some twelve years ago, commenced, by proxy, the collection and
-organization of facts presented by societies of different types,
-past and present; being fortunate enough to secure the services of
-gentlemen competent to carry on the process in the way I wished.
-Though this classified compilation of materials was entered upon
-solely to facilitate my own work; yet, after having brought the mode
-of classification to a satisfactory form, and after having had some
-of the Tables filled up, I decided to have the undertaking executed
-with a view to publication; the facts collected and arranged for easy
-reference and convenient study of their relations, being so presented,
-apart from hypothesis, as to aid all students of Social Science in
-testing such conclusions as they have drawn and in drawing others.
-
-The Work consists of three large Divisions. Each comprises a set
-of Tables exhibiting the facts as abstracted and classified, and a
-mass of quotations and abridged abstracts otherwise classified, on
-which the statements contained in the Tables are based. The condensed
-statements, arranged after a uniform manner, give, in each Table or
-succession of Tables, the phenomena of all orders which each society
-presents—constitute an account of its morphology, its physiology, and
-(if a society having a known history) its development. On the other
-hand, the collected Extracts, serving as authorities for the statements
-in the Tables, are (or, rather will be, when the Work is complete)
-classified primarily according to the kinds of phenomena to which they
-refer, and secondarily according to the societies exhibiting these
-phenomena; so that each kind of phenomenon as it is displayed in all
-societies, may be separately studied with convenience.
-
-In further explanation I may say that the classified compilations and
-digests of materials to be thus brought together under the title of
-_Descriptive Sociology_, are intended to supply the student of Social
-Science with data, standing towards his conclusions in a relation like
-that in which accounts of the structures and functions of different
-types of animals stand to the conclusions of the biologist. Until there
-had been such systematic descriptions of different kinds of organisms,
-as made it possible to compare the connexions, and forms, and actions,
-and modes of origin, of their parts, the Science of Life could make no
-progress. And in like manner, before there can be reached in Sociology,
-generalizations having a certainty making them worthy to be called
-scientific, there must be definite accounts of the institutions and
-actions of societies of various types, and in various stages of
-evolution, so arranged as to furnish the means of readily ascertaining
-what social phenomena are habitually associated.
-
-Respecting the tabulation, devised for the purpose of exhibiting social
-phenomena in a convenient way, I may explain that the primary aim
-has been so to present them that their relations of simultaneity and
-succession may be seen at one view. As used for delineating uncivilized
-societies, concerning which we have no records, the tabular form
-serves only to display the various social traits as they are found to
-co-exist. But as used for delineating societies having known histories,
-the tabular form is so employed as to exhibit not only the connexions
-of phenomena existing at the same time, but also the connexions of
-phenomena that succeed one another. By reading horizontally across a
-Table at any period, there may be gained a knowledge of the traits of
-all orders displayed by the society at that period; while by reading
-down each column, there may be gained a knowledge of the modifications
-which each trait, structural or functional, underwent during successive
-periods.
-
-Of course, the tabular form fulfils these purposes but approximately.
-To preserve complete simultaneity in the statements of facts, as read
-from side to side of the Tables, has proved impracticable; here much
-had to be inserted, and there little; so that complete correspondence
-in time could not be maintained. Moreover, it has not been possible
-to carry out the mode of classification in a theoretically-complete
-manner, by increasing the number of columns as the classes of facts
-multiply in the course of Civilization. To represent truly the progress
-of things, each column should divide and sub-divide in successive ages,
-so as to indicate the successive differentiations of the phenomena.
-But typographical difficulties have negatived this: a great deal has
-had to be left in a form which must be accepted simply as the least
-unsatisfactory.
-
-The three Divisions constituting the entire work, comprehend three
-groups of societies:—(1) _Uncivilized Societies_; (2) _Civilized
-Societies—Extinct or Decayed_; (3) _Civilized Societies—Recent or Still
-Flourishing_. These divisions have at present reached the following
-stages:―
-
-DIVISION I.—_Uncivilized Societies._ Commenced in 1867 by the gentleman
-I first engaged, Mr. DAVID DUNCAN, M.A. (now Professor of Logic,
-&c., in the Presidency College, Madras), and continued by him since
-he left England, this part of the work is complete. It contains four
-parts, including “Types of Lowest Races,” the “Negrito Races,” the
-“Malayo-Polynesian Races,” the “African Races,” the “Asiatic Races,”
-and the “American Races.”
-
-DIVISION II.—_Civilized Societies—Extinct or Decayed._ On this part of
-the work Dr. RICHARD SCHEPPIG has been engaged since January, 1872. The
-first instalment, including the four Ancient American Civilizations,
-was issued in March, 1874. A second instalment, containing “Hebrews and
-Phœnicians,” will shortly be issued.
-
-DIVISION III.—_Civilized Societies—Recent or Still Flourishing._ Of
-this Division the first instalment, prepared by Mr. JAMES COLLIER, of
-St. Andrew’s and Edinburgh Universities, was issued in August, 1873.
-This presents the English Civilization. It covers seven consecutive
-Tables; and the Extracts occupy seventy pages folio. The next part,
-presenting in a still more extensive form the French Civilization, is
-now in the press.
-
-The successive parts belonging to these several Divisions, issued at
-intervals, are composed of different numbers of Tables and different
-numbers of Pages. The Uncivilized Societies occupy four parts, each
-containing a dozen or more Tables, with their accompanying Extracts.
-Of the Division comprising Extinct Civilized Societies, the first part
-contains four, and the second contains two. While of Existing Civilized
-Societies, the records of which are so much more extensive, each
-occupies a single part.
-
- H. S.
- _March, 1880._
-
-
- _In Royal Folio, Price 18s._,
- No. I.
- English.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-JAMES COLLIER.
-
-
- _In Royal Folio, Price 16s._,
- No. II.
- Mexicans, Central Americans, Chibchas,
- and Peruvians.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-RICHARD SCHEPPIG, PH.D.
-
-
- _In Royal Folio, Price 18s._,
- No. III.
- Lowest Races, Negrito Races, and
- Malayo-Polynesian Races.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-PROF. DUNCAN, M.A.
-
-TYPES OF LOWEST RACES.
-
- Fuegians.
- Andamanese.
- Veddahs.
- Australians.
-
-NEGRITO RACES.
-
- Tasmanians.
- New Caledonians, etc.
- New Guinea People.
- Fijians.
-
-MALAYO-POLYNESIAN RACES.
-
- Sandwich Islanders.
- Tahitians.
- Tongans.
- Samoans.
- New Zealanders.
- Dyaks.
- Javans.
- Sumatrans.
- Malagasy.
-
-
- _In Royal Folio, Price 16s._,
- No. IV.
- African Races.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-PROF. DUNCAN, M.A.
-
- Bushmen.
- Hottentots.
- Damaras.
- Bechuanas.
- Kaffirs.
- East Africans.
- Congo People.
- Coast Negroes.
- Inland Negroes.
- Dahomans.
- Ashantis.
- Fulahs.
- Abyssinians.
-
-
- _In Royal Folio, Price 18s._,
- No. V.
- Asiatic Races.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-PROF. DUNCAN, M.A.
-
- Arabs.
- Todas.
- Khonds.
- Gonds.
- Bhils.
- Santals.
- Karens.
- Kukis.
- Nagas.
- Bodo and Dhimals.
- Mishmis.
- Kirghiz.
- Kalmucks.
- Ostyaks.
- Kamtschadales.
-
-
- _In Royal Folio, Price 18s._,
- No. VI.
- American Races.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-PROF. DUNCAN, M.A.
-
- Esquimaux.
- Chinooks.
- Snakes.
- Comanches.
- Iroquois.
- Chippewayans.
- Chippewas.
- Dakotas.
- Mandans.
- Creeks.
- Guiana Tribes.
- Caribs.
- Brazilians.
- Uaupés.
- Abipones.
- Patagonians.
- Araucanians.
-
-
- _In Royal Folio, Price 21s._,
- No. VII.
- Hebrews and Phœnicians.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-RICHARD SCHEPPIG, PH.D.
-
-
- _In Royal Folio, Price 30s._,
- No. VIII.
- French.
-
-COMPILED AND ABSTRACTED
-
-BY
-
-JAMES COLLIER.
-
-
-MR. HERBERT SPENCER’S WORKS.
-
-_A SYSTEM OF SYNTHETIC PHILOSOPHY._
-
- FIRST PRINCIPLES                       16_s._
-
- PRINCIPLES OF BIOLOGY. 2 vols.         34_s._
-
- PRINCIPLES OF PSYCHOLOGY. 2 vols.      36_s._
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- PRINCIPLES OF SOCIOLOGY, Vol. I.       21_s._
-
-          DITTO           Vol. II.      18_s._
-
-(_This Volume includes the two following Works, which are at present
-published separately._)
-
- CEREMONIAL INSTITUTIONS                 7_s._
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- POLITICAL INSTITUTIONS                 12_s._
-
- ECCLESIASTICAL INSTITUTIONS             5_s._
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- THE DATA OF ETHICS                      8_s._
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-_OTHER WORKS._
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- EDUCATION                               6_s._
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-   DITTO      _Cheap Edition_      2_s._ 6_d._
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- ESSAYS. 2 vols.                        16_s._
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- ESSAYS (Third Series)                   8_s._
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- THE MAN _versus_ THE STATE        2_s._ 6_d._
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-     DITTO       _Cheap Edition_         1_s._
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- REASONS FOR DISSENTING FROM THE
-     PHILOSOPHY OF M. COMTE              6_d._
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- THE FACTORS OF ORGANIC EVOLUTION  2_s._ 6_d._
-
-[For particulars see end of the volume.]
-
-WILLIAMS AND NORGATE,
-
-14, HENRIETTA STREET, COVENT GARDEN, LONDON.
-
-
- ALSO MR. SPENCER’S
- _DESCRIPTIVE SOCIOLOGY_,
-
-COMPILED AND ABSTRACTED BY
-
-PROF. DUNCAN, DR. SCHEPPIG, & MR. COLLIER.
-
-FOLIO, BOARDS.
-
- 1. ENGLISH                              18_s._
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- 2. ANCIENT AMERICAN RACES               16_s._
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- 3. LOWEST RACES, NEGRITOS, POLYNESIANS 18_s._
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- 4. AFRICAN RACES                        16_s._
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- 5. ASIATIC RACES                        18_s._
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- 6. AMERICAN RACES                       18_s._
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- 7. HEBREWS AND PHŒNICIANS               21_s._
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- 8. FRENCH                               30_s._
-
-[For particulars see end of the volume.]
-
-WILLIAMS AND NORGATE,
-
-14, HENRIETTA STREET, COVENT GARDEN, LONDON.
-
-Harrison & Sons, Printers, St. Martin’s Lane.
-
-
-
-
-TRANSCRIBER’S NOTE
-
-This is Volume II (1891) of Spencer’s three volume series of Essays.
-Volume I (1891) has been published by Project Gutenberg as ebook 29869.
-Volume III (1904) is (ca 2016 October) in preparation at Project
-Gutenberg Distributed Proofreaders. Volume III contains an index for
-all three volumes. Original page scans are available from archive.org.
-
-Original spelling and grammar are generally retained, with a few
-exceptions noted below. Original italics _look like this_. Footnotes
-were renumbered 1–60, changed to endnotes, and moved to the ends of the
-appropriate essays. Original printed page numbers look like this: {35}.
-
-Page 84. Table I, originally printed on an unnumbered page between
-pages 84 and 85, has been moved to page 85, and recast as a nested list
-so as to function well in ebook format. In particular, large curly
-brackets “{” intended to combine information on more than one line have
-been eliminated. Table II, printed between pages 88 and 89 has been
-treated similarly, and moved to page 88. Table III, printed between
-pages 92 and 93 has been moved to page 92 and treated similarly.
-
-Page 125–130. In the comparison of Compte’s and Spencer’s propositions,
-the two columns of the table were rewrapped into equal widths, to fit
-a 72 character limit per line. This removes the original printed line
-per line correspondence, if any such was implied, but the original
-arrangement of the paragraphs is retained. The table of paragraphs
-on pp. 131–132 was treated in the same way. On page 126, the phrase
-“est essentiellement différent même radicalement opposé”, clearly
-missing something in the original printed book, was changed to “est
-essentiellement différent et même radicalement opposé”.
-
-Page 192. The large white spaces in the clause “Space is
-either        or is        ;” are retained from the printed book.
-
-
-
-
-
-
-
-End of the Project Gutenberg EBook of Essays: Scientific, Political, and
-Speculative; Vol. II of Three, by Herbert Spencer
-
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-
-The Project Gutenberg EBook of Essays: Scientific, Political, and
-Speculative; Vol. II of Three, by Herbert Spencer
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever.  You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org.  If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-
-
-Title: Essays: Scientific, Political, and Speculative; Vol. II of Three
-       Library Edition (1891), Containing Seven Essays not before
-              Republished, and Various other Additions.
-
-Author: Herbert Spencer
-
-Release Date: October 29, 2016 [EBook #53395]
-
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-*** START OF THIS PROJECT GUTENBERG EBOOK ESSAYS: SCIENTIFIC ***
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-
-<div class="dctr01">
-<img src="images/cover.jpg" width="600" height="800" alt="" />
-</div>
-
-<div class="dfront">
-<h1 class="h1thisbook">ESSAYS:
-<span class="hsmall">SCIENTIFIC,
-POLITICAL, &amp; SPECULATIVE.</span></h1>
-
-<div class="fsz8">BY</div>
-<div class="fsz3">HERBERT SPENCER.</div>
-
-<div class="padtopa">LIBRARY EDITION,</div>
-
-<div class="fsz7 padtopc">(otherwise fifth thousand,)</div>
-
-<div class="fsz7 padtopc"><i>Containing Seven Essays not before Republished,
-and various other additions</i>.</div>
-
-<div class="fsz5 padtopa">VOL. II.</div>
-
-<div class="fsz5 padtopa">WILLIAMS AND NORGATE,</div>
-<div class="fsz6">14, HENRIETTA STREET, COVENT GARDEN, LONDON;</div>
-<div class="fsz6"><span class="smmaj">AND</span> 20, SOUTH FREDERICK STREET, EDINBURGH.</div>
-
-<div class="fsz6">1891.</div>
-
-</div><!--dfront-->
-
-<div class="dfront">
-<div class="fsz8 padtop1">LONDON:</div>
-<div class="fsz8">G. NORMAN AND SON, PRINTERS, HART STREET,</div>
-<div class="fsz8">COVENT GARDEN.</div>
-</div><!--dfront-->
-
-<div class="dfront">
-<table class="tabw100 fsz6" summary="contents">
-<tr><th colspan="2">
-<h2 class="h2nobreak" id="idcontents">CONTENTS OF VOL. II.</h2>
-</th></tr>
-<tr>
- <td></td>
- <th>PAGE</th></tr>
-<tr>
- <td class="tdleft">THE GENESIS OF SCIENCE</td>
- <td class="tdright"><a href="#p001" class="atoc">1</a></td></tr>
-<tr>
- <td class="tdleft">THE CLASSIFICATION OF THE SCIENCES</td>
- <td class="tdright"><a href="#p074" class="atoc">74</a></td></tr>
-<tr>
- <td class="tdleft">REASONS FOR DISSENTING FROM THE PHILOSOPHY OF M. COMTE</td>
- <td class="tdright"><a href="#p118" class="atoc">118</a></td></tr>
-<tr>
- <td class="tdleft">ON LAWS IN GENERAL, AND THE ORDER OF THEIR DISCOVERY</td>
- <td class="tdright"><a href="#p145" class="atoc">145</a></td></tr>
-<tr>
- <td class="tdleft">THE VALUATION OF EVIDENCE</td>
- <td class="tdright"><a href="#p161" class="atoc">161</a></td></tr>
-<tr>
- <td class="tdleft">WHAT IS ELECTRICITY?</td>
- <td class="tdright"><a href="#p168" class="atoc">168</a></td></tr>
-<tr>
- <td class="tdleft">MILL <i>versus</i> HAMILTON—THE TEST OF TRUTH</td>
- <td class="tdright"><a href="#p188" class="atoc">188</a></td></tr>
-<tr>
- <td class="tdleft">REPLIES TO CRITICISMS</td>
- <td class="tdright"><a href="#p218" class="atoc">218</a></td></tr>
-<tr>
- <td class="tdleft">PROF. GREEN’S EXPLANATIONS</td>
- <td class="tdright"><a href="#p321" class="atoc">321</a></td></tr>
-<tr>
- <td class="tdleft">THE PHILOSOPHY OF STYLE</td>
- <td class="tdright"><a href="#p333" class="atoc">333</a></td></tr>
-<tr>
- <td class="tdleft">USE AND BEAUTY</td>
- <td class="tdright"><a href="#p370" class="atoc">370</a></td></tr>
-<tr>
- <td class="tdleft">THE SOURCES OF ARCHITECTURAL TYPES</td>
- <td class="tdright"><a href="#p375" class="atoc">375</a></td></tr>
-<tr>
- <td class="tdleft">GRACEFULNESS</td>
- <td class="tdright"><a href="#p381" class="atoc">381</a></td></tr>
-<tr>
- <td class="tdleft">PERSONAL BEAUTY</td>
- <td class="tdright"><a href="#p387" class="atoc">387</a></td></tr>
-<tr>
- <td class="tdleft">THE ORIGIN AND FUNCTION OF MUSIC</td>
- <td class="tdright"><a href="#p400" class="atoc">400</a></td></tr>
-<tr>
- <td class="tdleft">THE PHYSIOLOGY OF LAUGHTER</td>
- <td class="tdright"><a href="#p452" class="atoc">452</a></td></tr>
-</table>
-<div class="fsz6">(<i>For Index, see Volume III.</i>)</div>
-</div><!--dfront-->
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p001">THE GENESIS OF SCIENCE.</h2>
-</div>
-
-<p class="pchappre">
-[<i>First published in</i> The British Quarterly Review <i>for July
-1854</i>.]</p>
-
-<p>There still prevails among men a vague notion that
-scientific knowledge differs in nature from ordinary
-knowledge. By the Greeks, with whom Mathematics—literally
-<i>things learnt</i>—was alone considered as knowledge
-proper, the distinction must have been strongly felt; and
-it has ever since maintained itself in the general mind.
-Though, considering the contrast between the achievements
-of science and those of daily unmethodic thinking, it is not
-surprising that such a distinction has been assumed; yet it
-needs but to rise a little above the common point of view,
-to see that it is but a superficial distinction. The same
-faculties are employed in both cases; and in both cases
-their mode of operation is fundamentally the same. If we
-say that science is organized knowledge, we are met by the
-truth that all knowledge is organized in a greater or less
-degree—that the commonest actions of the household and
-the field presuppose facts colligated, inferences drawn,
-results expected; and that the general success of these
-actions proves the data by which they were guided to have
-been correctly put together. If, again, we say that science
-is prevision—is a seeing beforehand—is a knowing in what
-<span class="xxpn" id="p002">{2}</span>
-times, places, combinations, or sequences, specified phenomena
-will be found; we are obliged to confess that the
-definition includes much that is foreign to science in its
-ordinary acceptation: for example, a child’s knowledge of
-an apple. This, as far as it goes, consists in previsions.
-When a child sees a certain form and colours, it knows that
-if it puts out its hand it will have certain impressions of
-resistance, and roundness, and smoothness; and if it bites,
-a certain taste. And manifestly its general acquaintance
-with surrounding objects is of like nature—is made up of
-facts concerning them, grouped so that any part of a
-group being perceived, the existence of the other facts
-included in it is foreseen. If, once more, we say that
-science is <i>exact</i> prevision, we still fail to establish the
-supposed difference. Not only do we find that much of
-what we call science is not exact, and that some of it, as
-physiology, can never become exact; but we find further,
-that many of the previsions constituting the common stock
-alike of wise and foolish, <i>are</i> exact. That an unsupported
-body will fall; that a lighted candle will go out when
-immersed in water; that ice will melt when thrown on the
-fire—these, and many like predictions relating to the
-familiar properties of things, have as high a degree of
-accuracy as predictions are capable of. It is true that the
-results foreseen are of a very general character; but it is
-none the less true that they are correct as far as they go:
-and this is all that is requisite to fulfil the definition. There
-is perfect accordance between the anticipated phenomena
-and the actual ones; and no more than this can be said
-of the highest achievements of the sciences specially
-characterized as exact.</p>
-
-<p>Seeing thus that the assumed distinction between scientific
-knowledge and common knowledge cannot be sustained;
-and yet feeling, as we must, that however impossible it may
-be to draw a line between them, the two are not practically
-identical; there arises the question—What is the
-relationship <span class="xxpn" id="p003">{3}</span>
-between them? A partial answer to this question may be
-drawn from the illustrations just given. On reconsidering
-them, it will be observed that those portions of ordinary
-knowledge which are identical in character with scientific
-knowledge, comprehend only such combinations of phenomena
-as are directly cognizable by the senses, and are of
-simple, invariable nature. That the smoke from a fire which
-she is lighting will ascend, and that the fire will presently
-boil the water placed over it, are previsions which the
-servant-girl makes equally well with the most learned
-physicist; but they are previsions concerning phenomena
-in constant and direct relation—phenomena that follow
-visibly and immediately after their antecedents—phenomena
-of which the causation is neither remote nor obscure—phenomena
-which may be predicted by the simplest possible
-act of reasoning. If, now, we pass to the previsions
-constituting science—that an eclipse of the moon will happen
-at a specified time; that when a barometer is taken to the
-top of a mountain of known height, the mercurial column
-will descend a stated number of inches; that the poles of a
-galvanic battery immersed in water will give off, the one an
-inflammable and the other an inflaming gas, in definite
-ratio—we perceive that the relations involved are not of a
-kind habitually presented to our senses. They depend,
-some of them, on special combinations of causes; and in
-some of them the connexion between antecedents and
-consequents is established only by an elaborate series of
-inferences. A broad distinction, therefore, between scientific
-knowledge and common knowledge is its remoteness
-from perception. If we regard the cases in their most
-general aspect, we see that the labourer who, on hearing
-certain notes in the adjacent hedge, can describe the
-particular form and colours of the bird making them, and
-the astronomer who, having calculated a transit of Venus,
-can delineate the black spot entering on the sun’s disc, as it
-will appear through the telescope, at a specified
-hour, do <span class="xxpn" id="p004">{4}</span>
-essentially the same thing. Each knows that on fulfilling
-the requisite conditions, he shall have a preconceived
-impression—that after a definite series of actions will come
-a group of sensations of a foreknown kind. The difference,
-then, is neither in the fundamental character of the mental
-acts; nor in the correctness of the previsions accomplished
-by them; but in the complexity of the processes required to
-achieve the previsions. Much of our common knowledge is,
-as far as it goes, precise. Science does not increase its
-precision. What then does it do? It reduces other knowledge
-to the same degree of precision. That certainty
-which direct perception gives us respecting coexistences
-and sequences of the simplest and most accessible kind,
-science gives us respecting coexistences and sequences,
-complex in their dependencies, or inaccessible to immediate
-observation. In brief, regarded from this point of view,
-science may be called <i>an extension of the perceptions by
-means of reasoning</i>.</p>
-
-<p>On further considering the matter, however, it will
-perhaps be felt that this definition does not express the
-whole fact—that inseparable as science may be from
-common knowledge, and completely as we may fill up the
-gap between the simplest previsions of the child and the
-most recondite ones of the physicist, by interposing a series
-of previsions in which the complexity of reasoning involved
-is greater and greater, there is yet a difference between the
-two beyond that above described. And this is true. But
-the difference is still not such as enables us to draw the
-assumed line of demarcation. It is a difference not
-between common knowledge and scientific knowledge; but
-between the successive phases of science itself, or knowledge
-itself—whichever we choose to call it. In its
-earlier phases science attains only to <i>certainty</i> of foresight;
-in its later phases it further attains to <i>completeness</i>.
-We begin by discovering <i>a</i> relation; we end by discovering
-<i>the</i> relation. Our first achievement is to foretell the
-<i>kind</i> <span class="xxpn" id="p005">{5}</span>
-of phenomenon which will occur under specified conditions;
-our last achievement is to foretell not only the kind but
-the <i>amount</i>. Or, to reduce the proposition to its most
-definite form—undeveloped science is <i>qualitative</i> prevision;
-developed science is <i>quantitative</i> prevision.</p>
-
-<p>This will at once be perceived to express the remaining
-distinction between the lower and the higher stages of
-positive knowledge. The prediction that a piece of lead
-will take more force to lift it than a piece of wood of equal
-size, exhibits certainty, but not completeness, of foresight.
-The kind of effect in which the one body will exceed the
-other is foreseen; but not the amount by which it will
-exceed. There is qualitative prevision only. On the
-other hand, the predictions that at a stated time two
-particular planets will be in conjunction; that by means
-of a lever having arms in a given ratio, a known force
-will raise just so many pounds; that to decompose a given
-quantity of sulphate of iron by carbonate of soda will
-require so many grains—these predictions show foreknowledge,
-not only of the nature of the effects to be produced,
-but of the magnitude, either of the effects themselves, of
-the agencies producing them, or of the distance in time
-or space at which they will be produced. There is both
-qualitative provision and quantitative prevision. And this
-is the unexpressed difference which leads us to consider
-certain orders of knowledge as especially scientific when
-contrasted with knowledge in general. Are the phenomena
-<i>measurable</i>? is the test which we un­con­scious­ly employ.
-Space is measurable: hence Geometry. Force and space
-are measurable: hence Statics. Time, force, and space
-are measurable: hence Dynamics. The invention of the
-barometer enabled men to extend the principles of
-mechanics to the atmosphere; and Aerostatics existed.
-When a thermometer was devised there arose a science of
-heat, which was before impossible. Of such external
-agents as we have found no measures but our
-sensations <span class="xxpn" id="p006">{6}</span>
-we have no sciences. We have no science of smells; nor
-have we one of tastes. We have a science of the relations
-of sounds differing in pitch, because we have discovered
-a way to measure these relations; but we have no
-science of sounds in respect to their loudness or their
-<i>timbre</i>, because we have got no measures of loudness and
-<i>timbre</i>. Obviously it is this reduction of the sensible
-phenomena it presents, to relations of magnitude, which
-gives to any division of knowledge its specially scientific
-character. Originally men’s knowledge of weights and
-forces was like their present knowledge of smells and tastes—a
-knowledge not extending beyond that given by the
-unaided sensations; and it remained so until weighing
-instruments and dynamometers were invented. Before
-there were hour-glasses and clepsydras, most phenomena
-could be estimated as to their durations and intervals, with
-no greater precision than degrees of hardness can be
-estimated by the fingers. Until a thermometric scale was
-contrived, men’s judgments respecting relative amounts
-of heat stood on the same footing with their present
-judgments respecting relative amounts of sound. And as
-in these initial stages, with no aids to observation, only the
-roughest comparisons of cases could be made, and only the
-most marked differences perceived, it resulted that only the
-most simple laws of dependence could be ascertained—only
-those laws which, being uncomplicated with others, and
-not disturbed in their manifestations, required no niceties
-of observation to disentangle them. Whence it appears
-not only that in proportion as knowledge becomes quantitative
-do its previsions become complete as well as certain,
-but that until its assumption of a quantitative character
-it is necessarily confined to the most elementary relations.</p>
-
-<p>Moreover it is to be remarked that while, on the one
-hand, we can discover the laws of the greater part of
-phenomena only by investigating them quantitatively; on
-the other hand we can extend the range of our
-quantitative <span class="xxpn" id="p007">{7}</span>
-previsions only as fast as we detect the laws of the results
-we predict. For clearly the ability to specify the
-magnitude of a result inaccessible to direct measurement,
-implies knowledge of its mode of dependence on something
-which can be measured—implies that we know the
-particular fact dealt with to be an instance of some more
-general fact. Thus the extent to which our quantitative
-previsions have been carried in any direction, indicates the
-depth to which our knowledge reaches in that direction.
-And here, as another aspect of the same fact, it may be
-observed that as we pass from qualitative to quantitative
-prevision, we pass from inductive science to deductive science.
-Science while purely inductive is purely qualitative; when
-inaccurately quantitative it usually consists of part induction,
-part deduction; and it becomes accurately quantitative
-only when wholly deductive. We do not mean that the
-deductive and the quantitative are coextensive; for there
-is manifestly much deduction that is qualitative only. We
-mean that all quantitative prevision is reached deductively;
-and that induction can achieve only qualitative prevision.</p>
-
-<p>Still, however, it must not be supposed that these
-distinctions enable us to separate ordinary knowledge from
-science; much as they seem to do so. While they show in
-what consists the broad contrast between the extreme
-forms of the two, they yet lead us to recognize their
-essential identity, and once more prove the difference to
-be one of degree only. For, on the one hand, much of our
-common knowledge is to some extent quantitative; seeing
-that the amount of the foreseen result is known within
-certain wide limits. And, on the other hand, the highest
-quantitative prevision does not reach the exact truth, but
-only a near approach to it. Without clocks the savage
-knows that the day is longer in the summer than in the
-winter; without scales he knows that stone is heavier than
-flesh; that is, he can foresee respecting certain results
-that their amounts will exceed these, and be less
-than <span class="xxpn" id="p008">{8}</span>
-those—he knows <i>about</i> what they will be. And, with his most
-delicate instruments and most elaborate calculations, all
-that the man of science can do, is to reduce the difference
-between the foreseen and the actual results to an unimportant
-quantity. Moreover, it must be borne in mind not only
-that all the sciences are qualitative in their first stages,—not
-only that some of them, as Chemistry, have but lately
-reached the quantitative stage—but that the most advanced
-sciences have attained to their present power of determining
-quantities not present to the senses, or not directly
-measurable, by a slow process of improvement extending
-through thousands of years. So that science and the
-knowledge of the uncultured are alike in the nature of
-their previsions, widely as they differ in range; they
-possess a common imperfection, though this is immensely
-greater in the last than in the first; and the transition
-from the one to the other has been through a series of steps
-by which the imperfection has been rendered continually
-less, and the range continually wider.</p>
-
-<p>These facts, that science and ordinary knowledge are
-allied in nature, and that the one is but a perfected and
-extended form of the other, must necessarily underlie the
-whole theory of science, its progress, and the relations of
-its parts to each other. There must be incompleteness in
-any history of the sciences, which, leaving out of view the
-first steps of their genesis, commences with them only
-when they assume definite forms. There must be grave
-defects, if not a general untruth, in a philosophy of the
-sciences considered in their interdependence and development,
-which neglects the inquiry how they came to be
-distinct sciences, and how they were severally evolved out
-of the chaos of primitive ideas. Not only a direct consideration
-of the matter, but all analogy, goes to show that in
-the earlier and simpler stages must be sought the key to
-all subsequent intricacies. The time was when the
-anatomy and physiology of the human being were
-studied <span class="xxpn" id="p009">{9}</span>
-by themselves—when the adult man was analyzed and the
-relations of parts and of functions investigated, without
-reference either to the relations exhibited in the embryo or
-to the homologous relations existing in other creatures.
-Now, however, it has become manifest that no true conceptions
-are possible under such conditions. Anatomists and
-physiologists find that the real natures of organs and
-tissues can be ascertained only by tracing their early
-evolution; and that the affinities between existing genera
-can be satisfactorily made out only by examining the fossil
-genera to which they are akin. Well, is it not clear that
-the like must be true concerning all things that undergo
-development? Is not science a growth? Has not science,
-too, its embryology? And must not the neglect of its
-embryology lead to a mis­un­der­stand­ing of the principles of
-its evolution and of its existing organization?</p>
-
-<p>There are <i>à priori</i> reasons, therefore, for doubting the
-truth of all philosophies of the sciences which tacitly proceed
-upon the common notion that scientific knowledge and
-ordinary knowledge are separate; instead of commencing,
-as they should, by affiliating the one upon the other, and
-showing how it gradually came to be dis­tin­guish­able from
-the other. We may expect to find their gen­er­al­i­za­tions
-essentially artificial; and we shall not be deceived. Some
-illustrations of this may here be fitly introduced, by way of
-preliminary to a brief sketch of the genesis of science from
-the point of view indicated. And we cannot more readily find
-such illustrations than by glancing at a few of the various
-<i>clas­si­fi­ca­tions</i> of the sciences that have from time to time
-been proposed. To consider all of them would take too much
-space: we must content ourselves with some of the latest.</p>
-
-<p class="section">Commencing with those which may be soonest disposed
-of, let us notice, first, the arrangement propounded by
-Oken. An abstract of it runs <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-<p class="poken"><span class="nowrap">Part I.
-<span class="smcap">M<b>ATHESIS.</b></span>—<i>Pneu­ma­to­geny</i>:</span> Pri­mary
-Act, Pri­mary Cons­cious­ness, <span class="xxpn" id="p010">{10}</span>
-God, Pri­mary Rest, Time, Polarity, Motion, Man, Space, Point, Line,
-Surface, Globe, Rotation.—<i>Hylogeny</i>: Gravity, Matter, Ether, Hea­venly
-Bodies, Light, Heat, Fire.</p></blockquote>
-
-<p class="pokenexpl">(He explains that <span class="smcap">M<b>ATHESIS</b></span> is the doctrine
-of the whole; <i>Pneu­ma­to­geny</i> being the doctrine of im­ma­terial
-to­ta­li­ties, and <i>Hylogeny</i> that of material to­ta­li­ties.)</p>
-
-<blockquote class="blktight">
-<p class="poken"><span class="nowrap">Part II.
-<span class="smcap">O<b>NTOLOGY.</b></span>—<i>Cosmogeny</i>:</span>
-Rest, Centre, Motion, Line, Planets, Form, Pla­ne­tary Sys­tem,
-Comets.—<i>Stöchiogeny</i>: Con­den­sa­tion, Sim­ple Mat­ter, Elements, Air,
-Water, Earth.—<i>Stöchiology</i>: Func­tions of the Ele­ments, &amp;c.
-&amp;c.—<i>King­doms of Na­ture</i>: In­di­vi­duals.</p></blockquote>
-
-<p class="pokenexpl">(He says in explanation that ‘<span class="smcap">O<b>NTOLOGY</b></span>
-teaches us the phenomena of matter. The first of these are
-the heavenly bodies comprehended by <i>Cosmogeny</i>. These divide
-into elements.—<i>Stöchiogeny.</i> The earth element divides into
-minerals—<i>Mineralogy</i>. These unite into one collective body—<i>Geogeny</i>.
-The whole in singulars is the living, or <i>Organic</i>, which again
-divides into plants and animals. <i>Biology</i>, therefore, divides into
-<i>Organogeny</i>, <i>Phytosophy</i>, <i>Zoosophy</i>.’)</p>
-
-<blockquote class="blktight">
-<div><span class="smcap">F<b>IRST</b></span> <span
-class="smcap">K<b>INGDOM.</b></span>—<span class="smcap">M<b>INERALS.</b></span>
-<i>Mineralogy</i>, <i>Geology</i>.</div>
-
-<p class="poken"><span class="nowrap">Part III. <span class="smcap">B<b>IOLOGY.</b></span>—<i>Organosophy</i>,</span>
-<i>Phy­to­geny</i>, <i>Phyto-phy­si­ol­ogy</i>, <i>Phy­to­logy</i>, <i>Zoogeny</i>, <i>Phy­si­ology</i>,
-<i>Zoology</i>, <i>Psy­cho­logy</i>.</p></blockquote>
-
-
-<p>A glance over this confused scheme shows that it is an
-attempt to classify knowledge, not after the order in which
-it has been, or may be, built up in the human con­scious­ness;
-but after an assumed order of creation. It is a pseudo-scientific
-cosmogony, akin to those which men have
-enunciated from the earliest times downwards; and only
-a little more respectable. As such it will not be thought
-worthy of much consideration by those who, like ourselves,
-hold that experience is the sole origin of knowledge.
-Otherwise, it might have been needful to dwell on the
-incongruities of the arrangement—to ask how motion can
-be treated of before space? how there can be rotation
-without matter to rotate? how polarity can be dealt with
-without involving points and lines? But it will serve our
-present purpose just to indicate a few of the absurdities
-resulting from the doctrine which Oken seems to hold in
-common with Hegel, that “to philosophize on Nature is to
-re-think the great thought of Creation.” Here is a <span class="nowrap">sample:―</span></p>
-
-<p>“Mathematics is the universal science; so also
-is <span class="xxpn" id="p011">{11}</span>
-Physio-philosophy, although it is only a part, or rather but a
-condition of the universe; both are one, or mutually congruent.</p>
-
-<p>“Mathematics is, however, a science of mere forms
-without substance. Physio-philosophy is, therefore, <i>mathematics
-endowed with substance</i>.”</p>
-
-<p>From the English point of view it is sufficiently amusing
-to find such a dogma not only gravely stated, but stated as
-an unquestionable truth. Here we see the experiences of
-quantitative relations which men have gathered from
-surrounding bodies and generalized (experiences which
-had been scarcely at all generalized at the beginning of
-the historic period)—we find these generalized experiences,
-these intellectual abstractions, elevated into concrete actualities,
-projected back into Nature, and considered as the
-internal frame-work of things—the skeleton by which
-matter is sustained. But this new form of the old realism,
-is by no means the most startling of the physio-philosophic
-principles. We presently read that,</p>
-
-<p>“The highest mathematical idea, or the fundamental
-principle of all mathematics is the
-zero = 0.”&#160;*&#160;*&#160;*</p>
-
-<p>“Zero is in itself nothing. Mathematics is based upon
-nothing, and, <i>consequently</i>, arises out of nothing.</p>
-
-<p>“Out of nothing, <i>therefore</i>, it is possible for something
-to arise; for mathematics, consisting of propositions, is
-a something in relation to 0.”</p>
-
-<p>By such “consequentlys” and “therefores” it is, that
-men philosophize when they “re-think the great thought of
-creation.” By dogmas that pretend to be reasons, nothing
-is made to generate mathematics; and by clothing mathematics
-with matter, we have the universe! If now we
-deny, as we <i>do</i> deny, that the highest mathematical idea is
-the zero—if, on the other hand, we assert, as we <i>do</i> assert,
-that the fundamental idea underlying all mathematics, is
-that of equality; the whole of Oken’s cosmogony disappears.
-And here, indeed, we may see illustrated, the distinctive
-peculiarity of the German method of procedure in
-these <span class="xxpn" id="p012">{12}</span>
-matters—the bastard <i>à priori</i> method, as it may be termed.
-The legitimate <i>à priori</i> method sets out with propositions
-of which the negation is inconceivable; the <i>à priori</i> method
-as illegitimately applied, sets out either with propositions of
-which the negation is <i>not</i> inconceivable, or with propositions
-like Oken’s, of which the <i>affirmation</i> is inconceivable.</p>
-
-<p>It is needless to proceed further with the analysis; else
-might we detail the steps by which Oken arrives at the
-conclusions that “the planets are coagulated colours, for
-they are coagulated light”; that “the sphere is the expanded
-nothing;” that gravity is “a weighty nothing, a heavy
-essence, striving towards a centre;” that “the earth is the
-identical, water the indifferent, air the different; or the
-first the centre, the second the radius, the last the periphery
-of the general globe or of fire.” To comment on
-them would be nearly as absurd as are the propositions
-themselves. Let us pass on to another of the German
-systems of knowledge—that of Hegel.</p>
-
-<p>The simple fact that Hegel puts Jacob Bœhme on a par
-with Bacon, suffices alone to show that his stand-point is
-far remote from the one usually regarded as scientific: so
-far remote, indeed, that it is not easy to find any common
-basis on which to found a criticism. Those who hold that
-the mind is moulded into conformity with surrounding
-things by the agency of surrounding things, are necessarily
-at a loss how to deal with those who, like Schelling and
-Hegel, assert that surrounding things are solidified mind—that
-Nature is “petrified intelligence.” However, let us
-briefly glance at Hegel’s clas­si­fi­ca­tion. He divides philosophy
-into three <span class="nowrap">parts:―</span></p>
-
-<p>1. <i>Logic</i>, or the science of the idea in itself, the pure idea.</p>
-
-<p>2. <i>The Philosophy of Nature</i>, or the science of the idea considered
-under its other form—of the idea as Nature.</p>
-
-<p>3. <i>The Philosophy of the Mind</i>, or the science of the idea in its
-return to itself.</p>
-
-<p>Of these, the second is divided into the natural
-sciences, <span class="xxpn" id="p013">{13}</span>
-commonly so-called; so that in its more detailed form
-the series runs thus:—Logic, Mechanics, Physics, Organic
-Physics, Psychology.</p>
-
-<p>Now, if we believe with Hegel, first, that thought is the
-true essence of man; second, that thought is the essence
-of the world; and that, therefore, there is nothing but
-thought; his clas­si­fi­ca­tion, beginning with the science of
-pure thought, may be acceptable. But otherwise, it is an
-obvious objection to his arrangement, that thought implies
-things thought of—that there can be no logical forms
-without the substance of experience—that the science of
-ideas and the science of things must have a simultaneous
-origin. Hegel, however, anticipates this objection, and, in
-his obstinate idealism, replies, that the contrary is true. He
-affirms that all contained in the forms, to become something,
-requires to be thought; and that logical forms are
-the foundations of all things.</p>
-
-<p>It is not surprising that, starting from such premises,
-and reasoning after this fashion, Hegel finds his way to
-strange conclusions. Out of <i>space</i> and <i>time</i> he proceeds to
-build up <i>motion</i>, <i>matter</i>, <i>repulsion</i>, <i>attraction</i>, <i>weight</i>, and
-<i>inertia</i>. He then goes on to logically evolve the solar
-system. In doing this he widely diverges from the
-Newtonian theory; reaches by syllogism the conviction
-that the planets are the most perfect celestial bodies; and,
-not being able to bring the stars within his theory, says
-that they are mere formal existences and not living matter,
-and that as compared with the solar system they are as
-little admirable as a cutaneous eruption or a swarm of
-flies.<a class="afnanch" href="#fn1" id="fnanch1">1</a>
-Results so absurd might be left as self-disproved,
-were it not that speculators of this class are not alarmed
-by any amount of incongruity with established beliefs.
-The only efficient mode of treating systems like
-this of <span class="xxpn" id="p014">{14}</span>
-Hegel, is to show that they are self-destructive—that by
-their first steps they ignore that authority on which all
-their subsequent steps depend. If Hegel professes, as he
-manifestly does, to develop his scheme by reasoning—if he
-presents successive inferences as <i>necessarily following</i> from
-certain premises; he implies the postulate that a belief
-which necessarily follows after certain antecedents is a true
-belief; and did an opponent reply to one of his inferences
-that, though it was impossible to think the opposite, yet
-the opposite was true, he would consider the reply irrational.
-The procedure, however, which he would thus
-condemn as destructive of all thinking whatever, is just
-the procedure exhibited in the enunciation of his own first
-principles. Mankind find themselves unable to conceive
-that there can be thought without things thought of.
-Hegel, however, asserts that there <i>can</i> be thought without
-things thought of. That ultimate test of a true proposition—the
-inability of the human mind to conceive the negation
-of it—which in all the successive steps of his arguments he
-considers valid, he considers invalid where it suits his
-convenience to do so; and yet at the same time denies the
-right of an opponent to follow his example. If it is
-competent for him to posit dogmas which are the direct
-negations of what human con­scious­ness recognizes; then is
-it also competent for his antagonists to stop him at any
-moment by saying, that though the particular inference he
-is drawing seems to his mind, and to all minds, necessarily
-to follow from the premises, yet it is not true, but the
-contrary inference is true. Or, to state the dilemma in
-another form:—If he sets out with inconceivable propositions,
-then may he with equal propriety make all his
-succeeding propositions inconceivable ones—may at every
-step throughout his reasoning draw the opposite conclusion
-to that which seems involved.</p>
-
-<p>Hegel’s mode of procedure being thus essentially
-suicidal, the Hegelian clas­si­fi­ca­tion which depends
-upon <span class="xxpn" id="p015">{15}</span>
-it, falls to the ground. Let us consider next that of
-M. Comte.</p>
-
-<p>As all his readers must admit, M. Comte presents us with
-a scheme of the sciences which, unlike the foregoing ones,
-demands respectful consideration. Widely as we differ
-from him, we cheerfully bear witness to the largeness of
-his views, the clearness of his reasoning, and the value of
-his speculations as contributing to intellectual progress.
-Did we believe a serial arrangement of the sciences to be
-possible, that of M. Comte would certainly be the one we
-should adopt. His fundamental propositions are thoroughly
-intelligible; and, if not true, have a great semblance of
-truth. His successive steps are logically co-ordinated;
-and he supports his conclusions by a considerable amount of
-evidence—evidence which, so long as it is not critically
-examined, or not met by counter evidence, seems to substantiate
-his positions. But it only needs to assume that
-antagonistic attitude which <i>ought</i> to be assumed towards
-new doctrines, in the belief that, if true, they will prosper
-by conquering objectors—it needs but to test his leading
-doctrines either by other facts than those he cites, or by
-his own facts differently applied, to show that they will
-not stand. We will proceed thus to deal with the general
-principle on which he bases his hierarchy of the sciences.</p>
-
-<p>In the condensed translation of the <i>Positive Philosophy</i>, by
-Miss Martineau, M. Comte says:—“Our problem is, then,
-to find the one <i>rational</i> order, amongst a host of possible
-systems.”&#160;.&#160;. “This order is determined by the degree of
-simplicity, or, what comes to the same thing, of generality
-of their phenomena.” And the arrangement he deduces
-runs thus:—<i>Mathematics</i>, <i>Astronomy</i>, <i>Physics</i>, <i>Chemistry</i>,
-<i>Physiology</i>, <i>Social Physics</i>. This he asserts to be “the
-true <i>filiation</i> of the sciences.” He asserts further, that
-the principle of progression from a greater to a less degree
-of generality, “which gives this order to the whole body
-of science, arranges the parts of each science.”
-And, <span class="xxpn" id="p016">{16}</span>
-finally, he asserts that the gradations thus established <i>à
-priori</i> among the sciences and the parts of each science,
-“is in essential conformity with the order which has
-spontaneously taken place among the branches of natural
-philosophy;” or, in other words—corresponds with the
-order of historic development.</p>
-
-<p>Let us compare these assertions with the facts. That
-there may be perfect fairness, let us make no choice, but
-take as the field for our comparison, the succeeding section
-treating of the first science—Mathematics; and let us use
-none but M. Comte’s own facts, and his own admissions.
-Confining ourselves to this one science, we are limited to
-comparisons between its several parts. M. Comte says,
-that the parts of each science must be arranged in the
-order of their decreasing generality; and that this order of
-decreasing generality agrees with the order of historic
-development. Our inquiry will be, then, whether the
-history of mathematics confirms this statement.</p>
-
-<p>Carrying out his principle, M. Comte divides Mathematics
-into “Abstract Mathematics, or the Calculus (taking the
-word in its most extended sense) and Concrete Mathematics,
-which is composed of General Geometry and of
-Rational Mechanics.” The subject-matter of the first
-of these is <i>number</i>; the subject-matter of the second
-includes <i>space</i>, <i>time</i>, <i>motion</i>, <i>force</i>.
-The one possesses the
-highest possible degree of generality; for all things whatever
-admit of enumeration. The others are less general;
-seeing that there are endless phenomena that are not cognizable
-either by general geometry or rational mechanics. In
-conformity with the alleged law, therefore, the evolution of
-the calculus must throughout have preceded the evolution
-of the concrete sub-sciences. Now somewhat awkwardly
-for him, the first remark M. Comte makes bearing on this
-point is, that “from an historical point of view, mathematical
-analysis <i>appears to have arisen out of</i> the contemplation
-of geometrical and mechanical facts.” True, he
-goes <span class="xxpn" id="p017">{17}</span>
-on to say that, “it is not the less independent of these
-sciences logically speaking;” for that “analytical ideas
-are, above all others, universal, abstract, and simple; and
-geometrical conceptions are necessarily founded on them.”
-We will not take advantage of this last passage to charge
-M. Comte with teaching, after the fashion of Hegel, that
-there can be thought without things thought of. We are
-content simply to compare the assertion, that analysis arose
-out of the contemplation of geometrical and mechanical
-facts, with the assertion that geometrical conceptions are
-founded upon analytical ones. Literally interpreted they
-exactly cancel each other. Interpreted, however, in a
-liberal sense, they imply, what we believe to be demonstrable,
-that the two had <i>a simultaneous origin</i>. The
-passage is either nonsense, or it is an admission that
-abstract and concrete mathematics are coeval. Thus, at
-the very first step, the alleged congruity between the order
-of generality and the order of evolution, does not hold good.</p>
-
-<p>But may it not be that though abstract and concrete
-mathematics took their rise at the same time, the one
-afterwards developed more rapidly than the other; and
-has ever since remained in advance of it? No: and again
-we call M. Comte himself as witness. Fortunately for his
-argument he has said nothing respecting the early stages
-of the concrete and abstract divisions after their divergence
-from a common root; otherwise the advent of Algebra long
-after the Greek geometry had reached a high development,
-would have been an inconvenient fact for him to deal with.
-But passing over this, and limiting ourselves to his own
-statements, we find, at the opening of the next chapter,
-the admission, that “the historical development of the
-abstract portion of mathematical science has, since the
-time of Descartes, been for the most part <i>determined</i> by
-that of the concrete.” Further on we read respecting
-algebraic functions that “most functions were concrete in
-their origin—even those which are at present the most
-purely <span class="xxpn" id="p018">{18}</span>
-abstract; and the ancients discovered only through
-geometrical definitions elementary algebraic properties of
-functions to which a numerical value was not attached till
-long afterwards, rendering abstract to us what was
-concrete to the old geometers.” How do these statements
-tally with his doctrine? Again, having divided the
-calculus into algebraic and arithmetical, M. Comte admits,
-as perforce he must, that the algebraic is more general
-than the arithmetical; yet he will not say that algebra
-preceded arithmetic in point of time. And again, having
-divided the calculus of functions into the calculus of direct
-functions (common algebra) and the calculus of indirect
-functions (transcendental analysis), he is obliged to speak
-of this last as possessing a higher generality than the first;
-yet it is far more modern. Indeed, by implication, M.
-Comte himself confesses this incongruity; for he says:—“It
-might seem that the transcendental analysis ought to
-be studied before the ordinary, as it provides the equations
-which the other has to resolve. But though the transcendental
-<i>is logically independent of the ordinary</i>, it is best to
-follow the usual method of study, taking the ordinary
-first.” In all these cases, then, as well as at the close of the
-section where he predicts that mathematicians will in time
-“create procedures of a <i>wider generality</i>,” M. Comte makes
-admissions that are diametrically opposed to the alleged law.</p>
-
-<p>In the succeeding chapters treating of the concrete
-department of mathematics, we find similar contradictions.
-M. Comte himself names the geometry of the ancients
-<i>special</i> geometry and that of the moderns <i>general</i> geometry.
-He admits that while “the ancients studied geometry
-with reference to the <i>bodies</i> under notice, or specially;
-the moderns study it with reference to the <i>phenomena</i>
-to be considered, or generally.” He admits that
-while “the ancients extracted all they could out of
-one line or surface before passing to another,” “the
-moderns, since Descartes, employ themselves on
-questions <span class="xxpn" id="p019">{19}</span>
-which relate to any figure whatever.” These facts are
-the reverse of what, according to his theory, they should
-be. So, too, in mechanics. Before dividing it into statics
-and dynamics, M. Comte treats of the three laws of <i>motion</i>,
-and is obliged to do so; for statics, the more <i>general</i> of
-the two divisions, though it does not involve motion, is
-impossible as a science until the laws of motion are
-ascertained. Yet the laws of motion pertain to dynamics,
-the more <i>special</i> of the divisions. Further on he points
-out that after Archimedes, who discovered the law of
-equilibrium of the lever, statics made no progress until
-the establishment of dynamics enabled us to seek “the
-conditions of equilibrium through the laws of the
-composition of forces.” And he adds—“At this day
-<i>this is the method universally employed</i>. At the first
-glance it does not appear the most rational—dynamics
-being more complicated than statics, and precedence being
-natural to the simpler. It would, in fact, be more
-philosophical to refer dynamics to statics, as has since
-been done.” Sundry discoveries are afterwards detailed,
-showing how completely the development of statics has been
-achieved by considering its problems dynamically; and
-before the close of the section M. Comte remarks that
-“before hydrostatics could be comprehended under statics,
-it was necessary that the abstract theory of equilibrium
-should be made so general as to apply directly to fluids
-as well as solids. This was accomplished when Lagrange
-supplied, as the basis of the whole of rational mechanics,
-the single principle of virtual velocities.” In which
-statement we have two facts directly at variance with
-M. Comte’s doctrine;—first, that the simpler science,
-statics, reached its present development only by the aid
-of the principle of virtual velocities, which belongs to the
-more complex science, dynamics; and that this “single
-principle” underlying all rational mechanics—this <i>most
-general form</i> which includes alike the relations of
-statical, <span class="xxpn" id="p020">{20}</span>
-hydrostatical, and dynamical forces—was reached so late
-as the time of Lagrange.</p>
-
-<p>Thus it is <i>not</i> true that the historical succession of the
-divisions of mathematics has corresponded with the order
-of decreasing generality. It is <i>not</i> true that abstract
-mathematics was evolved antecedently to, and independently
-of, concrete mathematics. It is <i>not</i> true that of the subdivisions
-of abstract mathematics, the more general came
-before the more special. And it is <i>not</i> true that concrete
-mathematics, in either of its two sections, began with the
-most abstract and advanced to the less abstract truths.</p>
-
-<p>It may be well to mention, parenthetically, that, in
-defending his alleged law of progression from the general
-to the special, M. Comte somewhere comments upon the
-two meanings of the word <i>general</i>, and the resulting
-liability to confusion. Without now discussing whether
-the asserted distinction exists in other cases, it is manifest
-that it does not exist here. In sundry of the instances
-above quoted, the endeavours made by M. Comte himself
-to disguise, or to explain away, the precedence of the
-special over the general, clearly indicate that the generality
-spoken of is of the kind meant by his formula. And it
-needs but a brief consideration of the matter to show that,
-even did he attempt it, he could not distinguish this
-generality which, as above proved, frequently comes last,
-from the generality which he says always comes first. For
-what is the nature of that mental process by which objects,
-dimensions, weights, times, and the rest, are found capable
-of having their relations expressed numerically? It is the
-formation of certain abstract conceptions of unity, duality,
-and multiplicity, which are applicable to all things alike.
-It is the invention of general symbols serving to express
-the numerical relations of entities, whatever be their
-special characters. And what is the nature of the mental
-process by which numbers are found capable of having
-their relations expressed algebraically? It is the
-same. <span class="xxpn" id="p021">{21}</span>
-It is the formation of certain abstract conceptions of
-numerical functions which are constant whatever be the
-magnitudes of the numbers. It is the invention of general
-symbols serving to express the relations between numbers,
-as numbers express the relations between things. Just as
-arithmetic deals with the common properties of lines, areas,
-bulks, forces, periods; so does algebra deal with the common
-properties of the numbers which arithmetic presents.</p>
-
-<p>Having shown that M. Comte’s alleged law of progression
-does not hold among the several parts of the same science,
-let us see how it agrees with the facts when applied to the
-separate sciences. “Astronomy,” says M. Comte (<i>Positive
-Philosophy</i>, Book III.), “was a positive science, in its
-geometrical aspect, from the earliest days of the school of
-Alexandria; but Physics, which we are now to consider,
-had no positive character at all till Galileo made his great
-discoveries on the fall of heavy bodies.” On this, our
-comment is simply that it is a mis­rep­re­sen­ta­tion based
-upon an arbitrary misuse of words—a mere verbal artifice.
-By choosing to exclude from terrestrial physics those laws
-of magnitude, motion, and position, which he includes in
-celestial physics, M. Comte makes it appear that the last
-owes nothing to the first. Not only is this unwarrantable,
-but it is radically inconsistent with his own scheme of
-divisions. At the outset he says—and as the point is
-important we quote from the original—“Pour la <i>physique
-inorganique</i> nous voyons d’abord, en nous conformant
-toujours à l’ordre de généralité et de dépendance des
-phénomènes, qu’elle doit être partagée en deux sections
-distinctes, suivant qu’elle considère les phénomènes
-généraux de l’univers, ou, en particulier, ceux que
-présentent les corps terrestres. D’où la physique céleste,
-ou l’astronomie, soit géométrique, soit mechanique; et la
-physique terrestre.” Here then we have <i>inorganic physics</i>
-clearly divided into <i>celestial physics</i> and <i>terrestrial physics</i>—the
-phenomena presented by the universe, and the <span class="xxpn" id="p022">{22}</span>
-phenomena presented by earthly bodies. If now celestial bodies
-and terrestrial bodies exhibit sundry leading phenomena in
-common, as they do, how can the generalization of these
-common phenomena be considered as pertaining to the
-one class rather than to the other? If inorganic physics
-includes geometry (which M. Comte has made it do by
-comprehending <i>geometrical</i> astronomy in its sub-section,
-celestial physics); and if its other sub-section, terrestrial
-physics, treats of things having geometrical properties;
-how can the laws of geometrical relations be excluded from
-terrestrial physics? Clearly if celestial physics includes
-the geometry of objects in the heavens, terrestrial physics
-includes the geometry of objects on the earth. And if
-terrestrial physics includes terrestrial geometry, while
-celestial physics includes celestial geometry, then the
-geometrical part of terrestrial physics precedes the
-geometrical part of celestial physics; seeing that geometry
-gained its first ideas from surrounding objects. Until men
-had learnt geometrical relations from bodies on the earth,
-it was impossible for them to understand the geometrical
-relations of bodies in the heavens. So, too, with celestial
-mechanics, which had terrestrial mechanics for its parent.
-The very conception of <i>force</i>, which underlies the whole
-of mechanical astronomy, is borrowed from our earthly
-experiences; and the leading laws of mechanical action
-as exhibited in scales, levers, projectiles, &amp;c., had to be
-ascertained before the dynamics of the Solar System could
-be entered upon. What were the laws made use of by
-Newton in working out his grand discovery? The law of
-falling bodies disclosed by Galileo; that of the composition
-of forces also disclosed by Galileo; and that of centrifugal
-force found out by Huyghens—all of them gen­er­al­i­za­tions
-of terrestrial physics. Yet, with facts like these before
-him, M. Comte places astronomy before physics in order
-of evolution! He does not compare the geometrical parts
-of the two together, and the mechanical parts of the
-two <span class="xxpn" id="p023">{23}</span>
-together; for this would by no means suit his hypothesis.
-But he compares the geometrical part of the one with the
-mechanical part of the other, and so gives a semblance of
-truth to his position. He is led away by a verbal illusion.
-Had he confined his attention to the things and disregarded
-the words, he would have seen that before mankind
-scientifically co-ordinated <i>any one class of phenomena</i>
-displayed in the heavens, they had previously co-ordinated
-<i>a parallel class of phenomena</i> displayed on the surface
-of the earth.</p>
-
-<p>Were it needful we could fill a score pages with the
-incongruities of M. Comte’s scheme. But the foregoing
-samples will suffice. So far is his law of evolution of the
-sciences from being tenable, that, by following his example,
-and arbitrarily ignoring one class of facts, it would be
-possible to present, with great plausibility, just the opposite
-generalization to that which he enunciates. While he
-asserts that the rational order of the sciences, like the
-order of their historic development, “is determined by the
-degree of simplicity, or, what comes to the same thing,
-of generality of their phenomena;” it might contrariwise
-be asserted that, commencing with the complex and the
-special, mankind have progressed step by step to a knowledge
-of greater simplicity and wider generality. So much
-evidence is there of this as to have drawn from Whewell,
-in his <i>History of the Inductive Sciences</i>, the remark that
-“the reader has already seen repeatedly in the course
-of this history, complex and derivative principles presenting
-themselves to men’s minds before simple and elementary
-ones.” Even from M. Comte’s own work, numerous facts,
-admissions, and arguments, might be picked out, tending to
-show this. We have already quoted his words in proof that
-both abstract and concrete mathematics have progressed
-towards a higher degree of generality, and that he looks
-forward to a higher generality still. Just to strengthen
-this adverse hypothesis, let us take a further
-instance. <span class="xxpn" id="p024">{24}</span>
-From the <i>particular</i> case of the scales, the law of equilibrium
-of which was familiar to the earliest nations known,
-Archimedes advanced to the more <i>general</i> case of the
-lever of which the arms may or may not be equal; the law
-of equilibrium of which <i>includes</i> that of the scales. By the
-help of Galileo’s discovery concerning the composition of
-forces, D’Alembert “established, for the first time, the equations
-of equilibrium of <i>any</i> system of forces applied to the
-different points of a solid body”—equations which include
-all cases of levers and an infinity of cases besides. Clearly
-this is progress towards a higher generality—towards a
-knowledge more independent of special circumstances—towards
-a study of phenomena “the most disengaged from
-the incidents of particular cases;” which is M. Comte’s
-definition of “the most simple phenomena.” Does it not
-indeed follow from the admitted fact, that mental advance
-is from the concrete to the abstract, from the particular to
-the general, that the universal and therefore most simple
-truths are the last to be discovered? Should we ever
-succeed in reducing all orders of phenomena to some
-single law—say of atomic action, as M. Comte suggests—must
-not that law answer to his test of being <i>independent</i>
-of all others, and therefore most simple? And would not
-such a law generalize the phenomena of gravity, cohesion,
-atomic affinity, and electric repulsion, just as the laws of
-number generalize the quantitative phenomena of space,
-time and force?</p>
-
-<p>The possibility of saying so much in support of an hypothesis
-the very reverse of M. Comte’s, at once proves that
-his generalization is only a half-truth. The fact is that
-neither proposition is correct by itself; and the actuality is
-expressed only by putting the two together. The progress of
-science is duplex. It is at once from the special to the
-general, and from the general to the special. It is analytical
-and synthetical at the same time.</p>
-
-<p>M. Comte himself observes that the evolution of
-science <span class="xxpn" id="p025">{25}</span>
-has been accomplished by the division of labour; but he
-quite misstates the mode in which this division of labour
-has operated. As he describes it, it has been simply an
-arrangement of phenomena into classes, and the study of
-each class by itself. He does not recognize the effect of
-progress in each class upon <i>all</i> other classes: he recognizes
-only the effect on the class succeeding it in his hierarchical
-scale. Or if he occasionally admits collateral influences
-and inter­com­mun­i­ca­tions, he does it so grudgingly, and so
-quickly puts the admissions out of sight and forgets them,
-as to leave the impression that, with but trifling exceptions,
-the sciences aid one another only in the order of their
-alleged succession. The fact is, however, that the division
-of labour in science, like the division of labour in society,
-and like the “physiological division of labour” in individual
-organisms, has been not only a specialization of
-functions, but a continuous helping of each division by all
-the others, and of all by each. Every particular class of
-inquirers has, as it were, secreted its own particular order
-of truths from the general mass of material which observation
-accumulates; and all other classes of inquirers have
-made use of these truths as fast as they were elaborated,
-with the effect of enabling them the better to elaborate
-each its own order of truths. It was thus in sundry of the
-cases we have quoted as at variance with M. Comte’s
-doctrine. It was thus with the application of Huyghens’s
-optical discovery to astronomical observation by Galileo.
-It was thus with the application of the isochronism of the
-pendulum to the making of instruments for measuring
-intervals, astronomical and other. It was thus when the
-discovery that the refraction and dispersion of light did
-not follow the same law of variation, affected both
-astronomy and physiology by giving us achromatic telescopes
-and microscopes. It was thus when Bradley’s
-discovery of the aberration of light enabled him to make
-the first step towards ascertaining the motions of the
-stars. <span class="xxpn" id="p026">{26}</span>
-It was thus when Cavendish’s torsion-balance experiment
-determined the specific gravity of the Earth, and so gave
-a datum for calculating the specific gravities of the Sun
-and Planets. It was thus when tables of atmospheric
-refraction enabled observers to write down the real places
-of the heavenly bodies instead of their apparent places.
-It was thus when the discovery of the different expansibilities
-of metals by heat, gave us the means of correcting
-our chronometrical measurements of astronomical periods.
-It was thus when the lines of the prismatic spectrum were
-used to distinguish the heavenly bodies that are of like
-nature with the sun from those which are not. It was
-thus when, as recently, an elec­tro-tel­e­graphic instrument
-was invented for the more accurate registration of meridional
-transits. It was thus when the difference in the
-rates of a clock at the equator, and nearer the poles, gave
-data for calculating the oblateness of the earth, and
-accounting for the precession of the equinoxes. It was
-thus—but it is needless to continue. Here, within our
-own limited knowledge of its history, we have named ten
-additional cases in which the single science of astronomy
-has owed its advance to sciences coming <i>after</i> it in M.
-Comte’s series. Not only its minor changes, but its
-greatest revolutions have been thus determined. Kepler
-could not have discovered his celebrated laws had it not
-been for Tycho Brahe’s accurate observations; and it was
-only after some progress in physical and chemical science
-that the improved instruments with which those observations
-were made, became possible. The heliocentric
-theory of the Solar System had to wait until the invention
-of the telescope before it could be finally established.
-Nay, even the grand discovery of all—the law of gravitation—depended
-for its proof upon an operation of physical
-science, the measurement of a degree on the Earth’s
-surface. So completely, indeed, did it thus depend, that
-Newton <i>had actually abandoned his hypothesis</i> because
-the <span class="xxpn" id="p027">{27}</span>
-length of a degree, as then stated, brought out wrong
-results; and it was only after Picart’s more exact measurement
-was published, that he returned to his calculations
-and proved his great generalization. Now this constant
-intercommunion which, for brevity’s sake, we have
-illustrated in the case of one science only, has been taking
-place with all the sciences. Throughout the whole course
-of their evolution there has been a continuous <i>consensus</i> of
-the sciences—a <i>consensus</i> exhibiting a general correspondence
-with the <i>consensus</i> of the faculties in each phase
-of mental development; the one being an objective registry
-of the subjective state of the other.</p>
-
-<p class="section">From our present point of view, then, it becomes obvious
-that the conception of a <i>serial</i> arrangement of the sciences
-is a vicious one. It is not simply that, as M. Comte admits,
-such a clas­si­fi­ca­tion “will always involve something, if not
-arbitrary, at least artificial;” it is not, as he would have us
-believe, that, neglecting minor imperfections such a clas­si­fi­ca­tion
-may be substantially true; but it is that any grouping
-of the sciences in a succession gives a radically erroneous
-idea of their genesis and their dependencies. There is no
-“one <i>rational</i> order among a host of possible systems.”
-There is no “true <i>filiation</i> of the sciences.” The whole
-hypothesis is fundamentally false. Indeed, it needs but a
-glance at its origin to see at once how baseless it is. Why
-a <i>series</i>? What reason have we to suppose that the sciences
-admit of a <i>linear</i> arrangement? Where is our warrant for
-assuming that there is some <i>succession</i> in which they can be
-placed? There is no reason; no warrant. Whence then has
-arisen the supposition? To use M. Comte’s own phraseology,
-we should say, it is a metaphysical conception. It adds
-another to the cases constantly occurring, of the human
-mind being made the measure of Nature. We are obliged
-to think in sequence; it is a law of our minds that we must
-consider subjects separately, one after another:
-<i>therefore</i> <span class="xxpn" id="p028">{28}</span>
-Nature must be serial—<i>therefore</i> the sciences must be
-classifiable in a succession. See here the birth of the notion,
-and the sole evidence of its truth. Men have been obliged
-when arranging in books their schemes of education and
-systems of knowledge, to choose <i>some</i> order or other. And
-from inquiring what is the best order, have fallen into the
-belief that there is an order which truly represents the facts—have
-persevered in seeking such an order; quite overlooking
-the previous question whether it is likely that Nature
-has consulted the convenience of book-making. For
-German philosophers, who hold that Nature is “petrified
-intelligence,” and that logical forms are the foundations of
-all things, it is a consistent hypothesis that as thought is
-serial, Nature is serial; but that M. Comte, who is so bitter
-an opponent of all an­thro­po­mor­phism, even in its most
-evanescent shapes, should have committed the mistake of
-imposing upon the external world an arrangement which so
-obviously springs from a limitation of the human con­scious­ness,
-is somewhat strange. And it is the more strange when
-we call to mind how, at the outset, M. Comte remarks that
-in the beginning “<i>toutes les sciences sont cultivées simultanément
-par les mêmes esprits</i>;” that this is “<i>inevitable et
-même indispensable</i>;” and how he further remarks that the
-different sciences are “<i>comme les diverses branches d’un tronc
-unique</i>.” Were it not accounted for by the distorting
-influence of a cherished hypothesis, it would be scarcely
-possible to understand how, after recognizing truths like
-these, M. Comte should have persisted in attempting to
-construct “<i>une échelle encyclopédique</i>.”</p>
-
-<p>The metaphor which M. Comte has here so inconsistently
-used to express the relations of the sciences—branches of
-one trunk—is an approximation to the truth, though not the
-truth itself. It suggests the facts that the sciences had a
-common origin; that they have been developing simultaneously;
-and that they have been from time to time dividing
-and sub-dividing. But it fails to suggest the fact, that
-the <span class="xxpn" id="p029">{29}</span>
-divisions and sub-divisions thus arising do not remain
-separate, but now and again re-unite in direct and indirect
-ways. They inosculate; they severally send off and receive
-connecting growths; and the intercommunion has been
-ever becoming more frequent, more intricate, more widely
-ramified. There has all along been higher specialization,
-that there might be a larger generalization; and a deeper
-analysis, that there might be a better synthesis. Each
-larger generalization has lifted sundry specializations still
-higher; and each better synthesis has prepared the way for
-still deeper analysis.</p>
-
-<p>And here we may fitly enter upon the task awhile since
-indicated—a sketch of the Genesis of Science, regarded as a
-gradual outgrowth from common knowledge—an extension
-of the perceptions by the aid of the reason. We propose to
-treat it as a psychological process historically displayed;
-tracing at the same time the advance from qualitative to
-quantitative prevision; the progress from concrete facts to
-abstract facts, and the application of such abstract facts to
-the analysis of new orders of concrete facts; the simultaneous
-advance in generalization and specialization; the continually
-increasing subdivision and reunion of the sciences; and
-their constantly improving <i>consensus</i>.</p>
-
-<p class="section">To trace out scientific evolution from its deepest roots
-would, of course, involve a complete analysis of the mind.
-For as science is a development of that common knowledge
-acquired by the unaided senses and uncultured reason, so is
-that common knowledge itself gradually built up out of the
-simplest perceptions. We must, therefore, begin somewhere
-abruptly; and the most appropriate stage to take for our
-point of departure will be the adult mind of the savage.</p>
-
-<p>Commencing thus, without a proper preliminary analysis,
-we are naturally somewhat at a loss how to present, in a
-satisfactory manner, those fundamental processes of thought
-out of which science originates. Perhaps our argument
-may <span class="xxpn" id="p030">{30}</span>
-be best initiated by the proposition, that all intelligent
-action whatever depends upon the discerning of distinctions
-among surrounding things. The condition under which
-only it is possible for any creature to obtain food and avoid
-danger, is, that it shall be differently affected by different
-objects—that it shall be led to act in one way by one object,
-and in another way by another. In the lower orders of
-creatures this condition is fulfilled by means of an apparatus
-which acts automatically. In the higher orders the actions
-are partly automatic, partly conscious. And in man they
-are almost wholly conscious. Throughout, however, there
-must necessarily exist a certain clas­si­fi­ca­tion of things
-according to their properties—a clas­si­fi­ca­tion which is either
-organically registered in the system, as in the inferior
-creation, or is formed by conscious experience, as in ourselves.
-And it may be further remarked, that the extent to
-which this clas­si­fi­ca­tion is carried, roughly indicates the
-height of intelligence—that, while the lowest organisms are
-able to do little more than discriminate organic from
-inorganic matter; while the generality of animals carry
-their clas­si­fi­ca­tions no further than to a limited number of
-plants or creatures serving for food, a limited number of
-beasts of prey, and a limited number of places and materials;
-the most degraded of the human race possess a knowledge
-of the distinctive natures of a great variety of substances,
-plants, animals, tools, persons, &amp;c.; not only as classes but
-as individuals.</p>
-
-<p>What now is the mental process by which clas­si­fi­ca­tion is
-effected? Manifestly it is a recognition of the <i>likeness</i> or
-<i>unlikeness</i> of things, either in respect of their sizes, colours,
-forms, weights, textures, tastes, &amp;c., or in respect of their
-modes of action. By some special mark, sound, or motion,
-the savage identifies a certain four-legged creature he sees,
-as one that is good for food, and to be caught in a particular
-way; or as one that is dangerous; and acts accordingly.
-He has classed together all the creatures that are <i>alike</i>
-in <span class="xxpn" id="p031">{31}</span>
-this particular. And manifestly in choosing the wood out
-of which to form his bow, the plant with which to poison his
-arrows, the bone from which to make his fish-hooks, he
-identifies them through their chief sensible properties as
-belonging to the general classes, wood, plant, and bone, but
-distinguishes them as belonging to sub-classes by virtue of
-certain properties in which they are <i>unlike</i> the rest of
-the general classes they belong to; and so forms genera
-and species.</p>
-
-<p>And here it becomes manifest that not only is clas­si­fi­ca­tion
-carried on by grouping together in the mind things that are
-<i>like</i>; but that classes and sub-classes are formed and
-arranged according to the <i>degrees of unlikeness</i>. Things
-strongly contrasted are alone distinguished in the lower
-stages of mental evolution; as may be any day observed in
-an infant. And gradually as the powers of discrimination
-increase, the strong­ly-con­trast­ed classes at first distinguished,
-come to be each divided into sub-classes, differing from
-each other less than the classes differ; and these sub-classes
-are again divided after the same manner. By the continuance
-of which process, things are gradually arranged into groups,
-the members of which are less and less <i>unlike</i>; ending,
-finally, in groups whose members differ only as individuals,
-and not specifically. And thus there tends ultimately to
-arise the notion of <i>complete likeness</i>. For manifestly, it
-is impossible that groups should continue to be subdivided
-in virtue of smaller and smaller differences, without
-there being a simultaneous approximation to the notion of
-<i>no difference</i>.</p>
-
-<p>Let us next notice that the recognition of likeness and
-unlikeness, which underlies clas­si­fi­ca­tion, and out of which
-continued clas­si­fi­ca­tion evolves the idea of complete likeness—let
-us next notice that it also underlies the process
-of <i>naming</i>, and by consequence <i>language</i>. For all language
-consists, at the outset, of symbols which are as <i>like</i> to the
-things symbolized as it is practicable to make them.
-The <span class="xxpn" id="p032">{32}</span>
-language of signs is a means of conveying ideas by
-mimicking the actions or peculiarities of the things referred
-to. Verbal language also, in its first stage, is a mode of
-suggesting objects or acts by imitating the sounds which
-the objects make, or with which the acts are accompanied.
-Originally these two languages were used simultaneously.
-It needs but to watch the gesticulations with which
-the savage accompanies his speech—to see a Bushman
-dramatizing before an audience his mode of catching game—or
-to note the extreme paucity of words in primitive
-vocabularies; to infer that in the beginning, attitudes,
-gestures, and sounds, were all combined to produce as
-good a <i>likeness</i> as possible of the things, animals, persons,
-or events described; and that as the sounds came to be
-understood by themselves the gestures fell into disuse:
-leaving traces, however, in the manners of the more
-excitable civilized races. But be this as it may, it suffices
-simply to observe, how many of the words current among
-barbarous peoples are like the sounds appertaining to the
-things signified; how many of our own oldest and simplest
-words have the same peculiarity; how children habitually
-invent imitative words; and how the sign-language
-spontaneously formed by deaf mutes is based on imitative
-actions—to be convinced that the notion of <i>likeness</i> is that
-from which the nomenclature of objects takes its rise.
-Were there space we might go on to point out how this
-law of likeness is traceable, not only in the origin but in
-the development of language; how in primitive tongues
-the plural is made by a duplication of the singular, which
-is a multiplication of the word to make it <i>like</i> the
-multiplicity of the things; how the use of metaphor—that
-prolific source of new words—is a suggesting of ideas
-which are <i>like</i> the ideas to be conveyed in some respect or
-other; and how, in the copious use of simile, fable, and
-allegory among uncivilized races, we see that complex
-conceptions which there is no direct language for,
-are <span class="xxpn" id="p033">{33}</span>
-rendered, by presenting known conceptions more or less
-<i>like</i> them.</p>
-
-<p>This view is confirmed, and the predominance of this
-notion of likeness in primitive thought further illustrated,
-by the fact that our system of presenting ideas to the eye
-originated after the same fashion. Writing and printing
-have descended from picture-language. The earliest mode
-of permanently registering a fact was by depicting it on a
-skin and afterwards on a wall; that is—by exhibiting
-something as <i>like</i> to the thing to be remembered as it
-could be made. Gradually as the practice grew habitual
-and extensive, the most frequently repeated forms became
-fixed, and presently abbreviated; and, passing through the
-hieroglyphic and ideographic phases, the symbols lost all
-apparent relation to the things signified: just as the
-majority of our spoken words have done.</p>
-
-<p>Observe, again, that the same thing is true respecting
-the genesis of reasoning. The <i>likeness</i> which is perceived
-to exist between cases, is the essence of all early reasoning
-and of much of our present reasoning. The savage,
-having by experience discovered a relation between a
-certain object and a certain act, infers that the <i>like</i>
-relation will be found in future. And the expressions we
-use in our arguments—“<i>analogy</i> implies,” “the cases are
-not <i>parallel</i>,” “by <i>parity</i> of reasoning,” “there is no
-<i>similarity</i>,”—show how constantly the idea of likeness
-underlies our ratiocinative processes. Still more clearly
-will this be seen on recognizing the fact that there is a
-close connexion between reasoning and clas­si­fi­ca­tion; that
-the two have a common root; and that neither can go on
-without the other. For on the one hand, it is a familiar
-truth that the attributing to a body in consequence of some
-of its properties, all those other properties in virtue of
-which it is referred to a particular class, is an act of
-inference. And, on the other hand, the forming of a
-generalization is the putting together in one class, all
-those <span class="xxpn" id="p034">{34}</span>
-cases which present like relations; while the drawing a
-deduction is essentially the perception that a particular
-case belongs to a certain class of cases previously generalized.
-So that as clas­si­fi­ca­tion is a grouping together of
-<i>like things</i>; reasoning is a grouping together of <i>like
-relations</i> among things. Add to which, that while the
-perfection gradually achieved in clas­si­fi­ca­tion consists in
-the formation of groups of <i>objects</i> which are <i>completely
-alike</i>; the perfection gradually achieved in reasoning
-consists in the formation of groups of <i>cases</i> which are
-<i>completely alike</i>.</p>
-
-<p>Once more we may contemplate this dominant idea of
-likeness as exhibited in art. All art, civilized as well as
-savage, consists almost wholly in the making of objects
-<i>like</i> other objects; either as found in Nature, or as produced
-by previous art. If we trace back the varied art-products
-now existing, we find that at each stage the divergence
-from previous patterns is but small when compared
-with the agreement; and in the earliest art the persistency
-of imitation is yet more conspicuous. The old forms and
-ornaments and symbols were held sacred, and perpetually
-copied. Indeed, the strong imitative tendency notoriously
-displayed by the lowest human races—often seeming to be
-half automatic, ensures among them a constant reproducing
-of likenesses of things, forms, signs, sounds, actions and
-whatever else is imitable; and we may even suspect that
-this aboriginal peculiarity is in some way connected
-with the culture and development of this general conception,
-which we have found so deep and wide-spread in
-its applications.</p>
-
-<p>And now let us go on to consider how, by a further unfolding
-of this same fundamental notion, there is a gradual
-formation of the first germs of science. This idea of likeness
-which underlies clas­si­fi­ca­tion, nomenclature, language
-spoken and written, reasoning, and art; and which plays so
-important a part because all acts of intelligence are
-made <span class="xxpn" id="p035">{35}</span>
-possible only by distinguishing among surrounding things,
-or grouping them into like and unlike;—this idea we shall
-find to be the one of which science is the especial product.
-Already during the stage we have been describing, there
-has existed <i>qualitative</i> prevision in respect to the commoner
-phenomena with which savage life is familiar; and we
-have now to inquire how the elements of <i>quantitative</i> prevision
-are evolved. We shall find that they originate by
-the perfecting of this same idea of likeness—that they have
-their rise in that conception of <i>complete likeness</i> which, as
-we have seen, necessarily results from the continued
-process of clas­si­fi­ca­tion.</p>
-
-<p>For when the process of clas­si­fi­ca­tion has been carried as
-far as it is possible for the uncivilized to carry it—when
-the animal kingdom has been grouped not merely into
-quadrupeds, birds, fishes, and insects, but each of these
-divided into kinds—when there come to be classes, in each
-of which the members differ only as individuals, and not
-specifically; it is clear that there must frequently occur an
-observation of objects which differ so little as to be in­dis­tin­guish­able.
-Among several creatures which the savage
-has killed and carried home, it must often happen that
-some one, which he wished to identify, is so exactly like
-another that he cannot tell which is which. Thus, then,
-there originates the notion of <i>equality</i>. The things which
-among ourselves are called <i>equal</i>—whether lines, angles,
-weights, temperatures, sounds or colours—are things which
-produce in us sensations which cannot be distinguished
-from each other. It is true that we now apply the word
-<i>equal</i> chiefly to the separate traits or relations which
-objects exhibit, and not to those combinations of them
-constituting our conceptions of the objects; but this
-limitation of the idea has evidently arisen by analysis.
-That the notion of equality originated as alleged, will, we
-think, become obvious on remembering that as there
-were no artificial objects from which it could have
-been <span class="xxpn" id="p036">{36}</span>
-abstracted, it must have been abstracted from natural
-objects; and that the various families of the animal kingdom
-chiefly furnish those natural objects which display the
-requisite exactitude of likeness.</p>
-
-<p>The experiences out of which this general idea of
-equality is evolved, give birth at the same time to a more
-complex idea of equality; or, rather, the process just
-described generates an idea of equality which further
-experience separates into two ideas—<i>equality of things</i> and
-<i>equality of relations</i>. While organic forms occasionally
-exhibit this perfection of likeness out of which the notion
-of simple equality arises, they more frequently exhibit only
-that kind of likeness which we call <i>similarity</i>; and which
-is really compound equality. For the similarity of two
-creatures of the same species but of different sizes, is of
-the same nature as the similarity of two geometrical
-figures. In either case, any two parts of the one bear the
-same ratio to one another, as the homologous parts of the
-other. Given in a species, the proportions found to exist
-among the bones, and we may, and zoologists do, predict
-from any one, the dimensions of the rest; just as, when
-knowing the proportions subsisting among the parts of a
-geometrical figure, we may, from the length of one,
-calculate the others. And if, in the case of similar
-geometrical figures, the similarity can be established only
-by proving exactness of proportion among the homologous
-parts—if we express this relation between two parts in
-the one, and the corresponding parts in the other, by the
-formula A is to B as <i>a</i> is to <i>b</i>; if we otherwise write this,
-A to B = <i>a</i> to <i>b</i>; if, consequently, the fact we prove is that
-the relation of A to B <i>equals</i> the relation of <i>a</i> to <i>b</i>; then
-it is manifest that the fundamental conception of similarity
-is <i>equality of relations</i>. With this explanation we shall be
-understood when we say that the notion of equality of
-relations is the basis of all exact reasoning. Already it
-has been shown that reasoning in general is a
-recognition <span class="xxpn" id="p037">{37}</span>
-of <i>likeness</i> of relations; and here we further find that
-while the notion of likeness of things ultimately evolves
-the idea of simple equality, the notion of likeness of
-relations evolves the idea of equality of relations: of which
-the one is the concrete germ of exact science, while the
-other is its abstract germ. Those who cannot understand
-how the recognition of similarity in creatures of the same
-kind, can have any alliance with reasoning, will get over
-the difficulty on remembering that the phenomena among
-which equality of relations is thus perceived, are phenomena
-of the same order and are present to the senses
-at the same time; while those among which developed
-reason perceives relations, are generally neither of the
-same order, nor simultaneously present. And if, further,
-they will call to mind how Cuvier and Owen, from a single
-part of a creature, as a tooth, construct the rest by a
-process of reasoning based on this equality of relations,
-they will see that the two things are intimately connected,
-remote as they at first seem. But we anticipate. What
-it concerns us here to observe is, that from familiarity with
-organic forms there simultaneously arose the ideas of <i>simple
-equality</i>, and <i>equality of relations</i>.</p>
-
-<p>At the same time, too, and out of the same mental
-processes, came the first distinct ideas of <i>number</i>. In the
-earliest stages, the presentation of several like objects
-produced merely an indefinite conception of multiplicity; as
-it still does among Australians, and Bushmen, and Damaras,
-when the number presented exceeds three or four. With
-such a fact before us we may safely infer that the first
-clear numerical conception was that of duality as contrasted
-with unity. And this notion of duality must necessarily
-have grown up side by side with those of likeness and
-equality; seeing that it is impossible to recognize the
-likeness of two things without also perceiving that there
-are two. From the very beginning the conception of
-number must have been, as it is still, associated
-with <span class="xxpn" id="p038">{38}</span>
-likeness or equality of the things numbered; and for the
-purposes of calculation, an ideal equality of the things
-is assumed. Before any <i>absolutely true</i> numerical results
-can be reached, it is requisite that the units be <i>absolutely
-equal</i>. The only way in which we can establish a
-numerical relationship between things that do not yield
-us like impressions, is to divide them into parts that <i>do</i>
-yield us like impressions. Two unlike magnitudes of
-extension, force, time, weight, or what not, can have their
-relative amounts estimated, only by means of some small
-unit that is contained many times in both; and even if
-we finally write down the greater one as a unit and the
-other as a fraction of it, we state, in the denominator of
-the fraction, the number of parts into which the unit must
-be divided to be comparable with the fraction. It is,
-indeed, true, that by a modern process of abstraction,
-we occasionally apply numbers to unequal units, as the
-furniture at a sale or the various animals on a farm, simply
-as so many separate entities; but no exact quantitative
-result can be brought out by calculation with units of this
-order. And, indeed, it is the distinctive peculiarity of the
-calculus in general, that it proceeds on the hypothesis of
-that absolute equality of its abstract units, which no real
-units possess; and that the exactness of its results holds
-only in virtue of this hypothesis. The first ideas of
-number must necessarily then have been derived from
-like or equal magnitudes as seen chiefly in organic objects;
-and as the like magnitudes most frequently observed were
-magnitudes of extension, it follows that geometry and
-arithmetic had a simultaneous origin.</p>
-
-<p>Not only are the first distinct ideas of number co-ordinate
-with ideas of likeness and equality, but the first efforts at
-numeration display the same relationship. On reading
-accounts of savage tribes, we find that the method of
-counting by the fingers, still followed by many children,
-is the aboriginal method. Neglecting the several
-cases <span class="xxpn" id="p039">{39}</span>
-in which the ability to enumerate does not reach even to
-the number of fingers on one hand, there are many cases
-in which it does not extend beyond ten—the limit of the
-simple finger notation. The fact that in so many instances,
-remote, and seemingly unrelated nations, have adopted <i>ten</i>
-as their basic number; together with the fact that in the
-remaining instances the basic number is either <i>five</i> (the
-fingers of one hand) or <i>twenty</i> (the fingers and toes); of
-themselves show that the fingers were the original units of
-numeration. The still surviving use of the word <i>digit</i>, as
-the general name for a figure in arithmetic, is significant;
-and it is even said that our word <i>ten</i> (Sax. tyn; Dutch,
-tien; German, zehn) means in its primitive expanded form
-<i>two hands</i>. So that, originally, to say there were ten
-things, was to say there were two hands of them. From
-all which evidence it is tolerably clear that the earliest
-mode of conveying the idea of a number of things, was by
-holding up as many fingers as there were things; that is,
-by using a symbol which was <i>equal</i>, in respect of multiplicity,
-to the group symbolized. For which inference
-there is, indeed, strong confirmation in the statement that
-our own soldiers spontaneously adopted this device in
-their dealings with the Turks during the Crimean war.
-And here it should be remarked that in this re-combination
-of the notion of equality with that of multiplicity, by which
-the first steps in numeration are effected, we may see
-one of the earliest of those inosculations between the
-diverging branches of science, which are afterwards of
-perpetual occurrence.</p>
-
-<p>As this observation suggests, it will be well, before
-tracing the mode in which exact science emerges from
-the inexact judgments of the senses, and showing the
-non-serial evolution of its divisions, to note the non-serial
-character of those preliminary processes of which all after
-development is a continuation. On re-considering them it
-will be seen that not only are they divergent
-branches <span class="xxpn" id="p040">{40}</span>
-from a common root,—not only are they simultaneous in
-their growth; but that they are mutual aids; and that
-none can advance without the rest. That progress of
-clas­si­fi­ca­tion for which the unfolding of the perceptions
-paves the way, is impossible without a corresponding
-progress in language, by which greater varieties of objects
-are thinkable and expressible. On the one hand clas­si­fi­ca­tion
-cannot be carried far without names by which to
-designate the classes; and on the other hand language
-cannot be made faster than things are classified. Again,
-the multiplication of classes and the consequent narrowing
-of each class, itself involves a greater likeness among the
-things classed together; and the consequent approach
-towards the notion of complete likeness itself allows
-clas­si­fi­ca­tion to be carried higher. Moreover, clas­si­fi­ca­tion
-necessarily advances <i>pari passu</i> with rationality—the
-clas­si­fi­ca­tion of <i>things</i> with the clas­si­fi­ca­tion of <i>relations</i>.
-For things that belong to the same class are, by implication,
-things of which the properties and modes of behaviour—the
-co-existences and sequences—are more or less the
-same; and the recognition of this sameness of co-existences
-and sequences is reasoning. Whence it follows that the
-advance of clas­si­fi­ca­tion is necessarily proportionate to the
-advance of gen­er­al­i­za­tions. Yet further, the notion of
-<i>likeness</i>, both in things and relations, simultaneously
-evolves by one process of culture the ideas of <i>equality</i> of
-things and <i>equality</i> of relations; which are the respective
-bases of exact concrete reasoning and exact abstract
-reasoning—Mathematics and Logic. And once more, this
-idea of equality, in the very process of being formed,
-necessarily gives origin to two series of relations—those of
-magnitude and those of number; from which arise geometry
-and the calculus. Thus the process throughout is
-one of perpetual subdivision and perpetual inter­com­mun­i­ca­tion
-of the divisions. From the very first there has
-been that <i>consensus</i> of different kinds of
-knowledge, <span class="xxpn" id="p041">{41}</span>
-answering to the <i>consensus</i> of the intellectual faculties,
-which, as already said, must exist among the sciences.</p>
-
-<p>Let us now go on to observe how, out of the notions of
-<i>equality</i> and <i>number</i>, as arrived at in the manner described,
-there gradually arose the elements of quantitative prevision.</p>
-
-<p>Equality, once having come to be definitely conceived,
-was recognizable among other phenomena than those of
-magnitude. Being predicable of all things producing
-in­dis­tin­guish­able impressions, there naturally grew up
-ideas of equality in weights, sounds, colours, &amp;c.; and,
-indeed, it can scarcely be doubted that the occasional
-experience of equal weights, sounds, and colours, had a
-share in developing the abstract conception of equality—that
-the ideas of equality in sizes, relations, forces,
-resistances, and sensible properties in general, were evolved
-during the same stage of mental development. But
-however this may be, it is clear that as fast as the notion
-of equality gained definiteness, so fast did that lowest kind
-of quantitative prevision which is achieved without any
-instrumental aid, become possible. The ability to estimate,
-however roughly, the amount of a foreseen result, implies
-the conception that it will be <i>equal</i> to a certain imagined
-quantity; and the correctness of the estimate will manifestly
-depend on the precision which the perceptions of
-sensible equality have reached. A savage with a piece of
-stone in his hand, and another piece lying before him of
-greater bulk but of the same kind (sameness of kind being
-inferred from the <i>equality</i> of the two in colour and texture)
-knows about what effort he must put forth to raise this
-other piece; and he judges accurately in proportion to the
-accuracy with which he perceives that the one is twice,
-three times, four times, &amp;c. as large as the other; that is—in
-proportion to the precision of his ideas of equality and
-number. And here let us not omit to notice that even in
-these vaguest of quantitative previsions, the conception of
-<i>equality of relations</i> is also involved. For it is only
-in <span class="xxpn" id="p042">{42}</span>
-virtue of an undefined con­scious­ness that the relation
-between bulk and weight in the one stone is <i>equal</i> to the
-relation between bulk and weight in the other, that even
-the roughest approximation can be made.</p>
-
-<p>But how came the transition from those uncertain
-perceptions of equality which the unaided senses give,
-to the certain ones with which science deals? It came
-by placing the things compared in juxtaposition. Equality
-being asserted of things which give us in­dis­tin­guish­able
-impressions, and no distinct comparison of impressions
-being possible unless they occur in immediate succession,
-it results that exactness of equality is ascertainable in
-proportion to the closeness of the compared things. Hence
-the fact that when we wish to judge of two shades of
-colour whether they are alike or not, we place them side
-by side; hence the fact that we cannot, with any precision,
-say which of two allied sounds is the louder, or the higher
-in pitch, unless we hear the one immediately after the
-other; hence the fact that to estimate the ratio of weights,
-we take one in each hand, that we may compare their
-pressures by rapidly alternating in thought from the one
-to the other; hence the fact, that in a piece of music, we
-can continue to make equal beats when the first beat has
-been given, but cannot ensure commencing with the same
-length of beat on a future occasion; and hence, lastly, the
-fact, that of all magnitudes, those of <i>linear extension</i> are
-those of which the equality is most precisely ascertainable,
-and those to which, by consequence, all others have to be
-reduced. For it is the peculiarity of linear extension that
-it alone allows its magnitudes to be placed in <i>absolute</i>
-juxtaposition, or, rather, in coincident position; it alone
-can test the equality of two magnitudes by observing
-whether they will coalesce, as two equal mathematical
-lines do, when placed between the same points; it alone
-can test <i>equality</i> by trying whether it will become <i>identity</i>.
-Hence, then, the fact, that all exact science is
-reducible, <span class="xxpn" id="p043">{43}</span>
-by an ultimate analysis, to results measured in equal units
-of linear extension.</p>
-
-<p>Still it remains to be noticed in what manner this
-determination of equality by comparison of linear magnitudes
-originated. Once more may we perceive that
-surrounding natural objects supplied the needful lessons.
-From the beginning there must have been a constant
-experience of like things placed side by side—men standing
-and walking together; animals from the same herd; fish
-from the same shoal. And the ceaseless repetition of these
-experiences could not fail to suggest the observation, that
-the nearer together any objects were, the more visible
-became any inequality between them. Hence the obvious
-device of putting in apposition, things of which it was
-desired to ascertain the relative magnitudes. Hence the
-idea of <i>measure</i>. And here we suddenly come upon a
-group of facts which afford a solid basis to the remainder
-of our argument; while they also furnish strong evidence
-in support of the foregoing speculations. Those who look
-sceptically on this attempted rehabilitation of early mental
-development, and who think that the derivation of so
-many primary notions from organic forms is somewhat
-strained, will perhaps see more probability in the hypotheses
-which have been ventured, on discovering that
-all measures of <i>extension</i> and <i>force</i> originated from the
-lengths and weights of organic bodies, and all measures of
-<i>time</i> from the periodic phenomena of either organic or
-inorganic bodies.</p>
-
-<p>Thus, among linear measures, the cubit of the Hebrews
-was the <i>length of the forearm</i> from the elbow to the end of
-the middle finger; and the smaller scriptural dimensions
-are expressed in <i>hand-breadths</i> and <i>spans</i>. The Egyptian
-cubit, which was similarly derived, was divided into digits,
-which were <i>finger-breadths</i>; and each finger-breadth was
-more definitely expressed as being equal to four <i>grains of
-barley</i> placed breadthwise. Other ancient measures
-were <span class="xxpn" id="p044">{44}</span>
-the orgyia or <i>stretch of the arms</i>, the <i>pace</i>, and the <i>palm</i>.
-So persistent has been the use of these natural units of
-length in the East, that even now some Arabs mete out
-cloth by the forearm. So, too, is it with European
-measures. The <i>foot</i> prevails as a dimension throughout
-Europe, and has done so since the time of the Romans, by
-whom, also, it was used: its lengths in different places
-varying not much more than men’s feet vary. The heights
-of horses are still expressed in <i>hands</i>. The inch is the
-length of the terminal joint of <i>the thumb</i>; as is clearly
-shown in France, where <i>pouce</i> means both thumb and inch.
-Then we have the inch divided into three <i>barley-corns</i>. So
-completely, indeed, have these organic dimensions served
-as the substrata of mensuration, that it is only by means
-of them that we can form any estimate of some of
-the ancient distances. For example, the length of a
-degree on the Earth’s surface, as determined by the
-Arabian astronomers shortly after the death of Haroun-al-Raschid,
-was fifty-six of their miles. We know nothing of
-their mile further than that it was 4000 cubits; and whether
-these were sacred cubits or common cubits, would remain
-doubtful, but that the length of the cubit is given as
-twenty-seven inches, and each inch defined as the thickness
-of six barley-grains. Thus one of the earliest measurements
-of a degree comes down to us in barley-grains. Not
-only did organic lengths furnish those approximate
-measures which satisfied men’s needs in ruder ages, but
-they furnished also the standard measures required in later
-times. One instance occurs in our own history. To remedy
-the irregularities then prevailing, Henry I. commanded
-that the ulna, or ancient ell, which answers to the modern
-yard, should be made of the exact length of <i>his own arm</i>.</p>
-
-<p>Measures of weight had a kindred derivation. Seeds
-seem commonly to have supplied the units. The original of
-the carat used for weighing in India is <i>a small bean</i>. Our
-own systems, both troy and avoirdupois, are
-derived <span class="xxpn" id="p045">{45}</span>
-primarily from wheat-corns. Our smallest weight, the grain
-is <i>a grain of wheat</i>. This is not a speculation; it is an
-his­tor­i­cal­ly-reg­is­tered fact. Henry III. enacted that an
-ounce should be the weight of 640 dry grains of wheat from
-the middle of the ear. And as all the other weights are
-multiples or sub-multiples of this, it follows that the grain
-of wheat is the basis of our scale. So natural is it to use
-organic bodies as weights, before artificial weights have
-been established, or where they are not to be had, that in
-some of the remoter parts of Ireland the people are said to
-be in the habit, even now, of putting a man into the scales
-to serve as a measure for heavy commodities.</p>
-
-<p>Similarly with time. Astronomical periodicity, and the
-periodicity of animal and vegetable life, are simultaneously
-used in the first stages of progress for estimating epochs.
-The simplest unit of time, the day, nature supplies ready
-made. The next simplest period, the moneth or month, is
-also thrust upon men’s notice by the conspicuous changes
-constituting a lunation. For larger divisions than these, the
-phenomena of the seasons, and the chief events from time to
-time occurring, have been used by early and uncivilized
-races. Among the Egyptians the rising of the Nile served
-as a mark. The New Zealanders were found to begin their
-year from the reappearance of the Pleiades above the sea.
-One of the uses ascribed to birds, by the Greeks, was to
-indicate the seasons by their migrations. Barrow describes
-the aboriginal Hottentot as expressing dates by the number
-of moons before or after the ripening of one of his chief
-articles of food. He further states that the Kaffir chronology
-is kept by the moon, and is registered by notches on
-sticks—the death of a favourite chief, or the gaining of a
-victory, serving for a new era. By which last fact, we are
-at once reminded that in early history, events are commonly
-recorded as occurring in certain reigns, and in certain years
-of certain reigns: a proceeding which made a king’s
-reign <span class="xxpn" id="p046">{46}</span>
-a rude measure of duration. And, as further illustrating
-the tendency to divide time by natural phenomena and
-natural events, it may be noticed that even by our own
-peasantry the definite divisions of months and years are but
-little used; and that they habitually refer to occurrences as
-“before sheep-shearing,” or “after harvest,” or “about
-the time when the squire died.” It is manifest, therefore,
-that the approximately equal periods perceived in Nature
-gave the first units of measure for time; as did Nature’s
-approximately equal lengths and weights give the first units
-of measure for space and force.</p>
-
-<p>It remains only to observe, that measures of value were
-similarly derived. Barter, in one form or other, is found
-among all but the very lowest human races. It is obviously
-based upon the notion of <i>equality of worth</i>. And as it
-gradually merges into trade by the introduction of some kind
-of currency, we find that the <i>measures of worth</i>, constituting
-this currency, are organic bodies; in some cases <i>cowries</i>, in
-others <i>cocoa-nuts</i>, in others <i>cattle</i>, in others <i>pigs</i>; among the
-American Indians peltry or <i>skins</i>, and in Iceland <i>dried fish</i>.</p>
-
-<p>Notions of exact equality and of measure having been
-reached, there arose definite ideas of magnitudes as being
-multiples one of another; whence the practice of measurement
-by direct apposition of a measure. The determination
-of linear extensions by this process can scarcely be called
-science, though it is a step towards it; but the determination
-of lengths of time by an analogous process may be considered
-as one of the earliest samples of quantitative prevision.
-For when it is first ascertained that the moon completes the
-cycle of her changes in about thirty days—a fact known to
-most uncivilized tribes that can count beyond the number
-of their fingers—it is manifest that it becomes possible to
-say in what number of days any specified phase of the moon
-will recur; and it is also manifest that this prevision is
-effected by an apposition of two times, after the same
-manner <span class="xxpn" id="p047">{47}</span>
-that linear space is measured by the apposition of two lines.
-For to express the moon’s period in days, is to say how many
-of these units of measure are contained in the period to be
-measured—is to ascertain the distance between two points
-in time by means of a <i>scale of days</i>, just as we ascertain the
-distance between two points in space by a scale of feet or
-inches; and in each case the scale coincides with the thing
-measured—mentally in the one, visibly in the other. So
-that in this simplest, and perhaps earliest case of quantitative
-prevision, the phenomena are not only thrust daily upon
-men’s notice, but Nature is, as it were, perpetually repeating
-that process of measurement by observing which the
-prevision is effected.</p>
-
-<p>This fact, that in very early stages of social progress it is
-known that the moon goes through her changes in nearly
-thirty days, and that in rather more than twelve moons the
-seasons return—this fact that chronological astronomy
-assumes a certain scientific character even before geometry
-does; while it is partly due to the circumstance that the
-astronomical divisions, day, month, and year, are ready made
-for us, is partly due to the further circumstances that
-agricultural and other operations were at first regulated
-astronomically, and that from the supposed divine nature
-of the heavenly bodies their motions determined the periodical
-religious festivals. As instances of the one we have
-the observation of the Egyptians, that the rising of the Nile
-corresponded with the heliacal rising of Sirius; the directions
-given by Hesiod for reaping and ploughing, according to
-the positions of the Pleiades; and his maxim that “fifty
-days after the turning of the sun is a seasonable time for
-beginning a voyage.” As instances of the other, we have
-the naming of the days after the sun, moon, and planets;
-the early attempts among Eastern nations to regulate the
-calendar so that the gods might not be offended by the
-displacement of their sacrifices; and the fixing of the great
-annual festival of the Peruvians by the position of the
-sun. <span class="xxpn" id="p048">{48}</span>
-In all which facts we see that, at first, science was simply an
-appliance of religion and industry.</p>
-
-<p>After the discoveries that a lunation occupies nearly
-thirty days, and that some twelve lunations occupy a year—discoveries
-which we may infer were the earliest, from the
-fact that existing uncivilized races have made them—we
-come to the first known astronomical records, which are
-those of eclipses. The Chaldeans were able to predict these.
-“This they did, probably,” says Dr. Whewell in his useful
-history, from which most of the materials we are about to
-use will be drawn, “by means of their cycle of 223 months,
-or about eighteen years; for, at the end of this time, the
-eclipses of the moon begin to return, at the same intervals
-and in the same order as at the beginning.” Now this
-method of calculating eclipses by means of a recurring cycle,—the
-<i>Saros</i> as they called it—is a more complex case of
-prevision by means of coincidence of measures. For by
-what observations must the Chaldeans have discovered this
-cycle? Obviously, as Delambre infers, by inspecting their
-registers; by comparing the successive intervals; by finding
-that some of the intervals were alike; by seeing that these
-equal intervals were eighteen years apart; by discovering
-that <i>all</i> the intervals that were eighteen years apart were
-equal; by ascertaining that the intervals formed a series
-which repeated itself, so that if one of the cycles of intervals
-were superposed on another the divisions would fit. And
-this being once perceived, it became possible to use the cycle
-as a scale of time by which to measure out future periods of
-recurrence. Seeing thus that the process of so predicting
-eclipses, is in essence the same as that of predicting the
-moon’s monthly changes by observing the number of days
-after which they repeat—seeing that the two differ only in
-the extent and irregularity of the intervals; it is not difficult
-to understand how such an amount of knowledge should so
-early have been reached. And we shall be the less surprised
-on remembering that the only things involved in
-these <span class="xxpn" id="p049">{49}</span>
-previsions were <i>time</i> and <i>number</i>; and that the time was in
-a manner self-numbered.</p>
-
-<p>Still, the ability to predict events recurring only after so
-long a period as eighteen years, implies a considerable
-advance in civilization—a considerable development of
-general knowledge; and we have now to inquire what
-progress in other sciences accompanied, and was necessary
-to, these astronomical previsions. In the first place, there
-must have been a tolerably efficient system of calculation.
-Mere finger-counting, mere head-reckoning, even with the
-aid of a decimal notation, could not have sufficed for
-numbering the days in a year; much less the years,
-months, and days between eclipses. Consequently there
-must have been a mode of registering numbers; probably
-even a system of numerals. The earliest numerical
-records, if we may judge by the practices of the less
-civilized races now existing, were probably kept by
-notches cut on sticks, or strokes marked on walls; much
-as public-house scores are kept now. And there is reason
-to think that the first numerals used were simply groups
-of straight strokes, as some of the still-extant Roman ones
-are; leading us to suspect that these groups of strokes
-were used to represent groups of fingers, as the groups of
-fingers had been used to represent groups of objects—a
-supposition harmonizing with the aboriginal practice of
-picture writing. Be this so or not, however, it is
-manifest that before the Chaldeans discovered their <i>Saros</i>,
-they must have had both a set of written symbols serving
-for an extensive numeration, and a familiarity with the
-simpler rules of arithmetic.</p>
-
-<p>Not only must abstract mathematics have made some
-progress, but concrete mathematics also. It is scarcely
-possible that the buildings belonging to this era should
-have been laid out and erected without any knowledge of
-geometry. At any rate, there must have existed that
-elementary geometry which deals with direct <span class="xxpn" id="p050">{50}</span>
-measurement—with the apposition of lines; and it seems that only
-after the discovery of those simple proceedings, by which
-right angles are drawn, and relative positions fixed, could
-so regular an architecture be executed. In the case of the
-other division of concrete mathematics—mechanics, we have
-definite evidence of progress. We know that the lever and
-the inclined plane were employed during this period: implying
-that there was a qualitative prevision of their effects,
-if not a quantitative one. But we know more. We read
-of weights in the earliest records; and we find weights in
-ruins of the highest antiquity. Weights imply scales, of
-which we have also mention; and scales involve the
-primary theorem of mechanics in its least complicated
-form—involve not a qualitative but a quantitative prevision
-of mechanical effects. And here we may notice how
-mechanics, in common with the other exact sciences, took
-its rise from the simplest application of the idea of
-<i>equality</i>. For the mechanical proposition which the scales
-involve, is, that if a lever with <i>equal</i> arms, have <i>equal</i>
-weights suspended from them, the weights will remain at
-<i>equal</i> altitudes. And we may further notice how, in this
-first step of rational mechanics, we see illustrated the truth
-awhile since named, that as magnitudes of linear extension
-are the only ones of which the equality is exactly
-ascertainable, the equalities of other magnitudes have at
-the outset to be determined by means of them. For the
-equality of the weights which balance each other in scales,
-depends on the equality of the arms: we can know that
-the weights are equal only by proving that the arms are
-equal. And when by this means we have obtained a
-system of weights,—a set of equal units of force and definite
-multiples of them, then does a science of mechanics become
-possible. Whence, indeed, it follows, that rational
-mechanics could not possibly have any other starting-point
-than the scales.</p>
-
-<p>Let us further remember that during this same
-period <span class="xxpn" id="p051">{51}</span>
-there was some knowledge of chemistry. Sundry of the
-arts which we know to have been carried on, were made
-possible only by a generalized experience of the modes
-in which certain bodies affect each other under special
-conditions. In metallurgy, which was extensively practised,
-this is abundantly illustrated. And we even have evidence
-that in some cases the knowledge possessed was, in a
-sense, quantitative. For, as we find by analysis that the
-hard alloy of which the Egyptians made their cutting
-tools, was composed of copper and tin in fixed proportions,
-there must have been an established prevision that such
-an alloy was to be obtained only by mixing them in these
-proportions. It is true, this was but a simple empirical
-generalization; but so was the generalization respecting
-the recurrence of eclipses; so are the first gen­er­al­i­za­tions
-of every science.</p>
-
-<p>Respecting the simultaneous advance of the sciences
-during this early epoch, it remains to point out that even
-the most complex of them must have made some progress.
-For under what conditions only were the foregoing
-developments possible? The conditions furnished by an
-established and organized social system. A long continued
-registry of eclipses; the building of palaces; the use of
-scales; the practice of metallurgy—alike imply a settled
-and populous nation. The existence of such a nation not
-only presupposes laws and some administration of justice,
-which we know existed, but it presupposes successful laws—laws
-conforming in some degree to the conditions of
-social stability—laws enacted because it was found that
-the actions forbidden by them were dangerous to the
-State. We do not by any means say that all, or even the
-greater part, of the laws were of this nature; but we do
-say, that the fundamental ones were. It cannot be denied
-that the laws affecting life and property were such. It
-cannot be denied that, however little these were enforced
-between class and class, they were to a considerable
-extent <span class="xxpn" id="p052">{52}</span>
-enforced between members of the same class. It can
-scarcely be questioned, that the administration of them
-between members of the same class was seen by rulers to
-be necessary for keeping society together. But supposition
-aside, it is clear that the habitual recognition of these
-claims in their laws, implied some prevision of social
-phenomena. That same idea of <i>equality</i>, which, as we
-have seen, underlies other science, underlies also morals
-and sociology. The conception of justice, which is the
-primary one in morals; and the administration of justice,
-which is the vital condition to social existence; are
-impossible without the recognition of a certain likeness in
-men’s claims, in virtue of their common humanity. <i>Equity</i>
-literally means <i>equalness</i>; and if it be admitted that there
-were even the vaguest ideas of equity in these primitive
-eras, it must be admitted that there was some appreciation
-of the equalness of men’s liberties to pursue the objects of
-life—some appreciation, therefore, of the essential principle
-of national equilibrium.</p>
-
-<p>Thus in this initial stage of the positive sciences, before
-geometry had yet done more than evolve a few empirical
-rules—before mechanics had passed beyond its first theorem—before
-astronomy had advanced from its merely chronological
-phase into the geometrical; the most involved of
-the sciences had reached a certain degree of development—a
-development without which no progress in other sciences
-was possible.</p>
-
-<p>Only noting as we pass, how, thus early, we may see that
-the progress of exact science was not only towards an
-increasing number of previsions, but towards previsions
-more accurately quantitative—how, in astronomy, the
-recurring period of the moon’s motions was by and by
-more correctly ascertained to be two hundred and thirty-five
-lunations; how Callipus further corrected this Metonic
-cycle, by leaving out a day at the end of every seventy-six
-years; and how these successive advances implied
-a <span class="xxpn" id="p053">{53}</span>
-longer continued registry of observations, and the
-co-ordination of a greater number of facts; let us go on
-to inquire how geometrical astronomy took its rise. The
-first astronomical instrument was the gnomon. This
-was not only early in use in the East, but it was found
-among the Mexicans; the sole astronomical observations
-of the Peruvians were made by it; and we read that 1100
-<span class="smmaj">B.C.</span>, the Chinese observed that, at a certain place, the
-length of the sun’s shadow, at the summer solstice, was to
-the height of the gnomon, as one and a half to eight.
-Here again it is observable, both that the instrument is
-found ready made, and that Nature is perpetually
-performing the process of measurement. Any fixed, erect
-object—a column, a pole, the angle of a building—serves
-for a gnomon; and it needs but to notice the changing
-position of the shadow it daily throws, to make the first
-step in geometrical astronomy. How small this first step
-was, may be seen in the fact that the only things
-ascertained at the outset were the periods of the summer
-and winter solstices, which corresponded with the least
-and greatest lengths of the mid-day shadow; and to fix
-which, it was needful merely to mark the point to which
-each day’s shadow reached. And now let it not be
-overlooked that in the observing at what time during the
-next year this extreme limit of the shadow was again
-reached, and in the inference that the sun had then arrived
-at the same turning point in his annual course, we have
-one of the simplest instances of that combined use of <i>equal
-magnitudes</i> and <i>equal relations</i>, by which all exact science,
-all quantitative prevision, is reached. For the relation
-observed was between the length of the gnomon’s shadow
-and the sun’s position in the heavens; and the inference
-drawn was that when, next year, the extremity of the
-shadow came to the same point, he occupied the same
-place. That is, the ideas involved were, the equality of
-the shadows, and the equality of the relations
-between <span class="xxpn" id="p054">{54}</span>
-shadow and sun in successive years. As in the case of the
-scales, the equality of relations here recognized is of the
-simplest order. It is not as those habitually dealt with in
-the higher kinds of scientific reasoning, which answer to
-the general type—the relation between two and three
-equals the relation between six and nine; but it follows
-the type—the relation between two and three equals the
-relation between two and three: it is a case of not simply
-<i>equal</i> relations, but <i>coinciding</i> relations. And here, indeed,
-we may see beautifully illustrated how the idea of equal
-relations takes its rise after the same manner that that of
-equal magnitudes does. As already shown, the idea of
-equal magnitudes arose from the observed coincidence of
-two lengths placed together; and in this case we have not
-only two coincident lengths of shadows, but two coincident
-relations between sun and shadows.</p>
-
-<p>From the use of the gnomon there naturally grew up the
-conception of angular measurements; and with the advance
-of geometrical conceptions came the hemisphere of Berosus,
-the equinoctial armil, the solstitial armil, and the quadrant of
-Ptolemy—all of them employing shadows as indices of the
-sun’s position, but in combination with angular divisions.
-It is out of the question for us here to trace these details
-of progress. It must suffice to remark that in all of them
-we may see that notion of equality of relations of a more
-complex kind, which is best illustrated in the astrolabe, an
-instrument which consisted “of circular rims, moveable
-one within the other, or about poles, and contained circles
-which were to be brought into the position of the ecliptic,
-and of a plane passing through the sun and the poles of
-the ecliptic”—an instrument, therefore, which represented,
-as by a model, the relative positions of certain imaginary
-lines and planes in the heavens; which was adjusted by
-putting these representative lines and planes into parallelism
-with the celestial ones; and which depended for its
-use on the perception that the relations among
-these <span class="xxpn" id="p055">{55}</span>
-representative lines and planes were <i>equal</i> to the relations
-among those represented. We might go on to point out
-how the conception of the heavens as a revolving hollow
-sphere, the explanation of the moon’s phases, and indeed
-all the successive steps taken, involved this same mental
-process. But we must content ourselves with referring to
-the theory of eccentrics and epicycles, as a further marked
-illustration of it. As first suggested, and as proved by
-Hipparchus to afford an explanation of the leading irregularities
-in the celestial motions, this theory involved the
-perception that the progressions, retrogressions, and variations
-of velocity seen in the heavenly bodies, might be
-reconciled with their assumed uniform movements in circles,
-by supposing that the earth was not in the centre of their
-orbits; or by supposing that they revolved in circles whose
-centres revolved round the earth; or by both. The discovery
-that this would account for the appearances, was the
-discovery that in certain geometrical diagrams the relations
-were such, that the uniform motion of points along curves
-conditioned in specified ways, would, when looked at from
-a particular position, present analogous irregularities; and
-the calculations of Hipparchus involved the belief that the
-relations subsisting among these geometrical curves were
-<i>equal</i> to the relations subsisting among the celestial orbits.</p>
-
-<p>Leaving here these details of astronomical progress, and
-the philosophy of it, let us observe how the relatively
-concrete science of geometrical astronomy, having been
-thus far helped forward by the development of geometry
-in general, reacted upon geometry, caused it also to
-advance, and was again assisted by it. Hipparchus, before
-making his solar and lunar tables, had to discover rules for
-calculating the relations between the sides and angles
-of triangles—<i>trigonometry</i>, a subdivision of pure mathematics.
-Further, the reduction of the doctrine of the sphere
-to a quantitative form needed for astronomical purposes,
-required the formation of a <i>spherical trigonometry</i>,
-which <span class="xxpn" id="p056">{56}</span>
-was also achieved by Hipparchus. Thus both plane and
-spherical trigonometry, which are parts of the highly
-abstract and simple science of extension, remained undeveloped
-until the less abstract and more complex science of
-the celestial motions had need of them. The fact admitted
-by M. Comte, that since Descartes the progress of the
-abstract division of mathematics has been determined by
-that of the concrete division, is paralleled by the still more
-significant fact that even thus early the progress of mathematics
-was determined by that of astronomy. And here,
-indeed, we see exemplified the truth, which the subsequent
-history of science frequently illustrates, that before any
-more abstract division makes a further advance, some
-more concrete division suggests the necessity for that
-advance—presents the new order of questions to be solved.
-Before astronomy put before Hipparchus the problem of
-solar tables, there was nothing to raise the question of the
-relations between lines and angles: the subject-matter of
-trigonometry had not been conceived.</p>
-
-<p>Just incidentally noticing the circumstance that the
-epoch we are describing witnessed the evolution of algebra,
-a comparatively abstract division of mathematics, by the
-union of its less abstract divisions, geometry and arithmetic
-(a fact proved by the earliest extant samples of algebra,
-which are half algebraic, half geometric) we go on to
-observe that during the era in which mathematics and
-astronomy were thus advancing, rational mechanics made
-its second step; and something was done towards giving
-a quantitative form to hydrostatics, optics, and acoustics.
-In each case we shall see how the idea of equality underlies
-all quantitative prevision; and in what simple forms
-this idea is first applied.</p>
-
-<p>As already shown, the first theorem established in
-mechanics was, that equal weights suspended from a lever
-with equal arms would remain in equilibrium. Archimedes
-discovered that a lever with unequal arms was in <span class="xxpn" id="p057">{57}</span>
-equilibrium when one weight was to its arm as the other arm
-to its weight; that is—when the numerical relation
-between one weight and its arm was <i>equal</i> to the numerical
-relation between the other arm and its weight.</p>
-
-<p>The first advance made in hydrostatics, which we also
-owe to Archimedes, was the discovery that fluids press
-<i>equally</i> in all directions; and from this followed the solution
-of the problem of floating bodies; namely, that they
-are in equilibrium when the upward and downward pressures
-are <i>equal</i>.</p>
-
-<p>In optics, again, the Greeks found that the angle of
-incidence is <i>equal</i> to the angle of reflection; and their
-knowledge reached no further than to such simple deductions
-from this as their geometry sufficed for. In acoustics
-they ascertained the fact that three strings of <i>equal</i> lengths
-would yield the octave, fifth and fourth, when strained by
-weights having certain definite ratios; and they did not
-progress much beyond this. In the one of which cases we
-see geometry used in elucidation of the laws of light; and
-in the other, geometry and arithmetic made to measure
-certain phenomena of sound.</p>
-
-<p>While sundry sciences had thus reached the first stages
-of quantitative prevision, others were progressing in
-qualitative prevision. It must suffice just to note that
-some small gen­er­al­i­za­tions were made respecting evaporation,
-and heat, and electricity, and magnetism, which,
-empirical as they were, did not in that respect differ from
-the first gen­er­al­i­za­tions of every science; that the Greek
-physicians had made advances in physiology and pathology,
-which, considering the great imperfection of our
-present knowledge, are by no means to be despised; that
-zoology had been so far systematized by Aristotle, as, to
-some extent, enabled him from the presence of certain
-organs to predict the presence of others; that in Aristotle’s
-<i>Politics</i>, is shown progress towards a scientific conception
-of social phenomena, and sundry previsions
-respecting <span class="xxpn" id="p058">{58}</span>
-them; and that in the state of the Greek societies, as well
-as in the writings of Greek philosophers, we may recognize
-both an increasing clearness in the conception of equity
-and some appreciation of the fact that social stability
-depends on the maintenance of equitable relations. Space
-permitting, we might dwell on the causes which retarded
-the development of some of the sciences, as for example,
-chemistry; showing that relative complexity had nothing
-to do with it—that the oxidation of a piece of iron is a
-simpler phenomenon than the recurrence of eclipses, and
-the discovery of carbonic acid less difficult than that of the
-precession of the equinoxes. The relatively slow advance
-of chemical knowledge might be shown to be due, partly
-to the fact that its phenomena were not daily thrust on
-men’s notice as those of astronomy were; partly to the fact
-that Nature does not habitually supply the means, and
-suggest the modes of investigation, as in the sciences
-dealing with time, extension, and force; partly to the fact
-that the great majority of the materials with which chemistry
-deals, instead of being ready to hand, are made
-known only by the arts in their slow growth; and partly
-to the fact that even when known, their chemical properties
-are not self-exhibited, but have to be sought out
-by experiment.</p>
-
-<p>Merely indicating these considerations, however, let us
-go on to contemplate the progress and mutual influence
-of the sciences in modern days; only parenthetically
-noticing how, on the revival of the scientific spirit, the
-successive stages achieved exhibit the dominance of the
-law hitherto traced—how the primary idea in dynamics, a
-uniform force, was defined by Galileo to be a force which
-generates <i>equal</i> velocities in <i>equal</i> successive times—how
-the uniform action of gravity was first experimentally
-determined by showing that the time elapsing before a
-body thrown up, stopped, was <i>equal</i> to the time it took to
-fall—how the first fact in compound motion which
-Galileo <span class="xxpn" id="p059">{59}</span>
-ascertained was, that a body projected horizontally, will
-describe <i>equal</i> horizontal spaces in <i>equal</i> times, compounded
-vertical spaces described which increase by equal increments
-in <i>equal</i> times—how his discovery respecting the
-pendulum was, that its oscillations occupy <i>equal</i> intervals of
-time whatever their lengths—how the law which he
-established that in any machine the weights that balance
-each other, are reciprocally as their virtual velocities
-implies that the relation of one set of weights to their
-velocities <i>equals</i> the relation of the other set of velocities to
-their weights;—and how thus his achievements consisted
-in showing the equalities of certain magnitudes and relations,
-whose equalities had not been previously recognized.</p>
-
-<p>And now, but only now, physical astronomy became
-possible. The simple laws of force had been disentangled
-from those of friction and atmospheric resistance by which
-all their earthly manifestations are disguised. Progressing
-knowledge of <i>terrestrial physics</i> had given a due insight
-into these disturbing causes; and, by an effort of abstraction,
-it was perceived that all motion would be uniform and
-rectilinear unless interfered with by external forces.
-Geometry and mechanics having diverged from a common
-root in men’s sensible experiences, and having, with
-occasional inosculations, been separately developed, the
-one partly in connexion with astronomy, the other solely by
-analyzing terrestrial movements, now join in the investigations
-of Newton to create a true theory of the celestial
-motions. And here, also, we have to notice the important
-fact that, in the very process of being brought jointly to
-bear upon astronomical problems, they are themselves
-raised to a higher phase of development. For it was in
-dealing with the questions raised by celestial dynamics
-that the then incipient infinitesimal calculus was unfolded
-by Newton and his continental successors; and it was
-from inquiries into the mechanics of the solar system that
-the general theorems of mechanics contained in
-the <span class="xxpn" id="p060">{60}</span>
-<i>Principia</i>—many of them of purely terrestrial application—took
-their rise. Thus, as in the case of Hipparchus,
-the presentation of a new order of concrete facts to be
-analyzed, led to the discovery of new abstract facts;
-and these abstract facts then became instruments of access
-to endless groups of concrete facts previously beyond
-quantitative treatment.</p>
-
-<p>Meanwhile, physics had been carrying further that
-progress without which, as just shown, rational mechanics
-could not be disentangled. In hydrostatics, Stevinus had
-extended and applied the discovery of Archimedes. Torricelli
-had proved atmospheric pressure, “by showing that
-this pressure sustained different liquids at heights inversely
-proportional to their densities;” and Pascal “established
-the necessary diminution of this pressure at increasing
-heights in the atmosphere”: discoveries which in part
-reduced this branch of science to a quantitative form.
-Something had been done by Daniel Bernouilli towards the
-dynamics of fluids. The thermometer had been invented;
-and sundry small gen­er­al­i­za­tions reached by it. Huyghens
-and Newton had made considerable progress in optics;
-Newton had approximately calculated the rate of transmission
-of sound; and the continental mathematicians had
-ascertained some of the laws of sonorous vibrations.
-Magnetism and electricity had been considerably advanced
-by Gilbert. Chemistry had got as far as the mutual
-neutralization of acids and alkalies. And Leonardo da
-Vinci had advanced in geology to the conclusion that the
-deposition of animal remains in marine strata is the origin
-of fossils. Our present purpose does not require that we
-should give particulars. Here it only concerns us to
-illustrate the <i>consensus</i> subsisting in this stage of growth,
-and afterwards. Let us look at a few cases.</p>
-
-<p>The theoretic law of the velocity of sound deduced by
-Newton from purely mechanical data, was found wrong by
-one-sixth. The error remained unaccounted for until
-the <span class="xxpn" id="p061">{61}</span>
-time of Laplace, who, suspecting that the heat disengaged
-by the compression of the undulating strata of the air,
-gave additional elasticity, and so produced the difference,
-made the needful calculations and found he was right.
-Thus acoustics was arrested until thermology overtook
-and aided it. When Boyle and Marriot had discovered
-the relation between the densities of gases and the
-pressures they are subject to; and when it thus became
-possible to calculate the rate of decreasing density in the
-upper parts of the atmosphere; it also became possible to
-make approximate tables of the atmospheric refraction of
-light. Thus optics, and with it astronomy, advanced with
-barology. After the discovery of atmospheric pressure
-had led to the invention of the air-pump by Otto Guericke;
-and after it had become known that evaporation increases
-in rapidity as atmospheric pressure decreases; it became
-possible for Leslie, by evaporation in a vacuum, to produce
-the greatest cold known; and so to extend our knowledge
-of thermology by showing that there is no zero within
-reach of our researches. When Fourier had determined
-the laws of conduction of heat, and when the Earth’s
-temperature had been found to increase below the surface
-one degree in every forty yards, there were data for
-inferring the past condition of our globe; the vast period
-it has taken to cool down to its present state; and the
-immense age of the solar system—a purely astronomical
-consideration. Chemistry having advanced sufficiently to
-supply the needful materials, and a physiological experiment
-having furnished the requisite hint, there came the discovery
-of galvanic electricity. Galvanism reacting on
-chemistry disclosed the metallic bases of the alkalies and
-earths, and inaugurated the electro-chemical theory; in
-the hands of Oersted and Ampère it led to the laws of
-magnetic action; and by its aid Faraday has detected
-significant facts relative to the constitution of light.
-Brewster’s discoveries respecting double refraction
-and <span class="xxpn" id="p062">{62}</span>
-dipolarization proved the essential truth of the clas­si­fi­ca­tion
-of crystalline forms according to the number of axes, by
-showing that the molecular constitution depends on the
-axes. Now in these and in numerous other cases, the
-mutual influence of the sciences has been quite independent
-of any supposed hierarchical order. Often, too, their
-inter-actions are more complex than as thus instanced—involve
-more sciences than two. One illustration of this
-must suffice. We quote it in full from the <i>History of the
-Inductive Sciences</i>. In Book XI., chap. II., on “The
-Progress of the Electrical Theory,” Dr. Whewell <span class="nowrap">writes:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Thus at that period, mathematics was behind experiment, and a problem
-was proposed, in which theoretical numerical results were wanted for
-comparison with observation, but could not be accurately obtained; as was
-the case in astronomy also, till the time of the approximate solution of the
-problem of three bodies, and the consequent formation of the tables of the
-moon and planets, on the theory of universal gravitation. After some time,
-electrical theory was relieved from this reproach, mainly in consequence of
-the progress which astronomy had occasioned in pure mathematics. About
-1801 there appeared in the <i>Bulletin des Sciences</i>, an exact solution of the
-problem of the distribution of electric fluid on a spheroid, obtained by Biot,
-by the application of the peculiar methods which Laplace had invented for
-the problem of the figure of the planets. And, in 1811, M. Poisson applied
-Laplace’s artifices to the case of two spheres acting upon one another in
-contact, a case to which many of Coulomb’s experiments were referrible;
-and the agreement of the results of theory and observation, thus extricated
-from Coulomb’s numbers obtained above forty years previously, was very
-striking and convincing.”</p></blockquote>
-
-<p>Not only do the sciences affect each other after this
-direct manner, but they affect each other indirectly.
-Where there is no dependence, there is yet analogy—<i>likeness
-of relations</i>; and the discovery of the relations
-subsisting among one set of phenomena, constantly suggests
-a search for similar relations among another set. Thus
-the established fact that the force of gravitation varies
-inversely as the square of the distance, being recognized as
-a necessary characteristic of all influences proceeding from
-a centre, raised the suspicion that heat and light follow the
-same law; which proved to be the case—a suspicion and
-a <span class="xxpn" id="p063">{63}</span>
-confirmation which were repeated in respect to the electric
-and magnetic forces. Thus, again, the discovery of the
-polarization of light led to experiments which ended in the
-discovery of the polarization of heat—a discovery that
-could never have been made without the antecedent one.
-Thus, too, the known refrangibility of light and heat
-lately produced the inquiry whether sound also is not
-refrangible; which on trial it turns out to be. In some
-cases, indeed, it is only by the aid of conceptions derived
-from one class of phenomena that hypotheses respecting
-other classes can be formed. The theory, at one time
-favoured, that evaporation is a solution of water in air,
-assumed that the relation between water and air is <i>like</i>
-the relation between water and a dissolved solid; and could
-never have been conceived if relations like that between
-salt and water had not been previously known. Similarly
-the received theory of evaporation—that it is a diffusion of
-the particles of the evaporating fluid in virtue of their
-atomic repulsion—could not have been entertained without
-a foregoing experience of magnetic and electric repulsions.
-So complete in recent days has become this <i>consensus</i> among
-the sciences, caused either by the natural entanglement of
-their phenomena, or by analogies between the relations of
-their phenomena, that scarcely any considerable discovery
-concerning one order of facts now takes place, without
-shortly leading to discoveries concerning other orders.</p>
-
-<p>To produce a complete conception of this process of
-scientific evolution it would be needful to go back to the
-beginning, and trace in detail the growth of clas­si­fi­ca­tions
-and nomenclatures; and to show how, as subsidiary to
-science, they have acted upon it while it has reacted upon
-them. We can only now remark that, on the one hand,
-clas­si­fi­ca­tions and nomenclatures have aided science by
-subdividing the subject-matter of research, and giving
-fixity and diffusion to the truths disclosed; and that on
-the other hand, they have caught from it that
-increasing <span class="xxpn" id="p064">{64}</span>
-quan­ti­ta­tive­ness, and that progress from considerations
-touching single phenomena to considerations touching
-the relations among many phenomena, which we have been
-describing. Of this last influence a few illustrations
-must be given. In chemistry it is seen in the facts
-that the dividing of matter into the four elements was
-ostensibly based on the single property of weight, that
-the first truly chemical division into acid and alkaline
-bodies, grouped together bodies which had not simply one
-property in common but in which one property was
-constantly related to many others, and that the clas­si­fi­ca­tion
-now current, places together in the groups <i>supporters of
-combustion</i>, <i>metallic and non-metallic bases</i>, <i>acids</i>, <i>salts</i>, &amp;c.,
-bodies which are often quite unlike in sensible qualities,
-but which are like in the majority of their <i>relations</i> to
-other bodies. In mineralogy again, the first clas­si­fi­ca­tions
-were based on differences in aspect, texture, and other
-physical attributes. Berzelius made two attempts at a
-clas­si­fi­ca­tion based solely on chemical constitution. That
-now current recognizes, as far as possible, the <i>relations</i>
-between physical and chemical characters. In botany the
-earliest classes formed were <i>trees</i>, <i>shrubs</i>, and <i>herbs</i>:
-magnitude being the basis of distinction. Dioscorides
-divided vegetables into <i>aromatic</i>, <i>alimentary</i>, <i>medicinal</i>,
-and <i>vinous</i>: a division of chemical character. Cæsalpinus
-classified them by the seeds and seed-vessels, which he
-preferred because of the <i>relations</i> found to subsist between
-the character of the fructification and the general character
-of the other parts. While the “natural system” since
-developed, carrying out the doctrine of Linnæus, that “the
-natural orders must be formed by attention not to one or
-two, but to <i>all</i> the parts of plants,” bases its divisions on
-like peculiarities which are found to be <i>constantly related</i>
-to the greatest number of other like peculiarities. And
-similarly in zoology, the successive clas­si­fi­ca­tions, from
-having been originally determined by external and
-often <span class="xxpn" id="p065">{65}</span>
-subordinate characters not indicative of the essential
-nature, have been more and more determined by those
-internal and fundamental differences, which have uniform
-<i>relations</i> to the greatest number of other differences. Nor
-shall we be surprised at this analogy between the modes
-of progress of positive science and clas­si­fi­ca­tion, when we
-bear in mind that both proceed by making gen­er­al­i­za­tions;
-that both enable us to make previsions, differing only in
-their precision; and that while the one deals with equal
-properties, magnitudes, and relations, the other deals with
-properties and relations which approximate towards equality
-in various degrees.</p>
-
-<p>Without further argument it will, we think, be admitted
-that the sciences are none of them separately evolved—are
-none of them independent either logically or historically;
-but that all of them have, in a greater or less degree,
-required aid and reciprocated it. Indeed, it needs but
-to throw aside hypotheses, and contemplate the mixed
-character of surrounding phenomena, to see at once that
-these notions of division and succession in the kinds of
-knowledge are simply scientific fictions: good, if regarded
-merely as aids to study; bad, if regarded as representing
-realities in Nature. No facts whatever are presented to
-our senses uncombined with other facts—no facts whatever
-but are in some degree disguised by accompanying facts:
-disguised in such a manner that all must be partially
-understood before any one can be understood. If it be
-said, as by M. Comte, that gravitating force should be
-treated of before other forces, seeing that all things are
-subject to it, it may on like grounds be said that heat
-should be first dealt with; seeing that thermal forces are
-everywhere in action. Nay more, it may be urged that
-the ability of any portion of matter to manifest visible
-gravitative phenomena depends on its state of aggregation,
-which is determined by heat; that only by the aid of
-thermology can we explain those apparent exceptions
-to <span class="xxpn" id="p066">{66}</span>
-the gravitating tendency which are presented by steam
-and smoke, and so establish its universality; and that,
-indeed, the very existence of the Solar System in a solid
-form is just as much a question of heat as it is one of
-gravitation. Take other cases:—All phenomena recognized
-by the eyes, through which only are the data of exact
-science ascertainable, are complicated with optical phenomena,
-and cannot be exhaustively known until optical
-principles are known. The burning of a candle cannot
-be explained without involving chemistry, mechanics,
-thermology. Every wind that blows is determined by
-influences partly solar, partly lunar, partly hygrometric;
-and implies considerations of fluid equilibrium and physical
-geography. The direction, dip, and variations of the
-magnetic needle, are facts half terrestrial, half celestial—are
-caused by earthly forces which have cycles of change
-corresponding with astronomical periods. The flowing of
-the gulf-stream and the annual migration of icebergs
-towards the equator, involve in their explanation the
-Earth’s rotation and spheroidal form, the laws of hydrostatics,
-the relative densities of cold and warm water,
-and the doctrines of evaporation. It is no doubt true, as
-M. Comte says, that “our position in the Solar System, and
-the motions, form, size, and equilibrium of the mass of our
-world among the planets, must be known before we can
-understand the phenomena going on at its surface.” But,
-fatally for his hypothesis, it is also true that we must
-understand a great part of the phenomena going on at
-its surface before we can know its position, &amp;c., in the
-Solar System. It is not simply that, as already shown,
-those geometrical and mechanical principles by which
-celestial appearances are explained, were first generalized
-from terrestrial experiences; but it is that even the obtainment
-of correct data on which to base astronomical gen­er­al­i­za­tions,
-implies advanced terrestrial physics. Until after
-optics had made considerable advance, the
-Copernican <span class="xxpn" id="p067">{67}</span>
-system remained but a speculation. A single modern
-observation on a star has to undergo a careful analysis
-by the combined aid of various sciences—has to <i>be digested
-by the organism of the sciences</i>; which have severally to
-assimilate their respective parts of the observation, before
-the essential fact it contains is available for the further
-development of astronomy. It has to be corrected not only
-for nutation of the Earth’s axis and for precession of the
-equinoxes, but for aberration and for refraction; and the
-formation of the tables by which refraction is calculated,
-presupposes knowledge of the law of decreasing density in
-the upper atmospheric strata, of the law of decreasing
-temperature and the influence of this on the density, and
-of hygrometric laws as also affecting density. So that, to
-get materials for further advance, astronomy requires not
-only the indirect aid of the sciences which have presided
-over the making of its improved instruments, but the
-direct aid of an advanced optics, of barology, of thermology,
-of hygrometry; and if we remember that these delicate
-observations are in some cases registered electrically, and
-that they are further corrected for the “personal equation”—the
-time elapsing between seeing and registering, which
-differs with different observers—we may even add electricity
-and psychology. And here, before leaving these
-illustrations, and especially this last one, let us not omit
-to notice how well they exhibit that increasingly active
-<i>consensus</i> of the sciences which characterizes their
-advancing development. Besides finding that in these
-later times a discovery in one science commonly causes
-progress in others; besides finding that a great part of
-the questions with which modern science deals are so mixed
-as to require the co-operation of many sciences for their
-solution; we find that, to make a single good observation
-in the purest of the natural sciences, requires the combined
-aid of half a dozen other sciences.</p>
-
-<p>Perhaps the clearest comprehension of the
-interconnected <span class="xxpn" id="p068">{68}</span>
-growth of the sciences may be obtained by contemplating
-that of the arts, to which it is strictly analogous, and with
-which it is bound up. Most intelligent persons must have
-been occasionally struck with the numerous antecedents
-pre-supposed by one of our processes of manufacture. Let
-him trace the production of a printed cotton, and consider
-all that is implied by it. There are the many successive
-improvements through which the power-looms reached their
-present perfection; there is the steam-engine that drives
-them, having its long history from Papin downwards; there
-are the lathes in which its cylinder was bored, and the string
-of ancestral lathes from which those lathes proceeded;
-there is the steam-hammer under which its crank shaft was
-welded; there are the puddling furnaces, the blast-furnaces,
-the coal-mines and the iron-mines needful for producing the
-raw material; there are the slowly improved appliances by
-which the factory was built, and lighted, and ventilated;
-there are the printing engine, and the dye-house, and the
-colour-laboratory with its stock of materials from all parts
-of the world, implying cochineal-culture, logwood-cutting,
-indigo-growing; there are the implements used by the
-producers of cotton, the gins by which it is cleaned, the
-elaborate machines by which it is spun; there are the
-vessels in which cotton is imported, with the building-slips,
-the rope-yards, the sail-cloth factories, the anchor-forges,
-needful for making them; and besides all these directly
-necessary antecedents, each of them involving many others,
-there are the institutions which have developed the requisite
-intelligence, the printing and publishing arrangements
-which have spread the necessary information, the social
-organization which has rendered possible such a complex
-co-operation of agencies. Further analysis would show that
-the many arts thus concerned in the economical production
-of a child’s frock, have each been brought to its present
-efficiency by slow steps which the other arts have aided;
-and that from the beginning this reciprocity has been
-on <span class="xxpn" id="p069">{69}</span>
-the increase. It needs but on the one hand to consider how
-impossible it is for the savage, even with ore and coal ready,
-to produce so simple a thing as an iron hatchet; and then
-to consider, on the other hand, that it would have been
-impracticable among ourselves, even a century ago, to raise
-the tubes of the Britannia bridge from lack of the hydraulic
-press; to see how mutually dependent are the arts, and how
-all must advance that each may advance. Well, the sciences
-are involved with each other in just the same manner.
-They are, in fact, inextricably woven into this same complex
-web of the arts; and are only conventionally independent
-of it. Originally the two were one. How to fix the religious
-festivals; when to sow; how to weigh commodities; and in
-what manner to measure ground; were the purely practical
-questions out of which arose astronomy, mechanics, geometry.
-Since then there has been a perpetual inosculation of the
-sciences and the arts. Science has been supplying art
-with truer gen­er­al­i­za­tions and more completely quantitative
-previsions. Art has been supplying science with better
-materials, and more perfect instruments. And all along the
-interdependence has been growing closer, not only between
-art and science, but among the arts themselves, and among
-the sciences themselves. How completely the analogy holds
-throughout, becomes yet clearer when we recognize the fact
-that <i>the sciences are arts to one another</i>. If, as occurs in
-almost every case, the fact to be analyzed by any science,
-has first to be prepared—to be disentangled from disturbing
-facts by the afore discovered methods of other sciences; the
-other sciences so used, stand in the position of arts. If, in
-solving a dynamical problem, a parallelogram is drawn, of
-which the sides and diagonal represent forces, and by
-putting magnitudes of extension for magnitudes of force a
-measurable relation is established between quantities not
-else to be dealt with; it may be fairly said that geometry
-plays towards mechanics much the same part that the fire
-of the founder plays towards the metal he is going to
-cast. <span class="xxpn" id="p070">{70}</span>
-If, in analyzing the phenomena of the coloured rings
-surrounding the point of contact between two lenses, a
-Newton ascertains by calculation the amount of certain
-interposed spaces, far too minute for actual measurement;
-he employs the science of number for essentially the same
-purpose as that for which the watchmaker employs tools.
-If, before calculating the orbit of a comet from its observed
-position, the astronomer has to separate all the errors of
-observation, it is manifest that the refraction-tables, and
-logarithm-books, and formulæ, which he successively uses,
-serve him much as retorts, and filters, and cupels serve the
-assayer who wishes to separate the pure gold from all accompanying
-ingredients. So close, indeed, is the relationship,
-that it is impossible to say where science begins and art ends.
-All the instruments of the natural philosopher are the
-products of art; the adjusting one of them for use is an art;
-there is art in making an observation with one of them; it
-requires art properly to treat the facts ascertained; nay,
-even the employing established gen­er­al­i­za­tions to open the
-way to new gen­er­al­i­za­tions, may be considered as art. In
-each of these cases previously organized knowledge becomes
-the implement by which new knowledge is got at: and
-whether that previously organized knowledge is embodied
-in a tangible apparatus or in a formula, matters not in so
-far as its essential relation to the new knowledge is concerned.
-If art is applied knowledge, then such portion of a scientific
-investigation as consists of applied knowledge is art.
-Hence we may even say that as soon as any prevision in
-science passes out of its originally passive state, and is
-employed for reaching other previsions, it passes from
-theory into practice—becomes science in action—becomes
-art. And after contemplating these facts, we shall the more
-clearly perceive that as the connexion of the arts with each
-other has been becoming more intimate; as the help given
-by sciences to arts and by arts to sciences, has been age
-by age increasing; so the interdependence of the
-sciences <span class="xxpn" id="p071">{71}</span>
-themselves has been ever growing greater, their relations
-more involved, their <i>consensus</i> more active.</p>
-
-<p class="section">In here ending our sketch
-of the Genesis of Science, we
-are conscious of having done the subject but scant justice.
-Two difficulties have stood in our way: one, the having to touch
-on so many points in such small space; the other, the necessity
-of treating in serial arrangement a process which is not serial.
-Nevertheless, we believe the evidence assigned suffices to
-substantiate the leading propositions with which we set
-out. Inquiry into the first stages of science confirms the
-conclusion drawn from analysis of science as now existing,
-that it is not distinct from common knowledge, but an
-outgrowth from it—an extension of perception by means
-of reason. That more specific characteristic of scientific
-previsions, which was analytically shown to distinguish
-them from the previsions of uncultured intelligence—their
-quan­ti­ta­tive­ness—we also see to have been the characteristic
-alike of the initial steps in science, and of all the steps
-succeeding them. The facts and admissions cited in
-disproof of the assertion that the sciences follow one
-another, both logically and historically, in the order of
-their decreasing generality, have been enforced by the
-instances we have met with, showing that a more general
-science as much owes its progress to the presentation of
-new problems by a more special science, as the more
-special science owes its progress to the solutions which the
-more general science is thus led to attempt—instances,
-therefore, illustrating the position that scientific advance
-is as much from the special to the general as from the
-general to the special. Quite in harmony with this
-position we find to be the admissions that the sciences are
-as branches of one trunk, and that they were at first
-cultivated simultaneously. This harmony becomes the
-more marked on finding, as we have done, not only that
-the sciences have a common root, but that science
-in <span class="xxpn" id="p072">{72}</span>
-general has a common root with language, clas­si­fi­ca­tion,
-reasoning, art; that throughout civilization these have
-advanced together, acting and reacting upon each other
-just as the separate sciences have done; and that thus the
-development of intelligence in all its divisions and sub-divisions
-has conformed to this same law which we have
-shown that the sciences conform to. From all which we
-may perceive that the sciences can with no greater propriety
-be arranged in a succession, than language, clas­si­fi­ca­tion,
-reasoning, art, and science, can be arranged in a succession;
-that, however needful a succession may be for the convenience
-of books and catalogues, it must be recognized as
-merely a convention; and that so far from its being the
-function of a philosophy of the sciences to establish a
-hierarchy, it is its function to show that the linear arrangements
-required for literary purposes, have none of them
-any basis either in Nature or History.</p>
-
-<p>There is one further remark we must not omit—a remark
-touching the importance of the question that has been discussed.
-Topics of this abstract nature are commonly
-slighted as of no practical moment; and, doubtless, many
-will think it of little consequence what theory respecting
-the genesis of science may be entertained. But the value
-of truths is often great, in proportion as their generality is
-wide. And it must be so here. A correct theory of the
-development of the sciences must have an important effect
-on education; and, through education, on civilization.
-Much as we differ from him in other respects, we agree
-with M. Comte in the belief that, rightly conducted, the
-education of the individual must have a certain correspondence
-with the evolution of the race. No one can contemplate
-the facts we have cited in illustration of the early
-stages of science, without recognizing the <i>necessity</i> of the
-processes through which those stages were reached—a
-necessity which, in respect to the leading truths, may
-likewise be traced in all after stages. This
-necessity, <span class="xxpn" id="p073">{73}</span>
-originating in the very nature of the phenomena to be
-analyzed and the faculties to be employed, partially applies
-to the mind of the child as to that of the savage. We say
-partially, because the correspondence is not special but
-general only. Were the <i>environment</i> the same in both
-cases, the correspondence would be complete. But though
-the surrounding material out of which science is to be
-organized, is, in many cases, the same to the juvenile mind
-and the aboriginal mind, it is not so throughout; as, for
-instance, in the case of chemistry, the phenomena of which
-are accessible to the one but were inaccessible to the other.
-Hence, in proportion as the environment differs, the course
-of evolution must differ. After admitting exceptions,
-however, there remains a substantial parallelism; and, if
-so, it is of moment to ascertain what really has been the
-process of scientific evolution. The establishment of an
-erroneous theory must be disastrous in its educational
-results; while the establishment of a true one must be
-fertile in school-reforms and consequent social
-benefits.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTE TO <i>THE GENESIS OF SCIENCE</i>.</h3>
-
-<div class="dfootnote">
-<p><a class="afnlabel" href="#fnanch1" id="fn1">1</a>
-It is curious that the author of “The Plurality of Worlds,” with quite
-other aims, should have persuaded himself into similar
-conclusions.</p></div></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p074">THE
- CLASSIFICATION OF THE SCIENCES.</h2>
-
-<p class="pchappre">[<i>First published
-as a brochure in April 1864. The preface to the
-second edition, published in April 1869, I reproduce because of
-certain facts contained in it which are not without interest.</i>]</p>
-</div>
-
-<p>The first edition of this Essay is not yet out of print.
-But a proposal to translate it into French having been
-made by Professor Réthoré, I have decided to prepare a
-new edition free from the imperfections which criticism and
-further thought have disclosed, rather than allow these
-imperfections to be reproduced.</p>
-
-<p>The occasion has almost tempted me into some amplification.
-Further arguments against the clas­si­fi­ca­tion of
-M. Comte, and further arguments in support of the
-clas­si­fi­ca­tion here set forth, have pleaded for utterance.
-But reconsideration has convinced me that it is both
-needless and useless to say more—needless because those
-who are not committed will think the case sufficiently
-strong as it stands; and useless because to those who are
-committed, additional reasons will seem as inadequate as the
-original ones. [In the preface to the third edition, however,
-a reason is given for a change of decision on this point at
-that time made (February 1871): the reason being “the publication
-of several objections by Prof. Bain in his Logic.”]</p>
-
-<p>This last conclusion is thrust on me by seeing how little
-M. Littré, the leading expositor of M. Comte, is influenced
-by fundamental objections the force of which he admits.
-After quoting one of these, he says, with a candour
-equally <span class="xxpn" id="p075">{75}</span>
-rare and admirable, that he has vainly searched M. Comte’s
-works and his own mind for an answer. Nevertheless, he
-adds—“j’ai réussi, je crois, à écarter l’attaque de M. Herbert
-Spencer, et à sauver le fond par des sacrifices indispensables
-mais accessoires.” The sacrifices are these. He abandons
-M. Comte’s division of Inorganic Science into Celestial
-Physics and Terrestrial Physics—a division which, in
-M. Comte’s scheme, takes precedence of all the rest; and he
-admits that neither logically nor historically does Astronomy
-come before Physics, as M. Comte alleges. After making
-these sacrifices, which most will think too lightly described
-as “sacrifices indispensables mais accessoires,” M. Littré
-proceeds to rehabilitate the Comtean clas­si­fi­ca­tion in a way
-which he considers satisfactory, but which I do not understand.
-In short, the proof of these incongruities affects his
-faith in the Positivist theory of the sciences, no more than
-the faith of a Christian is affected by proof that the Gospels
-contradict one another.</p>
-
-<p>Here in England I have seen no attempt to meet the
-criticisms with which M. Littré thus deals. There has been
-no reply to the allegation, based on examples, that the
-several sciences do not develop in the order of their
-decreasing generality; nor to the allegation, based on
-M. Comte’s own admissions, that within each science the
-progress is not, as he says it is, from the general to the
-special; nor to the allegation that the seeming historical
-precedence of Astronomy over Physics in M. Comte’s pages,
-is based on a verbal ambiguity—a mere sleight of words;
-nor to the allegation, abundantly illustrated, that a progression
-in an order the reverse of that asserted by
-M. Comte may be as well substantiated; nor to various
-minor allegations equally irreconcileable with his scheme.
-I have met with nothing more than iteration of the statement
-that the sciences <i>do</i> conform, logically and historically,
-to the order in which M. Comte places them; regardless of
-the assigned evidence that they <i>do not</i>.</p>
-
-<p>Under these circumstances it is unnecessary for me
-to <span class="xxpn" id="p076">{76}</span>
-say more; and I think I am warranted in continuing to hold
-that the Comtean clas­si­fi­ca­tion of the sciences is demonstrably
-untenable.</p>
-
-<hr class="hr33" />
-
-<p>In an essay on “The Genesis of Science,” originally
-published in 1854, I endeavoured to show that the Sciences
-cannot be rationally arranged in serial order. Proof was
-given that neither the succession in which the Sciences are
-placed by M. Comte (to a criticism of whose scheme the
-essay was in part devoted), nor any other succession in
-which the Sciences can be placed, represents either their
-logical dependence or their historical dependence. To the
-question—How may their relations be rightly expressed? I
-did not then attempt any answer. This question I propose
-now to consider.</p>
-
-<p>A true clas­si­fi­ca­tion includes in each class, those objects
-which have more char­ac­ter­is­tics in common with one
-another, than any of them have in common with any objects
-excluded from the class. Further, the char­ac­ter­is­tics
-possessed in common by the colligated objects, and not
-possessed by other objects, involve more numerous dependent
-char­ac­ter­is­tics. These are two sides of the same definition.
-For things possessing the greatest number of attributes in
-common, are things that possess in common those essential
-attributes on which the rest depend; and, conversely, the
-possession in common of the essential attributes, implies
-the possession in common of the greatest number of
-attributes. Hence, either test may be used as convenience
-dictates.</p>
-
-<p>If, then, the Sciences admit of clas­si­fi­ca­tion at all, it must
-be by grouping together the like and separating the unlike,
-as thus defined. Let us proceed to do this.</p>
-
-<p class="section">The broadest natural division among the Sciences, is the
-division between those which deal with the abstract
-relations <span class="xxpn" id="p077">{77}</span>
-under which phenomena are presented to us, and those
-which deal with the phenomena themselves. Relations of
-whatever orders, are nearer akin to one another than they
-are to any objects. Objects of whatever orders, are nearer
-akin to one another than they are to any relations. Whether,
-as some hold, Space and Time are nothing but forms of
-Thought<a class="afnanch" href="#fn2" id="fnanch2">2</a>;
-or whether, as I hold myself, they are forms of
-Things, that have generated forms of Thought through
-organized and inherited experience of Things; it is equally
-true that Space and Time are contrasted absolutely with the
-existences disclosed to us in Space and Time; and hence
-the Sciences which deal exclusively with Space and Time,
-are separated by the profoundest of all distinctions from
-the Sciences which deal with the existences contained in
-Space and Time. Space is the abstract of all relations of
-co-existence. Time is the abstract of all relations of
-sequence. And dealing as they do entirely with relations
-of co-existence and sequence, in their general or special
-forms, Logic and Mathematics form a class of the Sciences
-more widely unlike the rest, than any of the rest are from
-one another.</p>
-
-<p>The Sciences which deal with existences themselves,
-instead of the blank forms in which existences are presented
-to us, admit of a sub-division less profound than the
-division above made, but more profound than any of the
-divisions among the Sciences individually considered.
-They <span class="xxpn" id="p078">{78}</span>
-fall into two classes, having quite different aspects, aims, and
-methods. Every phenomenon is more or less composite—is
-a manifestation of force under several distinct modes.
-Hence result two objects of inquiry. We may study the
-component modes of force separately; or we may study
-them as co-operating to generate in this composite phenomenon.
-On the one hand, neglecting all the incidents
-of particular cases, we may aim to educe the laws of each
-mode of force, when it is uninterfered with. On the other
-hand, the incidents of the particular case being given, we
-may seek to interpret the entire phenomenon, as a product
-of the several forces simultaneously in action. The truths
-reached through the first kind of inquiry, though concrete
-inasmuch as they have actual existences for their subject-matters,
-are abstract inasmuch as they refer to the modes
-of existence apart from one another; while the truths
-reached by the second kind of inquiry are properly concrete,
-inasmuch as they formulate the facts in their combined
-order, as they occur in Nature.</p>
-
-<p>The Sciences, then, in their main divisions, stand
-thus:―</p>
-
-<ul class="padtopc">
-<li>SCIENCE is
-<ul class="ulin1">
-<li>that which treats of the forms in which phenomona are known to us:
-<span class="nowrap">
-<span class="smcap">A<b>BSTRACT</b></span> <span
-class="smcap">S<b>CIENCE</b></span></span>
-<span class="nowrap">
- (Logic and Mathematics)</span></li>
-
-<li>that which treats of the phenomena themselves:
-<ul class="ulin1">
-<li>in their elements:
-<span class="nowrap">
-<span class="smcap">A<b>BSTRACT</b>-C<b>ONCRETE</b></span> <span
-class="smcap">S<b>CIENCE</b></span></span>
-<span class="nowrap">
-(Mechanics, Physics, Chemistry, etc.)</span></li>
-<li>in their totalities:
-<span class="nowrap">
-<span class="smcap">C<b>ONCRETE</b></span> <span
-class="smcap">S<b>CIENCE</b></span></span>
-(Astronomy, Geology, Biology,
-Psychology, Sociology, etc.)</li>
-</ul></li>
-</ul></li>
-</ul>
-
-<p class="padtopc">It
-is needful to define the words <i>abstract</i> and <i>concrete</i> as
-thus used; since they are sometimes used with
-other <span class="xxpn" id="p079">{79}</span>
-meanings. M. Comte divides Science into abstract and
-concrete; but the divisions which he distinguishes by these
-names are quite unlike those above made. Instead of
-regarding some Sciences as wholly abstract, and others as
-wholly concrete, he regards each Science as having an
-abstract part, and a concrete part. There is, according to
-him, an abstract mathematics and a concrete mathematics—an
-abstract biology and concrete biology. He says:—“Il
-faut distinguer, par rapport à tous les ordres de phénomènes,
-deux genres de sciences naturelles: les unes
-abstraites, générales, ont pour objet la découverte des lois
-qui régissent les diverses classes de phénomènes, en considérant
-tous les cas qu’on peut concevoir; les autres
-concrètes, particulières, descriptives, et qu’on désigne quelquefois
-sous le nom de sciences naturelles proprement
-dites, consistent dans l’application de ces lois a l’histoire
-effective des différens êtres existans.” And to illustrate the
-distinction, he names general physiology as abstract, and
-zoology and botany as concrete. Here it is manifest that
-the words <i>abstract</i> and <i>general</i> are used as synonymous.
-They have, however, different meanings; and confusion
-results from not distinguishing their meanings. Abstractness
-means <i>detachment from</i> the incidents of particular cases.
-Generality means <i>manifestation in</i> numerous cases. On the
-one hand, the essential nature of some phenomenon is considered,
-apart from disguising phenomena. On the other
-hand, the frequency of the phenomenon, with or without
-disguising phenomena, is the thing considered. Among
-the phenomena presented by numbers, which are purely
-ideal, the two coincide; but excluding these, an abstract
-truth is not realizable to perception in any case of which it
-is asserted, whereas a general truth is realizable to perception
-in every case of which it is asserted. Some illustrations
-will make the distinction clear. Thus it is an abstract truth
-that the angle contained in a semi-circle is a right angle—abstract
-in the sense that though it does not hold of <span class="xxpn" id="p080">{80}</span>
-act­u­al­ly-con­struct­ed
-semi-circles and angles, which are always inexact,
-it holds of the ideal semi-circles and angles abstracted
-from real ones; but this is not a general truth, either in the
-sense that it is commonly manifested in Nature, or in the
-sense that it is a space-relation that comprehends many minor
-space-relations: it is a quite special space-relation. Again,
-that the momentum of a body causes it to move in a
-straight line at a uniform velocity, is an ab­stract-con­crete
-truth—a truth abstracted from certain experiences of concrete
-phenomena; but it is by no means a general truth:
-so little generality has it, that no one fact in Nature
-displays it. Conversely, surrounding things supply us
-with hosts of general truths that are not in the least
-abstract. It is a general truth that the planets go round
-the Sun from West to East—a truth which holds good in
-several hundred cases (including the cases of the planetoids);
-but this truth is not at all abstract, since it is
-perfectly realized as a concrete fact in every one of these
-cases. Every vertebrate animal whatever, has a double
-nervous system; all birds and all mammals are warm-blooded—these
-are general truths, but they are concrete
-truths: that is to say, every vertebrate animal individually
-presents an entire and unqualified manifestation of this
-duality of the nervous system; every living bird exemplifies
-absolutely or completely the warm-bloodedness
-of birds. What we here call, and rightly call, a general
-truth, is simply a proposition which <i>sums up</i> a number of
-our actual experiences; and not the expression of a truth
-<i>drawn from</i> our actual experiences, but never presented to
-us in any of them. In other words, a general truth
-colligates a number of particular truths; while an abstract
-truth colligates no particular truths, but formulates a
-truth which certain phenomena all involve, though it is
-actually seen in none of them.</p>
-
-<p>Limiting the words to their proper meanings as thus
-defined, it becomes manifest that the three classes
-of <span class="xxpn" id="p081">{81}</span>
-Sciences above separated, are not dis­tin­guish­able at all by
-differences in their degrees of generality. They are all
-equally general; or rather they are all, considered as
-groups, universal. Every object whatever presents at once
-the subject-matter for each of them. In every fragment of
-substance we have simultaneously illustrated the abstract
-truths of relation in Time and Space; the ab­stract-con­crete
-truths in conformity with which the fragment manifests its
-several modes of force; and the concrete truths resulting
-from the joint manifestation of these modes of force, and
-which give to the fragment the characters by which it is
-known as such or such. Thus these three classes of
-Sciences severally formulate different, but co-extensive,
-classes of facts. Within each group there are truths of
-greater and less generality: there are general abstract
-truths, and special abstract truths; general ab­stract-con­crete
-truths, and special ab­stract-con­crete truths; general
-concrete truths, and special concrete truths. But while
-within each class there are groups and sub-groups and sub-sub-groups
-which differ in their degrees of generality,
-the classes themselves differ only in their degrees of
-abstractness.<a class="afnanch" href="#fn3" id="fnanch3">3</a></p>
-
-<p class="section">Let us pass to the sub-divisions of these classes. The
-first class is separable into two parts—the one containing
-universal truths, the other non-universal truths.
-Dealing <span class="xxpn" id="p082">{82}</span>
-wholly with relations apart from related things, Abstract
-Science considers first, that which is common to all relations
-whatever; and, second, that which is common to each order
-of relations. Besides the indefinite and variable connexions
-which exist among phenomena, as occurring together in
-Space and Time, we find that there are also definite and
-invariable connexions—that between each kind of phenomenon
-and certain other kinds of phenomena, there exist
-uniform relations. This is a universal abstract truth—that
-there is an unchanging order, or fixity of law, in Space and
-Time. We come next to the several kinds of unchanging
-order, which, taken together, form the subjects
-of the <span class="xxpn" id="p083">{83}</span>
-second division of Abstract Science. Of this second division,
-the most general sub-division is that which deals with
-the natures of the connexions in Space and Time, irrespective
-of the terms connected. The conditions under which
-we may predicate a relation of coincidence or proximity in
-Space and Time (or of non-coincidence or non-proximity)
-from the subject-matter of Logic. Here the natures and
-amounts of the terms between which the relations
-are <span class="xxpn" id="p084">{84}</span>
-asserted (or denied) are of no moment: the propositions of
-Logic are independent of any qualitative or quantitative
-specification of the related things. The other sub-division
-has for its subject-matter, the relations between terms
-which are specified quantitatively but not qualitatively.
-The amounts of the related terms, irrespective of their
-natures, are here dealt with; and Mathematics is a statement
-of the laws of quantity considered apart from reality.
-Quantity considered apart from reality, is occupancy of
-Space or Time; and occupancy of Space or Time is
-measured by units of one or other order, but of which the
-ultimate ones are simply separate places in con­scious­ness,
-either coexistent or sequent. Among units that are unspecified
-in their natures (extensive, protensive, or intensive),
-but are ideally endowed with existence considered apart
-from attributes, the quantitative relations that arise, are
-those most general relations expressed by numbers. Such
-relations fall into either of two orders, according as the
-units are considered simply as capable of filling separate
-places in con­scious­ness, or according as they are considered
-as filling places that are not only separate, but equal. In
-the one case, we have that indefinite calculus by which
-numbers of abstract existences, but not sums of abstract
-existence, are predicable. In the other case, we have that
-definite calculus by which both numbers of abstract existences
-and sums of abstract existence are predicable. Next
-comes that division of Mathematics which deals with the
-quantitative relations of magnitudes (or aggregates of units)
-considered as coexistent, or as occupying Space—the division
-called Geometry. And then we arrive at relations,
-the terms of which include both quantities of Time and
-quantities of Space—those in which times are estimated by
-the units of space traversed at a uniform velocity, and those
-in which equal units of time being given, the spaces
-traversed with uniform or variable velocities are estimated. <span class="xxpn" id="p085">{85}</span>
-These Abstract Sciences, which are concerned exclusively
-with relations and with the relations of relations, may be
-grouped as shown in Table I.</p>
-
-<ul class="pkeeptogether padtopc"><li>
-<h3>TABLE I.</h3>
-<ul>
- <li>ABSTRACT SCIENCE.
-<ul class="ulin1">
- <li>Universal law of relation—an expression of the truth that
- uniformities of connexion obtain among modes of Being,
- irrespective of any specification of the natures of the
- uniformities of connexion.</li>
- <li>Laws of relations
-<ul class="ulin1">
- <li>that are qualitative; or that are specified in their
- natures as relations of coincidence or proximity in
- Time and Space, but not necessarily in their terms the
- natures and amount of which are indifferent. (<span
- class="smcap">L<b>OGIC.</b></span>)<a class="afnanch"
- href="#fn4" id="fnanch4">4</a></li>
- <li>that are quantitative (<span
- class="smcap">M<b>ATHEMATICS</b></span>)
-<ul class="ulin1">
- <li>negatively: the terms of the relations being
- def­i­nite­ly-re­lat­ed sets of positions in space; and the
- facts predicated being the absences of certain quantities.
- (<i>Geometry of Position.</i><a class="afnanch" href="#fn5"
- id="fnanch5">5</a>)</li>
- <li>positively: the terms being magnitudes composed of
-<ul class="ulin1">
- <li>units that are equal only as having independent existences.
- (<i>Indefinite Calculus.</i><a class="afnanch" href="#fn6"
- id="fnanch6">6</a>)</li>
- <li>equal units
-<ul class="ulin1">
- <li>the equality of which is not defined as extensive,
- protensive, or intensive (<i>Definite Calculus</i>)
-<ul class="ulin1">
- <li>when their numbers are completely specified (<i>Arithmetic.</i>)</li>
- <li>when their numbers are specified only
-<ul class="ulin1">
- <li>in their relations (<i>Algebra.</i>)</li>
- <li>in the relations of their relations. (<i>Calculus of</i>
-<i>Operations.</i>)
-</li></ul></li>
-</ul></li>
- <li>the equality of which is that of extension
-<ul class="ulin1">
- <li>considered in their relations of coexistence. (<i>Geometry.</i>)</li>
- <li>considered as traversed in Time
-<ul class="ulin1">
- <li>that is wholly indefinite. (<i>Kinematics.</i>)</li>
- <li>that is divided into equal units (<i>Geometry of Motion.</i><a
- class="afnanch" href="#fn7" id="fnanch7">7</a>)
-</li></ul></li></ul></li></ul></li></ul></li></ul></li>
-</ul></li></ul></li></ul></li></ul>
-
-<p class="section">Passing from the Sciences concerned with the ideal or
-unoccupied forms of relations, and turning to the Sciences
-concerned with real relations, or the relations among realities,
-we come first to those Sciences which treat of realities,
-not as they are habitually manifested, but with realities as
-manifested in their different modes, when these are artificially
-separated from one another. While the Abstract
-Sciences are wholly ideal, relatively to the Ab­stract-Con­crete
-and Concrete Sciences; the Ab­stract-Con­crete
-Sciences are partially ideal, relatively to the Concrete
-Sciences. Just as Logic and Mathematics generalize the
-laws of relation, qualitative and quantitative, apart from
-related things; so, Mechanics, Physics, Chemistry generalize
-the laws of relation which different modes of Matter and
-Motion conform to, when severally disentangled from those
-actual phenomena in which they are mutually modified.
-Just as the geometrician formulates the properties of lines
-and surfaces, independently of the irregularities and thicknesses
-of lines and surfaces as they really exist; so the
-physicist and the chemist formulate the manifestations of
-each mode of force, independently of the disturbances in
-its manifestations which other modes of force cause in every
-actual case. In works on Mechanics, the laws of motion
-are expressed without reference to friction and resistance
-of the medium. Not what motion ever really is, but what
-it would be if retarding forces were absent, is asserted. If
-afterwards any retarding force is taken into account, then
-the effect of this retarding force is dealt with by itself:
-neglecting the other retarding forces. Consider, again,
-the gen­er­al­i­za­tions of the physicist respecting molecular
-motion. The law that light varies inversely as the square
-of the distance, is absolutely true only when the
-radiation <span class="xxpn" id="p086">{86}</span>
-goes on from a point without dimensions, which it never
-does; and it also assumes that the rays are perfectly
-straight, which they cannot be unless the medium differs
-from all actual media in being perfectly homogeneous. If
-the disturbing effects of changes of media are investigated,
-the formulæ expressing the refractions take for granted
-that the new media entered are homogeneous; which they
-never really are. Even when a compound disturbance is
-allowed for, as when the refraction undergone by light in
-traversing a medium of increasing density, like the atmosphere,
-is calculated, the calculation still supposes conditions
-that are unnaturally simple—it supposes that the
-atmosphere is not pervaded by heterogeneous currents,
-which it always is. Similarly with the inquiries of the
-chemist. He does not take his substances as Nature supplies
-them. Before he proceeds to specify their respective
-properties, he purifies them—separates from each all trace
-of every other. Before ascertaining the specific gravity of
-a gas, he has to free this gas from the vapour of water,
-usually mixed with it. Before describing the properties of
-a salt, he guards against any error that may arise from the
-presence of an uncombined portion of the acid or base.
-And when he alleges of any element that it has a certain
-atomic weight, and unites with such and such equivalents
-of other elements, he does not mean that the results thus
-expressed are exactly the results of any one experiment;
-but that they are the results which, after averaging many
-trials, he concludes would be realized if absolute purity
-could be obtained, and if the experiments could be conducted
-without loss. His problem is to ascertain the laws
-of combination of molecules, not as they are actually displayed,
-but as they would be displayed in the absence of
-those minute interferences which cannot be altogether
-avoided. Thus all Ab­stract-Con­crete Sciences have for
-their object, <i>analytical interpretation</i>. In every case it is
-the aim to decompose the phenomenon, and formulate
-its <span class="xxpn" id="p087">{87}</span>
-components apart from one another; or some two or three
-apart from the rest. Wherever, throughout these Sciences,
-synthesis is employed, it is for the verification of analysis.<a class="afnanch" href="#fn8" id="fnanch8">8</a>
-The truths elaborated are severally asserted, not as truths
-exhibited by this or that particular object; but as truths
-universally holding of Matter and Motion in their more
-general or more special forms, considered apart from particular
-objects, and particular places in space.</p>
-
-<p>The sub-divisions of this group of Sciences, may be
-drawn on the same principle as that on which the sub-divisions
-of the preceding group were drawn. Phenomena,
-considered as more or less involved manifestations of force,
-yield on analysis, certain laws of manifestation which are
-universal, and other laws of manifestation, which, being
-dependent on conditions, are not universal. Hence the
-Ab­stract-Con­crete Sciences are primarily divisible into—the
-laws of force considered apart from its separate modes,
-and laws of force considered under each of its separate
-modes. And this second division of the Ab­stract-Con­crete
-group, is sub-divisible after a manner essentially analogous.
-It is needless to occupy space by defining these
-several <span class="xxpn" id="p088">{88}</span>
-orders and genera of Sciences. Table II. will sufficiently
-explain their relations.</p>
-
-<ul class="pkeeptogether padtopc"><li>
-<h3>TABLE II.</h3>
-<ul>
- <li>ABSTRACT-CONCRETE SCIENCE.
-<ul class="ulin1">
- <li>Universal laws of forces (tensions and pressures), as
- deducible from the persistence of force: the theorems of
- resolution and composition of forces.</li>
- <li>Laws of forces as manifested by matter
-<ul class="ulin1">
- <li>in masses (<span class="smcap">M<b>ECHANICS</b></span>)
-<ul class="ulin1">
- <li>that are in equilibrium relatively to other masses
-<ul class="ulin1">
- <li>and are solid. (<i>Statics.</i>)</li>
- <li>and are fluid. (<i>Hydrostatics.</i>)
-</li></ul></li>
- <li>that are not in equilibrium relatively to other masses
-<ul class="ulin1">
- <li>and are solid. (<i>Dynamics.</i>)</li>
- <li>and are fluid. (<i>Hydrodynamics.</i>)
-</li></ul></li></ul></li>
- <li>in molecules <span class="smcap">(M<b>OLECULAR</b></span> <span
- class="smcap">M<b>ECHANICS</b></span>)
-<ul class="ulin1">
- <li>when in equilibrium: (<i>Molecular Statics</i>)
-<ul class="ulin1">
- <li>giving statical properties of matter
-<ul class="ulin1">
- <li>general, as impenetrability or space-occupancy.</li>
- <li>special, as the forms resulting from molecular equilibrium.
-</li>
-</ul></li>
- <li>giving statico-dynamical properties of matter (cohesion,
- elasticity, etc.)
-<ul class="ulin1">
- <li>when solid.</li>
- <li>when liquid.</li>
- <li>when gaseous.
-</li></ul></li></ul></li>
- <li>when not in equilibrium: (<i>Molecular Dynamics</i>)
-<ul class="ulin1">
- <li>as resulting in a changed distribution of molecules
-<ul class="ulin1">
- <li>which alters their relative positions homogeneously
-<ul class="ulin1">
- <li>causing increase of volume (expansion, liquefaction,
- evaporation).</li>
- <li>causing decrease of volume (condensation, solidification,
- contraction).</li>
-</ul></li>
- <li>which alters their relative positions heterogeneously
- (<i>Chemistry</i>)
-<ul class="ulin1">
- <li>producing new relations of molecules (new compounds).</li>
- <li>producing new relations of forces (new affinities).
- </li></ul></li></ul></li>
- <li>as resulting in a changed distribution of molecular motion,
-<ul class="ulin1">
- <li>which, by integration, generates sensible motion.</li>
- <li>which, by disintegration, generates insensible motion,
- under the forms of {<i>Heat.</i> <i>Light.</i> <i>Electricity.</i>
- <i>Magnetism.</i>}</li></ul></li></ul></li>
-</ul></li></ul></li></ul></li></ul></li></ul>
-
-<p class="section">We come now to the third great group. We have done with
-the Sciences which are concerned only with the blank forms
-of relations under which Being is manifested to us. We
-have left behind the Sciences which, dealing with Being
-under its universal mode, and its several non-universal
-modes regarded as independent, treat the terms of its
-relations as simple and homogeneous; which they never are
-in Nature. There remain the Sciences which, taking these
-modes of Being as they are habitually connected with one
-another, have for the terms of their relations, those heterogeneous
-combinations of forces that constitute actual
-phenomena. The subject-matter of these Concrete-Sciences
-is the real, as contrasted with the wholly or partially ideal.
-It is their aim, not to separate and generalize apart the
-components of all phenomena, but to explain each phenomenon
-as a product of these components. Their relations
-are not, like those of the simplest Ab­stract-Con­crete
-Sciences, relations between one antecedent and one
-consequent; nor are they, like those of the more involved
-Ab­stract-Con­crete Sciences, relations between some few antecedents
-cut off in imagination from all others, and some few
-consequents similarly cut off; but they are relations each of
-which has for its terms a complete plexus of antecedents
-and a complete plexus of consequents. This is manifest in the
-least involved Concrete Sciences. The astronomer seeks to
-explain the Solar System. He does not stop short after
-generalizing the laws of planetary movement, such as
-planetary movement would be did only a single planet exist;
-but he solves this ab­stract-con­crete problem, as a step
-towards solving the concrete problem of the planetary movements
-as affecting one another. In astronomical language,
-“the theory of the Moon” means an interpretation of the
-Moon’s motions, not as determined simply by
-centripetal <span class="xxpn" id="p089">{89}</span>
-and centrifugal forces, but as perpetually modified by
-gravitation towards the Earth’s equatorial protuberance,
-towards the Sun, and even towards Venus: forces daily
-varying in their amounts and combinations. Nor does the
-astronomer leave off when he has calculated what will be
-the position of a given body at a given time, allowing for
-all perturbations; but he goes on to consider the effects
-produced by reactions on the perturbing masses. And he
-further goes on to consider how the mutual perturbations
-of the planets cause, during a long period, increasing
-deviations from a mean state; and then how compensating
-perturbations cause continuous decrease of the deviations.
-That is, the goal towards which he ever strives, is a complete
-explanation of these complex planetary motions in their
-totality. Similarly with the geologist. He does not take
-for his problem only those irregularities of the Earth’s crust
-that are worked by denudation; or only those which igneous
-action causes. He does not seek simply to understand how
-sedimentary strata were formed; or how faults were produced;
-or how moraines originated; or how the beds of
-Alpine lakes were scooped out. But taking into account
-all agencies co-operating in endless and ever-varying combinations,
-he aims to interpret the entire structure of the
-Earth’s crust. If he studies separately the actions of rain,
-rivers, glaciers, icebergs, tides, waves, volcanoes, earthquakes,
-etc.; he does so that he may be better able to
-comprehend their joint actions as factors in geological
-phenomena: the object of his science being to generalize
-these phenomena in all their intricate connexions, as parts
-of one whole. In like manner Biology is the elaboration
-of a complete theory of Life, in each and all of its involved
-manifestations. If different aspects of its phenomena are
-investigated apart—if one observer busies himself in classing
-organisms, another in dissecting them, another in ascertaining
-their chemical compositions, another in studying
-functions, another in tracing laws of modification; they
-are <span class="xxpn" id="p090">{90}</span>
-all, consciously or un­con­scious­ly, helping to work out a
-solution of vital phenomena in their entirety, both as
-displayed by individual organisms and by organisms at large.
-Thus, in these Concrete Sciences, the object is the converse
-of that which the Ab­stract-Con­crete Sciences propose to
-themselves. In the one case we have <i>analytical interpretation</i>;
-while in the other case we have <i>synthetical
-interpretation</i>. Instead of synthesis being used merely to
-verify analysis; analysis is here used only to aid synthesis.
-Not to formulate the factors of phenomena is now the
-object; but to formulate the phenomena resulting from
-these factors, under the various conditions which the
-Universe presents.</p>
-
-<p>This third class of Sciences, like the other classes, is
-divisible into the universal and the non-universal. As
-there are truths which hold of all phenomena in their
-elements; so there are truths which hold of all phenomena in
-their totalities. As force has certain ultimate laws common to
-its separate modes of manifestation, so in those combinations
-of its modes which constitute actual phenomena, we find
-certain ultimate laws that are conformed to in every case.
-These are the laws of the re-dis­tri­bu­tion of force. Since
-we can become conscious of a phenomenon only by some
-change wrought in us, every phenomenon necessarily implies
-re-dis­tri­bu­tion of force—change in the arrangements of
-matter and motion. Alike in molecular movements and
-the movements of masses, one great uniformity may be
-traced. A decreasing quantity of motion, sensible or
-insensible, always has for its concomitant an increasing
-aggregation of matter; and, conversely, an increasing
-quantity of motion, sensible or insensible, has for its concomitant
-a decreasing aggregation of matter. Give to the
-molecules of any mass, more of that insensible motion which
-we call heat, and the parts of the mass become somewhat
-less closely aggregated. Add a further quantity of insensible
-motion, and the mass so far disintegrates as to
-become <span class="xxpn" id="p091">{91}</span>
-liquid. Add still more insensible motion, and the mass
-disintegrates so completely as to become gas; which occupies
-a greater space with every extra quantity of insensible
-motion given to it. On the other hand, every loss of
-insensible motion by a mass, gaseous, liquid, or solid, is
-accompanied by a progressing integration of the mass.
-Similarly with sensible motions, be the bodies moved large
-or small. Augment the velocities of the planets, and their
-orbits will enlarge—the Solar System will occupy a wider
-space. Diminish their velocities, and their orbits will
-lessen—the Solar System will contract, or become more
-integrated. And in like manner we see that sensible
-motions given to bodies on the Earth’s surface involve
-partial disintegrations of the bodies from the Earth; while
-the loss of their motions are accompanied by their
-re-integration with the Earth. In all changes we have
-either an integration of matter and concomitant dissipation
-of motion; or an absorption of motion and concomitant
-disintegration of matter. And where, as in living bodies,
-these processes go on simultaneously, there is an integration
-of matter proportioned to the dissipation of motion, and an
-absorption of motion proportioned to the disintegration of
-matter. Such, then, are the universal laws of that re-dis­tri­bu­tion
-of matter and motion everywhere going on—a
-re-dis­tri­bu­tion which results in Evolution so long as the
-aggregation of matter and dispersion of motion predominate;
-but which results in Dissolution where there is a predominant
-aggregation of motion and dispersion of matter. Hence we
-have a division of Concrete Science which bears towards the
-other Concrete Sciences, a relation like that which the
-Universal Law of Relation bears to Mathematics, and like
-that which Universal Mechanics (composition and resolution
-of forces) bears to Physics. We have a division of Concrete
-Science which generalizes those concomitants of this re-dis­tri­bu­tion
-that hold good among all orders of concrete
-objects—a division which explains why, along
-with a <span class="xxpn" id="p092">{92}</span>
-predominating integration of matter and dissipation of motion,
-there goes a change from an indefinite, incoherent homogeneity,
-to a definite, coherent heterogeneity; and why a
-reverse re-dis­tri­bu­tion of matter and motion, is accompanied
-by a reverse structural change. Passing from this universal
-Concrete Science, to the non-universal Concrete Sciences;
-we find that these are primarily divisible into the science
-which deals with the re-dis­tri­bu­tions of matter and motion
-among masses in space, consequent on their mutual actions
-as wholes; and the science which deals with the re-dis­tri­bu­tions
-of matter and motion consequent on the mutual
-actions of the parts of each mass. And of these equally
-general Sciences, this last is re-divisible into the Science
-which is limited to the concomitants of re-dis­tri­bu­tion among
-the parts of each mass when regarded as independent, and
-the Science which takes into account the molecular motion
-received by radiation from other masses. But these sub-divisions,
-and their sub-sub-divisions, will be best seen in the
-annexed Table III.</p>
-
-<ul class="pkeeptogether padtopc"><li>
-<h3>TABLE III.</h3>
-<ul>
- <li>CONCRETE SCIENCE.
-<ul class="ulin1">
- <li>Universal laws of the continuous re-dis­tri­bu­tion of Matter
- and Motion; which results in Evolution where there is
- a predominant integration of Matter and dissipation of
- Motion, and which results in Dissolution where there is
- a predominant absorption of Motion and disintegration of
- Matter.</li>
- <li>Laws of the redistributions of Matter and Motion actually
- going on
-<ul class="ulin1">
- <li>among the celestial bodies in their relations
- to one another as masses: comprehending (<span
- class="smcap">A<b>STRONOMY</b></span>)
-<ul class="ulin1">
- <li>the dynamics of our solar system. (<i>Planetary Astronomy.</i>)</li>
- <li>the dynamics of our stellar universe. (<i>Sidereal
- Astronomy.</i>)</li>
-</ul></li>
- <li>among the molecules of any celestial mass; as caused by
-<ul class="ulin1">
- <li>the actions of these molecules on one another (<span
- class="smcap">A<b>STROGENY</b></span>)
-<ul class="ulin1">
- <li>resulting in the formation of compound molecules. (<i>Solar</i>
-<i>Mineralogy.</i>)</li>
- <li>resulting in molecular motions and genesis of radiant
- forces.<a class="afnanch" href="#fn9" id="fnanch9">9</a></li>
- <li>resulting in movements of gases and liquids. (<i>Solar</i>
-<i>Meteorology.</i><a class="afnanch" href="#fn10"
- id="fnanch10">10</a>)</li>
-</ul></li>
- <li>the actions of these molecules on one another, joined with
- the actions on them of forces radiated by the molecules of
- other masses: <span class="smcap">(G<b>EOGENY</b>)</span>
-<ul class="ulin1">
- <li>as exhibited in the planets generally.</li>
- <li>as exhibited in the Earth
-<ul class="ulin1">
- <li>causing composition and of decomposition of inorganic
- matters. (<i>Mineralogy.</i>)</li>
- <li>causing re-dis­tri­bu­tions of gases and liquids.
- (<i>Meteorology.</i>)</li>
- <li>causing re-dis­tri­bu­tions of solids. (<i>Geology.</i>)</li>
- <li>causing organic phenomena; which are (<i>Biology</i>)
-<ul class="ulin1">
- <li>those of structure (<i>Morphology</i>)
-<ul class="ulin1">
- <li>general.</li>
- <li>special.</li>
-</ul></li>
- <li>those of function
-<ul class="ulin1">
- <li>in their internal relations (<i>Physiology</i>)
-<ul class="ulin1">
- <li>general.</li>
- <li>special.</li>
-</ul></li>
- <li>in their external relations (<i>Psychology</i>)
-<ul class="ulin1">
- <li>general</li>
- <li>special
-<ul class="ulin1">
- <li>separate.</li>
- <li>combined. (<i>Sociology.</i><a class="afnanch" href="#fn11"
- id="fnanch11">11</a>)
-</li></ul></li></ul></li></ul></li></ul></li></ul></li>
-</ul></li></ul></li></ul></li></ul></li></ul></li></ul>
-
-<p class="section">That
-these great groups of Sciences and their respective
-sub-groups, fulfil the definition of a true clas­si­fi­ca­tion
-given at the outset, is, I think, tolerably manifest. The
-subjects of inquiry included in each primary division, have
-essential attributes in common with one another, which
-they have not in common with any of the subjects contained
-in the other primary divisions; and they have, by consequence,
-a greater number of attributes in which they are
-severally like the subjects they are grouped with, and
-unlike the subjects otherwise grouped. Between Sciences
-which deal with relations apart from realities, and Sciences
-which deal with realities, the distinction is the widest
-possible; since Being, in some or all of its attributes, is
-common to all Sciences of the second class, and excluded
-from all Sciences of the first class. And when we divide
-the Sciences which treat of realities, into those
-which deal <span class="xxpn" id="p093">{93}</span>
-with their component phenomena considered in ideal
-separation and those which deal with their component
-phenomena as actually united, we make a profounder
-distinction than can exist between the Sciences which deal
-with one or other order of the components, or than can
-exist between the Sciences which deal with one or other
-order of the things composed. The three groups of
-Sciences may be briefly defined as—laws of the <i>forms</i>;
-laws of the <i>factors</i>; laws of the <i>products</i>. When thus
-defined, it becomes manifest that the groups are so
-radically unlike in their natures, that there can be no
-transitions between them; and that any Science belonging
-to one of the groups must be quite incongruous with the
-Sciences belonging to either of the other groups, if transferred.
-How fundamental are the differences between
-them, will be further seen on considering their functions.
-The first, or abstract group, is <i>instrumental</i> with respect
-to both the others; and the second, or ab­stract-con­crete
-group is <i>instrumental</i> with respect to the third or concrete
-group. An endeavour to invert these functions will at
-once show how essential is the difference of character.
-The second and third groups supply subject-matter to the
-first, and the third supplies subject-matter to the second;
-but none of the truths which constitute the third group are
-of any use as solvents of the problems presented by the
-second group; and none of the truths which the second
-group formulates can act as solvents of problems contained
-in the first group.</p>
-
-<p>Concerning the sub-divisions of these great groups,
-little remains to be added. That each of the groups, being
-co-extensive with all phenomena, contains truths that are
-universal and others that are not universal, and that these
-must be classed apart, is obvious. And that the sub-divisions
-of the non-universal truths, are to be made
-according to their decreasing generality in something like
-the manner shown in the Tables, is proved by the fact
-that <span class="xxpn" id="p094">{94}</span>
-when the descriptive words are read from the root to the
-extremity of any branch, they form a definition of the
-Science constituting that branch. That the minor divisions
-might be otherwise arranged, and that better definitions of
-them might be given, is highly probable. They are here
-set down merely for the purpose of showing how this
-method of clas­si­fi­ca­tion works out.</p>
-
-<p>I will only further remark that the relations of the
-Sciences as thus represented, are still but imperfectly
-represented: their relations cannot be truly shown on a
-plane, but only in space of three dimensions. The three
-groups cannot rightly be put in linear order as they have
-here been. Since the first stands related to the third, not
-only indirectly through the second, but also directly—it is
-directly instrumental with respect to the third, and the
-third supplies it directly with subject-matter. Their
-relations can thus only be truly shown by branches
-diverging from a common root on different sides, in
-such a way that each stands in juxta-position to the other
-two. And only by a like mode of arrangement, can the
-relations among the sub-divisions of each group be
-correctly represented.</p>
-
-<p class="section">The foregoing exposition,
-highly abstract as it is, will by
-some readers be less readily followed than a more concrete
-one. With the view of carrying conviction to such I will
-re-state the case in two ways: the first of them adapted
-only to those who accept the doctrine of Evolution in its
-most general form.</p>
-
-<p>We set out with concentrating nebulous matter. Tracing
-the re-dis­tri­bu­tions of this, as the rotating contracting
-spheroid leaves behind successive annuli and as these
-severally form secondary rotating spheroids, we come at
-length to planets in their early stages. Thus far we consider
-the phenomena dealt with purely astronomical; and
-so long as our Earth, regarded as one of these
-spheroids, <span class="xxpn" id="p095">{95}</span>
-was made up of gaseous and molten matters only, it
-presented no data for any more complex Concrete Science.
-In the lapse of cosmical time a solid film forms, which, in
-the course of millions of years, thickens, and, in the course
-of further millions of years, becomes cool enough to permit
-the precipitation, first of various other gaseous compounds,
-and finally of water. Presently, the varying exposure of
-different parts of the spheroid to the Sun’s rays, begins to
-produce appreciable effects; until at length there have
-arisen meteorological actions, and consequent geological
-actions, such as those we now know: determined partly
-by the Sun’s heat, partly by the still-retained internal heat
-of the Earth, and partly by the action of the Moon on the
-ocean? How have we reached these geological phenomena?
-When did the astronomical changes end and the geological
-changes begin? It needs but to ask this question to see
-that there is no real division between the two. Putting
-pre-conceptions aside, we find nothing more than a group
-of phenomena continually complicating under the influence
-of the same original factors; and we see that our conventional
-division is defensible only on grounds of convenience.
-Let us advance a stage. As the Earth’s surface
-continues to cool, passing through all degrees of temperature
-by infinitesimal gradations, the formation of more and
-more complex inorganic compounds becomes possible. Later,
-its surface sinks to that heat at which the less complex
-compounds of the kinds called organic can exist; and,
-finally, the formation of the more complex organic compounds
-takes place. Chemists now show us that these
-compounds may be built up synthetically in the laboratory—each
-stage in ascending complexity making possible the
-next higher stage. Hence it is inferable that, in the
-myriads of laboratories, endlessly diversified in their
-materials and conditions, which the Earth’s surface furnished
-during the myriads of years occupied in passing
-through these stages of temperature, such
-successive <span class="xxpn" id="p096">{96}</span>
-syntheses were effected; and that the highly complex unstable
-substance out of which all organisms are composed, was
-eventually formed in microscopic portions: from which, by
-continuous integrations and dif­fer­entia­tions, the evolution
-of all organisms has proceeded. Where then shall we
-draw the line between Geology and Biology? The synthesis
-of this most complex compound, is but a continuation
-of the syntheses by which all simpler compounds were
-formed. The same primary factors have been co-operating
-with those secondary factors, meteorologic and geologic,
-previously derived from them. Nowhere do we find a
-break in the ever-complicating series; for there is a manifest
-connexion between those movements which various
-complex compounds undergo during their isomeric trans­for­ma­tions,
-and those changes of form undergone by the
-protoplasm which we distinguish as living. Strongly contrasted
-as they eventually become, biological phenomena
-are at their root inseparable from geological phenomena—inseparable
-from the aggregate of trans­for­ma­tions continually
-wrought in the matters forming the Earth’s surface
-by the physical forces to which they are exposed. Further
-stages I need not particularize. The gradual development
-out of the biological group of phenomena, of the more
-specialized group we class as psychological, needs no
-illustration. And when we come to the highest psychological
-phenomena, it is clear that since aggregations of
-human beings may be traced upwards from single wandering
-families to tribes and nations of all sizes and complexities,
-we pass insensibly from the phenomena of individual
-human action to those of corporate human action.
-To resume, then, is it not manifest that in the group of
-sciences—Astronomy, Geology, Biology, Psychology, Sociology,
-we have a natural group that admits neither of
-disruption nor change of order? Here there is both a
-genetic dependence, and a dependence of in­ter­pre­ta­tions.
-The phenomena have arisen in this succession in
-cosmical <span class="xxpn" id="p097">{97}</span>
-time; and complete scientific interpretation of each group
-depends on scientific interpretation of the preceding groups.
-No other science can be thrust in anywhere without destroying
-the continuity. To insert Physics between
-Astronomy and Geology, would be to make a break in the
-history of a continuous series of changes; and a like break
-would be produced by inserting Chemistry between Geology
-and Biology. It is true that Physics and Chemistry are
-needful as interpreters of these successive assemblages of
-facts; but it does not therefore follow that they are themselves
-to be placed among these assemblages.</p>
-
-<p>Concrete Science, made up of these five concrete sub-sciences,
-being thus coherent within itself, and separated
-from all other science, there comes the question—Is all other
-science similarly coherent within itself? or is it traversed
-by some second division that is equally decided? It is
-thus traversed. A statical or dynamical theorem, however
-simple, has always for its subject-matter something that is
-conceived as extended, and as displaying force or forces—as
-being a seat of resistance, or of tension, or of both, and
-as capable of possessing more or less of <i>vis viva</i>. If we
-examine the simplest proposition of Statics, we see that the
-conception of Force must be joined with the conception of
-Space, before the proposition can be framed in thought;
-and if we similarly examine the simplest proposition in
-Dynamics, we see that Force, Space, and Time, are its
-essential elements. The amounts of the terms are
-indifferent; and, by reduction of its terms beyond the limits
-of perception, they are applied to molecules: Molar
-Mechanics and Molecular Mechanics are continuous. From
-questions concerning the relative motions of two or more
-molecules, Molecular Mechanics passes to changes of aggregation
-among many molecules, to changes in the amounts
-and kinds of the motions possessed by them as members of
-an aggregate, and to changes of the motions transferred
-through aggregates of them, as those constituting
-light. <span class="xxpn" id="p098">{98}</span>
-Daily extending its range of in­ter­pre­ta­tions, it is coming to
-deal even with the components of each compound molecule
-on the same principles. And the unions and disunions of
-such more or less compound molecules, which constitute
-the phenomena of Chemistry, are also being conceived as
-resultant phenomena of essentially kindred natures—the
-affinities of molecules for one another, and their reactions
-in relation to light, heat, and other modes of force,
-being regarded as consequent on the combinations of
-the various mech­an­i­cal­ly-de­ter­mined motions of their
-various components. Without at all out-running, however,
-this progress in the mechanical interpretation of molecular
-phenomena, it suffices to point out that the indispensable
-elements in any chemical conception are units occupying
-places in space, and exerting forces on one another. This,
-then, is the common character of all these sciences which
-we at present group under the names of Mechanics, Physics,
-Chemistry. Leaving undiscussed the question whether it
-is possible to conceive of force apart from extended somethings
-exerting it, we may assert, as beyond dispute, that
-if the conception of force be expelled, no science of
-Mechanics, Physics, or Chemistry remains. Made coherent,
-as these sciences are, by this bond of union, it is impossible
-to thrust among them any other science without breaking
-their continuity. We cannot place Logic between Molar
-Mechanics and Molecular Mechanics. We cannot place
-Mathematics between the group of propositions concerning
-the behaviour of homogeneous molecules to one another,
-and the group of propositions concerning the behaviour of
-heterogeneous molecules to one another (which we call
-Chemistry). Clearly these two sciences lie outside the
-coherent whole we have contemplated; separated from it
-in some radical way.</p>
-
-<p>By what are they radically separated? By the absence
-of the conception of force through which alone we know
-objects as existing or acting. However true it may
-be <span class="xxpn" id="p099">{99}</span>
-that so long as Logic and Mathematics have any terms at
-all, these must be capable of affecting con­scious­ness, and,
-by implication, of exerting force; yet it is the distinctive
-trait of these sciences that not only do their propositions
-make no reference to such force, but, as far as possible,
-they deliberately ignore it. Instead of being, as in all the
-other sciences, an element that is not only recognized but
-vital; in Mathematics and Logic, force is an element that
-is not only not vital, but is studiously not recognized. The
-terms in which Logic expresses its propositions, are symbols
-that do not profess to represent things, properties, or
-powers, of one kind more than another; and may equally
-well stand for the attributes belonging to members of some
-connected series of ideal curves which have never been
-drawn, as for so many real objects. And the theorems of
-Geometry, so far from contemplating perceptible lines and
-surfaces as elements in the truths enunciated, consider
-these truths as becoming absolute only when such lines
-and surfaces become ideal—only when the conception of
-something exercising force is extruded.</p>
-
-<p class="section">Let me now make a second re-statement, not implying
-acceptance of the doctrine of Evolution, but exhibiting
-with a clearness almost if not quite as great, these fundamental
-distinctions.</p>
-
-<p>The concrete sciences, taken together or separately,
-contemplate as their subject-matters, <i>aggregates</i>—either the
-entire aggregate of sensible existences, or some secondary
-aggregate separable from this entire aggregate, or some
-tertiary aggregate separable from this, and so on. Sidereal
-Astronomy occupies itself with the totality of visible masses
-distributed through space; which it deals with as made up
-of identifiable individuals occupying specified places, and
-severally standing towards one another, towards sub-groups,
-and towards the entire group, in defined ways. Planetary
-Astronomy, cutting out of this all-including aggregate
-that <span class="xxpn" id="p100">{100}</span>
-relatively minute part constituting the Solar System, deals
-with this as a whole—observes, measures, and calculates the
-sizes, shapes, distances, motions, of its primary, secondary,
-and tertiary members; and, taking for its larger inquiries
-the mutual actions of all these members as parts of a coordinated
-assemblage, takes for its smaller inquiries the
-actions of each member considered as an individual, having
-a set of intrinsic activities that are modified by a set of
-extrinsic activities. Restricting itself to one of these
-aggregates, which admits of close examination, Geology
-(using this word in its comprehensive meaning) gives an
-account of terrestrial actions and terrestrial structures,
-past and present; and, taking for its narrower problems
-local formations and the agencies to which they are due,
-takes for its larger problems the serial trans­for­ma­tions
-undergone by the entire Earth. The geologist being
-occupied with this cosmically small, but otherwise vast,
-aggregate, the biologist occupies himself with small aggregates
-formed out of parts of the Earth’s superficial substance,
-and treats each of these as a coordinated whole in its
-structures and functions; or, when he treats of any
-particular organ, considers this as a whole made up of
-parts held in a sub-coordination that refers to the coordination
-of the entire organism. To the psychologist he leaves
-those specialized aggregates of functions which adjust the
-actions of organisms to the complex activities surrounding
-them: doing this, not simply because they are a stage
-higher in speciality, but because they are the counterparts
-of those aggregated states of con­scious­ness dealt with by
-the science of Subjective Psychology, which stands entirely
-apart from all other sciences. Finally, the sociologist
-considers each tribe and nation as an aggregate presenting
-multitudinous phenomena, simultaneous and successive, that
-are held together as parts of one combination. Thus, in
-every case, a concrete science deals with a real aggregate
-(or a plurality of real aggregates); and it includes as
-its <span class="xxpn" id="p101">{101}</span>
-subject-matter whatever is to be known of this aggregate
-in respect of its size, shape, motions, density, texture,
-general arrangement of parts, minute structure, chemical
-composition, temperature, etc., together with all the multitudinous
-changes, material and dynamical, gone through by
-it from the time it begins to exist as an aggregate to the
-time it ceases to exist as an aggregate.</p>
-
-<p>No ab­stract-con­crete science makes the remotest attempt
-to do anything of this sort. Taken together, the ab­stract-con­crete
-sciences give an account of the various kinds of
-<i>properties</i> which aggregates display; and each ab­stract-con­crete
-science concerns itself with a certain order of these
-properties. By this, the properties common to all aggregates
-are studied and formulated; by that, the properties
-of aggregates having special forms, special states of aggregation,
-etc.; and by others, the properties of particular
-components of aggregates when dissociated from other components.
-But by all these sciences the aggregate, considered
-as an individual object, is tacitly ignored; and a property, or
-a connected set of properties, exclusively occupies attention.
-It matters not to Mechanics whether the moving mass it
-considers is a planet or a molecule, a dead stick thrown
-into the river or the living dog that leaps after it: in any
-case the curve described by the moving mass conforms to
-the same laws. Similarly when the physicist takes for his
-subject the relation between the changing bulk of matter
-and the changing quantity of molecular motion it contains.
-Dealing with the subject generally, he leaves out of consideration
-the kind of matter; and dealing with the subject
-specially in relation to this or that kind of matter, he
-ignores the attributes of size and form: save in the still
-more special cases where the effect on form is considered,
-and even then size is ignored. So, too, is it with the
-chemist. A substance he is investigating, never thought
-of by him as distinguished in extension or amount, is not
-even required to be perceptible. A portion of carbon
-on <span class="xxpn" id="p102">{102}</span>
-which he is experimenting, may or may not have been
-visible under its forms of diamond or graphite or charcoal—this
-is indifferent. He traces it through various disguises
-and various combinations—now as united with oxygen to
-form an invisible gas; now as hidden with other elements
-in such more complex compounds as ether, and sugar, and
-oil. By sulphuric acid or other agent he precipitates it from
-these as a coherent cinder, or as a diffused impalpable
-powder; and again, by applying heat, forces it to disclose
-itself as an element of animal tissue. Evidently, while
-thus ascertaining the affinities and atomic equivalence of
-carbon, the chemist has nothing to do with any aggregate.
-He deals with carbon in the abstract, as something considered
-apart from quantity, form, appearance, or temporary
-state of combination; and conceives it as the possessor
-of powers or properties, whence the special phenomena he
-describes result: the ascertaining of all these powers or
-properties being his sole aim.</p>
-
-<p>Finally, the Abstract Sciences ignore alike aggregates
-and the powers which aggregates or their components
-possess; and occupy themselves with <i>relations</i>—either
-with the relations among aggregates, or among their parts,
-or the relations among aggregates and properties, or the
-relations among properties, or the relations among
-relations. The same logical formula applies equally well,
-whether its terms are men and their deaths, crystals and
-their planes of cleavage, or plants and their seeds. And
-how entirely Mathematics concerns itself with relations, we
-see on remembering that it has just the same expression
-for the characters of an infinitesimal triangle, as for those
-of the triangle which has Sirius for its apex and the
-diameter of the Earth’s orbit for its base.</p>
-
-<p>I cannot see how these definitions of these groups of
-sciences can be questioned. It is undeniable that every
-Concrete Science gives an account of an aggregate or of
-aggregates, inorganic, organic, or super-organic (a
-society); <span class="xxpn" id="p103">{103}</span>
-and that, not concerning itself with properties of this or
-that order, it concerns itself with the co-ordination of the
-assembled properties of all orders. It seems to me no less
-certain that an Ab­stract-Con­crete Science gives an account
-of some order of properties, general or special; not caring
-about the other traits of an aggregate displaying them, and
-not recognizing aggregates at all further than is implied by
-discussion of the particular order of properties. And I
-think it is equally clear that an Abstract Science, freeing
-its propositions, so far as the nature of thought permits,
-from aggregates and properties, occupies itself with relations
-of co-existence and sequence, as disentangled from all particular
-forms of being and action. If then these three groups
-of sciences are, respectively, accounts of <i>aggregates</i>, accounts
-of <i>properties</i>, accounts of <i>relations</i>, it is manifest that the
-divisions between them are not simply perfectly clear, but
-that the chasms between them are absolute.</p>
-
-<p class="section">Here, perhaps more clearly than before, will be seen the
-untenability of the clas­si­fi­ca­tion made by M. Comte. Already,
-after setting forth in a general way these fundamental
-distinctions, I have pointed out the incongruities that
-arise when the sciences, conceived as Abstract, Ab­stract-Con­crete,
-and Concrete, are arranged in the order proposed
-by him. Such incongruities become still more conspicuous
-if for these general names of the groups we substitute the
-definitions given above. The series will then stand <span class="nowrap">thus:―</span></p>
-
-<ul class="ulin1">
-<li><span class="smcap">M<b>ATHEMATICS</b></span> . . .
- An account of <i>relations</i> (including, under Mechanics,
- an account of <i>properties</i>).</li>
-<li><span class="smcap">A<b>STRONOMY</b></span> . . . An account of <i>aggregates</i>.</li>
-<li><span class="smcap">P<b>HYSICS</b></span> . . . An account of <i>properties</i>.</li>
-<li><span class="smcap">C<b>HEMISTRY</b></span> . . . An account of <i>properties</i>.</li>
-<li><span class="smcap">B<b>IOLOGY</b></span> . . . An account of <i>aggregates</i>.</li>
-<li><span class="smcap">S<b>OCIOLOGY</b></span> . . . An account of <i>aggregates</i>.</li>
-</ul>
-
-<p class="pcontinue">That those
-who espouse opposite views see clearly
-the <span class="xxpn" id="p104">{104}</span>
-defects in the propositions of their opponents and not those
-in their own, is a trite remark that holds in philosophical
-discussions as in all others: the parable of the mote and
-the beam applies as well to men’s appreciations of one
-another’s opinions as to their appreciations of one another’s
-natures. Possibly to my positivist friends I exemplify this
-truth,—just as they exemplify it to me. Those uncommitted
-to either view must decide where the mote exists
-and where the beam. Meanwhile it is clear that one or
-other of the two views is essentially erroneous; and that
-no qualifications can bring them into harmony. Either
-the sciences admit of no such grouping as that which I
-have described, or they admit of no such serial order as
-that given by M. Comte.</p>
-
-<hr class="hr33" />
-
-<h3 class="section"><span class="smcap">P<b>OSTSCRIPT</b></span>
- <span class="smcap">R<b>EPLYING</b></span>
- <span class="smmaj">TO</span>
- <span class="smcap">C<b>RITICISMS.</b></span></h3>
-
-<p>Among objections made to any doctrine, those which
-come from avowed supporters of an adverse doctrine must
-be considered, other things equal, as of less weight than
-those which come from men uncommitted to an adverse
-doctrine, or but partially committed to it. The element of
-prepossession, distinctly present in the one case and in the
-other case mainly or quite absent, is a well-recognized
-cause of difference in the values of the judgments: supposing
-the judgments to be otherwise fairly comparable.
-Hence, when it is needful to bring the replies within
-a restricted space, a fit course is that of dealing rather
-with independent criticisms than with criticisms which
-are really indirect arguments for an opposite view, previously
-espoused.</p>
-
-<p>For this reason I propose here to confine myself substantially,
-though not absolutely, to the demurrers entered
-against the foregoing clas­si­fi­ca­tion by Prof. Bain, in his
-recent work on Logic. Before dealing with the
-more <span class="xxpn" id="p105">{105}</span>
-important of these, let me clear the ground by disposing
-of the less important.</p>
-
-<p class="padtopb">Incidentally,
-while commenting on the view I take
-respecting the position of Logic, Prof. Bain points out
-that this, which is the most abstract of the sciences, owes
-much to Psychology, which I place among the Concrete
-Sciences; and he alleges an incongruity between this fact
-and my statement that the Concrete Sciences are not
-instrumental in disclosing the truths of the Abstract
-Sciences. Subsequently he re-raises this apparent anomaly
-when <span class="nowrap">saying―</span></p>
-
-<blockquote class="blktight">
-<p>“Nor is it possible to justify the placing of Psychology wholly among
-Concrete Sciences. It is a highly analytic science, as Mr. Spencer
-thoroughly knows.”</p></blockquote>
-
-<p class="pcontinue">For a full reply,
-given by implication, I must refer Prof.
-Bain to § 56 of <i>The Principles of Psychology</i>, where I
-have contended that “while, under its objective aspect,
-Psychology is to be classed as one of the Concrete Sciences
-which successively decrease in scope as they increase in
-speciality; under its subjective aspect, Psychology is a
-totally unique science, independent of, and antithetically
-opposed to, all other sciences whatever.” A pure idealist
-will not, I suppose, recognize this distinction; but to every
-one else it must, I should think, be obvious that the
-science of subjective existences is the correlative of all
-the sciences of objective existences; and is as absolutely
-marked off from them as subject is from object. Objective
-Psychology, which I class among the Concrete Sciences, is
-purely synthetic, so long as it is limited, like the other
-sciences, to objective data; though great aid in the interpretation
-of these data is derived from the observed
-correspondence between the phenomena of Objective
-Psychology as presented in other beings and the phenomena
-of Subjective Psychology as presented in one’s
-own con­scious­ness. Now it is Subjective Psychology
-only which is analytic, and which affords aid in
-the <span class="xxpn" id="p106">{106}</span>
-development of Logic. This being explained, the apparent
-incongruity disappears.</p>
-
-<p>A difficulty raised respecting the manner in which I
-have expressed the nature of Mathematics, may next be
-dealt with. Prof. Bain <span class="nowrap">writes:―</span></p>
-
-<blockquote class="blktight">
-<p>“In the first place, objection
-may be taken to his language, in discussing the extreme Abstract
-Sciences, when he speaks of the <i>empty forms</i> therein considered.
-To call Space and Time empty forms, must mean that they can be
-thought of without any concrete embodiment whatsoever; that one can
-think of Time, as a pure abstraction, without having in one’s mind
-any concrete succession. Now, this doctrine is in the last degree
-questionable.”</p></blockquote>
-
-<p>I quite agree with Prof. Bain that “this doctrine is in
-the last degree questionable;” but I do not admit that
-this doctrine is implied by the definition of Abstract
-Science which I have given. I speak of Space and Time
-as they are dealt with by mathematicians, and as it is
-alone possible for pure Mathematics to deal with them.
-While Mathematics habitually uses in its points, lines, and
-surfaces, certain existences, it habitually deals with these
-as representing points, lines, and surfaces that are ideal;
-and <i>its conclusions are true only on condition that it does
-this</i>. Points having dimensions, lines having breadths,
-planes having thicknesses, are negatived by its definitions.
-Using, though it does, material representatives of extension,
-linear, superficial, or solid, Geometry deliberately ignores
-their materiality; and attends only to the truths of relation
-they present. Holding with Prof. Bain, as I do, that our
-con­scious­ness of Space is disclosed by our experiences of
-Matter—arguing, as I have done in <i>The Principles of
-Psychology</i>, that it is a consolidated aggregate of all
-relations of co-existence that have been severally presented
-by Matter; I nevertheless contend that it is possible to
-dissociate these relations from Matter to the extent
-required for formulating them as abstract truths. I
-contend, too, that this separation is of the kind habitually
-made in other cases; as, for instance, when the general
-laws of motion are formulated (as M. Comte’s system,
-among <span class="xxpn" id="p107">{107}</span>
-others, formulates them) in such way as to ignore all
-properties of the bodies dealt with save their powers of
-taking up, and retaining, and giving out, quantities of
-motion; though these powers are inconceivable apart from
-the attribute of extension, which is intentionally disregarded.</p>
-
-<p>Taking other of Prof. Bain’s objections, not in the order
-in which they stand but in the order in which they may be
-most conveniently dealt with, I quote as <span class="nowrap">follows:―</span></p>
-
-<blockquote class="blktight">
-<p>“The law of the radiation of light (the inverse square of the
-distance) is said by Mr. Spencer to be Ab­stract-Con­crete, while the
-disturbing changes in the medium are not to be mentioned except in a
-Concrete Science of Optics. We need not remark that such a separate
-handling is unknown to science.”</p></blockquote>
-
-<p>It is perfectly true that “such a separate handling is
-unknown to science.” But, unfortunately for the objection,
-it is also perfectly true that no such separate handling is
-proposed by me, or is implied by my clas­si­fi­ca­tion. How
-Prof. Bain can have so missed the meaning of the word
-“concrete,” as I have used it, I do not understand.
-After pointing out that “no one ever drew the line,”
-between the Ab­stract-Con­crete and the Concrete Sciences,
-“as I have done it,” he alleges an anomaly which exists
-only supposing that I have drawn it where it is ordinarily
-drawn. He appears inadvertently to have carried with
-him M. Comte’s conception of Optics as a Concrete Science,
-and, importing it into my clas­si­fi­ca­tion, debits me with the
-incongruity. If he will re-read the definition of the
-Ab­stract-Con­crete Sciences, or study their sub-divisions as
-shown in Table II., he will, I think, see that the most
-special laws of the redistribution of light, equally with
-its most general laws, are included. And if he will pass
-to the definition and the tabulation of the Concrete
-Sciences, he will, I think, see no less clearly that Optics
-cannot be included among them.</p>
-
-<p>Prof. Bain considers that I am not justified in classing
-Chemistry as an Ab­stract-Con­crete Science, and excluding
-from it all consideration of the crude forms of the
-various <span class="xxpn" id="p108">{108}</span>
-substances dealt with; and he enforces his dissent by
-saying that chemists habitually describe the ores and
-impure mixtures in which the elements, etc., are naturally
-found. Undoubtedly chemists do this. But do they
-therefore intend to include an account of the ores of a
-substance, <i>as a part of the science</i> which formulates its
-molecular constitution and the constitutions of all the
-definite compounds it enters into? I shall be very much
-surprised if I find that they do. Chemists habitually
-prefix to their works a division treating of Molecular
-Physics; but they do not therefore claim Molecular Physics
-as a part of Chemistry. If they similarly prefix to the
-chemistry of each substance an outline of its mineralogy,
-I do not think they therefore mean to assert that the last
-belongs to the first. Chemistry proper, embraces nothing
-beyond an account of the constitutions and modes of action
-and combining proportions of substances that are taken
-as absolutely pure; and its truths no more recognize
-impure substances than the truths of Geometry recognize
-crooked lines.</p>
-
-<p>Immediately after, in criticizing the fundamental
-distinction I have made between Chemistry and Biology,
-as Ab­stract-Con­crete and Concrete respectively, Prof.
-Bain <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-<p>“But the objects of Chemistry and the objects of Biology are
-equally concrete, so far as they go; the simple bodies of chemistry,
-and their several compounds, are viewed by the Chemist as concrete
-wholes, and are described by him, not with reference to one factor,
-but to all their factors.”</p></blockquote>
-
-<p>Issue is here raised in a form convenient for elucidation
-of the general question. It is true that, <i>for purposes of
-identification</i>, a chemist gives an account of all the sensible
-characters of a substance. He sets down its crystalline
-form, its specific gravity, its power of refracting light, its
-behaviour as magnetic or diamagnetic. But does he thereby
-include these phenomena as part of the Science of Chemistry?
-It seems to me that the relation between the
-weight <span class="xxpn" id="p109">{109}</span>
-of any portion of matter and its bulk, which is ascertained
-on measuring its specific gravity, is a physical and not
-a chemical fact. I think, too, that the physicist will claim,
-as part of his science, all investigations touching the
-refraction of light: be the substance producing this
-refraction what it may. And the circumstance that the
-chemist may test the magnetic or diamagnetic property
-of a body, as a means of ascertaining what it is, or as a
-means of helping other chemists to determine whether they
-have got before them the same body, will neither be held
-by the chemist, nor allowed by the physicist, to imply a
-transfer of magnetic phenomena from the domain of the
-one to that of the other. In brief, though the chemist, in
-his account of an element or a compound, may refer to
-certain physical traits associated with its molecular constitution
-and affinities, he does not by so doing change these
-into chemical traits. Whatever chemists may put into
-their books, Chemistry, considered as a science, includes
-only the phenomena of molecular structures and changes—of
-compositions and decompositions.<a class="afnanch" href="#fn12" id="fnanch12">12</a>
-I contend, then,
-that Chemistry does <i>not</i> give an account of anything as
-a concrete whole, in the same way that Biology gives an
-account of an organism as a concrete whole. This will
-become even more manifest on observing the
-character of <span class="xxpn" id="p110">{110}</span>
-the biological account. All the attributes of an organism are
-comprehended, from the most general to the most special—from
-its conspicuous structural traits to its hidden and faint
-ones; from its outer actions that thrust themselves on the
-attention, to the minutest sub-divisions of its multitudinous
-internal functions; from its character as a germ, through
-the many changes of size, form, organization, and habit, it
-goes through until death; from the physical characters of
-it as a whole, to the physical characters of its microscopic
-cells, and vessels, and fibres; from the chemical characters
-of its substance in general to the chemical characters of
-each tissue and each secretion—all these, with many
-others. And not only so, but there is comprehended as
-the ideal goal of the science, the <i>consensus</i> of all these
-phenomena in their co-existences and successions, as
-constituting a coherent individualized group definitely
-combined in space and in time. It is this recognition of
-<i>individuality</i> in its subject-matter, that gives its concreteness
-to Biology, as to every other Concrete Science. As
-Astronomy deals with bodies that have their several proper
-names, or (as with the smaller stars) are registered by
-their positions, and considers each of them as a distinct
-individual—as Geology, while dimly perceiving in the
-Moon and nearest planets other groups of geological
-phenomena (which it would deal with as independent
-wholes, did not distance forbid), occupies itself with that
-individualized group presented by the Earth; so Biology
-treats either of an individual distinguished from all others,
-or of parts or products belonging to such an individual, or
-of structural or functional traits common to many such
-individuals that have been observed, and supposed to be
-common to others that are like them in most or all of their
-attributes. Every biological truth connotes a specifically
-individualized object, or a number of specifically individualized
-objects of the same kind, or numbers of different
-kinds that are severally specific. See, then, the
-contrast. <span class="xxpn" id="p111">{111}</span>
-The truths of the Ab­stract-Con­crete Sciences do not imply
-specific individuality. Neither Molar Physics, nor Molecular
-Physics, nor Chemistry, concerns itself with this.
-The laws of motion are expressed without any reference
-whatever to the sizes or shapes of the moving masses;
-which may be taken indifferently to be suns or atoms.
-The relations between contraction and the escape of molecular
-motion, and between expansion and the absorption
-of molecular motion, are expressed in their general forms
-without reference to the kind of matter; and, if the
-degree of either that occurs in a particular kind of matter
-is formulated, no note is taken of the quantity of that
-matter, much less of its individuality. Similarly with
-Chemistry. When it inquires into the atomic weight, the
-molecular structure, the atomicity, the combining proportions,
-etc., of a substance, it is indifferent whether a grain
-or a ton be thought of—the conception of amount is
-absolutely irrelevant. And so with more special attributes.
-Sulphur, considered chemically, is not sulphur under its
-crystalline form, or under its allotropic viscid form, or as
-a liquid, or as a gas; but it is sulphur considered apart
-from those attributes of quantity, and shape, and state,
-that give individuality.</p>
-
-<p>Prof. Bain objects to the division I have drawn between
-the Concrete Science of Astronomy and that Ab­stract-Con­crete
-Science which deals with the mutually-modified
-motions of hypothetical masses in space, as “not a little
-arbitrary.” He <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-<p>“We can suppose a science to confine itself <i>solely</i> to the
-‘factors,’ or the separated elements, and never, on any occasion, to
-combine two into a composite third. This position is intelligible,
-and possibly defensible. For example, in Astronomy, the Law of
-Persistence of Motion in a straight line might be discussed in pure
-ideal separation; and so, the Law of Gravity might be discussed in
-equally pure separation—both under the Ab­stract-Con­crete department
-of Mechanics. It might then be reserved to a <i>concrete</i> department to
-unite these in the explanation of a projectile or of a planet. Such,
-however, is not Mr. Spencer’s boundary line. He allows Theoretical
-Mechanics to make this particular combination, and to arrive at the
-laws of <span class="xxpn" id="p112">{112}</span> planetary movement,
-<i>in the case of a single planet</i>. What he does not allow is, to
-proceed to the case of two planets, mutually disturbing one another,
-or a planet and a satellite, commonly called the ‘problem of the
-Three Bodies.’”</p></blockquote>
-
-<p>If I held what Prof. Bain supposes me to hold, my position
-would be an absurd one; but he misapprehends me. The
-mis­app­re­hen­sion results in part from his having here, as
-before, used the word “concrete” with the Comtean meaning,
-as though it were my meaning; and in part from the
-inadequacy of my explanation. I did not in the least mean
-to imply that the Ab­stract-Con­crete Science of Mechanics,
-when dealing with the motions of bodies in space, is limited
-to the interpretation of planetary movement such as it would
-be did only a single planet exist. It never occurred to me
-that my words might be so construed. Ab­stract-Con­crete
-problems admit, in fact, of being complicated indefinitely,
-without going in the least beyond the definition. I do not
-draw the line, as Prof. Bain alleges, between the combination
-of two factors and the combination of three, or between
-the combination of any number and any greater number.
-I draw the line between the science which deals with the
-theory of the factors, taken singly and in combinations of
-two, three, four, or more, and the science which, <i>giving to
-these factors the values derived from observations of actual
-objects, uses the theory to explain actual phenomena</i>.</p>
-
-<p>It is true that, in these departments of science, no radical
-distinction is consistently recognized between theory and the
-applications of theory. As Prof. Bain <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-<p>“Newton, in the First Book of the Principia, took up the problem
-of the Three Bodies, as applied to the Moon, and worked it to
-exhaustion. So writers on Theoretical Mechanics continue to include
-the Three Bodies, Precession, and the Tides.”</p></blockquote>
-
-<p class="pcontinue">But, supreme though
-the authority of Newton may be as a
-mathematician and astronomer, and weighty as are the
-names of Laplace and Herschel, who in their works have
-similarly mingled theorems and the explanations yielded by
-them, it does not seem to me that these facts go for
-much; <span class="xxpn" id="p113">{113}</span>
-unless it can be shown that these writers intended thus to
-enunciate the views at which they had arrived respecting
-the clas­si­fi­ca­tion of the sciences. Such a union as that
-presented in their works, adopted merely for the sake of
-convenience, is, in fact, the indication of incomplete development;
-and has been paralleled in simpler sciences which
-have afterwards outgrown it. Two conclusive illustrations
-are at hand. The name Geometry, utterly inapplicable by
-its meaning to the science as it now exists, was applicable
-in that first stage during which its few truths were taught
-in preparation for land-measuring and the setting-out of
-buildings; but, at a comparatively early date, these comparatively
-simple truths became separated from their
-applications, and were embodied by the Greek geometers
-into systems of theory.<a class="afnanch" href="#fn13" id="fnanch13">13</a>
-A like purification is now taking
-place in another division of the science. In the <i>Géométrie
-Descriptive</i> of Monge, theorems were mixed with their
-applications to projection and plan-drawing. But, since his
-time, the science and the art have been segregating; and
-Descriptive Geometry, or, as it may be better termed, the
-Geometry of Position, is now recognized by mathematicians
-as a far-reaching system of truths, parts of which are already
-embodied in books that make no reference to derived
-methods available by the architect or the engineer. To meet
-a coun­ter-il­lus­tra­tion that will be cited, I may remark that
-though, in works on Algebra intended for beginners, the
-theories of quantitative relations, as treated algebraically,
-are accompanied by groups of problems to be solved, the
-subject-matters of these problems are not thereby made
-parts of the Science of Algebra. To say that they are, is
-to say that Algebra includes the conceptions of distances
-and relative speeds and times, or of weights and
-bulks and <span class="xxpn" id="p114">{114}</span>
-specific gravities, or of areas ploughed and days and wages;
-since these, and endless others, may be the terms of its
-equations. And just in the same way that these concrete
-problems, solved by its aid, cannot be incorporated with the
-Abstract Science of Algebra; so I contend that the concrete
-problems of Astronomy, cannot be incorporated with that
-division of Ab­stract-Con­crete Science which develops
-the theory of the inter-actions of free bodies that attract
-one another.</p>
-
-<p>On this point I find myself at issue, not only with Prof.
-Bain, but also with Mr. Mill, who contends <span class="nowrap">that:―</span></p>
-
-<blockquote class="blktight">
-<p>“There <i>is</i> an abstract science of astronomy, namely, the theory
-of gravitation, which would equally agree with and explain the facts
-of a totally different solar system from the one of which our earth
-forms a part. The actual facts of our own system, the dimensions,
-distances, velocities, temperatures, physical constitution, etc., of
-the sun, earth, and planets, are properly the subject of a concrete
-science, similar to natural history; but the concrete is more
-inseparably united to the abstract science than in any other case,
-since the few celestial facts really accessible to us are nearly all
-required for discovering and proving the law of gravitation as an
-universal property of bodies, and have therefore an indispensable
-place in the abstract science as its fundamental data.”—<i>Auguste
-Comte and Positivism</i>, p. 43.</p></blockquote>
-
-<p>In this explanation, Mr. Mill recognizes the fundamental
-distinction between the Concrete Science of Astronomy,
-dealing with the bodies actually distributed in space, and
-a science dealing with hypothetical bodies hypothetically
-distributed in space. Nevertheless, he regards these sciences
-as not separable; because the second derives from the first
-the data whence the law of inter-action is derived. But the
-truth of this premiss, and the legitimacy of this inference,
-may alike be questioned. The discovery of the law of
-inter-action was not due primarily, but only secondarily, to
-observation of the heavenly bodies. The conception of an
-inter-acting force that varies inversely as the square of the
-distance, is an <i>à priori</i> conception rationally deducible from
-mechanical and geometrical considerations. Though unlike
-in derivation to the many empirical hypotheses of Kepler
-respecting planetary orbits and planetary motions, yet it
-was <span class="xxpn" id="p115">{115}</span>
-like the successful among these in its relation to astronomical
-phenomena: it was one of many possible hypotheses, which
-admitted of having their consequences worked out and
-tested; and one which, on having its implications compared
-with the results of observation, was found to explain them.
-In short, the theory of gravitation grew out of experiences
-of terrestrial phenomena; but the verification of it was
-reached through experiences of celestial phenomena. Passing
-now from premiss to inference, I do not see that, even
-were the alleged parentage substantiated, it would necessitate
-the supposed inseparability; any more than the descent of
-Geometry from land-measuring necessitates a persistent
-union of the two. In the case of Algebra, as above indicated,
-the disclosed laws of quantitative relations hold
-throughout multitudinous orders of phenomena that are
-extremely heterogeneous; and this makes conspicuous the
-distinction between the theory and its applications. Here
-the laws of quantitative relations among masses, distances,
-velocities, and momenta, being applied mainly (though not
-exclusively) to the concrete cases presented by Astronomy,
-the distinction between the theory and its applications is less
-conspicuous. But, intrinsically, it is as great in the one
-case as in the other.</p>
-
-<p>How great it is, we shall see on taking an analogy.
-This is a living man, of whom we may know little more
-than that he is a visible, tangible person; or of whom
-we may know enough to form a voluminous biography.
-Again, this book tells of a fictitious hero, who, like the
-heroes of old romance, may be an impersonated virtue or
-vice, or, like a modern hero, one of mixed nature, whose
-various motives and consequent actions are elaborated into
-a semblance of reality. But no accuracy and completeness
-of the picture makes this fictitious personage an actual
-personage, or brings him any nearer to one. Nor does
-any meagreness in our knowledge of a real man reduce
-him any nearer to the imaginary being of a novel. To
-the <span class="xxpn" id="p116">{116}</span>
-last, the division between fiction and biography remains an
-impassable gulf. So, too, remains the division between
-the Science dealing with the inter-actions of hypothetical
-bodies in space, and the Science dealing with the inter-actions
-of existing bodies in space. We may elaborate
-the first to any degree whatever by the introduction of
-three, four, or any greater number of factors under any
-number of assumed conditions, until we symbolize a solar
-system; but to the last an account of our symbolic solar
-system is as far from an account of the actual solar system
-as fiction is from biography.</p>
-
-<p>Even more obvious, if it be possible, does the radical
-character of this distinction become, on observing that
-from the simplest proposition of General Mechanics we
-may pass to the most complex proposition of Celestial
-Mechanics, without a break. We take a body moving at a
-uniform velocity, and commence with the proposition that
-it will continue so to move for ever. Next, we state the
-law of its accelerated motion in the same line, when subject
-to a uniform force. We further complicate the proposition
-by supposing the force to increase in consequence
-of approach towards an attracting body; and we may
-formulate a series of laws of acceleration, resulting from so
-many assumed laws of increasing attraction (of which the
-law of gravitation is one). Another factor may now be
-added by supposing the body to have motion in a direction
-other than that of the attracting body; and we may
-determine, according to the ratios of the supposed forces,
-whether its course will be hyperbolic, parabolic, elliptical,
-or circular—we may begin with this hypothetical additional
-force as infinitesimal, and formulate the varying results as
-it is little by little increased. The problem is complicated
-a degree more by taking into account the effects of a third
-force, acting in some other direction; and beginning with
-an infinitesimal amount of this force we may reach any
-amount. Similarly, by introducing factor after
-factor, <span class="xxpn" id="p117">{117}</span>
-each at first insensible in proportion to the rest, we arrive,
-through an infinity of gradations, at a combination of
-any complexity.</p>
-
-<p>Thus, then, the Science which deals with the inter-action
-of hypothetical bodies in space, is <i>absolutely continuous</i>
-with General Mechanics. We have already seen that it is
-<i>absolutely discontinuous</i> with that account of the heavenly
-bodies which has been called Astronomy from the beginning.
-When these facts are recognized, it seems to me
-that there cannot remain a doubt respecting its true place
-in a clas­si­fi­ca­tion of the Sciences.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTES TO <i>THE
-CLASSIFICATION OF THE SCIENCES.</i>.</h3></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch2" id="fn2">2</a>
-I have been charged with misrepresenting Kant and mis­un­der­stand­ing
-him, because I have used the expression “forms of Thought” instead of
-“forms of Intuition.” Elsewhere I have shown that my argument against
-him remains equally valid when the phrase “forms of Intuition” is used. Here
-I may in the first place add that I did but follow some Kantists in saying
-“forms of Thought,” and I may add in the second place that the objection
-is superficial and quite irrelevant to the issue. Thought when broadly used
-as antithetical to Things includes Intuition: it comprehends in this sense all
-that is subjective as distinguished from all that is objective, and in so doing
-comprehends Intuition. Nor is this all. There cannot be Intuition without
-Thought: every act of intuition implies an act of classing without which the
-thing intuited is not known as such or such; and every act of classing is an
-act of thought.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch3" id="fn3">3</a>
-Some propositions laid down by M. Littré, in his book—<i>Auguste Comte et
-la Philosophie Positive</i> (published in 1863), may fitly be dealt with here. In
-the candid and courteous reply he makes to my strictures on the Comtean
-clas­si­fi­ca­tion in “The Genesis of Science,” he endeavours to clear up some of
-the inconsistencies I pointed out; and he does this by drawing a distinction
-between objective generality and subjective generality. He says—“qu’il
-existe deux ordres de généralité, l’une objective et dans les choses, l’autre
-subjective, abstraite et dans l’esprit.” This sentence, in which M. Littré
-makes subjective generality synonymous with abstractness, led me at first to
-conclude that he had in view the same distinction as that which I have above
-explained between generality and abstractness. On re-reading the paragraph,
-however, I found this was not the case. In a previous sentence he says—“La
-biologie a passé de la considération des organes à celles des
-tissus, plus généraux que les organes, et de la considération
-des tissus à celle des éléments anatomiques, plus généraux que les
-tissus. Mais cette généralité croissante est subjective non objective,
-abstraite non concrète.” Here it is manifest that abstract and
-concrete, are used in senses analogous to those in which they are
-used by M. Comte; who, as we have seen, regards general physiology as
-abstract and zoology and botany as concrete. And it is further manifest
-that the word abstract, as thus used, is not used in its proper sense.
-For, as above shown, no such facts as those of anatomical structure
-can be abstract facts; but can only be more or less general facts. Nor
-do I understand M. Littré’s point of view when he regards these more
-general facts of anatomical structure, as <i>subjectively</i> general and
-not <i>objectively</i> general. The structural phenomena presented by any
-tissue, such as mucous membrane, are more general than the phenomena
-presented by any of the organs which mucous membrane goes to form,
-simply in the sense that the phenomena peculiar to the membrane are
-repeated in a greater number of instances than the phenomena peculiar
-to any organ into the composition of which the membrane enters.
-And, similarly, such facts as have been established respecting the
-anatomical elements of tissues, are more general than the facts
-established respecting any particular tissue, in the sense that they
-are facts which the various parts of organized bodies exhibit in a
-greater number of cases—they are <i>objectively</i> more general; and they
-can be called <i>subjectively</i> more general only in the sense that the
-conception corresponds with the phenomena.</p>
-
-<p>Let me endeavour to clear up this point:—There is, as M. Littré
-truly says, a decreasing generality that is objective. If we omit the
-phenomena of Dissolution, which are changes from the special to the
-general, all changes which matter undergoes are from the general to the
-special—are changes involving a decreasing generality in the united
-groups of attributes. This is the progress of <i>things</i>. The progress of
-<i>thought</i>, is not only in the same direction, but also in the opposite
-direction. The investigation of Nature discloses an increasing number of specialities; but it simultaneously
-discloses more and more the generalities within which these
-specialities fall. Take a case. Zoology, while it goes on multiplying
-the number of its species, and getting a more complete knowledge of
-each species (decreasing generality); also goes on discovering the
-common characters by which species are united into larger groups
-(increasing generality). Both these are subjective processes; and in
-this case, both orders of truth reached are concrete—formulate the
-phenomena as actually manifested. The truth that mammals of all kinds
-have seven cervical vertebræ (I believe there is one exception) is a
-generalization—a general relation in thought answering to a general
-relation in things. As the existence of seven cervical vertebræ in each
-mammal is a concrete fact, the statement of it is a concrete truth, and
-the statement colligating such truths is not made other than concrete
-by holding of case after case.</p>
-
-<p>M. Littré, recognizing the necessity for some modification of the
-hierarchy of the Sciences, as enunciated by M. Comte, still regards it
-as substantially true; and for proof of its validity, he appeals mainly
-to the essential <i>constitutions</i> of the Sciences. It is unnecessary
-for me here to meet, in detail, the arguments by which he supports
-the proposition, that the essential constitutions of the Sciences,
-justify the order in which M. Comte places them. It will suffice to
-refer to the foregoing pages, and to the pages which are to follow, as
-containing the definitions of those fundamental char­ac­ter­is­tics which
-demand the grouping of the Sciences in the way I have pointed out. As
-already shown, and as will be shown still more clearly by and bye,
-the radical differences of constitution among the Sciences,
-necessitate the colligation of them into the three classes—Abstract,
-Ab­stract-Con­crete, and Concrete. How irreconcilable is M. Comte’s
-clas­si­fi­ca­tion with these groups, will be at once apparent on
-inspection. It stands <span class="nowrap">thus:―</span></p>
-
-<ul class="ulin1">
-<li>Mathematics (including rational Mechanics), . . . partly Abstract, partly Ab­stract-Con­crete.</li>
-<li>Astronomy . . . Concrete.</li>
-<li>Physics . . . Ab­stract-Con­crete.</li>
-<li>Chemistry . . . Ab­stract-Con­crete.</li>
-<li>Biology . . . Concrete.</li>
-<li>Sociology . . . Concrete.</li>
-</ul>
-
-</div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch4" id="fn4">4</a>
-This definition includes the laws of relations called
-necessary, but not those of relations called contingent. These last, in
-which the probability of an inferred connexion varies with the number
-of times such connexion has occurred in experience, are rightly dealt
-with mathematically.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch5" id="fn5">5</a>
-Here, by way of explanation of the term
-neg­a­tive­ly-quan­ti­ta­tive, it will suffice to instance the
-proposition that certain three lines will meet in a point, as a
-neg­a­tive­ly-quan­ti­ta­tive proposition; since it asserts the absence of
-any quantity of space between their intersections. Similarly, the
-assertion that certain three points will always fall in a straight
-line, is neg­a­tive­ly-quan­ti­ta­tive; since the conception of a straight
-line implies the negation of any lateral quantity, or deviation.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch6" id="fn6">6</a>
-Lest the meaning of this division should not be
-understood, it may be well to name, in illustration, the estimates
-of the statistician. Calculations respecting population, crime,
-disease, etc., have results which are correct only numerically, and
-not in respect of the totalities of being or action represented by the
-numbers.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch7" id="fn7">7</a>
-Perhaps it will be asked—how can there be a Geometry of
-Motion into which the conception of Force does not enter? The reply is,
-that the time-relations and space-re­la­tions of Motion may be considered
-apart from those of Force, in the same way that the space-re­la­tions of
-Matter may be considered apart from Matter.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch8" id="fn8">8</a>
-I am indebted to Prof. Frankland for reminding me of an
-objection that may be made to this statement. The production of new
-compounds by synthesis, has of late become an important branch of
-chemistry. According to certain known laws of composition, complex
-substances, which never before existed, are formed, and fulfil
-anticipations both as to their general properties and as to the
-proportions of their constituents—as proved by analysis. Here it
-may be said with truth, that analysis is used to verify synthesis.
-Nevertheless, the exception to the above statement is apparent
-only,—not real. In so far as the production of new compounds is
-carried on merely for the obtainment of such new compounds, it is
-not Science but Art—the application of pre-established knowledge to
-the achievement of ends. The proceeding is a part of Science, only
-in so far as it is a means to the better interpretation of the order
-of Nature. And how does it aid the interpretation? It does it only
-by verifying the pre-established conclusions respecting the laws of
-molecular combination; or by serving further to explain them. That is
-to say, these syntheses, considered on their scientific side, have
-simply the purpose of <i>forwarding the analysis of the laws of chemical
-combination</i>.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch9" id="fn9">9</a>
-This must not be supposed to mean chem­i­cal­ly-pro­duced
-forces. The molecular motion here referred to as dissipated in
-radiations, is the equivalent of that sensible motion lost during
-the integration of the mass of molecules, consequent on their mutual
-gravitation.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch10" id="fn10">10</a>
-Embracing the interpretation of such phenomena as the
-solar spots, the faculæ and the coronal flames.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch11" id="fn11">11</a>
-Want of space prevents anything beyond the briefest
-indication of these subdivisions.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch12" id="fn12">12</a>
-Perhaps some will say that such incidental phenomena as
-those of the heat and light evolved during chemical changes, are to be
-included among chemical phenomena. I think, however, the physicist will
-hold that all phenomena of re-distributed molecular motion, no matter
-how arising, come within the range of Physics. But whatever difficulty
-there may be in drawing the line between Physics and Chemistry (and,
-as I have incidentally pointed out in <i>The Principles of Psychology</i>,
-§ 55, the two are closely linked by the phenomena of allotropy and
-isomerism), applies equally to the Comtean clas­si­fi­ca­tion, or to any
-other. And I may further point out that no obstacle hence arises to the
-clas­si­fi­ca­tion I am defending. Physics and Chemistry being both grouped
-by me as Ab­stract-Con­crete Sciences, no difficulty in satisfactorily
-dividing them in the least affects the sa­tis­fac­tor­i­ness of the division
-of the great group to which they both belong, from the other two great
-groups.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch13" id="fn13">13</a>
-It may be said that
-the mingling of problems and theorems in Euclid is
-not quite consistent with this statement; and it is true that we have, in this
-mingling, a trace of the earlier form of the science. But it is to be remarked
-that these problems are all purely abstract, and, further, that each of them
-admits of being expressed as a
-theorem.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p118">REASONS
-FOR DISSENTING FROM THE PHILOSOPHY
-OF M. COMTE.</h2>
-
-<p class="pchappre">[<i>Originally published in April 1864 as an
-appendix to the foregoing essay.</i>]</p></div>
-
-<p>While the preceding pages were passing through the
-press, there appeared in the <i>Revue des Deux Mondes</i> for
-February 15th, 1864, an article on a late work of mine—<i>First
-Principles</i>. To M. Auguste Laugel, the writer of the
-article, I am much indebted for the careful exposition he
-has made of some of the leading views set forth in that
-work; and for the catholic and sympathetic spirit in
-which he has dealt with them. In one respect, however,
-M. Laugel conveys to his readers an erroneous impression—an
-impression doubtless derived from what appears to him
-adequate evidence, and doubtless expressed in perfect
-sincerity. M. Laugel describes me as being, in part, a
-follower of M. Comte. After describing the influence of
-M. Comte as traceable in the works of some other English
-writers, naming especially Mr. Mill and Mr. Buckle, he
-goes on to say that this influence, though not avowed, is
-easily recognizable in the work he is about to make known;
-and in several places throughout his review, there are
-remarks having the same implication. I greatly regret
-having to take exception to anything said by a critic so
-candid and so able. But the <i>Revue des Deux
-Mondes</i> <span class="xxpn" id="p119">{119}</span>
-circulates widely in England, as well as elsewhere; and
-finding that there exists in some minds, both here and
-in America, an impression similar to that entertained by
-M. Laugel—an impression likely to be confirmed by his
-statement—it appears to me needful to meet it.</p>
-
-<p>Two causes of quite different kinds, have conspired to
-diffuse the erroneous belief that M. Comte is an accepted
-exponent of scientific opinion. His bitterest foes and his
-closest friends, have un­con­scious­ly joined in propagating
-it. On the one hand, M. Comte having designated by the
-term “Positive Philosophy” all that de­fi­nite­ly-es­tab­lished
-knowledge which men of science have been gradually
-organizing into a coherent body of doctrine; and having
-habitually placed this in opposition to the incoherent body
-of doctrine defended by theologians; it has become the
-habit of the theological party to think of the antagonist
-scientific party, under the title of “positivists.” And thus,
-from the habit of calling them “positivists,” there has
-grown up the assumption that they call themselves “positivists,”
-and that they are disciples of M. Comte. On the
-other hand, those who have accepted M. Comte’s system,
-and believe it to be the philosophy of the future, have
-naturally been prone to see everywhere the signs of its
-progress; and wherever they have found opinions in
-harmony with it, have ascribed these opinions to the
-influence of its originator. It is always the tendency of
-discipleship to magnify the effects of the master’s teachings;
-and to credit the master with all the doctrines he
-teaches. In the minds of his followers, M. Comte’s name
-is associated with scientific thinking, which, in many cases,
-they first understood from his exposition of it. Influenced
-as they inevitably are by this association of ideas, they are
-reminded of M. Comte wherever they meet with thinking
-which corresponds, in some marked way, to M. Comte’s
-description of scientific thinking; and hence are apt to
-imagine him as introducing into other
-minds, the <span class="xxpn" id="p120">{120}</span>
-conceptions which he introduced into their minds. Such impressions
-are, however, in most cases quite unwarranted. That
-M. Comte has given a general exposition of the doctrine
-and method elaborated by Science, is true. But it is not
-true that the holders of this doctrine and followers of this
-method, are disciples of M. Comte. Neither their modes of
-inquiry nor their views concerning human knowledge in its
-nature and limits, are appreciably different from what they
-were before. If they are “positivists,” it is in the sense
-that all men of science have been more or less consistently
-“positivists;” and the applicability of M. Comte’s title to
-them, no more makes them his disciples, than does its
-applicability to men of science who lived and died before
-M. Comte wrote, make these his disciples. M. Comte
-himself by no means claims that which some of his
-adherents are apt, by implication, to claim for him. He
-says:—“Il y a, sans doute, beaucoup d’analogie entre ma
-<i>philosophie positive</i> et ce que les savans anglais entendent,
-depuis Newton surtout, par <i>philosophie naturelle</i>;” (see
-<i>Avertissement</i>) and further on he indicates the “grand
-mouvement imprimé à l’esprit humain, il y a deux siècles,
-par l’action combinée des préceptes de Bacon, des conceptions
-de Descartes, et des découvertes de Galilée, comme le
-moment où l’esprit de la philosophie positive a commencé
-à se prononcer dans le monde.” That is to say, the
-general mode of thought and way of interpreting phenomena,
-which M. Comte calls “Positive Philosophy,” he
-recognizes as having been growing for two centuries; as
-having reached, when he wrote, a marked development;
-and as being the heritage of all men of science.</p>
-
-<p>That which M. Comte proposed to do, was to give
-scientific thought and method a more definite embodiment
-and organization; and to apply it to the interpretation of
-classes of phenomena not previously dealt with in a
-scientific manner. The conception was a great one; and
-the endeavour to work it out was worthy of sympathy
-and <span class="xxpn" id="p121">{121}</span>
-applause. Some such conception was entertained by Bacon.
-He, too, aimed at the organization of the sciences; he, too,
-held that “Physics is the mother of all the sciences;” he,
-too, held that the sciences can be advanced only by combining
-them, and saw the nature of the required combination;
-he, too, held that moral and civil philosophy could not
-flourish when separated from their roots in natural philosophy;
-and thus he, too, had some idea of a social science
-growing out of physical science. But the state of knowledge
-in his day prevented any advance beyond the general
-conception: indeed, it was marvellous that he should have
-advanced so far. Instead of a vague, undefined conception,
-M. Comte has presented the world with a defined and
-highly-elaborated conception. In working out this conception
-he has shown remarkable breadth of view, great
-originality, immense fertility of thought, unusual powers of
-generalization. Considered apart from the question of its
-truth, his system of Positive Philosophy is a vast achievement.
-But after according to M. Comte high admiration
-for his conception, for his effort to realize it, and for the
-faculty he has shown in the effort to realize it, there
-remains the inquiry—Has he succeeded? A thinker who
-re-organizes the scientific method and knowledge of his
-age, and whose re-organization is accepted by his successors,
-may rightly be said to have such successors for his disciples.
-But successors who accept this method and knowledge
-of his age, <i>minus</i> his re-organization, are certainly
-not his disciples. How then stands the case with M.
-Comte? There are some few who receive his doctrines
-with but little reservation; and these are his disciples
-truly so called. There are others who regard with
-approval certain of his leading doctrines, but not the rest:
-these we may distinguish as partial adherents. There are
-others who reject all his distinctive doctrines; and these
-must be classed as his antagonists. The members of this
-class stand substantially in the same position as they
-would <span class="xxpn" id="p122">{122}</span>
-have done had he not written. Declining his re-organization
-of scientific doctrine, they possess this scientific
-doctrine in its pre-existing state, as the common heritage
-bequeathed by the past to the present; and their adhesion
-to this scientific doctrine in no sense implicates them with
-M. Comte. In this class stand the great body of men of
-science. And in this class I stand myself.</p>
-
-<p class="section">Coming thus to the personal part of the question, let me
-first specify those great general principles on which M.
-Comte is at one with preceding thinkers; and on which I
-am at one with M. Comte.</p>
-
-<p>All knowledge is from experience, holds M. Comte; and
-this I also hold—hold it, indeed, in a wider sense than
-M. Comte; since, not only do I believe that all the ideas
-acquired by individuals, and consequently all the ideas
-transmitted by past generations, are thus derived; but I
-also contend that the very faculties by which they are
-acquired, are the products of accumulated and organized
-experiences received by ancestral races of beings (see
-<i>Principles of Psychology</i>). But the doctrine that all knowledge
-is from experience, is not originated by M. Comte;
-nor is it claimed by him. He himself says—“Tous les bons
-esprits répètent, depuis Bacon, qu’il n’y a de connaissances
-réelles que celles qui reposent sur des faits observés.” And
-the elaboration and definite establishment of this doctrine,
-has been the special characteristic of the English school of
-Psychology. Nor am I aware that M. Comte, accepting
-this doctrine, has done anything to make it more certain,
-or give it greater definiteness. Indeed it was impossible
-for him to do so; since he repudiates that part of mental
-science by which alone this doctrine can be proved.</p>
-
-<p>It is a further belief of M. Comte, that all knowledge is
-phenomenal or relative; and in this belief I entirely agree.
-But no one alleges that the relativity of all knowledge was
-first enunciated by M. Comte. Among others who
-have <span class="xxpn" id="p123">{123}</span>
-more or less consistently held this truth, Sir William
-Hamilton enumerates, Protagoras, Aristotle, St. Augustin,
-Boethius, Averroes, Albertus Magnus, Gerson, Leo Hebræus,
-Melancthon, Scaliger, Francis Piccolomini, Giordano
-Bruno, Campanella, Bacon, Spinoza, Newton, Kant. And
-Sir William Hamilton, in his “Philosophy of the Unconditioned,”
-first published in 1829, has given a scientific
-demonstration of this belief. Receiving it in common with
-other thinkers, from preceding thinkers, M. Comte has not,
-to my knowledge, advanced this belief. Nor indeed could
-he advance it, for the reason already given—he denies the
-possibility of that analysis of thought which discloses the
-relativity of all cognition.</p>
-
-<p>M. Comte reprobates the interpretation of different
-classes of phenomena by assigning metaphysical entities as
-their causes; and I coincide in the opinion that the assumption
-of such separate entities, though convenient, if not
-indeed necessary, for purposes of thought, is, scientifically
-considered, illegitimate. This opinion is, in fact, a corollary
-from the last; and must stand or fall with it. But like the
-last it has been held with more or less consistency for
-generations. M. Comte himself quotes Newton’s favorite
-saying—“O! Physics, beware of Metaphysics!” Neither
-to this doctrine, any more than to the preceding doctrines,
-has M. Comte given a firmer basis. He has simply reasserted
-it; and it was out of the question for him to do
-more. In this case, as in the others, his denial of subjective
-psychology debarred him from proving that these
-metaphysical entities are mere symbolic conceptions which
-do not admit of verification.</p>
-
-<p>Lastly, M. Comte believes in invariable natural laws—absolute
-uniformities of relation among phenomena. But
-very many before him have believed in them too. Long
-familiar even beyond the bounds of the scientific world, the
-proposition that there is an unchanging order in things,
-has, within the scientific world, held, for generations,
-the <span class="xxpn" id="p124">{124}</span>
-position of an established postulate: by some men of
-science recognized only as holding of inorganic phenomena;
-but recognized by other men of science, as universal. And
-M. Comte, accepting this doctrine from the past, has left it
-substantially as it was. Though he has asserted new uniformities,
-I do not think scientific men will admit that he
-has so demonstrated them, as to make the induction more
-certain; nor has he deductively established the doctrine,
-by showing that uniformity of relation is a necessary
-corollary from the persistence of force, as may readily
-be shown.</p>
-
-<p>These, then, are the pre-established general truths with
-which M. Comte sets out—truths which cannot be regarded
-as distinctive of his philosophy. “But why,” it will perhaps
-be asked, “is it needful to point out this; seeing that
-no instructed reader supposes these truths to be peculiar to
-M. Comte?” I reply that though no disciple of M. Comte
-would deliberately claim them for him; and though no
-theological antagonist at all familiar with science and
-philosophy, supposes M. Comte to be the first propounder of
-them; yet there is so strong a tendency to associate any
-doctrines with the name of a conspicuous recent exponent
-of them, that false impressions are produced, even in spite
-of better knowledge. Of the need for making this reclamation,
-definite proof is at hand. In the No. of the <i>Revue
-des Deux Mondes</i> named at the commencement, may be
-found, on p. 936, the words—“Toute religion, comme toute
-philosophie, a la prétention de donner une explication
-de l’univers. La philosophie qui s’appelle <i>positive</i> se
-distingue de toutes les philosophies et de toutes les religions
-en ce qu’elle a renoncé à cette ambition de l’esprit
-humain;” and the remainder of the paragraph is devoted
-to explaining the doctrine of the relativity of knowledge.
-The next paragraph begins—“Tout imbu de ces idées, que
-nous exposons sans les discuter pour le moment, M. Spencer
-divise, etc.” Now this is one of those collocations of
-ideas <span class="xxpn" id="p125">{125}</span>
-which tends to create, or to strengthen, the erroneous
-impression I would dissipate. I do not for a moment suppose
-that M. Laugel intended to say that these ideas which
-he describes as ideas of the “Positive Philosophy,” are
-peculiarly the ideas of M. Comte. But little as he probably
-intended it, his expressions suggest this conception. In
-the minds of both disciples and antagonists, “the Positive
-Philosophy” means the philosophy of M. Comte; and to be
-imbued with the ideas of “the Positive Philosophy” means
-to be imbued with the ideas of M. Comte—to have received
-these ideas from M. Comte. After what has been said
-above, I need scarcely repeat that the conception thus
-inadvertently suggested, is a wrong one. M. Comte’s brief
-enunciations of these general truths, gave me no clearer
-apprehensions of them than I had before. Such clarifications
-of ideas on these ultimate questions, as I can trace to
-any particular teacher, I owe to Sir William Hamilton.</p>
-
-<p class="section">From the principles which M. Comte held in common
-with many preceding and contemporary thinkers, let us
-pass now to the principles that are distinctive of his system.
-Just as entirely as I agree with M. Comte on those cardinal
-doctrines which we jointly inherit; so entirely do I disagree
-with him on those cardinal doctrines which he propounds,
-and which determine the organization of his philosophy.
-The best way of showing this will be to compare, side by
-side, <span class="nowrap">the―</span></p>
-
-<blockquote class="blktight padtopc">
-<table summary="Propositions of M. Comte and Spencer compared">
-<colgroup><col width="42%" /><col width="58%" /></colgroup>
-<tr>
-<th><i>Propositions held by M. Comte.</i></th>
-<th><i>Propositions which I hold.</i></th></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">“.&#160;.&#160;. chacune de nos con­cep­tions prin­ci­pales, chaque
-branche de nos con­nais­sances, passe suc­ces­sive­ment par trois
-états théoriques différens: l’état théologique, ou fictif; l’état
-métaphysique, ou abstrait; l’état scientifique, ou positif.
-En d’autres termes, l’esprit humain, par sa nature, emploie
-successivement dans chacune de ses recherches trois méthodes de
-philosopher, dont le caractère est es­sen­tiel­le­ment différent et
-même radicalement opposé: d’abord la méthode théologique, ensuite
-la méthode méta­phys­ique, et enfin la méthode positive.” <i>Cours de</i>
-<i>Philosophie Positive</i>, 1830, Vol. i. p. 3.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">The progress of our conceptions, and of each branch of knowledge,
-is from be­gin­ning to end intrinsically alike. There are not three
-methods of phi­lo­so­phiz­ing radically opposed; but one method of
-phi­los­o­phiz­ing which remains, in essence, the same. At first, and to
-the last, the conceived causal agencies of phenomena, have a degree
-of generality corresponding <span class="xxpn" id="p126">{126}</span>
-to the width of the gen­er­al­i­za­tions which experiences have
-determined; and they change just as gradually as experiences
-accumulate. The integration of causal agencies, originally thought
-of as mul­ti­tud­i­nous and local, but finally believed to be one and
-universal, is a process which involves the passing through all
-intermediate steps between these extremes; and any appearance of
-stages can be but superficial. Supposed concrete and individual
-causal agencies, coalesce in the mind as fast as groups of phenomena
-are assimilated, or seen to be similarly caused. Along with their
-coalescence, comes a greater extension of their individualities,
-and a concomitant loss of distinctness in their individualities.
-Gradually, by continuance of such coalescences, causal agencies
-become, in thought, diffused and indefinite. And eventually,
-without any change in the nature of the process, there is reached
-the con­scious­ness of a universal causal agency, which cannot be
-conceived.<a class="afnanch" href="#fn14" id="fnanch14">14</a></p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">“Le système théologique est parvenu à la plus haute perfection dont
-il soit susceptible, quand il a substitué l’action providentielle
-d’un être unique au jeu varié des nombreuses divinités indépendantes
-qui avaient été imaginées primitivement. De même, le dernier terme du
-système metaphysique consiste à concevoir, au lieu des différentes
-entités particulières, une seule grande entité générale, la
-<i>nature</i>, envisagée comme la source unique de tous les phénomènes.
-Pareillement, la perfection du système positif, vers laquelle il
-tend sans cesse, quoiqu’il soit très-probable qu’il ne doive jamais
-l’atteindre, serait de pouvoir se représenter tous les divers
-phénomènes observables comme des cas particuliers d’un seul fait
-général, tel que celui de la gravitation, par exemple.” p. 5.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">As the progress of thought is one, so is the end one. There are not
-three possible terminal conceptions; but only a single terminal
-conception. When the theological idea of the providential action
-of one being, is developed to its ultimate form, by the absorption
-of all independent secondary agencies, it becomes the conception
-of a being immanent in all phenomena; and the reduction of it to
-this <span class="xxpn" id="p127">{127}</span> state, implies the
-fading-away, in thought, of all those anthropomorphic attributes by
-which the aboriginal idea was distinguished. The alleged last term
-of the metaphysical system—the conception of a single great general
-entity, <i>nature</i>, as the source of all phenomena—is a conception
-identical with the previous one: the con­scious­ness of a single source
-which, in coming to be regarded as universal, ceases to be regarded
-as conceivable, differs in nothing but name from the con­scious­ness
-of one being, manifested in all phenomena. And similarly, that which
-is described as the ideal state of science—the power to represent
-all observable phenomena as particular cases of a single general
-fact, implies the postulating of some ultimate existence of which
-this single fact is alleged; and the postulating of this ultimate
-existence, involves a state of con­scious­ness in­dis­tin­guish­able from
-the other two.</p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">“.&#160;.&#160;. la perfection du système positif, vers laquelle
-il tend sans cesse, quoiqu’il soit très-probable, qu’il ne doive
-jamais l’atteindre, serait de pouvoir se représenter tous les divers
-phénomènes observables comme des cas particuliers d’un seul fait
-general, p. 5.&#160;.&#160;.&#160;.&#160;.&#160;. considérant comme
-absolument inaccessible, et vide de sens pour nous la recherche de
-ce qu’on appelle les <i>causes</i>, soit premières, soit finales.” p. 14.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">Though along with the extension of gen­er­al­i­za­tions, and concomitant
-integration of conceived causal agencies, the conceptions of causal
-agencies grow more indefinite; and though as they gradually coalesce
-into a universal causal agency, they cease to be representable in
-thought, and are no longer supposed to be comprehensible; yet the
-con­scious­ness of <i>cause</i> remains as dominant to the last as it was at
-first; and can never be got rid of. The con­scious­ness of cause can be
-abolished only by abolishing con­scious­ness itself.<a class="afnanch"
-href="#fn15" id="fnanch15">15</a> (<i>First Principles</i>, § 26.) <span
-class="xxpn" id="p128">{128}</span></p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">“Ce n’est pas aux lecteurs de cet ouvrage que je croirai jamais
-devoir prouver que les idées gouvernent et bouleversent le monde, ou,
-en d’autres termes, que tout le mécanisme social repose finalement
-sur des opinions. Ils savent surtout que la grande crise politique
-et morale des sociétés actuelles tient, en dernière analyse, à
-l’anarchie intellectuelle.” p. 48.<a class="afnanch" href="#fn16"
-id="fnanch16">16</a></p></td>
- <td class="tdtxt-r">
-   <p class="pleft">Ideas do not govern and overthrow the world: the world is governed
-or overthrown by feelings, to which ideas serve only as guides. The
-social mechanism does not rest finally on opinions; but almost wholly
-on character. Not intellectual anarchy, but moral antagonism, is the
-cause of political crises. All social phenomena are produced by the
-totality of human emotions and beliefs; of which the emotions are
-mainly pre-determined, while the beliefs are mainly post-determined.
-Men’s desires are chiefly inherited; but their beliefs are chiefly
-acquired, and depend on surrounding conditions; and the most
-important surrounding conditions depend on the social state which
-the prevalent desires have produced. The social state at any time
-existing, is the resultant of all the ambitions, self-interests,
-fears, reverences, indignations, sympathies, etc., of ancestral
-citizens and existing citizens. The ideas current in this social
-state, must, on the average, be congruous with the feelings of
-citizens; and therefore, on the average, with the social state these
-feelings have produced. Ideas wholly foreign to this social state
-<span class="xxpn" id="p129">{129}</span> cannot be evolved, and if
-introduced from without, cannot get accepted—or, if accepted, die out
-when the temporary phase of feeling which caused their acceptance,
-ends. Hence, though advanced ideas when once established, act on
-society and aid its further advance; yet the establishment of such
-ideas depends on the fitness of the society for receiving them.
-Practically, the popular character and the social state, determine
-what ideas shall be current; instead of the current ideas determining
-the social state and the character. The modification of men’s moral
-natures, caused by the continuous discipline of social life, which
-adapts them more and more to social relations, is therefore the chief
-proximate cause of social progress.
-(<i>Social</i> <i>Statics</i>, chap. xxx.)</p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">“.&#160;.&#160;. je ne dois pas négliger d’indiquer d’avance, comme
-une propriété essentielle de l’échelle encyclopédique que je vais
-proposer, sa conformité générale avec l’ensemble de l’histoire
-scientifique; en ce sens, que, malgré la simultanéité réelle et
-continue du développement des différentes sciences, celles qui seront
-classées comme antérieures seront, en effet, plus anciennes et
-constamment plus avancées que celles présentées comme postérieures.”
-p. 84. . .  . . . . . . “Cet ordre est déterminé par le degré de
-simplicité, ou, ce qui revient au même, par le degré de généralité
-des phénomènes.” p. 87.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">The order in which the gen­er­al­i­za­tions of science are established, is
-determined by the frequency and impressiveness with which different
-classes of relations are repeated in conscious experience; and this
-depends, partly on <i>the directness</i> <i>with which personal welfare</i>
-<i>is affected</i>; partly on <i>the</i> <i>con­spic­u­ous­ness of one or both the</i>
-<i>phenomena between which a relation</i> <i>is to be perceived</i>; partly on
-<i>the absolute frequency with which</i> <i>the relations occur</i>; partly on
-their <i>relative frequency of</i> <i>occurrence</i>; partly on their <i>degree
-of simplicity</i>; and partly on their <i>degree of abstractness</i>. (<i>First
-Principles</i>, 1st ed., § 36; or otherwise see “<i>Essay on</i> <i>Laws in
-General and the Order of</i> <i>their Discovery</i>.”)</p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">“En résultat définitif, la mathématique, l’astronomie, la physique,
-la chimie, la physiologie, et la physique sociale; telle est
-la formule encyclopédique qui, parmi le très-grand nombre de
-clas­si­fi­ca­tions que comportent les six sciences fondamentales, est
-seule logiquement conforme à la hiérarchie naturelle et invariable
-des phénomènes.”<a class="afnanch" href="#fn17" id="fnanch17">17</a>
-p. 115.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">The sciences as arranged in this succession specified by M. Comte,
-<i>do not</i> logically conform to the natural and invariable hierarchy of
-phenomena; and <span class="xxpn" id="p130">{130}</span> there is no
-serial order whatever in which they can be placed, which represents
-either their logical dependence or the dependence of phenomena. (See
-<i>Genesis of Science</i>, and foregoing Essay.)</p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">“On conçoit, en effet, que l’étude rationelle de chaque science
-fondamentale exigeant la culture préalable de toutes celles qui la
-précèdent dans notre hiérarchie encyclopédique, n’a pu faire de
-progrès réels et prendre son véritable caractère, qu’ après un grand
-développement des sciences antérieures relatives à des phénomènes
-plus généraux, plus abstraits, moins compliqués, et indépendans
-des autres. C’est done dans cet ordre que la progression, quoique
-simultanée, a dû avoir lieu.” p. 100.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">The historical development of the sciences <i>has not</i> taken place
-in this serial order; nor in any other serial order. There is no
-“true <i>filiation</i> of the sciences.” From the beginning, the abstract
-sciences, the ab­stract-con­crete sciences, and the concrete sciences,
-have progressed together: the first solving problems which the
-second and third presented, and growing only by the solution of the
-problems; and the second similarly growing by joining the first
-in solving the problems of the third. All along there has been a
-continuous action and reaction between the three great classes of
-sciences—an advance from concrete facts to abstract facts, and then
-an application of such abstract facts to the analysis of new orders
-of concrete facts. (See <i>Genesis of Science</i>.)</p></td></tr>
-</table>
-</blockquote>
-
-<p>Such then are the organizing principles of M. Comte’s
-philosophy and my reasons for rejecting them. Leaving
-out of his “<i>Exposition</i>” those pre-established
-general <span class="xxpn" id="p131">{131}</span>
-doctrines which are the common property of modern
-thinkers; these are the general doctrines which remain—these
-are the doctrines which fundamentally distinguish
-his system. From every one of them I dissent. To each
-proposition I oppose either a widely-different proposition,
-or a direct negation; and I not only do it now, but have
-done it from the time when I became acquainted with
-his writings. The rejection of his cardinal principles
-should, I think, alone suffice; but there are sundry other
-views of his, some of them largely characterizing his
-system, which I equally reject. Let us glance at them.</p>
-
-<blockquote class="blktight padtopc">
-<table summary="Propositions of M. Comte and Spencer compared">
-<colgroup><col width="42%" /><col width="58%" /></colgroup>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">How organic beings have originated, is an inquiry
-which M. Comte deprecates as a useless speculation:
-asserting, as he does, that species are immutable.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">This inquiry, I believe, admits of answer, and will
-be answered. That division of Biology which concerns
-itself with the origin of species, I hold to be the
-supreme division, to which all others are subsidiary.
-For on the verdict of Biology on this matter, must
-wholly depend our conception of human nature, past,
-present, and future; our theory of the mind; and our
-theory of society.</p></td>
-</tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">M. Comte contends that of what is commonly known as
-mental science, all that most important part which
-consists of the subjective analysis of our ideas, is
-an impossibility.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">I have very emphatically expressed my belief in
-a subjective science of the mind, by writing a
-<i>Principles of Psychology</i>, one half of which is
-subjective.</p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">M. Comte’s ideal of society is one in which
-<i>government</i> developed to the greatest extent—in which
-class-functions are far more under conscious public
-regulation than now—in which hierarchical organization
-with unquestioned authority shall guide everything—in
-which the individual life shall be subordinated in the
-greatest degree to the social life.</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">That form of society towards which we is are
-progressing, I hold to be one in which <i>government</i>
-will be reduced to the smallest amount possible,
-and <i>freedom</i> increased to the greatest amount
-possible—one in which human nature will have become
-so moulded by social discipline into fitness for
-the social state, that it will need little external
-restraint, but will be self-restrained—one in which
-the citizen will tolerate no interference with
-his freedom, save that which maintains the equal
-freedom of others—one in which the spontaneous <span
-class="xxpn" id="p132">{132}</span> co-operation
-which has developed our industrial system, and is now
-developing it with increasing rapidity, will produce
-agencies for the discharge of nearly all social
-functions, and will leave to the primary governmental
-agency nothing beyond the function of maintaining
-those conditions to free action, which make such
-spontaneous co-operation possible—one in which
-individual life will thus be pushed to the greatest
-extent consistent with social life; and in which
-social life will have no other end than to maintain
-the completest sphere for individual life.</p></td></tr>
-<tr>
- <td class="tdtxt-l">
-   <p class="pleft">M. Comte, not including in his philosophy the
-con­scious­ness of a cause manifested to us in all
-phenomena, and yet holding that there must be a
-religion, which must have an object, takes for his
-object—Humanity. “This Collective Life (of Society) is
-in Comte’s system the <i>Être Suprême</i>; the only one we
-can <i>know</i> therefore the only one we can worship.”</p></td>
- <td class="tdtxt-r">
-   <p class="pleft">I conceive, on the other hand, that the object of
-religious sentiment will ever continue to be, that
-which it has ever been—the unknown source of things.
-While the <i>forms</i> under which men are conscious
-of the unknown source of things, may fade away,
-the <i>substance</i> of the con­scious­ness is permanent.
-Beginning with causal agents conceived as imperfectly
-known; progressing to causal agents conceived as
-less known and less knowable; and coming at last to
-a universal causal agent posited as not to be known
-at all; the religious sentiment must ever continue
-to occupy itself with this universal causal agent.
-Having in the course of evolution come to have for
-its object of contemplation the Infinite Unknowable,
-the religious sentiment can never again (unless by
-retrogression) take a Finite Knowable, like Humanity,
-for its object of contemplation.</p></td></tr>
-</table>
-</blockquote>
-
-<p>Here, then, are sundry other points, all of them
-important, and the last two supremely important, on which
-I am diametrically opposed to M. Comte; and did space
-permit, I could add many others. Radically differing
-from him as I thus do, in everything distinctive of his
-philosophy; and having invariably expressed my
-dissent, <span class="xxpn" id="p133">{133}</span>
-publicly and privately, from the time I became acquainted
-with his writings; it may be imagined that I have been
-not a little startled to find myself classed as one of the
-same school. That any who are acquainted with my
-writings, should suppose I have any general sympathy
-with M. Comte, save that implied by preferring proved
-facts to superstitions, astonishes me.</p>
-
-<p>It is true that, disagreeing with M. Comte, though I do,
-in all those fundamental views that are peculiar to him, I
-agree with him in sundry minor views. The doctrine that
-the education of the individual should accord in mode and
-arrangement with the education of mankind, considered
-historically, I have cited from him; and have endeavoured
-to enforce it. I entirely concur in his opinion that there
-requires a new order of scientific men, whose function
-shall be that of co-ordinating the results arrived at by the
-rest. To him, I believe, I am indebted for the conception
-of a social <i>consensus</i>; and when the time comes for dealing
-with this conception, I shall state my indebtedness. And
-I also adopt his word, Sociology. There are, I believe,
-in the part of his writings which I have read, various
-incidental thoughts of great depth and value; and I doubt
-not that were I to read more of his writings, I should
-find others.<a class="afnanch" href="#fn18" id="fnanch18">18</a>
-It is very probable, too, that I have said
-(as I am told I have) some things which M. Comte had
-already said. It would be difficult, I believe, to find two
-men who had no opinions in common. And it would be
-extremely strange if two men, starting from the same
-general doctrines established by modern science, should
-traverse some of the same fields of inquiry, without their
-lines of thought having any points of intersection. But <span class="xxpn" id="p134">{134}</span>
-none of these minor agreements can be of much weight in
-comparison with the fundamental disagreements above
-specified. Leaving out of view that general community
-which we both have with the scientific thought of the age,
-the differences between us are essential, while the correspondences
-are non-essential. And I venture to think that
-kinship must be determined by essentials, and not by
-non-essentials.<a class="afnanch" href="#fn19" id="fnanch19">19</a></p>
-
-<p class="padtopa">Joined
-with the ambiguous use of the phrase “Positive
-Philosophy,” which has led to a classing with M. Comte
-of many men who either ignore or reject his distinctive
-principles, there has been one special circumstance that has
-tended to originate and maintain this classing in my own
-case. The assumption of some relationship between M. Comte
-and myself, was unavoidably raised by the title of my first
-book—<i>Social Statics</i>. When that book was published, I
-was unaware that this title had been before used: had I
-known the fact, I should certainly have adopted an alternative
-title which I had in view.<a class="afnanch" href="#fn20" id="fnanch20">20</a>
-If, however, instead of <span class="xxpn" id="p135">{135}</span>
-the title, the work itself be considered, its irrelation to the
-philosophy of M. Comte becomes abundantly manifest.
-There is decisive testimony on this point. In the
-<i>North British Review</i> for August, 1851, a reviewer of
-<i>Social Statics</i> <span class="nowrap">says―</span></p>
-
-<blockquote class="blktight">
-
-<p>“The title of this work, however, is a complete misnomer. According to
-all analogy, the phrase “Social Statics” should be used only in some such
-sense as that in which, as we have already explained, it is used by Comte,
-namely as designating a branch of inquiry whose end it is to ascertain the
-laws of social equilibrium or order, as distinct ideally from those of social
-movement or progress. Of this Mr. Spencer does not seem to have had the
-slightest notion, but to have chosen the name for his work only as a means
-of indicating vaguely that it proposed to treat of social concerns in a scientific
-manner.”—p. 321.</p></blockquote>
-
-<p>Respecting M. Comte’s application of the words <i>statics</i>
-and <i>dynamics</i> to social phenomena, now that I know what
-it is, I will only say that while I perfectly understand how,
-by a defensible extension of their mathematical meanings,
-the one may be used to indicate social <i>functions in balance</i>,
-and the other social <i>functions out of balance</i>, I am quite at
-a loss to understand how the phenomena of <i>structure</i> can be
-included in the one any more than in the other. But the
-two things which here concern me, are, first, to point out
-that I had not “the slightest notion” of giving Social
-Statics the meaning which M. Comte gave it; and, second,
-to explain the meaning which I did give it. The units of
-any aggregate of matter, are in equilibrium when they
-severally act and re-act on one another on all sides with
-equal forces. A state of change among them implies that
-there are forces exercised by some that are not counterbalanced
-by like forces exercised by others; and a state of
-rest implies the absence of such
-un­coun­ter­bal­anced <span class="xxpn" id="p136">{136}</span>
-forces—implies, if the units are homogeneous, equal distances among
-them—implies a maintenance of their respective spheres of
-molecular motion. Similarly among the units of a society,
-the fundamental condition to equilibrium, is, that the
-restraining forces which the units exercise on each other,
-shall be balanced. If the spheres of action of some units
-are diminished by extension of the spheres of action of
-others, there necessarily results an unbalanced force which
-tends to produce political change in the relations of individuals;
-and the tendency to change can cease, only when
-individuals cease to aggress on each other’s spheres of
-action—only when there is maintained that law of equal
-freedom, which it was the purpose of <i>Social Statics</i> to enforce
-in all its consequences. Besides this totally-unlike conception
-of what constitutes Social Statics, the work to which
-I applied that title, is fundamentally at variance with
-M. Comte’s teachings in almost everything. So far from
-alleging, as M. Comte does, that society is to be re-organized
-by philosophy; it alleges that society is to be re-organized
-only by the accumulated effects of habit on character. Its
-aim is not the increase of authoritative control over citizens,
-but the decrease of it. A more pronounced individualism,
-instead of a more pronounced nationalism, is its ideal. So
-profoundly is my political creed at variance with the creed
-of M. Comte, that, unless I am misinformed, it has been
-instanced by a leading English disciple of M. Comte as the
-creed to which he has the greatest aversion. One point of
-coincidence, however, is recognizable. The analogy between
-an individual organism and a social organism, which was
-held by Plato and by Hobbes, is asserted in <i>Social Statics,</i>
-as it is in the <i>Sociology</i> of M. Comte. Very rightly, M. Comte
-has made this analogy the cardinal idea of this division of
-his philosophy. In <i>Social Statics</i>, the aim of which is
-essentially ethical, this analogy is pointed out incidentally,
-to enforce certain ethical considerations; and is there
-obviously suggested partly by the definition of life
-which <span class="xxpn" id="p137">{137}</span>
-Coleridge derived from Schelling, and partly by the gen­er­al­i­za­tions
-of physiologists there referred to (chap. xxx.
-§§. 12, 13, 16). Excepting this incidental agreement, however,
-the contents of <i>Social Statics</i> are so entirely antagonistic
-to the philosophy of M. Comte, that, but for the title,
-the work would never, I think, have raised the remembrance
-of him—unless, indeed, by the association of opposites.<a class="afnanch" href="#fn21" id="fnanch21">21</a></p>
-
-<p>And now let me point out that which really <i>has</i> exercised
-a profound influence over my course of thought. The truth
-which Harvey’s embryological inquiries first dimly indicated,
-which was afterwards more clearly perceived by Wolff, and
-which was put into a definite shape by Von Baer—the truth
-that all organic development is a change from a state of
-homogeneity to a state of heterogeneity—this it is from
-which very many of the conclusions which I now hold, have
-indirectly resulted. In <i>Social Statics</i>, there is everywhere
-manifested a dominant belief in the evolution of man and of
-society. There is also manifested the belief that this
-evolution is in both cases determined by the incidence of
-conditions—the actions of circumstances. And there is
-further, in the sections already referred to, a recognition of
-the fact that organic and social evolutions, conform to the
-same law. Falling amid beliefs in evolutions of various
-orders, everywhere determined by natural
-causes (beliefs <span class="xxpn" id="p138">{138}</span>
-again displayed in the <i>Theory of Population</i> and in the <i>Principles
-of Psychology</i>); the formula of Von Baer set up a
-process of organization. The extension of it to other kinds
-of phenomena than those of individual and social bodies, is
-traceable through successive stages. It may be seen in the
-last paragraph of an essay on “The Philosophy of Style,”
-published in October, 1852; again in an essay on “Manners
-and Fashion,” published in April, 1854; and then, in a comparatively
-advanced form, in an essay on “Progress: its
-Law and Cause,” published in April, 1857. Afterwards,
-there came the recognition of the need for modifying Von
-Baer’s formula by including the trait of increasing definiteness;
-next the inquiry into those general laws of force from
-which this universal transformation necessarily results; next
-the deduction of these from the ultimate law of the persistence
-of force; next the perception that there is everywhere
-a process of Dissolution complementary to that of Evolution;
-and, finally, the determination of the conditions (specified in
-the foregoing essay) under which Evolution and Dissolution
-respectively occur. The filiation of these results is, I think,
-tolerably manifest. The process has been one of continuous
-development, set up by the addition of Von Baer’s law to a
-number of ideas that were in harmony with it. And I am
-not conscious of any other influences by which the process
-has been affected.</p>
-
-<p>It is possible, however, that there may have been influences
-of which I am not conscious; and my opposition to M.
-Comte’s system may have been one of them. The presentation
-of antagonistic thoughts, often produces greater definiteness
-and development of one’s own thoughts. It is probable
-that the doctrines set forth in the essay on “The Genesis of
-Science,” might never have been reached, had not my
-dissent from M. Comte’s conception, led me to work
-them out; and but for this, I might not have arrived at the
-clas­si­fi­ca­tion of the sciences exhibited in the foregoing essay.
-Possibly there are other cases in which the stimulus
-of <span class="xxpn" id="p139">{139}</span>
-repugnance to M. Comte’s views, may have aided in elaborating
-my own views; though I cannot call to mind any
-other cases.</p>
-
-<p>Let it by no means be supposed from all I have said, that
-I do not regard M. Comte’s speculations as of value.
-True or untrue, his system as a whole, has doubtless produced
-important and salutary revolutions of thought in many
-minds; and will doubtless do so in many more. Doubtless,
-too, not a few of those who dissent from his general views,
-have been healthfully stimulated by consideration of them.
-The presentation of scientific knowledge and method as a
-whole, whether rightly or wrongly co-ordinated, cannot have
-failed greatly to widen the conceptions of most of his readers.
-And he has done especial service by familiarizing men with
-the idea of a social science, based on the other sciences.
-Beyond which benefits resulting from the general character
-and scope of his philosophy, I believe that there are scattered
-through his pages many large ideas that are valuable not
-only as stimuli, but for their actual truth.</p>
-
-<p>It has been by no means an agreeable task to make these
-personal explanations; but it has seemed to me a task not
-to be avoided. Differing so profoundly as I do from M.
-Comte on all fundamental doctrines, save those which we
-inherit in common from the past; it has become needful to
-dissipate the impression that I agree with him—needful to
-show that a large part of what is currently known as “positive
-philosophy,” is not “positive philosophy” in the sense of
-being peculiarly M. Comte’s philosophy; and to show that
-beyond that portion of the so-called “positive philosophy”
-which is not peculiar to him, I dissent from it.</p>
-
-<p>And now at the close, as at the outset, let me express my
-great regret that these explanations should have been called
-forth by the statements of a critic who has treated me
-so liberally. Nothing will, I fear, prevent the foregoing
-pages from appearing like a very ungracious response to
-M. Laugel’s sym­pa­thet­i­cal­ly-writ­ten review. I can only
-hope that the gravity of the question at issue, in so far as
-it <span class="xxpn" id="p140">{140}</span>
-concerns myself, may be taken in mitigation, if not as
-a sufficient apology.</p>
-
-<h3><span class="smcap">N<b>OTE</b></span>.</h3>
-
-<p id="note-p140"><i>The preceding pages
-originally formed the second portion
-of a pamphlet entitled</i> The Classification of the Sciences:
-to which are added Reasons for dissenting from the
-Philosophy of M. Comte, <i>which was first published in
-1864. For some time past this pamphlet has been
-included in the third volume of my</i> Essays, &amp;c., <i>and has
-been no longer accessible in a separate form. There has
-recently been diffused afresh, the misconception which
-originally led me to exhibit my entire rejection of those
-views of M. Comte, which essentially distinguish his
-system from other systems; and the motives which then
-prompted me to publish the reasons for this rejection,
-now prompt me to put them within the reach of all who
-care to inquire about the matter. The Appendix, presenting
-an outline of the leading propositions of the
-Synthetic Philosophy, will further aid the reader in
-forming a correct judgment</i>.</p>
-
-<p class="pcontinue"><i>Oct. 7, 1884.</i></p>
-
-<h3><span class="smcap">A<b>PPENDIX</b></span> A.</h3>
-
-<p>Some fourteen or more years ago, an American friend
-requested me, with a view to a certain use which he named,
-to furnish him with a succinct statement of the cardinal
-principles developed in the successive works I had published
-and in those I was intending to publish. This statement I
-here reproduce. Having been written solely for an expository
-purpose, and without thought of M. Comte and his
-system, it will serve better than a statement now drawn
-up since it is not open to the suspicion of being adapted
-to the occasion.<a class="afnanch" href="#fn22" id="fnanch22">22</a></p>
-
-<blockquote class="blktight">
-
-<p>“1. Throughout the universe in general and in detail, there is an unceasing
-redistribution of matter and motion.</p>
-
-<p>“2. This redistribution constitutes evolution where there is a <span class="xxpn" id="p141">{141}</span>
-predominant integration of matter and dissipation of motion, and constitutes
-dissolution where there is a predominant absorption of motion and disintegration
-of matter.</p>
-
-<p>“3. Evolution is simple when the process of integration, or the formation
-of a coherent aggregate, proceeds uncomplicated by other processes.</p>
-
-<p>“4. Evolution is compound when, along with this primary change from
-an incoherent to a coherent state, there go on secondary changes due to
-differences in the circumstances of the different parts of the aggregate.</p>
-
-<p>“5. These secondary changes constitute a transformation of the homogeneous
-into the heterogeneous—a transformation which, like the first, is
-exhibited in the universe as a whole and in all (or nearly all) its details: in
-the aggregate of stars and nebulae; in the planetary system; in the earth as
-an inorganic mass; in each organism, vegetal or animal (Von Baer’s law);
-in the aggregate of organisms throughout geologic time; in the mind; in
-society; in all products of social activity.</p>
-
-<p>“6. The process of integration, acting locally as well as generally, combines
-with the process of dif­fer­en­ti­a­tion to render this change not simply from
-homogeneity to heterogeneity, but from an indefinite homogeneity to a
-definite heterogeneity; and this trait of increasing definiteness, which
-accompanies the trait of increasing heterogeneity, is, like it, exhibited
-in the totality of things and in all its divisions and sub-divisions down to
-the minutest.</p>
-
-<p>“7. Along with this redistribution of the matter composing any evolving
-aggregate, there goes on a redistribution of the retained motion of its components
-in relation to one another: this also becomes, step by step, more
-definitely heterogeneous.</p>
-
-<p>“8. In the absence of a homogeneity that is infinite and absolute, that
-redistribution of which evolution is one phase, is inevitable. The causes
-which necessitate it are <span class="nowrap">these:―</span></p>
-
-<p>“9. The instability of the homogeneous, which is consequent upon the
-different exposures of the different parts of any limited aggregate to incident
-forces. The trans­for­ma­tions hence resulting are complicated <span class="nowrap">by―</span></p>
-
-<p>“10. The multiplication of effects. Every mass and part of a mass on
-which a force falls, sub-divides and differentiates that force, which thereupon
-proceeds to work a variety of changes; and each of these becomes the parent
-of sim­i­lar­ly-mul­ti­ply­ing changes: the multiplication of them becoming
-greater in proportion as the aggregate becomes more heterogeneous. And
-these two causes of increasing dif­fer­entia­tions are furthered <span class="nowrap">by―</span></p>
-
-<p>“11. Segregation, which is a process tending ever to separate unlike units
-and to bring together like units—so serving continually to sharpen, or make
-definite, dif­fer­entia­tions otherwise caused.</p>
-
-<p>“12. Equilibration is the final result of these trans­for­ma­tions which an
-evolving aggregate undergoes. The changes go on until there is reached an
-equilibrium between the forces which all parts of the aggregate are exposed
-to and the forces these parts oppose to them. Equilibration may pass through
-a transition stage of balanced motions (as in a planetary system) or of <span class="xxpn" id="p142">{142}</span>
-balanced functions (as in a living body) on the way to ultimate equilibrium;
-but the state of rest in inorganic bodies, or death in organic bodies, is the
-necessary limit of the changes constituting evolution.</p>
-
-<p>“13. Dissolution is the counter-change which sooner or later every
-evolved aggregate undergoes. Remaining exposed to surrounding forces
-that are unequilibrated, each aggregate is ever liable to be dissipated by the
-increase, gradual or sudden, of its contained motion; and its dissipation,
-quickly undergone by bodies lately animate and slowly undergone by
-inanimate masses, remains to be undergone at an indefinitely remote
-period by each planetary and stellar mass, which, since an indefinitely
-distant period in the past, has been slowly evolving: the cycle of its trans­for­ma­tions
-being thus completed.</p>
-
-<p>“14. This rhythm of evolution and dissolution, completing itself during
-short periods in small aggregates, and in the vast aggregates distributed
-through space completing itself in periods which are immeasurable by
-human thought, is, so far as we can see, universal and eternal—each
-alternating phase of the process predominating now in this region of space
-and now in that, as local conditions determine.</p>
-
-<p>“15. All these phenomena, from their great features down to their
-minutest details, are necessary results of the persistence of force, under its
-forms of matter and motion. Given these as distributed through space, and
-their quantities being unchangeable, either by increase or decrease, there
-inevitably result the continuous redistributions dis­tin­guish­able as evolution
-and dissolution, as well as all those special traits above enumerated.</p>
-
-<p>“16. That which persists unchanging in quantity but ever changing in
-form, under these sensible appearances which the universe presents to us,
-transcends human knowledge and conception—is an unknown and unknowable
-power, which we are obliged to recognize as without limit in space and
-without beginning or end in time.”</p></blockquote>
-
-<p>These successive paragraphs set forth in the most
-abstract way, that process of transformation going on
-throughout the Cosmos as a whole, and in each larger or
-smaller portion of it. In <i>First Principles</i> the statements
-contained in these paragraphs are elaborated, explained,
-and illustrated; and in subsequent volumes of the series,
-the purpose has been to interpret the several great groups
-of phenomena, Astronomical, Geological (both postponed),
-Biological, Psychological, Sociological, and Ethical, in conformity
-with these general laws of Evolution which <i>First
-Principles</i> enunciates.</p>
-
-<p class="padtopa">If
-it can be shown that any one of the above propositions
-has been adopted from, or has been suggested by,
-the <span class="xxpn" id="p143">{143}</span>
-Positive Philosophy, there will be evidence that the Synthetic
-Philosophy is to that extent indebted to it. Or if
-there can be quoted any expressed conviction of M. Comte,
-that the factors producing changes of all kinds, inorganic
-and organic, co-operate everywhere throughout the Cosmos
-in the same general way, and everywhere work metamorphoses
-having the same essential traits, a much more
-decided indebtedness may reasonably be supposed.</p>
-
-<p>So far as I know it, however, the Positive Philosophy
-contains none of the special ideas above enumerated, nor
-any of the more general ideas they involve.</p>
-
-<h3><span class="smcap">A<b>PPENDIX</b></span> B.</h3>
-
-<p>On pp. <a href="#p119">119</a> and
-<a href="#p120">120</a>, I have pointed out that the followers
-of M. Comte, swayed by the spirit of discipleship, habitually
-ascribe to him a great deal which was the common inheritance
-of the scientific world before he wrote, and to which
-he himself laid no claim. Kindred remarks have since
-been made by others, both in England and in France—the
-one by Mr. Mill, and the other by M. Fouillée.
-Mr. Mill <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“The foundation of M. Comte’s philosophy is thus in no way
-peculiar to him, but the general property of the age, however
-far as yet from being universally accepted even by thoughtful
-minds. The philosophy called Positive is not a recent invention
-of M. Comte, but a simple adherence to the traditions of all
-the great scientific minds whose discoveries have made the
-human race what it is. M. Comte has never presented it in
-any other light. But he has made the doctrine his own by his
-manner of treating it.”—<i>Auguste Comte and Positivism</i>, pp. 8,
-9.</p></blockquote>
-
-<p>In his <i>Histoire de la Philosophie</i>, 1875, M. Alfred Fouillée
-writes:―</p>
-
-<blockquote class="blktight">
-
-<p>“Saint-Simon voulut successivement organiser la société à l’aide de la
-science (prétention d’où sortit le positivisme) puis à l’aide de l’industrie, et
-enfin à l’aide d’une religion nouvelle, capable de ‘forcer chacun de ses
-membres à suivre le précepte de l’amour du prochain.’”—p. 428.</p>
-
-<p>“Les doctrines sociales de Saint-Simon, jointes au naturalisme de Cabanis
-et de Broussais, donnèrent naissance au ‘positivisme’ d’Auguste Comte. <span class="xxpn" id="p144">{144}</span>
-Ce dernier, comme Saint-Simon, voit dans la science sociale ou ‘sociologie’
-le terme et le but de toutes les recherches scientifiques.”—p. 422.</p>
-
-<p>“A cette méthode Auguste Comte ajouta des vues historiques, qu’il
-croyait entièrement originales, sur les trois états par où passe nécessairement
-selon lui la connaissance humaine: état théologique, état métaphysique, et
-état scientifique. Le germe de cette théorie était déjà dans Turgot.”—p. 424.</p>
-
-<p>“En somme, Auguste Comte a eu le mérite d’insister sur les méthodes
-qui conviennent aux sciences de la nature; mais il faut avouer que ces
-méthodes étaient connues bien avant lui.”—p. 425.</p></blockquote>
-
-<div class="section">
-<h3 class="h3en">ENDNOTES TO <i>REASONS FOR DISSENTING FROM
- COMTE.</i></h3></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch14" id="fn14">14</a>
-A clear illustration of this process, is furnished by
-the recent mental integration of Heat, Light, Electricity, etc., as
-modes of molecular motion. If we go a step back, we see that the
-modern conception of Electricity, resulted from the integration in
-con­scious­ness, of the two forms of it involved in the galvanic battery
-and in the electric-machine. And going back to a still earlier stage,
-we see how the conception of statical electricity, arose by the
-coalescence in thought, of the pre­vious­ly-se­pa­rate forces manifested
-in rubbed amber, in rubbed glass, and in lightning. With such
-illustrations before him, no one can, I think, doubt that the process
-has been the same from the beginning.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch15" id="fn15">15</a>
-Possibly it will be said that M. Comte himself admits that
-what he calls the perfection of the positive system, will probably
-never be reached; and that what he condemns is the inquiry into the
-<i>natures</i> of causes and not the general recognition of cause. To the
-first of these allegations I reply that, as I understand M. Comte,
-the obstacle to the perfect realization of the positive philosophy is
-the impossibility of carrying generalization so far as to reduce all
-particular facts to cases of one general fact—not the impossibility
-of excluding the con­scious­ness of cause. And to the second allegation
-I reply that the essential principle of his philosophy is an avowed
-ignoring of cause altogether. For if it is not, <i>what becomes of his
-alleged distinction between the perfection of the positive system and
-the perfection of the metaphysical system</i>? And here let me point out
-that, by affirming exactly the opposite to that which M. Comte thus
-affirms, I am excluded from the positive school. If his own definition
-of positivism is to be taken, then, as I hold that what he defines as
-positivism is an absolute impossibility, it is clear that I cannot be
-what he calls a positivist.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch16" id="fn16">16</a>
-A friendly critic alleges that M. Comte is not fairly
-represented by this quotation, and that he is blamed by his biographer,
-M. Littré, for his too-great insistance on feeling as a motor of
-humanity. If in his “Positive Politics,” which I presume is here
-referred to, M. Comte abandons his original position, so much the
-better. But I am here dealing with what is known as “the Positive
-Philosophy;” and that the passage above quoted does not misrepresent
-it, is proved by the fact that this doctrine is re-asserted at the
-commencement of the Sociology.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch17" id="fn17">17</a>
-In 1885, during a controversy with one of M. Comte’s
-English disciples, I was blamed for speaking “of Comte as making
-six sciences,” and was told that “in all Comte’s works, except the
-first, he makes seven sciences.” As I was dealing with The Positive
-Philosophy, I thought I could not do better than give the foregoing
-extract from the <i>Cours de Philosophie Positive</i>; and it did not occur
-to me that I was called upon to see whether, in any of his later
-voluminous works, M. Comte had made a different statement. My opponent,
-however, enlarged on this “blunder,” as he politely called it:
-apparently oblivious of the fact that if it was a blunder on my part
-to speak of Comte as recognizing six sciences when in his later days
-he recognized seven, it was a much more serious blunder on the part of
-Comte himself to have long overlooked the seventh.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch18" id="fn18">18</a>
-M. Comte’s “Exposition” I read in the original in 1852; and in two
-or three other places have referred to the original to get his exact words.
-The Inorganic Physics, and the first chapter of the Biology, I read in
-Miss Martineau’s condensed translation, when it appeared. The rest of
-M. Comte’s views I know only through Mr. Lewes’s outline, and through
-incidental references.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch19" id="fn19">19</a>
-In his work, <i>Auguste Comte et la Philosophie Positive</i>
-(1863), M. Littré defending the Comtean clas­si­fi­ca­tion of the sciences
-from the criticism I made upon it in the “Genesis of Science,” deals
-with me wholly as an antagonist. The chapter he devotes to his reply,
-opens by placing me in direct opposition to the English adherents of
-Comte, named in the preceding chapter.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch20" id="fn20">20</a>
-I believed at the time, and have never doubted until
-now, that the choice of this title was absolutely independent of its
-previous use by M. Comte. While writing these pages, I have found
-reason to think the contrary. On referring to <i>Social Statics</i>, to see
-what were my views of social evolution in 1850, when M. Comte was to
-me but a name, I met with the following sentence:—“Social philosophy
-may be aptly divided (as political economy has been) into statics and
-dynamics” (ch. xxx. § 1). This I remembered to be a reference to a
-division which I had seen in the Political Economy of Mr. Mill. But why
-had I not mentioned Mr. Mill’s name? On referring to the first edition
-of his work, I found, at the opening of Book iv., this sentence:—“The
-three preceding parts include as detailed a view as the limits of this
-treatise permit, of what, by a happy generalization of a mathematical
-phrase, has been called the Statics of the subject.” Here was the
-solution of the question. The division had not been made by Mr. Mill,
-but by some writer (on Political Economy I supposed) who was not named
-by him; and whom I did not know. It is now manifest, however, that while I supposed I was giving a
-more extended use to this division, I was but returning to the original use
-which Mr. Mill had limited to his special topic. Another thing is, I think,
-tolerably manifest. As I evidently wished to point out my obligation to some
-unknown political economist, whose division I thought I was extending, I
-should have named him had I known who he was. And in that case should
-not have put this extension of the division as though it were
-new.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch21" id="fn21">21</a>
-Let me add that the conception developed in <i>Social
-Statics</i>, dates back to a series of letters on the “Proper Sphere
-of Government,” published in the <i>Nonconformist</i> newspaper in the
-latter half of 1842, and republished as a pamphlet in 1843. In
-these letters will be found, along with many crude ideas, the same
-belief in the conformity of social phenomena to unvariable laws; the
-same belief in human progression as determined by such laws; the
-same belief in the moral modification of men as caused by social
-discipline; the same belief in the tendency of social arrangements “of
-themselves to assume a condition of <i>stable</i> equilibrium;” the same
-repudiation of state-control over various departments of social life;
-the same limitation of state-action to the maintenance of equitable
-relations among citizens. The writing of <i>Social Statics</i> arose from
-a dissatisfaction with the basis on which the doctrines set forth
-in those letters were placed: the second half of that work is an
-elaboration of these doctrines; and the first half a statement of the
-principles from which they are deducible.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch22" id="fn22">22</a>
-Published many years since in America, this statement was
-republished in England eight years since. See <i>Athenæum</i> for July
-22nd, 1882.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p145">ON LAWS IN GENERAL, AND THE ORDER OF
-THEIR DISCOVERY.</h2>
-
-<p class="pchappre">[<i>The
-following was contained in the first edition of</i> First
-Principles. <i>I omitted it from the re-organized second edition,
-because it did not form an essential part of the new structure.
-As it is referred to in the foregoing pages, and as its general
-argument is germane to the contents of those pages, I have thought
-well to insert it here. Moreover, though I hope eventually to
-incorporate it in that division of the</i> Principles of Sociology
-<i>which treats of Intellectual Progress, yet as it must be long before
-it can thus re-appear in its permanent place, and as, should I not
-get so far in the execution of my undertaking, it may never thus
-re-appear at all, it seems proper to make it more accessible than it
-is at present. The first and last sections, which served to link it
-into the argument of the work to which it originally belonged, are
-omitted. The rest has been carefully revised, and in some parts
-considerably altered.</i>]</p></div>
-
-<p>The recognition of Law being the recognition of uniformity
-of relations among phenomena, it follows that the
-order in which different groups of phenomena are reduced
-to law, must depend on the frequency with which the
-uniform relations they severally display are distinctly
-experienced. At any given stage of progress, those
-<span class="xxpn" id="p146">{146}</span>
-uniformities will be best known with which men’s minds have
-been oftenest and most strongly impressed. In proportion
-partly to the number of times a relation has been presented
-to con­scious­ness (not merely to the senses), and in proportion
-partly to the vividness with which the terms of the
-relation have been cognized, will be the degree in which
-the constancy of connexion is perceived.</p>
-
-<p>The succession in which relations are generalized being
-thus determined, there result certain derivative principles
-to which this succession must more immediately and
-obviously
-<span class="spc-a">conform.</span>
-The first is <i>the directness with
-which personal welfare is affected</i>. While, among surrounding
-things, many do not appreciably influence us in any
-way, some produce pleasures and some pains, in various
-degrees; and manifestly, those things of which the actions
-on the organism for good or evil are most decided, will,
-<i>cæteris paribus</i>, be those of which the laws of action are
-earliest
-<span class="spc-a">observed.</span>
-Second comes <i>the con­spic­u­ous­ness
-of one or both phenomena between which a relation is to be
-perceived</i>. On every side are phenomena so concealed as
-to be detected only by close observation; others not obtrusive
-enough to attract notice; others which moderately
-solicit the attention; others so imposing or vivid as to
-force themselves on con­scious­ness; and, supposing conditions
-to be the same, these last will of course be among
-the first to have their relations
-<span class="spc-a">generalized.</span>
-In the
-third place, we have <i>the absolute frequency with which the
-relations occur</i>. There are coexistences and sequences of
-all degrees of commonness, from those which are ever
-present to those which are extremely rare; and manifestly,
-the rare coexistences and sequences, as well as the
-sequences which are very long in taking place, will not
-be reduced to law so soon as those which are familiar and
-<span class="spc-a">rapid.</span>
-Fourthly has to be added <i>the relative
-frequency of occurrence</i>. Many events and appearances
-are limited to certain times or certain places, or
-both; <span class="xxpn" id="p147">{147}</span>
-and, as a relation which does not exist within the environment
-of an observer cannot be perceived by him, however
-common it may be elsewhere or in another age, we have
-to take account of the surrounding physical circumstances,
-as well as of the state of society, of the arts, and of the
-sciences—all of which affect the frequency with which
-certain groups of facts are
-<span class="spc-a">observable.</span>
-The fifth corollary to be noticed is, that the succession in
-which different classes of relations are reduced to law, depends
-in part on their <i>simplicity</i>. Phenomena presenting
-great composition of causes or conditions, have their
-essential relations so masked, that it requires accumulated
-experiences to impress upon con­scious­ness the true connexions
-of antecedents and consequents they involve.
-Hence, other things equal, the progress of generalization
-will be from the simple to the complex; and this it is
-which M. Comte has wrongly asserted to be the sole
-regulative principle of the
-<span class="spc-a">progress.</span>
-Sixth comes
-<i>the degree of concreteness, or absence of abstractness</i>. Concrete
-relations are the earliest acquisitions. Such analyses
-of them as separate the essential connexions from their
-disguising accompaniments, necessarily come later. The
-analyses of the connexions, always more or less compound,
-into their elements then becomes possible. And so on
-continually, until the highest and most abstract truths
-have been reached.</p>
-
-<p>These, then, are the several derivative principles. The
-frequency and vividness with which uniform relations are
-repeated in conscious experience, determining the recognition
-of their uniformity, and this frequency and vividness
-depending on the above conditions, it follows that the
-order in which different classes of facts are generalized,
-must depend on the extent to which the above conditions
-are fulfilled in each class. Let us mark how the facts
-harmonize with this conclusion: taking first a few that
-elucidate the general truth, and afterwards some
-that <span class="xxpn" id="p148">{148}</span>
-exemplify the special truths which we here see follow
-from it.</p>
-
-<p class="padtopa">The relations
-earliest known as uniformities, are those
-subsisting among the common properties of matter—tangibility,
-visibility, cohesion, weight, etc. We have no trace
-of a time when the resistance offered by an object was
-regarded as caused by the will of the object; or when the
-pressure of a body on the hand holding it, was ascribed
-to the agency of a living being. And accordingly, these
-are the relations of which we are oftenest conscious: being,
-as they are, objectively frequent, conspicuous, simple, concrete,
-and of immediate personal concern.</p>
-
-<p>Similarly with the ordinary phenomena of motion. The
-fall of a mass on the withdrawal of its support, is a sequence
-which directly affects bodily welfare, is conspicuous, simple,
-concrete, and very often repeated. Hence it is one of the
-uniformities recognized before the dawn of tradition. We
-know of no era when ordinary movements due to terrestrial
-gravitation were attributed to volition. Only when the
-relation is obscured, as where the withdrawal of a support
-is not obvious, or, as in the case of an aërolite, where the
-antecedent of the descent is unperceived, do we find the
-conception of personal
-<span class="spc-a">agency.</span>
-On the other hand,
-motions of intrinsically the same order as that of a falling
-stone—those of the heavenly bodies—long remain ungeneralized;
-and until their uniformity is seen, and indeed
-for a long time after, are construed as results of will.
-This difference is clearly not dependent on comparative
-complexity or abstractness, since the motion of a planet in
-an ellipse of slight eccentricity, is as simple and concrete a
-phenomenon as the motion of a projected arrow in an
-ellipse of extreme eccentricity in­dis­tin­guish­able from a
-parabola. But the antecedents are not conspicuous; the
-sequences are of long duration; and they are not often
-repeated. And that these are the causes of their
-slow <span class="xxpn" id="p149">{149}</span>
-reduction to law, we see in the fact that they are severally
-generalized in the order of their frequency and con­spic­u­ous­ness—the
-moon’s monthly cycle, the sun’s annual
-change, the periods of the inferior planets, the periods of
-the superior planets.</p>
-
-<p>While astronomical sequences were still ascribed to volition,
-certain terrestrial sequences of a different kind, but
-some of them equally without complication, were interpreted
-in like manner. The solidification of water at a low temperature,
-is a phenomenon that is simple, concrete, and of
-much personal concern. But it is neither so frequent as
-those which we see are earliest generalized, nor is the presence
-of the antecedent so manifest. Though in all but
-tropical climates, mid-winter displays the relation between
-cold and freezing with tolerable constancy; yet, during the
-spring and autumn, the occasional appearance of ice in the
-mornings has no very obvious connexion with coldness of
-the weather. Sensation being so inaccurate a measure, it
-is not possible for the savage to experience the definite
-relation between a temperature of 32° and the congealing
-of water; and hence the long continued belief in personal
-agency. Similarly, but still more clearly, with the winds.
-The absence of regularity and the incon­spic­u­ous­ness of the
-antecedents, allowed the mythological explanation to survive
-for a great period.</p>
-
-<p>During the era in which the uniformity of many quite
-simple inorganic relations was still unrecognized, certain
-organic relations, intrinsically very complex and special,
-were generalized. The constant coexistence of feathers and
-a beak, of four legs with an internal bony framework, are
-facts which were, and are, familiar to every savage. Did a
-savage find a bird with teeth, or a mammal clothed with
-feathers, he would be as much surprised as an instructed
-naturalist. Now these uniformities of organic structure thus
-early perceived, are of exactly the same kind as those more
-numerous ones later established by biology. The
-constant <span class="xxpn" id="p150">{150}</span>
-coexistence of mammary glands with two occipital condyles
-to the skull, of vertebræ with teeth lodged in sockets, of
-frontal horns with the habit of rumination, are gen­er­al­i­za­tions
-as purely empirical as those known to the aboriginal
-hunter. The botanist cannot in the least understand the
-complex relation between papilionaceous flowers and seeds
-borne in flattened pods: he knows these and like connexions
-simply in the same way that the barbarian knows the
-connexions between particular leaves and particular kinds
-of wood. But the fact that sundry of the uniform relations
-which chiefly make up the organic sciences, were very early
-recognized, is due to the high degrees of vividness and
-frequency with which they were presented to con­scious­ness.
-Though the connexion between the sounds characteristic of
-a certain bird, and the possession of edible flesh, is extremely
-involved, yet the two terms of the relation are conspicuous,
-often recur in experience, and a knowledge of their connexion
-has a direct bearing on personal welfare. Meanwhile
-innumerable relations of the same order, which are displayed
-with even greater frequency by surrounding plants and
-animals, remain for thousands of years unrecognized, if
-they are unobtrusive or of no apparent moment.</p>
-
-<p>When, passing from this primitive stage to a more
-advanced stage, we trace the discovery of those less familiar
-uniformities which mainly constitute what is distinguished
-as Science, we find the succession in which knowledge of
-them is reached, to be still determined in the same manner.
-This will become obvious on contemplating separately the
-influence of each derivative condition.</p>
-
-<p class="padtopa">How relations
-that have immediate bearings on the
-maintenance of life, are, other things equal, fixed in the
-mind before those which have no immediate bearings,
-the history of Science abundantly illustrates. The habits
-of existing uncivilized races, who fix times by moons and
-barter so many of one article for so many of another,
-show <span class="xxpn" id="p151">{151}</span>
-us that conceptions of equality and number, which are the
-germs of mathematical science, were developed under the
-immediate pressure of personal wants; and it can scarcely
-be doubted that those laws of numerical relations which
-are embodied in the rules of arithmetic, were first brought
-to light through the practice of mercantile exchange.
-Similarly with geometry. The derivation of the word
-shows us that it originally included only certain methods
-of partitioning ground and laying out buildings. The
-properties of the scales and the lever, involving the first
-principle in mechanics, were early generalized under the
-stimulus of commercial and architectural needs. To fix the
-times of religious festivals and agricultural operations,
-were the motives which led to the establishment of the
-simpler astronomic periods. Such small knowledge of
-chemical relations as was involved in ancient metallurgy,
-was manifestly obtained in seeking how to improve tools
-and weapons. In the alchemy of later times, we see how
-greatly an intense hope of private benefit contributed to
-the disclosure of a certain class of uniformities. Nor is our
-own age barren of illustrations. “Here,” says Humboldt,
-when in Guiana, “as in many parts in Europe, the sciences
-are thought worthy to occupy the mind, only so far as they
-confer some immediate and practical benefit on society.”
-“How is it possible to believe,” said a missionary to him,
-“that you have left your country to come to be devoured
-by mosquitoes on this river, and to measure lands that are
-not your own?” Our coasts furnish like instances. Every
-sea-side naturalist knows how great is the contempt with
-which fishermen regard the collection of objects for the
-microscope or aquarium. Their incredulity as to the
-possible value of such things is so great, that they can
-scarcely be induced even by bribes to preserve the refuse
-of their nets. Nay, we need not go for evidence beyond
-daily table-talk. The demand for “practical science”—for
-a knowledge that can be brought to bear on the business
-of <span class="xxpn" id="p152">{152}</span>
-life—joined to the ridicule commonly vented on scientific
-pursuits having no obvious uses, suffice to show that the
-order in which laws are discovered greatly depends on
-the directness with which knowledge of them affects
-our welfare.</p>
-
-<p>That, when all other conditions are the same, obtrusive
-relations will be generalized before unobtrusive ones, is so
-nearly a truism that examples appear almost superfluous. If
-it be admitted that by the aboriginal man, as by the child,
-the co-existent properties of large surrounding objects are
-noticed before those of minute objects, and that the external
-relations which bodies present are generalized before their
-internal relations, it must be admitted that in subsequent
-stages of progress, the comparative con­spic­u­ous­ness of
-relations has greatly affected the order in which they were
-recognized as uniform. Hence it happened that after the
-establishment of those very manifest sequences constituting
-a lunation, and those less manifest ones marking a year, and
-those still less manifest ones marking the planetary periods,
-astronomy occupied itself with such inconspicuous sequences
-as those displayed in the repeating cycle of lunar eclipses,
-and those which suggested the theory of epicycles and
-eccentrics; while modern astronomy deals with still more
-inconspicuous sequences, some of which, as the planetary
-rotations, are nevertheless the simplest which the heavens
-present. In physics, the early use of canoes implied an
-empirical knowledge of certain hydrostatic relations that
-are intrinsically more complex than sundry static relations
-not empirically known; but these hydrostatic relations were
-thrust upon observation. Or, if we compare the solution
-of the problem of specific gravity by Archimedes with the
-discovery of atmospheric pressure by Torricelli (the two
-involving mechanical relations of the same class), we perceive
-that the much earlier occurrence of the first than the last
-was determined, neither by a difference in their bearings on
-personal welfare, nor by a difference in the frequency
-with <span class="xxpn" id="p153">{153}</span>
-which illustrations of them came under observation, nor by
-relative simplicity; but by the greater obtrusiveness of the
-connexion between antecedent and consequent in the one
-case than in the other. Among miscellaneous illustrations,
-it may be pointed out that the connexions between lightning
-and thunder, and between rain and clouds, were recognized
-long before others of the same order, simply because they
-thrust themselves on the attention. Or the long-delayed
-discovery of the microscopic forms of life, with all the phenomena
-they present, may be named as very clearly showing
-how certain groups of relations not ordinarily perceptible,
-though in other respects like long-familiar relations, have
-to wait until changed conditions render them perceptible.
-But, without further details, it needs only to consider the
-inquiries which now occupy the electrician, the chemist,
-the physiologist, to see that science has advanced, and is
-advancing, from the more conspicuous phenomena to the
-less conspicuous ones.</p>
-
-<p>How the degree of absolute frequency of a relation affects
-the recognition of its uniformity, we see in contrasting
-certain biological facts. The connexion between death and
-bodily injury, constantly displayed not only in men but in
-all inferior creatures, came to be recognized as an instance
-of natural causation while yet deaths from diseases or from
-some of them continued to be thought supernatural. Among
-diseases themselves, it is observable that unusual ones were
-regarded as of demoniacal origin during ages when the
-more frequent were ascribed to ordinary causes: a truth
-paralleled among our own peasantry, who by the use of
-charms show a lingering superstition with respect to rare
-disorders, which they do not show with respect to common
-ones, such as colds. Passing to physical illustrations, we
-may note that within the historic period whirlpools were
-accounted for by the agency of water-spirits; but we do
-not find that within the same period the disappearance of
-water on exposure either to the sun or to artificial heat
-was <span class="xxpn" id="p154">{154}</span>
-interpreted in an analogous way: though a more marvellous
-occurrence, and a more complex one, its great frequency
-led to the early recognition of it as a natural uniformity.
-Rainbows and comets do not differ much in con­spic­u­ous­ness,
-and a rainbow is intrinsically the more involved phenomenon;
-but chiefly because of their far greater commonness,
-rainbows were perceived to have a direct dependence
-on sun and rain while yet comets were regarded as signs of
-divine wrath.</p>
-
-<p>That races living inland must long have remained
-ignorant of the daily and monthly sequences of the tides,
-and that tropical races could not early have comprehended
-the phenomena of northern winters, are extreme illustrations
-of the influence which relative frequency has on the
-recognition of uniformities. Animals which, where they
-are indigenous, call forth no surprise by their structures or
-habits, because these are so familiar, when taken to
-countries where they have never been seen, are looked at
-with an astonishment approaching to awe—are even
-thought supernatural: a fact which will suggest numerous
-others that show how the localization of phenomena shares
-in controlling the order in which they are reduced to law.
-Not only however does their localization in space affect the
-progression, but also their localization in time. Facts
-which are rarely if ever manifested in one era, are rendered
-very frequent in another, simply through the changes
-wrought by civilization. The lever, of which the properties
-are illustrated in the use of sticks and weapons, is vaguely
-understood by every savage—on applying it in a certain
-way he rightly anticipates certain effects; but the wheel-and-axle,
-pulley, and screw, cannot have their powers
-either empirically or rationally known till the advance of
-the arts has more or less familiarized them. Through
-those various means of exploration which we have inherited
-and added to, we have become acquainted with a vast
-range of chemical relations that were relatively <span class="xxpn" id="p155">{155}</span>
-non-existent to the primitive man. To highly-developed industries
-we owe both the substances and the appliances that have
-disclosed to us countless uniformities which our ancestors
-had no opportunity of seeing. These and like instances,
-show that the accumulated materials, and processes, and
-products, which characterize the environments of complex
-societies, greatly increase the accessibility of various
-classes of relations; and by thus multiplying the
-experiences of them, or making them relatively frequent,
-facilitate the generalization of them. Moreover, various
-classes of phenomena presented by society itself, as for
-instance those which political economy formulates, become
-relatively frequent, and therefore recognizable, in advanced
-social states; while in less advanced ones they are either
-too rarely displayed to have their relations perceived, or,
-as in the least advanced ones, are not displayed at all.</p>
-
-<p>That, where no other circumstances interfere, the order in
-which different uniformities are established varies as their
-complexity, is manifest. The geometry of straight lines was
-understood before the geometry of curved lines; the properties
-of the circle before the properties of the ellipse, parabola,
-and hyperbola; and the equations of curves of single curvature
-were ascertained before those of curves of double
-curvature. Plane trigonometry comes in order of time and
-simplicity before spherical trigonometry; and the mensuration
-of plane surfaces and solids before the mensuration of
-curved surfaces and solids. Similarly with mechanics: the
-laws of simple motion were generalized before those of compound
-motion; and those of rectilinear motion before those
-of curvilinear motion. The properties of equal-armed levers
-or scales, were understood before those of levers with unequal
-arms; and the law of the inclined plane was formulated
-earlier than that of the screw, which involves it. In chemistry
-the progress has been from the simple inorganic compounds
-to the more involved or organic compounds. And where, as
-in the higher sciences, the conditions of the exploration
-are <span class="xxpn" id="p156">{156}</span>
-more complicated, we still may trace relative complexity
-as determining the order of discovery where other things
-are equal.</p>
-
-<p>The progression from concrete relations to abstract relations,
-and from the less abstract to the more abstract, is
-equally obvious. Numeration, which in its primary form concerned
-itself only with groups of actual objects, came earlier
-than simple arithmetic; the rules of which deal with numbers
-apart from objects. Arithmetic, limited in its sphere to
-concrete numerical relations, is alike earlier and less abstract
-than Algebra, which deals with the relations of these relations.
-And in like manner, the Calculus of Operations comes
-after Algebra, both in order of evolution and in order of
-abstractness. In Mechanics, the more concrete relations of
-forces exhibited in the lever, inclined plane, etc., were understood
-before the more abstract relations expressed in the
-laws of resolution and composition of forces; and later than
-the three abstract laws of motion as formulated by Newton
-came the still more abstract law of inertia. Similarly with
-Physics and Chemistry, there has been an advance from
-truths entangled in all the specialities of particular facts
-and particular classes of facts, to truths disentangled from
-the disguising incidents under which they are manifested—to
-truths of a higher abstractness.</p>
-
-<p>Brief and rude as is this sketch of a mental development
-which has been long and complicated, I venture to think it
-shows inductively what was deductively inferred, that the
-order in which separate groups of uniformities are recognized,
-depends not on one circumstance but on several circumstances.
-The various classes of relations are generalized
-in a certain succession, not solely because of one particular
-kind of difference in their natures; but also because they
-are variously placed in time and in space, variously open to
-observation, and variously related to our own constitutions:
-our perception of them being influenced by all these conditions
-in endless combinations. The comparative
-degrees <span class="xxpn" id="p157">{157}</span>
-of importance, of obtrusiveness, of absolute frequency, of
-relative frequency, of simplicity, of concreteness, are every
-one of them factors; and from their unions in proportions
-that are never twice alike, there results a highly complex
-process of mental evolution. But while it is thus manifest
-that the proximate causes of the succession in which relations
-are reduced to law, are numerous and involved; it is also
-manifest that there is one ultimate cause to which these
-proximate causes are subordinate. As the several circumstances
-that determine the early or late recognition of uniformities
-are circumstances that determine the number and
-strength of the impressions which these uniformities make
-on the mind, it follows that the progression conforms to a
-certain fundamental principle of psychology. We see <i>a
-posteriori</i>, what we concluded <i>à priori</i>, that the order in which
-relations are generalized, depends on the frequency and
-impressiveness with which they are repeated in conscious
-experience.</p>
-
-<p class="padtopa">Having
-roughly analyzed the progress of the past, let
-us take advantage of the light thus thrown on the present,
-and consider what is implied respecting the future.</p>
-
-<p>Note, first, that the likelihood of the universality of Law
-has been ever growing greater. Out of the countless coexistences
-and sequences with which mankind are environed,
-they have been continually transferring some from the group
-whose order was supposed to be arbitrary, to the group
-whose order is known to be uniform. And manifestly, as
-fast as the relations which are unreduced to law become
-fewer, the probability that among them there are some which
-do not conform to law, becomes less. To put the argument
-numerically—It is clear that when out of surrounding phenomena
-a hundred of several kinds have been found to occur
-in constant connexions, there arises a slight presumption that
-all phenomena occur in constant connexions. When uniformity
-has been established in a thousand cases, more
-varied <span class="xxpn" id="p158">{158}</span>
-in their kinds, the presumption gains strength. And when
-the known cases of uniformity amount to millions, including
-many of each variety, it becomes an ordinary induction that
-uniformity exists everywhere.</p>
-
-<p>Silently and insensibly their experiences have been pressing
-men on towards the conclusion thus drawn. Not out of
-a conscious regard for these reasons, but from a habit of
-thought which these reasons formulate and justify, all minds
-have been advancing towards a belief in the constancy of
-surrounding coexistences and sequences. Familiarity with
-concrete uniformities has generated the abstract conception
-of uniformity—the idea of <i>Law</i>; and this idea has been in
-successive generations slowly gaining fixity and clearness.
-Especially has it been thus among those whose knowledge of
-natural phenomena is the most extensive—men of science.
-The mathematician, the physicist, the astronomer, the
-chemist, severally acquainted with the vast accumulations of
-uniformities established by their predecessors, and themselves
-daily adding new ones as well as verifying the old,
-acquire a far stronger faith in law than is ordinarily possessed.
-With them this faith, ceasing to be merely passive, becomes
-an active stimulus to inquiry. Wherever there exist phenomena
-of which the dependence is not yet ascertained, these
-most cultivated intellects, impelled by the conviction that
-here too there is some invariable connexion, proceed to
-observe, compare, and experiment; and when they discover
-the law to which the phenomena conform, as they eventually
-do, their general belief in the universality of law is further
-strengthened. So overwhelming is the evidence, and such
-the effect of this discipline, that to the advanced student of
-Nature, the proposition that there are lawless phenomena
-has become not only incredible but almost inconceivable.</p>
-
-<p>This habitual recognition of law which already distinguishes
-modern thought from ancient thought, must spread
-among men at large. The fulfilment of fresh predictions
-that are made possible by every new step, and the
-further <span class="xxpn" id="p159">{159}</span>
-command gained over Nature’s forces, prove to the
-uninitiated the validity of scientific gen­er­al­i­za­tions and
-the doctrine they illustrate. Widening education is daily
-diffusing among the mass of men that knowledge of these
-gen­er­al­i­za­tions which has been hitherto confined to
-the few. And as fast as this diffusion goes on, the belief of
-the scientific must become the belief of the world at large.</p>
-
-<p class="padtopa">That law is universal, will become an irresistible conclusion
-when it is perceived that <i>the progress in the discovery
-of laws itself conforms to law</i>; and when this perception
-makes it clear why certain groups of phenomena have
-been reduced to law, while other groups are still unreduced.
-When it is seen that the order in which uniformities are
-recognized, must depend on the frequency and vividness
-with which they are repeated in conscious experience; when
-it is seen that, as a matter of fact, the most common, important,
-conspicuous, concrete, and simple, uniformities were the
-earliest recognized, because they were experienced oftenest
-and most distinctly; it will by implication be seen that long
-after the great mass of phenomena have been generalized,
-there must remain phenomena which, from their rareness,
-or unobtrusiveness, or seeming unimportance, or complexity,
-or abstractness, are still
-<span class="spc-a">ungeneralized.</span>
-Thus will be
-furnished a solution to a difficulty sometimes raised. When
-it is asked why the universality of law is not already fully
-established, there will be the answer that the directions in
-which it is not yet established are those in which its establishment
-must necessarily be latest. That state of things
-which is inferable beforehand, is just the state which we find
-to exist. If such coexistences and sequences as those of
-Biology and Sociology are not yet reduced to law, the presumption
-is, not that they are irreducible to law, but that
-their laws elude our present means of exploration. Having
-long ago proved uniformity throughout all the lower classes
-of relations, and having been step by step proving <span class="xxpn" id="p160">{160}</span>
-uniformity throughout classes of relations successively higher
-and higher, if we have not yet succeeded with the highest
-classes, it may be fairly concluded that our powers are at
-fault, rather than that the uniformity does not exist. And
-unless we make the absurd assumption that the process of
-generalization, now going on with unexampled rapidity, has
-reached its limit, and will suddenly cease, we must infer
-that ultimately mankind will discover a constant order even
-among the most involved and obscure
-phenomena.</p>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p161">THE VALUATION OF EVIDENCE.</h2>
-
-<p class="pchappre">[<i>First
-published in</i> The Leader <i>for June 25, 1853.</i>]</p>
-</div>
-
-<p>With Spirit-rappings and Table-movings still the rage,
-and with the belief in Spontaneous Combustion still unextinguished,
-it seems desirable that something should be
-said in justification of that general scepticism with which
-the philosophical meet the alleged wonders that periodically
-turn the heads of the nation. Nothing less than a bulky
-octavo would be needed to contain all that might be written
-on the matter; and unfortunately such an octavo, when
-written, would be little read by those most requiring it. A
-brief hint or two, however, may find listeners among them.</p>
-
-<p>“I tell you I saw it myself,” is the so-thought conclusive
-assertion with which many a controversy is abruptly ended.
-Commonly those who make this assertion think that after
-it nothing remains to be urged; and they are astonished
-at the un­reason­able­ness of those who still withhold their
-belief. Though they reject many tales of witchcraft, many
-ghost stories whose marvels were attested by eye-witnesses—though
-they have repeatedly seen stage-conjurors seem
-to do things which they do not believe were really done—though
-they have heard of the Automaton Chess-player and
-the Invisible Girl, and have perhaps seen explanations of
-the modes in which the public were deluded by <span class="xxpn" id="p162">{162}</span>
-them—though in all these cases they know that the facts were
-other than the spectators supposed them to be; yet
-they cannot imagine that their own perceptions have
-been vitiated by influences like those which vitiated the
-perceptions of others. Or, to put the thing more charitably
-and perhaps more truly, they forget that such vitiations
-are constantly occurring.</p>
-
-<p>To observe correctly, though commonly thought very
-easy, every man of science knows to be difficult. Our
-faculties are liable to report falsely from two opposite
-causes—the presence of hypothesis, and the absence of
-hypothesis. To the dangers arising from one or other of
-these, every observation we make is exposed; and between
-the two it is hard to see any fact <i>quite</i> truly. A few
-illustrations of the extreme distortions arising from the one
-cause, and the extreme inaccuracy consequent on the other,
-will justify this seeming paradox.</p>
-
-<p>Nearly every one is familiar with the myth prevalent on
-our sea-coasts, respecting the Barnacle Goose. The popular
-belief was, and indeed is still in some places, that the fruits
-on branches which hang into the sea become changed into
-shell-covered creatures called barnacles, found incrusting
-these submerged branches; and further, that these barnacles
-are in process of time transformed into the birds known as
-barnacle geese. This belief was not confined to the vulgar;
-it was received among naturalists. Nor was it with them
-simply an adopted rumour. It was based on observations
-which were recorded and approved by the highest scientific
-authorities, and published with their countenance. In a
-paper contained in the <i>Philosophical Transactions</i>, Sir Robert
-Moray says:—“In every shell that I opened&#160;.&#160;.&#160;. there
-appeared nothing wanting, as to the external parts, for
-making up a perfect sea-fowl; the little bill like that of a
-goose, the eyes marked, the head, neck, breast, wings, tail,
-and feet formed, the feathers everywhere perfectly shaped
-and blackish coloured, and the feet like those of other <span class="xxpn" id="p163">{163}</span>
-waterfowl, to my best remembrance.” Now this myth respecting
-the barnacle goose has been exploded for some century and
-a half. To a modern zoologist who examines one of these
-cirrhipeds, as the barnacles are called, it seems scarcely
-credible that it could ever have been thought a chick; and
-what Sir Robert Moray could have taken for “head, neck,
-breast, wings, tail, feet, and feathers,” he cannot imagine.
-Under the influence of a pre-conception, here is a man of
-education describing as “a perfect sea-fowl” what is now
-known to be a modified crustacean—a creature belonging
-to a remote part of the animal kingdom.</p>
-
-<p>A still more remarkable instance of perverted observation
-exists in an old book entitled <i>Metamorphosis Naturalis</i>, &amp;c.,
-published at Middleburgh in 1662. This work, in which is
-attempted for the first time a detailed account of
-in­sect-trans­for­ma­tions,
-contains numerous illustrative plates, in
-which are represented the various stages of evolution—larva,
-pupa, and imago. Those who have any knowledge
-of Entomology will recollect that the chrysalises of all our
-common butterflies exhibit at the anterior end a number of
-pointed projections, producing an irregular outline. Have
-they ever observed in this outline a resemblance to a man’s
-face? For myself, I can say that though in early days I
-kept brood after brood of butterfly larvæ through all their
-changes, I never perceived any such likeness; nor can I
-see it now. Nevertheless, in the plates of this <i>Metamorphosis
-Naturalis</i>, each chrysalis has its projections so
-modified as to represent a burlesque human head—the
-respective species having different profiles given them.
-Whether the author was a believer in metempsychosis,
-and thought he saw in the chrysalis a disguised humanity;
-or whether, swayed by the false analogy which Butler
-makes so much of, between the change from chrysalis to
-butterfly and that from mortality to immortality, he considered
-the chrysalis as typical of man; does not appear.
-Here, however, is the fact, that influenced by some <span class="xxpn" id="p164">{164}</span>
-pre-conception or other, he has made his drawings quite
-different from the actual forms. It is not that he simply
-thinks this resemblance exists—it is not that he merely
-says he can see it; but his preconception so possesses him
-as to swerve his pencil, and make him produce representations
-laughably unlike the realities.</p>
-
-<p>These, which are extreme cases of distorted perceptions,
-differ only in degree from the distorted perceptions of daily
-life; and so strong is the distorting influence that even the
-man of science cannot escape its effects. Every microscopist
-knows that if they have conflicting theories respecting its
-nature, two observers shall look through the same instrument
-at the same object, and give quite different descriptions
-of its appearance.</p>
-
-<p>From the dangers of hypothesis let us now turn to the
-dangers of no hypothesis. Little recognized as is the fact,
-it is nevertheless true that we cannot make the commonest
-observation correctly without beforehand having some
-notion of what we are to observe. You are asked to listen
-to a faint sound, and you find that without a pre-conception
-of the <i>kind</i> of sound you are to hear, you cannot hear it.
-Provided that it is not strong, an unusual flavour in your
-food may pass quite unperceived, unless some one draws
-attention to it, when you taste it distinctly. After knowing
-him for years, you shall suddenly discover that your friend’s
-nose is slightly awry, and wonder that you never remarked
-it before. Still more striking becomes this inability when
-the facts to be observed are complex. Of a hundred people
-who listen to the dying vibrations of a church bell, almost
-all fail to perceive the harmonics, and assert the sound to
-be simple. Scarcely any one who has not practised drawing,
-sees, when in the street, that all the horizontal lines in the
-walls, windows, shutters, roofs, seem to converge to one
-point in the distance: a fact which, after a few lessons in
-perspective, becomes visible enough.</p>
-
-<p>Perhaps I cannot more clearly illustrate this necessity
-for <span class="xxpn" id="p165">{165}</span>
-hypothesis as a condition to accurate perception, than by
-narrating a portion of my own experience relative to the
-colours of shadows.</p>
-
-<p>Indian ink was the pigment which, during boyhood, I
-invariably used for shading. Ask any one who has received
-no culture in art, or who has given no thought to it, of what
-colour a shadow is, and the unhesitating reply will be—black.
-This is uniformly the creed of the uninitiated; and
-in this creed I undoubtingly remained till about eighteen.
-Happening, at that age, to come much in contact with an
-amateur artist, I was told, to my great surprise, that shadows
-are not black but of a neutral tint. This, to me, novel
-doctrine, I strenuously resisted. I have a pretty distinct
-recollection of denying it point blank, and quoting all my
-experience in support of the denial. I remember, too, that
-the controversy lasted over a considerable period; and that
-it was only after my friend had repeatedly drawn my attention
-to instances in Nature, that I finally gave in. Though
-I must previously have seen myriads of shadows, yet
-in consequence of the fact that very generally the tint
-approaches to black, I had been unable, in the absence of
-hypothesis, to perceive that in many cases it is distinctly
-not black.</p>
-
-<p>I continued to hold this amended doctrine for some years.
-It is true that from time to time I observed that the tone
-of the neutral tint varied considerably in different shadows;
-but still the divergencies were not such as to shake my faith
-in the dogma. By-and-bye, however, in a popular work on
-Optics, I met with the statement that the colour of a
-shadow is always the complement of the colour of the light
-casting it. Not seeing the wherefore of this alleged law,
-which seemed moreover to conflict with my established
-belief, I was led to study the matter as a question of
-causation. <i>Why</i> are shadows coloured? and what
-determines the colour? were the queries that suggested
-themselves. In seeking answers, it soon became
-manifest <span class="xxpn" id="p166">{166}</span>
-that as a space in shadow is a space from which the <i>direct</i>
-light alone is excluded, and into which the <i>indirect</i> light
-(namely, that reflected by surrounding objects, by the
-clouds and by the sky) continues to fall, the colour of a
-shadow must partake of the colour of everything that can
-either radiate or reflect light into it. Hence, the colour of
-a shadow must be <i>the average colour of the diffused light;</i>
-and must vary, as that varies, with the colours of all
-surrounding things. Thus was at once explained the
-inconstancy I had already noticed; and I presently
-recognized in Nature that which the theory implies—namely,
-that a shadow may have any colour whatever,
-according to circumstances. Under a clear sky, and with
-no trees, hedges, houses, or other objects at hand, shadows
-are of a pure blue. During a red sunset, mixture of the
-yellow light from the upper part of the western sky with
-the blue light from the eastern sky, produces green shadows.
-Go near to a gas-lamp on a moonlight night, and a pencil-case
-placed at right angles to a piece of paper will be found
-to cast a purple-blue shadow and a yellow-grey shadow,
-produced by the gas and the moon respectively. And
-there are conditions it would take too long here to describe,
-under which two parts of the same shadow are differently
-coloured. All which facts became obvious to me as soon as
-I knew that they must exist.</p>
-
-<p>Here, then, respecting certain simple phenomena that
-are hourly visible, are three successive convictions; each
-of them based on years of observation; each of them held
-with unhesitating confidence; and yet only one—as I now
-believe—true. But for the help of an hypothesis, I should
-probably have remained in the common belief that shadows
-are black. And but for the help of another hypothesis, I
-should probably have remained in the half-true belief that
-they are neutral tint.</p>
-
-<p>Is it not clear, therefore, that to observe correctly is by
-no means easy? On the one hand, a pre-conception,
-makes <span class="xxpn" id="p167">{167}</span>
-us liable to see things not quite as they are, but as we think
-them. On the other hand, in the absence of a pre-conception,
-we are liable to pass over much that we ought to see.
-Yet we must have either a pre-conception or no pre-conception.
-Evidently, then, all our observations, save those
-guided by true theories already reached, are in danger of
-either distortion or incompleteness.</p>
-
-<p>It remains but to remark, that if our observations are
-imperfect in cases like the foregoing, where the things
-seen are persistent, and may be again and again looked
-at or continuously contemplated; how much more imperfect
-must they be where the things seen are complex processes,
-changes, or actions, each presenting successive phases,
-which, if not truly observed at the moments they severally
-occur, can never be truly observed at all! Here the
-chances of error become immensely multiplied. And
-when, in addition, there exists some moral excitement,—when,
-as in these Spirit-rapping and Table-turning experiments,
-the intellect is partially paralysed by fear or wonder
-correct observation becomes next to an
-impossibility.</p>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p168">WHAT IS ELECTRICITY?</h2>
-
-<p class="pchappre">[<i>First
-published in</i> The Reader <i>for November 19, 1864.</i>]</p>
-</div>
-
-<p>Probably few, if any, competent physicists have, of late
-years, used the term “electric fluid” in any other than a
-conventional sense. When distinguishing electricity into
-the two kinds, “positive” and “negative,” or “vitreous”
-and “resinous,” they have used the ideas suggested by
-these names merely as convenient symbols, and not as
-representatives of different entities. And, now that heat
-and light are proved to be modes of motion, it has become
-obvious that all the allied manifestations of force must be
-modes of motion.</p>
-
-<p>What is the particular mode of motion which constitutes
-electricity, thus becomes the question. That it is some
-kind of molecular vibration, different from the molecular
-vibrations which luminous bodies give off, is, I presume,
-taken for granted by all who bring to the consideration of
-the matter a knowledge of recent discoveries. Beyond
-those simple oscillations of molecules from which light and
-heat result, may we not suspect that there will, in some
-cases, arise compound oscillations? Let us consider
-whether the conditions under which electricity arises are
-not such as to generate compound oscillations; and
-whether the phenomena of electricity are not such as must
-result from compound oscillations.</p>
-
-<p>The universal antecedent to the production of
-electricity <span class="xxpn" id="p169">{169}</span>
-is the immediate or mediate contact of heterogeneous
-substances—substances that are heterogeneous either in
-their molecular constitutions, or in their molecular states.
-If, then, electricity is some mode of molecular motion, and
-if, whenever it is produced, the contact of substances having
-unlike molecules or molecules in unlike states, is the
-antecedent, there seems thrust upon us the conclusion that
-electricity results from some mutual action of molecules
-whose motions are unlike.</p>
-
-<p>What must be that mutual action of molecules having
-unlike motions, which, as we see, is the universal antecedent
-of electrical disturbance? The answer to this question
-does not seem difficult to reach, if we take the simplest
-case—the case of con­tact-elec­tri­city. When two pieces of
-metal of the same kind, and at the same temperature, are
-applied to one another, there is no electrical excitation;
-but, if the metals applied to one another be of different
-kinds, there is a genesis of electricity. This, which has
-been regarded as an anomalous fact—a fact so anomalous
-that it has been much disputed because apparently at
-variance with every hypothesis—is a fact to which an
-interpretation is at once supplied by the hypothesis that
-electricity results from the mutual disturbances of unlike
-molecular motions. For if, on the one hand, we have
-homogeneous metals in contact, their respective molecules,
-oscillating synchronously, will give and take any forces
-which they impress on one another without producing
-oscillations of new orders. But if, on the other hand, the
-molecules of the one mass have periods of oscillation
-different from those of the other mass, their mutual impacts
-will not agree with the period of oscillation of either, but
-will generate a new rhythm, differing from, and much
-slower than, that of either. The production of what are
-called “beats” in acoustics, will best illustrate this. It is
-a familiar fact that two strings vibrating at different rates,
-from time to time concur in sending off aërial waves in
-the <span class="xxpn" id="p170">{170}</span>
-same direction at the same instant: that then, their vibrations
-getting more and more out of correspondence, they
-send off their aërial waves in the same direction at exactly
-intermediate instants; and presently, coming once more
-into correspondence, they again generate coinciding waves.
-So that when their periods of vibration differ but little,
-and when consequently it takes an appreciable time to
-complete their alternations of agreement and disagreement,
-there results an audible alternation in the sound—a succession
-of pulses of louder and feebler sound. In other words,
-besides the primary, simple, and rapid series of waves,
-constituting the two sounds themselves, there is a series of
-slow compound waves, resulting from their repeated conflicts
-and concurrences. Now if, instead of the two strings
-communicating their vibrations to the air, each communicated
-its vibrations to the other, we should have just the
-same alternation of concurrent and conflicting pulses.
-And if each of the two strings was combined with an
-aggregate of others like itself, in such way that it communicated
-to its neighbours both its normal and its
-abnormal vibrations, it is clear that through each aggregate
-of strings there would be propagated one of these compound
-waves of oscillation, in addition to their simple rapid oscillations.
-This illustration will, I think, make it manifest
-that when a mass of molecules which have a certain period
-of vibration, is placed in contact with a mass of molecules
-which have another period of vibration, there must result
-an alternation of coincidences and antagonisms in the
-molecular motions, such as will make the molecules alternately
-increase and decrease one another’s motions.
-There will be instants at which they are moving in the
-same direction, and intervening instants at which they are
-moving in opposite directions; whence will arise periods of
-greatest and least deviations from their ordinary motions.
-And these greatest and least deviations, being communicated
-to neighbouring molecules, and passed on by
-them <span class="xxpn" id="p171">{171}</span>
-to the next, will result in waves of perturbation propagated
-throughout each mass.</p>
-
-<p>Let us now ask what will be the mutual relations of
-these waves. Action and reaction being equal and opposite,
-it must happen that whatever effect a molecule of the
-mass A produces upon an adjacent molecule of the mass
-B, must be accompanied by an equivalent reverse effect
-upon itself. If a molecule of the mass A is at any instant
-moving in such way as to impress on a molecule of the
-mass B an additional momentum in any given direction,
-then the momentum of the molecule of A, in that direction,
-will be diminished to an equal amount. That is to say, to
-any wave of increased motion propagated through the
-molecules of B, there must be a reactive wave of decreased
-motion propagated in the opposite direction through the
-molecules of A. See, then, the two significant facts. Any
-<i>addition</i> of motion, which at one of these alternate periods
-is given by the molecules of A to the molecules of B, must
-be propagated through the molecules of B in a direction
-<i>away from</i> A; and simultaneously there must be a <i>subtraction</i>
-from the motion of the molecules of A, which will
-be propagated through them in a direction <i>away from</i> B.
-To every wave of <i>excess</i> sent through the one mass, there
-will be a corresponding wave of <i>defect</i> sent through the
-other; and these <i>positive</i> and <i>negative</i> waves will be
-exactly coincident in their times, and exactly equal in
-their amounts. Whence it follows that if these waves,
-proceeding from the surface of contact through the two
-masses in contrary directions, are brought into relation,
-they will neutralize each other. Action and reaction being
-equal and opposite, these <i>plus</i> and <i>minus</i> molecular motions
-will cancel if they are added together; and there will be a
-restoration of equilibrium.</p>
-
-<p>These positive and negative waves of perturbation will
-travel through the two masses of molecules with great
-facility. It is now an established truth that
-molecules <span class="xxpn" id="p172">{172}</span>
-absorb, in the increase of their own vibrations, those
-rhythmical impulses or waves which have periodic times
-the same as their own; but that they cannot thus absorb
-successive impulses that have periodic times different
-from their own. Hence these differential undulations,
-being very long undulations in comparison with those of
-the molecules themselves, will readily pass through the
-masses of molecules, or be <i>conducted</i> by them. Further
-observe that, if the two masses of molecules continue
-joined, these positive and negative differential waves
-travelling away from the surface of contact in opposite
-directions, and severally arriving at the outer surfaces
-of the two masses, will be reflected from these; and,
-travelling back again toward the surface of contact, will
-there meet and neutralize one another. Hence no current
-will be produced along a wire joining the outer surfaces of
-the masses; since neutralization will be more readily
-effected by this return of the waves through the masses
-themselves. But, though no external current arises, the
-masses will continue in what we call opposite electric
-states; as a delicate electrometer shows that they do.
-And further, if they are parted, the positive and negative
-waves which have the instant before been propagated
-through them respectively, remaining unneutralized, the
-masses will display their opposite electric states in a more
-conspicuous way. The residual positive and negative
-waves will then neutralize each other along any conductor
-that is placed between them, seeing that the <i>plus</i> waves
-communicated from the one mass to the conductor, meeting
-with the <i>minus</i> waves communicated from the other, and
-being mutually cancelled as they meet, the conductor
-will become a line of least resistance to the waves of
-each mass.</p>
-
-<p>Let us pass now to the allied phenomena of thermo-electricity.
-Suppose these two masses of metal to be
-heated at their surfaces of contact: the forms of
-the <span class="xxpn" id="p173">{173}</span>
-masses being such that their surfaces of contact can be
-considerably heated without their remoter parts being
-much heated. What will happen? Prof. Tyndall has
-shown, in the cases of various gases and liquids, that,
-other things equal, when molecules have given to them
-more of the insensible motion which we call heat, there is
-no alteration in their periods of oscillation, but an increase
-in the amplitudes of their oscillations: the molecules make
-wider excursions in the same times. Assuming that it is
-the same in solids, it will follow that, when the two metals
-are heated at their surfaces of contact, the result will be
-the same as before in respect of the natures and intervals
-of the differential waves. There will be a change, however,
-in the strengths of these waves. For, if the two orders of
-molecules have severally given to them increased quantities
-of motion, the perturbations which they impress on each
-other will also be increased. These stronger positive and
-negative waves of differential motion will, as before, travel
-through either mass away from the surfaces of contact—that
-is, toward the cold extremities of the masses. From
-these cold extremities they will, as before, rebound toward
-the surfaces of contact; and, as before, will tend thus to
-equilibriate each other. But they will meet with resistance
-in thus travelling back. It is a well-ascertained fact that
-raising the temperatures of metals decreases their conducting
-powers. Hence, if the two cold ends of the masses be
-connected by some other mass whose molecules can take
-on with facility these differential undulations—that is, if
-the two ends be joined by a conductor, the positive and
-negative waves will meet and neutralize one another along
-this conductor, instead of being reflected back to the
-surfaces of contact. In other words, there will be established
-a current along the wire joining the two cold ends
-of the metallic masses.</p>
-
-<p>Carried a step further, this reasoning affords us an
-explanation of the thermo-electric pile. If a number
-of <span class="xxpn" id="p174">{174}</span>
-these bars of different metals, as antimony and bismuth,
-are soldered together, end to end, in alternate order, AB,
-AB, AB, etc., then, so long as they remain cold, there is
-no manifestation of an electric current; or, if all the joints
-are equally heated, there is no manifestation of an electric
-current beyond that which would arise from any relative
-coolness of the two ends of the compound bar. But if
-alternate joints are heated, an electric current is produced
-in a wire joining the two ends of the compound bar—a
-current that is intense in proportion to the number of
-pairs. What is the cause of this? Clearly, so long as all
-the joints are of the same temperature, the differential
-waves propagated from each joint toward the two adjacent
-joints will be equal and opposite to those from the adjacent
-joints, and no disturbance will be shown. But if alternate
-joints are heated, the positive and negative differential
-waves propagated away from them will be stronger than
-those propagated from the other joints. Hence, if the
-joint of bar A with bar B be heated, the other end of the
-bar B, which is joined to A2, not being heated, will receive
-a stronger differential wave than it sends back. In addition
-to the wave which its molecules would otherwise
-induce in the molecules of A2, there is an effect which it
-conducts from A1; and this extra impulse propagated to
-the other end of B2 is added to the impulse which its
-heated molecules would otherwise give to the molecules of
-A3; and so on throughout the series. The waves being
-added together, become more violent, and the current
-through the wire joining the extremities of the series,
-more intense.</p>
-
-<p>This interpretation of the facts of thermo-electricity will
-probably be met by the objection that there are, in some
-cases, thermo-electric currents developed between masses
-of metal of the same kind, and even between different
-parts of the same mass. It may be urged that, if unlikeness
-between the rates of vibration of molecules in
-contact <span class="xxpn" id="p175">{175}</span>
-is the cause of these electric disturbances; then, heat
-ought not to produce any electric disturbances when the
-molecules are of the same kind; since heat does not
-change the periodic times of molecular vibrations. This
-objection, which seems at first sight a serious one, introduces
-us to a confirmation. For where the masses of
-molecules are homogeneous in all other respects, difference of
-temperature does <i>not</i> generate any thermo-electric current.
-The junction of hot with cold mercury sets up no electric
-excitement. In all cases where thermo-electricity is
-generated between metals of the same kind, there is
-evidence of heterogeneity in their molecular structures—either
-one has been hammered and the other not, or one is
-annealed and the other unannealed. And where the
-current is between different parts of the same mass, there
-are differences in the crystalline states of the parts, or
-differences between the ways in which the parts have
-cooled after being cast. That is to say, there is proof that
-the molecules in the two masses, or in different parts of
-the same mass, are in unlike relations to their neighbours—are
-in unlike states of tension. Now, however true it
-may be that molecules of the same kind vibrate at the
-same rate, whatever may be their temperature, it is
-obviously true so long only as their motions are not
-modified by restraining forces. If molecules of the same
-kind are in one mass arranged into that state which
-constitutes crystallization, while in another mass they are
-not thus bound together; or if in the one their molecular
-relations have been modified by hammering, and in the
-other not; the differences in the restraints under which
-they respectively vibrate will affect their rates of vibration.
-And if their rates of vibration are rendered unequal,
-then the alleged cause of electrical disturbance comes
-into existence.</p>
-
-<p>To sum up, may it not be said that by some such
-action alone can the phenomena of electricity be
-explained; <span class="xxpn" id="p176">{176}</span>
-and that some such action must inevitably arise under the
-conditions? On the one hand electricity, being a mode
-of motion, implies the transformation of some preëxisting
-motion—implies, also, a transformation such that there are
-two new kinds of motion simultaneously generated, equal
-and opposite in their directions—implies, further, that
-these differ in being <i>plus</i> and <i>minus</i>, and being therefore
-capable of neutralizing each other. On the other hand, in
-the above cases, molecular motion is the only source of
-motion that can be assigned; and this molecular motion
-seems calculated, under the circumstances, to produce
-effects like those witnessed. Molecules vibrating at different
-rates cannot be brought in juxtaposition without
-affecting one another’s motions. They must affect one
-another’s motions by periodically adding to, or deducting
-from one another’s motions; and any excess of motion
-which those of the one order receive, must be accompanied
-by an equivalent defect of motion in those of the other
-order. When such molecules are units of aggregates
-placed in contact, they must pass on these perturbations to
-their neighbours. And so, from the surface of contact,
-there must be waves of excessive and defective molecular
-motion, equal in their amounts, and opposite in their
-directions—waves which must exactly compensate one
-another when brought into relation.</p>
-
-<p>I have here dealt only with electrical phenomena of the
-simplest kind. Hereafter I may possibly endeavour to
-show how this hypothesis furnishes in­ter­pre­ta­tions of other
-forms of Electricity.</p>
-
-<hr class="hr33" />
-
-<div class="dhp"><h3 class="h3inline">
-<span class="smcap">P<b>OSTSCRIPT</b></span> (1873).</h3>—During
-the nine years which have
-elapsed since the foregoing essay was published, I have
-found myself no nearer to such allied in­ter­pre­ta­tions of
-other forms of Electricity. Though, from time to time, I
-have recurred to the subject, in the hope of fulfilling
-the <span class="xxpn" id="p177">{177}</span>
-expectation raised by the closing sentence, yet no clue has
-encouraged me to pursue the speculation. Only now, when
-republication of the essay in a permanent form once more
-brings the question before me, does there occur a thought
-which appears worth setting down.</div>
-
-<p>The union of two different ideas, not before placed side
-by side, has generated this thought. In the first number of
-the <i>Principles of Biology</i>, issued in January 1863, and
-dealing, among other “Data of Biology,” with organic
-matter and the effects of forces upon it, I ventured to
-speculate about the molecular actions concerned in
-organic changes, and, among others, those by which light
-enables plants to take the carbon from carbonic acid (§ 13).
-Pointing out that the ability of heat to decompose compound
-molecules, is generally proportionate to the difference
-between the atomic weights of their component elements,
-and assuming that components having widely-unlike atomic
-weights, have widely-unlike motions, and are therefore
-affected by widely-unlike undulations; the inference drawn
-was, that in proportion as the rhythms of its components
-differ, a compound molecule will be unstable in presence of
-strong etherial undulations acting upon one component
-more than on the other or others: their movements thus
-being rendered so incongruous that they can no longer
-hold together. It was argued, further, that a tolerably-stable
-compound molecule may, if exposed to strong etherial
-undulations especially disturbing one of its components, be
-decomposed when in presence of some unlike molecule
-having components whose times of oscillation differ less from
-those of this disturbed component. And a parallel was
-drawn between the de-oxidation of metals by carbon when
-exposed to the longer undulations in a furnace, and the
-de-carbonization of carbonic acid by hydrogen, &amp;c., when
-exposed to the shorter undulations in a plant’s leaves.
-These ideas I recall chiefly for the purpose of presenting
-clearly the conception of a compound molecule as
-containing <span class="xxpn" id="p178">{178}</span>
-diversely-moving components—components having independent
-and unlike oscillations, in addition to the oscillation of
-the whole molecule formed by them. The legitimacy of this
-conception may, I suppose, be assumed. The beautiful
-experiments by which Prof. Tyndall has proved that light
-decomposes the vapours of certain compounds, illustrates
-this ability which the elements of a compound molecule
-have, severally to take up etherial undulations corresponding
-to their own; and thus to have their individual movements
-so increased as to cause disruption of the compound molecule.
-This, at least, is the interpretation which Prof. Tyndall puts
-on the facts; and I presume that he puts a kindred
-interpretation upon the facts he has disclosed respecting
-the marvellous power possessed by complex-moleculed
-vapours to absorb heat—the interpretation, namely, that
-the thermal undulations are, in such vapours, taken up in
-augmenting the movements within each molecule, rather than
-in augmenting the movements of the molecules as wholes.</p>
-
-<p>But now, assuming this to be a true conception of compound
-molecules and the effects produced on them by
-etherial undulations, there presents itself the question—What
-will be the effects produced by compound molecules
-on one another? How will the elements of one compound
-molecule have their rhythmical motions affected by proximity
-to the elements of an unlike compound molecule? May we
-not suspect that effects will be produced on one another,
-not only by the unlike molecules as wholes, but also certain
-other, and par­tial­ly-in­de­pen­dent, effects by their components
-on one another; and that there will so be generated some
-specialized form of molecular motion? Throughout the
-speculation set forth in the foregoing essay, the supposition
-is that the molecules are those of juxtaposed metals—molecules
-which, whether absolutely simple or not, are
-relatively simple; and these are regarded as producing on
-one another’s movements perturbations of a relatively-simple
-kind, which admit of being transferred from
-molecule <span class="xxpn" id="p179">{179}</span>
-to molecule throughout each mass. In trying to carry
-further this interpretation, it had not occurred to me until
-now, to consider the perturbations produced on one another
-by compound molecules: taking into consideration, not
-merely the capacity each has for affecting the other as a
-whole, but the capacity which the constituents of each
-individually have for affecting the individual constituents of
-the other. If an individual constituent of a compound
-molecule can, by the successive impacts of etherial undulations,
-have the amplitudes of its oscillations so increased as
-to detach it; we can scarcely doubt that an individual
-constituent of a compound molecule may affect an individual
-constituent of an unlike compound molecule near it: their
-respective oscillations perturbing one another apart from
-the perturbation produced on one another by the compound
-molecules as wholes. And it seems inferable that the
-secondary perturbation thus arising, will, like the primary
-perturbation, be such that the action and reaction, equal
-and opposite in their amounts, will produce equal and
-opposite deviations in the molecular movements. From this
-there appear to be several corollaries.</p>
-
-<p>If a compound molecule, having a slow rhythm as a whole
-in addition to the more rapid rhythms of its members, has
-the power of taking up much of that motion we call heat in
-the increase of its internal movements, and to a corresponding
-degree takes up less in the increase of its movements
-as a whole; then may we not infer that the like will hold
-when other kinds of forces are brought to bear on it? May
-we not anticipate that when a mass of compound molecules of
-one kind is made to act upon a mass of compound molecules
-of another kind (say by friction), the molecular effects mutually
-produced, partly in agitating the molecules as wholes,
-and partly in agitating their components relatively to one
-another, will become less of the first and more of the last, in
-proportion as the molecules progress in compositeness?</p>
-
-<p>A further implication suggests itself. While much of
-the <span class="xxpn" id="p180">{180}</span>
-force mutually exercised will thus go to increase the motion
-within each of the compound molecules that immediately act
-on one another, it appears inferable that relatively little of
-this intestinal motion will be communicated to other molecules.
-The excesses of oscillation given to individual members of
-a large cluster, will not be readily passed on to homologous
-members of adjacent large clusters; since they must be
-relatively far apart. Whatever motion is transferred, must
-be transferred by waves of the intervening etherial medium;
-and the power of these must decrease rapidly as the distance
-increases. Obviously such difficulty of transfer must, for
-this reason, become great when the molecules become
-highly compounded.</p>
-
-<p>At the same time will it not follow that such augmentations
-of movement caused in individual members of a
-cluster, not being readily transmissible to homologous
-members of adjacent clusters, will accumulate? The more
-composite molecules become, the more possible will it be
-for individual components of them to be violently affected
-by individual components of different composite molecules
-near them—the more possible will it be for their mutual
-perturbations to progressively increase?</p>
-
-<p>And now let us consider how these inferences bear on
-the interpretation of Statical Electricity—the form of
-Electricity most unlike the form above dealt with.</p>
-
-<p>The substances which exhibit most conspicuously the
-phenomena of statical electricity are distinguished either
-by the chemical complexity of their molecules, or else by
-the compositeness of their molecules produced allotropically
-or isomerically, or else by both. The simple substances
-electrically excited by friction, as carbon and sulphur,
-are those having several allotropic states—those capable
-of forming multiple molecules. The conchoidal fracture
-of the diamond and of roll-sulphur, suggest some colloidal
-form of aggregation, regarded by Prof. Graham as a
-form in which the molecules are united into <span class="xxpn" id="p181">{181}</span>
-relatively-large groups.<a class="afnanch" href="#fn23" id="fnanch23">23</a>
-In such compound inorganic substances
-as glass, we have, besides the chemical complexity, this
-same conchoidal fracture which, along with other evidence,
-shows glass to be a colloid; and the colloidal form of
-molecule is to be similarly inferred as characterizing resin,
-amber, &amp;c. That dry animal substances, such as silk
-and hair, are formed of extremely-large molecules, we
-have clear proof; since these, chemically complex in a
-high degree, also have their components united in high
-multiples. It needs but to name the fact that non-electric
-and conducting substances, such as the metals, acids,
-water, &amp;c., have relatively-simple molecules, to make it
-clear that the capacity for developing statical electricity
-depends in some way upon the presence of molecules of
-highly composite kinds. And there is even still more
-conclusive proof than that yielded by the contrast between
-these groups—the proof furnished by the fact that the
-same substance may be a conductor or a non-conductor,
-according to its form of molecular aggregation. Thus
-selenium when crystalline is a conductor, but when in that
-allotropic state called amorphous, or non-crystalline, it is a
-good non-conductor. That is, accepting Prof. Graham’s
-interpretation of these states, when its molecules are
-arranged simply, it is a conductor, but when they are
-compounded into large groups it is a non-conductor, and,
-by implication, an electric.</p>
-
-<p>So far, then, the <i>à priori</i> inference that a peculiar
-form of molecular perturbation will result when two unlike
-substances, one of which or each of which
-consists of <span class="xxpn" id="p182">{182}</span>
-highly-compounded molecules, are made to act on one
-another, is justified <i>a posteriori</i>. And now, instead of
-asking generally what will happen, let us ask what may
-be inferred to happen in a special case. A piece of glass
-is rubbed by silk. The large colloidal molecules forming
-the surface of each, are made to disturb one another.
-This is an inference about which there will, I suppose,
-be no dispute; since it is that assumed in the now-established
-doctrine of the correlation of heat and motion.
-Besides the effect which, as wholes the molecules mutually
-produce, there is the effect produced on one another by
-certain of their components. Such of these as have times
-of oscillation which differ, but not very widely, generate
-mutual perturbations that are equal and opposite. Could
-these perturbations be readily propagated away from the
-surface of contact through either mass, the effect would
-quickly dissipate, as in the case of metals; but, for the
-reason given above, these perturbations cannot be transferred
-with ease to the homologous members of the
-compound molecules behind. Hence the mechanical force
-of the friction, transformed into the molecular movements
-of these superficial constituent molecules, exists in them
-as <i>intense</i> mutual perturbations, which, unable to diffuse,
-are limited to the surfaces, and, indeed, to those parts of
-the surfaces that have acted on one another. In other
-words, the two surfaces become charged with two equal and
-opposite molecular perturbations—perturbations which,
-cancelling one another if the surfaces are kept in contact,
-cannot do this if the surfaces are parted; but can then
-cancel one another only if a conductor is interposed.</p>
-
-<p>Let me briefly point out some apparent agreements
-between the corollaries from this hypothesis, and the
-observed phenomena.</p>
-
-<p>We have, first, an interpretation of the fact, otherwise
-seeming so anomalous, that this form of electrical excitement
-is <i>superficial</i>. That there should be a mode
-of <span class="xxpn" id="p183">{183}</span>
-activity limited to the surface of a substance, is difficult
-to understand in the absence of some conception of the
-kind suggested.</p>
-
-<p>We have an explanation of the truth, insisted on by
-Faraday, that there can be no charge of one kind of
-electricity obtained, without a corresponding charge of
-the opposite kind. For it is a necessary implication of
-the hypothesis above set forth, that no molecular perturbation
-of the nature described, can be produced, without
-there being simultaneously produced a coun­ter-per­tur­ba­tion
-exactly equal to it.</p>
-
-<p>May we not also say that some insight is afforded into
-the phenomena of induction? In the cases thus far
-considered, the two surfaces electrified by the mutual
-perturbations of their molecules, are supposed to be in
-contact. Since, however, apparent contact is not actual
-contact, we must, even in this case, assume that the
-mutual perturbation is effected through an intervening
-stratum of ether. To interpret induction, then, we have
-first to conceive this stratum of ether to be greatly
-increased in thickness; and then to ask what will happen
-if the molecules of one surface, in this state of extreme
-internal perturbation, act on the molecules of a surface
-near it. Whether the stratum of ether is so thin as to
-be inappreciable to our senses, or whether it is wide
-enough to be conspicuous, it must still happen that if
-through it the mutual perturbations are conveyed in the
-one case, they will be conveyed in the other; and hence
-a surface which is already the seat of these molecular
-perturbations of one order, will induce perturbations of a
-counter order in the molecules of an adjacent surface.</p>
-
-<p>In additional justification of the hypothesis, I will only
-point out that voltaic electricity seems to admit of a
-kindred interpretation. For any molecular re-arrangement,
-such as occurs in a chemical decomposition and
-recombination, implies that the movements of the <span class="xxpn" id="p184">{184}</span>
-molecules concerned are mutually perturbed; and their
-perturbations must conform to the general law already
-described: the molecules must derange one another’s
-motions in equal and opposite ways, and so must generate
-<i>plus</i> and <i>minus</i> derangements that cancel when brought
-into relation.</p>
-
-<p>Of course I suggest this view simply as one occurring
-to an outsider. Unquestionably it presents difficulties;
-as, for instance, that no manifest explanation is yielded
-by it of electric attractions and repulsions. And there
-are doubtless objections not obvious to me that will at
-once strike those to whom the facts are more familiar.
-The hypothesis must be regarded as speculative; and as set
-down on the chance that it may be worth consideration.</p>
-
-<hr class="hr33" />
-
-<p>Since the foregoing postscript was put in type, I have
-received criticisms upon it, oral and written, from several
-leading electricians and physicists; and I have profited
-by them to amend parts of the exposition. While I have
-remained without endorsements of the hypothesis, the
-objections raised have not been such as to make clear
-its untenability.</p>
-
-<p>On one point an addition seems needful to exclude a
-misconstruction apt to arise. The description of the
-mutually-produced molecular perturbations, opposite in
-their kinds, as resulting in waves that are propagated away
-from the place of disturbance, and that cancel when brought
-into relation, is met by the criticism that waves, proceeding
-in opposite directions and meeting, do not mutually cancel,
-but, passing one another, proceed onwards. There are,
-however, two respects in which the parallelism does not
-hold, between the waves referred to and the waves I have
-described, which perhaps cannot rightly be called waves.
-The waves referred to, as those on the surface of a
-liquid, <span class="xxpn" id="p185">{185}</span>
-are such that each consists of two opposite deviations from
-a mean state. Each shows excess and defect. A series
-of them is a series of <i>plus</i> and <i>minus</i> divergences; and if
-two such series meet one another, they do not cancel. But
-there is no analogy between this case and a case in which
-the whole effect propagated in one direction is a <i>plus</i>
-motion, and the whole effect propagated in the opposite
-direction is a <i>minus</i> motion—that is, <i>plus</i> and <i>minus</i> changes
-in other motions. These, if equal in amount, will cancel
-when they meet. If one is a continual addition to motion
-in a certain direction, and the other a corresponding
-subtraction from motion in that direction, the two, when
-added together, must produce zero. From another point of
-view the absence of parallelism between the two cases may
-be equally well seen. Waves of the kinds instanced as not
-cancelling one another, are waves produced by some force
-foreign to the medium exhibiting them—an extrinsic force.
-Hence, proceeding from the place of initiation, they are
-necessarily, considered in their totalities, <i>positive</i> in whatever
-directions they travel; and hence, too, when conducted
-round so as to meet, an exaggerated perturbation will
-result. But in the simplest of the cases here dealt with
-(that of con­tact-elec­tric­ity) the perturbation is not of
-extrinsic origin, but of intrinsic origin. There is no
-external activity at the expense of which the quantity of
-motion in the disturbed matter is positively increased. The
-activity, being such only as is internally possessed, can
-generate no more motion than already exists; and therefore
-whatever gain of motion arises anywhere in the molecules
-must be at the cost of an equal loss elsewhere. Here
-perturbation cannot be a <i>plus</i> motion in all directions from
-the place of initiation; but any <i>plus</i> motion continually
-generated can result only from an equal and opposite <i>minus</i>
-motion continually generated; and the mutual cancelling
-becomes a corollary from the mutual genesis.</p>
-
-<p>In the course of the discussions which I have had,
-the <span class="xxpn" id="p186">{186}</span>
-following way of presenting the argument has occurred
-to me.</p>
-
-<p>1. Two homogeneous bodies are rubbed together and
-there results heat: the interpretation being that the molar
-motion is transformed into molecular motion. Here motion
-produces motion—the <i>form</i> only being changed.</p>
-
-<p>2. Now of the two bodies one is replaced by a body unlike
-in nature to the other, and they are again rubbed. Again
-a certain amount of heat is produced: some of the molar
-motion is, as before, transformed into molecular motion.
-But, at the same time, another part of the molar motion
-is changed into—what? Surely not a fluid, a substance,
-a thing. It cannot be that what in the first case produces
-a change of <i>state</i>, in the second case produces an <i>entity</i>.
-And in the second case itself, it cannot be that while
-part of the original motion becomes changed into another
-species of motion, part of it becomes changed into a
-species of matter.</p>
-
-<p>3. Must we not say, then, that if, when the two bodies
-rubbed are homogeneous, sensible motion is transformed
-into insensible motion, when they are heterogeneous,
-sensible motion must still be transformed into insensible
-motion: such difference of nature as this insensible motion
-has, being consequent on the difference of nature between
-the two kinds of molecules acting on one another?</p>
-
-<p>4. If, when the two masses are homogeneous, those
-molecules which compose the two rubbed surfaces disturb
-one another, and increase one another’s oscillations;
-then, when the two masses are heterogeneous, those
-molecules forming the two rubbed surfaces must also
-disturb one another in some way—increase one another’s
-agitations.</p>
-
-<p>5. If, when the two sets of molecules are alike in kind,
-the mutual disturbance is such that they simply increase
-the amplitudes of one another’s oscillations, and do this
-because their times correspond; then, must it not
-be <span class="xxpn" id="p187">{187}</span>
-that when they are unlike in kind, the mutual disturbance
-will involve a differential action consequent on the unlikeness
-of their motions? Must not the discord of the
-oscillations produce a result which cannot be produced
-when the oscillations are concordant—a compound form of
-molecular motion?</p>
-
-<p>6. If masses of relatively-simple molecules, placed in
-apposition and made to act on one another, cause such
-effects; then must we not say that effects of the same
-class, but of a different order, will be caused by the mutual
-actions, not of the molecules as wholes, but of their
-constituents? If the rubbed surfaces severally consist of
-highly-compounded molecules—each containing, it may be,
-several hundreds of minor molecules, united into a
-def­i­nite­ly-ar­ranged
-cluster; then, while the molecules as wholes
-affect one another’s motions, must we not infer that the
-constituents of the one class will affect the constituents of
-the other class in their motions? While the molecules as
-wholes increase one another’s oscillations, or derange one
-another’s oscillations, or both, the components of them
-cannot be so stably arranged that members of the one
-group are wholly inoperative on members of the other
-group. And if they are operative, then there must be a
-compound form of molecular motion which arises when
-masses of highly-compounded molecules of unlike kinds,
-are made to act on one another.</p>
-
-<p>With this series of propositions and questions, I leave
-the suggestion to its fate; merely remarking that, setting
-out with the principles of molecular physics now accepted,
-it seems difficult to avoid the implication that some actions
-of the kinds described take place, and that there result from
-them some classes of phenomena—phenomena which, if
-not those we call electrical, remain to be
-identified.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTE TO <i>WHAT IS ELECTRICITY?</i>.</h3>
-</div>
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch23" id="fn23">23</a>
-Though conchoidal fracture may not be conclusive proof of
-colloidality, yet colloidal substances hard enough for fracture always
-display it. Respecting roll-sulphur I may say that though in a few
-days after it is made, it changes from its original state to a state
-in which it consists of minute crystals of another kind irregularly
-massed, yet there is reason for suspecting that these have a matrix
-of amorphous sulphur. I learn from Dr. Frankland that, when sublimed,
-sulphur aggregates partly into minute crystals and partly into an
-amorphous powder distinguished by insolubility.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p188">MILL <i>versus</i> HAMILTON—THE TEST OF TRUTH.</h2>
-
-<p class="pchappre">[<i>First
-published in</i> The Fortnightly Review <i>for July 1865.</i>]</p>
-
-<p>British speculation, to which, the chief initial ideas and
-established truths of Modern Philosophy are due, is no
-longer dormant. By his <i>System of Logic</i>, Mr. Mill probably
-did more than any other writer to re-awaken it. And to
-the great service he thus rendered some twenty years ago,
-he now adds by his <i>Examination of Sir William Hamilton’s
-Philosophy</i>—a work which, taking the views of Sir William
-Hamilton as texts, reconsiders sundry ultimate questions
-that still remain unsettled.</p></div>
-
-<p>Among these questions is one of much importance which
-has already been the subject of controversy between Mr.
-Mill and others; and this question I propose to discuss
-afresh. Before doing so, however, it will be desirable to
-glance at two cardinal doctrines of the Hamiltonian philosophy
-from which Mr. Mill shows reasons for dissenting—desirable,
-because comment on them will elucidate what
-is to follow.</p>
-
-<p>In his fifth chapter, Mr. Mill points out that “what is
-rejected as knowledge by Sir William Hamilton,” is
-“brought back by him under the name of belief.” The
-quotations justify this description of Sir W. Hamilton’s
-position, and warrant the assertion that the relativity
-of <span class="xxpn" id="p189">{189}</span>
-knowledge was held by him but nominally. His inconsistency
-may, I think, be traced to the use of the word
-“belief” in two quite different senses. We commonly say
-we “believe” a thing for which we can assign preponderating
-evidence, or concerning which we have received some
-indefinable impression. We <i>believe</i> that the next House of
-Commons will not abolish Church-rates; or we <i>believe</i> that
-a person on whose face we look is good-natured. That is,
-when we can give con­fes­sed­ly-in­ad­e­quate proofs or no
-proofs at all for the things we think, we call them “beliefs.”
-And it is the peculiarity of these beliefs, as contrasted with
-cognitions, that their connexions with antecedent states of
-con­scious­ness may be easily severed, instead of being
-difficult to sever. But, unhappily, the word “belief” is
-also applied to each of those temporarily or permanently
-indissoluble connexions in con­scious­ness, for the acceptance
-of which the only warrant is that it cannot be got rid of.
-Saying that I feel a pain, or hear a sound, or see one line
-to be longer than another, is saying that there has occurred
-in me a certain change of state; and it is impossible for
-me to give a stronger evidence of this fact than that it
-is present to my mind. Every argument, too, is resolvable
-into successive affections of con­scious­ness which have no
-warrants beyond themselves. When asked why I assert
-some mediately known truth, as that the three angles of a
-triangle are equal to two right angles, I find that the proof
-may be decomposed into steps, each of which is an immediate
-con­scious­ness that certain two quantities or two relations
-are equal or unequal—a con­scious­ness for which no
-further evidence is assignable than that it exists in me.
-Nor, on finally getting down to some axiom underlying the
-whole fabric of demonstration, can I say more than that it
-is a truth of which I am immediately conscious. But now
-observe the confusion that has arisen. The immense
-majority of truths which we accept as beyond doubt, and
-from which our notion of unquestionable truth is
-abstracted, <span class="xxpn" id="p190">{190}</span>
-have this other trait in common—they are severally established
-by affiliation on deeper truths. These two characters
-have become so associated, that one seems to imply the
-other. For each truth of geometry we are able to assign
-some wider truth in which it is involved; for that wider
-truth we are able, if required, to assign some still wider;
-and so on. This being the general nature of the demonstration
-by which exact knowledge is established, there has
-arisen the illusion that knowledge so established is knowledge
-of higher validity than that immediate knowledge
-which has nothing deeper to rest on. The habit of asking
-for proof, and having proof given, in all these multitudinous
-cases, has produced the implication that proof may be asked
-for those ultimate dicta of con­scious­ness into which all
-proof is resolvable. And then, because no proof of these
-can be given, there arises the vague feeling that they are
-akin to other things of which no proof can be given—that
-they are uncertain—that they have unsatisfactory bases.
-This feeling is strengthened by the accompanying misuse of
-words. “Belief” having, as above pointed out, become
-the name of an impression for which we can give only a
-con­fes­sed­ly-in­ad­e­quate reason, or no reason at all; it happens
-that when pushed hard respecting the warrant for
-any ultimate dictum of con­scious­ness, we say, in the absence
-of all assignable reason, that we <i>believe</i> it. Thus the two
-opposite poles of knowledge go under the same name; and
-by the reverse connotations of this name, as used for the
-most coherent and least coherent relations of thought, profound
-misconceptions have been generated. Here, it seems
-to me, is the source of Sir William Hamilton’s error.
-Classing as “beliefs” those direct, undecomposable dicta
-of con­scious­ness which transcend proof, he asserts that
-these are of higher authority than knowledge (meaning by
-knowledge that for which reasons can be given); and in
-asserting this he is fully justified. But when he claims
-equal authority for those affections of con­scious­ness
-which <span class="xxpn" id="p191">{191}</span>
-go under the same name of “beliefs,” but differ in being
-ex­treme­ly-in­di­rect affections of con­scious­ness, or not definite
-affections of con­scious­ness at all, the claim cannot be
-admitted. By his own showing, no positive cognition
-answering to the word “infinite” exists; while, contrariwise,
-those cognitions which he rightly holds to be above
-question, are not only positive, but have the peculiarity
-that they cannot be suppressed. How, then, can the two
-be grouped together as of like degrees of validity?</p>
-
-<p>Nearly allied in nature to this, is another Hamiltonian
-doctrine, which Mr. Mill effectively combats. I refer to
-the corollary respecting noumenal existence which Sir
-William Hamilton draws from the law of the Excluded
-Middle, or, as it might be more intelligibly called, the
-law of the Alternative Necessity. A thing must either
-exist or not exist—must have a certain attribute or not
-have it: there is no third possibility. This is a postulate
-of all thought; and in so far as it is alleged of phenomenal
-existence, no one calls it in question. But Sir William
-Hamilton, applying the formula beyond the limits of
-thought, draws from it certain conclusions respecting things
-as they are, apart from our con­scious­ness. He says, for
-example, that though we cannot conceive Space as infinite
-or as finite, yet, “on the principle of the Excluded Middle,
-one or other must be admitted.” This inference Mr. Mill
-shows good reason for rejecting. His argument may
-be supplemented by another, which at once suggests itself
-if from the words of Sir William Hamilton’s propositions
-we pass to the thoughts for which they are supposed to
-stand. When remembering a certain thing as in a certain
-place, the place and the thing are mentally represented
-together; while to think of the non-existence of the
-thing in that place, implies a con­scious­ness in which the
-place is represented but not the thing. Similarly, if,
-instead of thinking of an object as colourless, we think of it
-as having colour, the change consists in the addition to
-the <span class="xxpn" id="p192">{192}</span>
-concept of an element that was before absent from it—the
-object cannot be thought of first as red and then as not
-red, without one component of the thought being expelled
-from the mind by another. The doctrine of the Excluded
-Middle, then, is simply a generalization of the universal
-experience that some mental states are directly destructive
-of other states. It formulates a certain ab­so­lute­ly-con­stant
-law, that no positive mode of con­scious­ness can
-occur without excluding a correlative negative mode;
-and that the negative mode cannot occur without excluding
-the correlative positive mode: the antithesis of positive
-and negative, being, indeed, merely an expression of this
-experience. Hence it follows that if con­scious­ness is not
-in one of the two modes, it must be in the other. But
-now, under what conditions only can this law of con­scious­ness
-hold? It can hold only so long as there are positive
-states of con­scious­ness which can exclude the negative states,
-and which the negative states can in their turn exclude.
-If we are not concerned with positive states of con­scious­ness
-at all, no such mutual exclusion takes place, and the
-law of the Alternative Necessity does not apply. Here,
-then, is the flaw in Sir William Hamilton’s proposition.
-That Space must be infinite or finite, are alternatives of
-which we are not obliged to regard one as necessary; seeing
-that we have no state of con­scious­ness answering to
-either of these words as applied to the totality of Space,
-and therefore no exclusion of two antagonist states of con­scious­ness
-by one another. Both alternatives being unthinkable,
-the proposition should be put thus: Space is
-<span class="spc-a">either</span> or
-<span class="spc-a">is</span>;
-neither of which can be conceived,
-but one of which must be true. In this, as in
-some other cases, Sir William Hamilton continues to work
-out the forms of thought when they no longer contain any
-substance; and, of course, reaches nothing more than verbal
-conclusions.</p>
-
-<p>Ending here these comments on doctrines of Sir
-William <span class="xxpn" id="p193">{193}</span>
-Hamilton, which Mr. Mill rejects on grounds that will be
-generally recognized as valid, let me now pass to a doctrine,
-partly held by Sir William Hamilton, and held by others in
-ways variously qualified and variously extended—a doctrine
-which, I think, may be successfully defended against
-Mr. Mill’s attack.</p>
-
-<p class="padtopa">In the fourth and fifth editions of his <i>Logic</i>, Mr. Mill
-treats, at considerable length, the question—Is in­con­ceiv­abil­ity
-an evidence of untruth?—replying to criticisms previously
-made on his reasons for asserting that it is not.
-The chief answers which he there makes to these criticisms,
-turn upon the interpretation of the word <i>inconceivable</i>. This
-word he considers is used as the equivalent of the word
-<i>unbelievable</i>; and, translating it thus, readily disposes of
-sundry arguments brought against him. Whether any
-others who have used these words in philosophical discussion,
-have made them synonymous, I do not know; but that they
-are so used in those reasonings of my own which Mr. Mill
-combats, I was not conscious, and was surprised to find
-alleged. It is now manifest that I had not adequately
-guarded myself against the misconstruction which is liable
-to arise from the double meaning of the word <i>belief</i>—a word
-which, we have seen, is used for the most coherent and the
-least coherent connexions in con­scious­ness, because they
-have the common character that no reason is assignable for
-them. Throughout the argument to which Mr. Mill replies,
-the word is used by me only in the first of these senses.
-The “invariably existent beliefs,” the “indestructible beliefs,”
-are the indissoluble connexions in con­scious­ness—never
-the dissoluble ones. But <i>unbelievable</i> implies the dissoluble
-ones. By association with the other and more general
-meaning of the word <i>belief</i>, the word <i>unbelievable</i> suggests
-cases in which the proposition admits of being represented
-in thought, though it may be with difficulty; and in which,
-consequently, the coun­ter-pro­po­si­tion admits of
-being <span class="xxpn" id="p194">{194}</span>
-decomposed. To be quite sure of our ground, let us define
-and illustrate the meanings of <i>inconceivable</i> and <i>unbelievable.</i>
-An inconceivable proposition is one of which the
-terms cannot, by any effort, be brought before con­scious­ness
-in that relation which the proposition asserts between them—a
-proposition of which the subject and the predicate offer
-an insurmountable resistance to union in thought. An
-unbelievable proposition is one which admits of being
-framed in thought, but is so much at variance with experience
-that its terms cannot be put in the alleged relation without
-effort. Thus, it is unbelievable that a cannon-ball fired from
-England should reach America; but it is not inconceivable.
-Conversely, it is inconceivable that one side of a triangle is
-equal to the sum of the other two sides—not simply unbelievable.
-The two sides cannot be represented in con­scious­ness
-as becoming equal in their joint length to the third side,
-without the rep­re­sen­ta­tion of a triangle being destroyed;
-and the concept of a triangle cannot be framed without a
-simultaneous destruction of a concept in which these magnitudes
-are represented as equal. That is to say, the subject
-and predicate cannot be united in the same intuition—the
-proposition is unthinkable. It is in this sense only that I
-have used the word inconceivable; and only when rigorously
-restricted to this sense do I regard the test of in­con­ceiv­able­ness
-as having any value.</p>
-
-<p>I had concluded that when this explanation was made,
-Mr. Mill’s reasons for dissent would be removed. Passages
-in his recently-published volume, however, show that, even
-restricting the use of the word inconceivable to the meaning
-here specified, he still denies that a proposition is
-proved to be true by the in­con­ceiv­able­ness of its negation.
-To meet, within any moderate compass, all the issues which
-have grown out of the controversy, is difficult. Before
-passing to the essential question, however, I will endeavour
-to clear the ground of certain minor questions.</p>
-
-<p>Describing Sir William Hamilton’s doctrine
-respecting <span class="xxpn" id="p195">{195}</span>
-the ultimate facts of con­scious­ness, or those which are
-above proof, Mr. Mill writes:</p>
-
-<p>“The only condition he requires is that we be not able
-to ‘reduce it [a fact of this class] to a generalization from
-experience.’ This condition is realized by its possessing
-the ‘character of necessity.’ ‘It must be impossible not
-to think it. In fact, by its necessity alone can we recognize
-it as an original datum of intelligence, and distinguish
-it from any mere result of generalization and custom.’ In
-this Sir William Hamilton is at one with the whole of his
-own section of the philosophical world; with Reid, with
-Stewart, with Cousin, with Whewell, we may add, with
-Kant, and even with Mr. Herbert Spencer. The test by
-which they all decide a belief to be a part of our primitive
-con­scious­ness—an original intuition of the mind—is the
-necessity of thinking it. Their proof that we must always,
-from the beginning, have had the belief, is the impossibility
-of getting rid of it now. This argument, applied to any of
-the disputed questions of philosophy, is doubly illegitimate:
-neither the major nor the minor premise is admissible.
-For in the first place, the very fact that the question is
-disputed, disproves the alleged impossibility. Those
-against whom it is needful to defend the belief which is
-affirmed to be necessary, are unmistakable examples that it
-is not necessary&#160;.&#160;.&#160;.&#160;. These philosophers, therefore, and
-among them Sir William Hamilton, mistake altogether the
-true conditions of psychological investigation, when, instead
-of proving a belief to be an original fact of con­scious­ness
-by showing that it could not have been acquired, they
-conclude that it was not acquired, for the reason, often
-false, and never sufficiently substantiated, that our con­scious­ness
-cannot get rid of it now.”</p>
-
-<p>This rep­re­sen­ta­tion, in so far as it concerns my own
-views, has somewhat puzzled me. Considering that I have
-avowed a general agreement with Mr. Mill in the doctrine
-that all knowledge is from experience, and have
-defended <span class="xxpn" id="p196">{196}</span>
-the test of in­con­ceiv­able­ness on the very ground that it
-expresses “the net result of our experiences up to the
-present time” (<i>Principles of Psychology</i>, § 430)—considering
-that, so far from asserting the distinction quoted from
-Sir William Hamilton, I have aimed to abolish such
-distinction—considering that I have endeavoured to show
-how all our conceptions, even down to those of Space and
-Time, are “acquired”—considering that I have sought to
-interpret forms of thought (and by implication all intuitions)
-as products of organized and inherited experiences
-(<i>Principles of Psychology</i>, § 208); I am taken aback at finding
-myself classed as in the above paragraph. Leaving the
-personal question, however, let me pass to the assertion
-that the difference of opinion respecting the test of necessity
-itself disproves the validity of the test. Two issues are here
-involved. First, if a particular proposition is by some
-accepted as a necessary belief, but by one or more denied
-to be a necessary belief, is the validity of the test of
-necessity thereby disproved in respect of that particular
-proposition? Second, if the validity of the test is disproved
-in respect of that particular proposition, does it therefore
-follow that the test cannot be depended on in other cases?—does
-it follow that there are no beliefs universally accepted
-as necessary, and in respect of which the test of necessity is
-valid? Each of these questions may, I think, be rightly
-answered in the negative.</p>
-
-<p>In alleging that if a belief is said by some to be necessary,
-but by others to be not necessary, the test of necessity
-is thereby shown to be no test, Mr. Mill tacitly assumes
-that all men have powers of introspection enabling them in
-all cases to say what con­scious­ness testifies; whereas a
-great proportion of men are incapable of correctly interpreting
-con­scious­ness in any but its simplest modes, and
-even the remainder are liable to mistake for dicta of
-con­scious­ness what prove on closer examination not to be
-its dicta. Take the case of an arithmetical blunder. <span class="xxpn" id="p197">{197}</span>
-A boy adds up a column of figures, and brings out a wrong
-total. Again he does it and again errs. His master asks
-him to go through the process aloud, and then hears him
-say “35 and 9 are 46”—an error which he had repeated
-on each occasion. Now without discussing the mental act
-through which we know that 35 and 9 are 44, and through
-which we recognize the necessity of this relation, it is clear
-that the boy’s mis­in­ter­pre­ta­tion of con­scious­ness, leading
-him tacitly to deny this necessity by asserting that “35 and
-9 are 46,” cannot be held to prove that the relation is not
-necessary. This, and kindred misjudgments daily made
-by accountants, merely show that there is a liability to
-overlook what are necessary connexions in our thoughts,
-and to assume as necessary others which are not. In these
-and hosts of cases, men do not distinctly translate into their
-equivalent states of con­scious­ness the words they use. This
-negligence is with many so habitual, that they are unaware
-that they have not clearly represented to themselves the
-propositions they assert; and are then apt, quite sincerely
-though erroneously, to assert that they can think things
-which it is really impossible to think.</p>
-
-<p>But supposing it to be true that whenever a particular
-belief is alleged to be necessary, the existence of some who
-profess themselves able to believe otherwise, proves that
-this belief is not necessary; must it be therefore admitted
-that the test of necessity is invalid? I think not. Men
-may mistake for necessary, certain beliefs which are not
-necessary; and yet it may remain true that there <i>are</i>
-necessary beliefs, and that the necessity of such beliefs is
-our warrant for them. Were conclusions thus tested proved
-to be wrong in a hundred cases, it would not follow that
-the test is an invalid one; any more than it would follow
-from a hundred errors in the use of a logical formula, that
-the logical formula is invalid. If from the premise that all
-horned animals ruminate, it were inferred that the rhinoceros,
-being a horned animal, ruminates; the error
-would <span class="xxpn" id="p198">{198}</span>
-furnish no argument against the worth of syllogisms in
-general—whatever their worth may be. Daily there are
-thousands of erroneous deductions which, by those who
-draw them, are supposed to be warranted by the data from
-which they draw them; but no multiplication of such
-erroneous deductions is regarded as proving that there are
-no deductions truly drawn, and that the drawing of
-deductions is illegitimate. In these cases, as in the case to
-which they are here paralleled, the only thing shown is
-the need for verification of data and criticism of the acts
-of con­scious­ness.</p>
-
-<p>“This argument,” says Mr. Mill, referring to the argument
-of necessity, “applied to any of the disputed questions
-of philosophy, is doubly illegitimate;&#160;.&#160;.&#160;. the very fact
-that the question is disputed, disproves the alleged impossibility.”
-Besides the foregoing replies to this, there is
-another. Granting that there have been appeals illegitimately
-made to this test—granting that there are many
-questions too complex to be settled by it, which men have
-nevertheless proposed to settle by it, and have consequently
-got into controversy; it may yet be truly asserted that in
-respect of all, or almost all, questions legitimately brought
-to judgment by this test, there is <i>no</i> dispute about the
-answer. From the earliest times on record down to our
-own, men have not changed their beliefs concerning the
-truths of number. The axiom that if equals be added to
-unequals the sums are unequal, was held by the Greeks no
-less than by ourselves, as a direct verdict of con­scious­ness,
-from which there is no escape and no appeal. Each of the
-propositions of Euclid appears to us absolutely beyond
-doubt as it did to them. Each step in each demonstration
-we accept, as they accepted it, because we immediately see
-that the alleged relation is as alleged, and that it is impossible
-to conceive it otherwise.</p>
-
-<div class="dctr02">
-<img src="images/pg199.jpg" width="528" height="281" alt="" />
-</div>
-
-<p>But how are legitimate appeals to the test to be distinguished?
-The answer is not difficult to find. Mr.
-Mill <span class="xxpn" id="p199">{199}</span>
-cites the belief in the antipodes as having been rejected
-by the Greeks because inconceivable, but as being held by
-ourselves to be both conceivable and true. He has before
-given this instance, and I have before objected to it (<i>Principles
-of Psychology</i>, § 428), for the reason that the states
-of con­scious­ness involved in the judgment are too complex
-to admit of any trustworthy verdict being given. An
-illustration will show the difference between a legitimate
-appeal to the test and an illegitimate appeal to it. <span class="smmaj">A</span> and
-<span class="smmaj">B</span> are two lines. How is it decided that they are equal or
-not equal? No way is open but that of comparing the two
-impressions they make on con­scious­ness. I know them to
-be unequal by an immediate act, if the difference is great,
-or if, though only moderately different, they are close
-together; and supposing the difference is but slight, I
-decide the question by putting the lines in apposition when
-they are movable, or by carrying a movable line from one
-to the other if they are fixed. But in any case, I obtain in
-con­scious­ness the testimony that the impression produced
-by the one line differs from that produced by the other.
-Of this difference I can give no further evidence than that
-I am conscious of it, and find it impossible, while contemplating
-the lines, to get rid of the con­scious­ness. The proposition
-that the lines are unequal is a proposition of which
-the negation is inconceivable. But now suppose it is asked
-whether <span class="smmaj">B</span> and <span class="smmaj">C</span> are equal;
-or whether <span class="smmaj">C</span> and <span class="smmaj">D</span> are equal.
-No positive answer is possible. Instead of its
-being <span class="xxpn" id="p200">{200}</span>
-inconceivable that <span class="smmaj">B</span> is
-longer than <span class="smmaj">C</span>, or equal to it, or shorter, it
-is conceivable that it is any one of the three. Here an appeal
-to the direct verdict of con­scious­ness is illegitimate, because
-on transferring the attention from <span class="smmaj">B</span>
-to <span class="smmaj">C</span>, or
-<span class="smmaj">C</span> to <span class="smmaj">D</span>, the
-changes in the other elements of the impressions so entangle
-the elements to be compared, as to prevent them from being
-put in apposition. If the question of relative length is to
-be determined, it must be by rectification of the bent line;
-and this is done through a series of steps, each one of which
-involves an immediate judgment akin to that by which
-<span class="smmaj">A</span> and <span class="smmaj">B</span>
-are compared. Now as here, so in other cases, it is
-only simple percepts or concepts respecting the relations of
-which immediate con­scious­ness can satisfactorily testify;
-and as here, so in other cases, it is by resolution into such
-simple percepts and concepts, that true judgments respecting
-complex percepts and concepts are reached. That
-things which are equal to the same thing are equal to one
-another, is a fact which can be known by direct comparison
-of actual or ideal relations, and can be known in no other
-way: the proposition is one of which the negation is inconceivable,
-and is rightly asserted on that warrant. But that
-the square of the hypothenuse of a right-angled triangle
-equals the sum of the squares of the other two sides, cannot
-be known immediately by comparison of two states of con­scious­ness.
-Here the truth can be reached only mediately,
-through a series of simple judgments respecting the likenesses
-or unlikenesses of certain relations: each of which
-judgments is essentially of the same kind as that by which
-the above axiom is known, and has the same warrant. Thus
-it becomes apparent that the fallacious result of the test of
-necessity which Mr. Mill instances, is due to a misapplication
-of the test.</p>
-
-<p>These preliminary explanations have served to make clear
-the question at issue. Let us now pass to the essence of it.</p>
-
-<p class="padtopa">Metaphysical reasoning is usually vitiated by some
-covert <span class="xxpn" id="p201">{201}</span>
-<i>petitio principii</i>. Either the thing to be proved or the
-thing to be disproved, is tacitly assumed to be true in the
-course of the proof or disproof. It is thus with the argument
-of Idealism. Though the conclusion reached is that
-Mind and Ideas are the only existences; yet the steps by
-which this conclusion is reached, take for granted that
-external objects have just the kind of independent existence
-which is eventually denied. If that extension which the
-Idealist contends is merely an affection of con­scious­ness,
-has nothing out of con­scious­ness answering to it; then, in
-each of his propositions concerning extension, the word
-should always mean an affection of con­scious­ness and
-nothing more. But if wherever he speaks of distances and
-dimensions we write ideas of distances and dimensions, his
-propositions are reduced to nonsense. So, too, is it with
-Scepticism. The resolution of all knowledge into “impressions”
-and “ideas,” is effected by an analysis which
-assumes at every step an objective reality producing the
-impressions and the subjective reality receiving them. The
-reasoning becomes impossible if the existence of object and
-subject be not admitted at the outset. Agree with the
-Sceptic’s doubt, and then propose to revise his argument
-so that it may harmonize with his doubt. Of the two
-alternatives between which he halts, assume, first, the
-reality of object and subject. His argument is practicable;
-whether valid or not. Now assume that object and subject
-do not exist. He cannot stir a step toward his conclusion—nay,
-he cannot even state his conclusion; for the word
-“impression” cannot be translated into thought without
-assuming a thing impressing and a thing impressed.</p>
-
-<p>Though Empiricism, as at present understood, is not
-thus suicidal, it is open to an analogous criticism on its
-method, similarly telling against the validity of its inference.
-It proposes to account for our so-called necessary
-beliefs, as well as all our other beliefs; and to do this
-without postulating any one belief as necessary.
-Bringing <span class="xxpn" id="p202">{202}</span>
-forward abundant evidence that the connexions among
-our states of con­scious­ness are determined by our experiences—that
-two experiences frequently recurring together
-in con­scious­ness, become so coherent that one
-strongly suggests the other, and that when their joint
-recurrence is perpetual and invariable, the connexion
-between them becomes indissoluble; it argues that the
-indissolubility, so produced, is all that we mean by necessity.
-And then it seeks to explain each of our so-called
-necessary beliefs as thus originated. Now could pure
-Empiricism reach this analysis and its subsequent synthesis
-without taking any thing for granted, its arguments would
-be unobjectionable. But it cannot do this. Examine its
-phraseology, and there arises the question, Experiences of
-<i>what</i>? Translate the word into thought, and it clearly
-involves something more than states of mind and the connexions
-among them. For if it does not, then the
-hypothesis is that states of mind are generated by the
-experiences of states of mind; and if the inquiry be pursued,
-this ends with initial states of mind which are not
-accounted for—the hypothesis fails. Evidently, there is
-tacitly assumed something beyond the mind by which the
-“experiences” are produced—something in which exist
-the objective relations to which the subjective relations
-correspond—an external world. Refuse thus to explain
-the word “experiences,” and the hypothesis becomes meaningless.
-But now, having thus postulated an external
-reality as the indispensable foundation of its reasonings,
-pure Empiricism can subsequently neither prove nor disprove
-its postulate. An attempt to disprove it, or to give
-it any other meaning than that originally involved, is
-suicidal; and an attempt to establish it by inference is
-reasoning in a circle. What then are we to say of this
-proposition on which Empiricism rests? Is it a necessary
-belief, or is it not? If necessary, the hypothesis in its
-pure form is abandoned. If not necessary—if not
-posited <span class="xxpn" id="p203">{203}</span>
-<i>à priori</i> as absolutely certain—then the hypothesis rests on
-an uncertainty; and the whole fabric of its argument is
-unstable. More than this is true. Besides the insecurity
-implied by building on a foundation that is confessedly
-not beyond question, there is the much greater insecurity
-implied by raising proposition upon proposition of which
-each is confessedly not beyond question. For to say that
-there are no necessary truths, is to say that each successive
-inference is not necessarily involved in its premises—is
-an empirical judgment—a judgment not certainly true.
-Hence, applying rigorously its own doctrine, we find that
-pure Empiricism, starting from an uncertainty and progressing
-through a series of uncertainties, cannot claim
-much certainty for its conclusions.</p>
-
-<p>Doubtless, it may be replied that any theory of human
-knowledge must set out with assumptions—either permanent
-or provisional; and that the validity of these assumptions
-is to be determined by the results reached through
-them. But that such assumptions may be made legitimately,
-two things are required. In the first place they
-must not be multiplied step after step as occasion requires;
-otherwise the conclusion reached might as well be assumed
-at once. And in the second place, the fact that they <i>are</i>
-assumptions must not be lost sight of: the conclusions
-drawn must not be put forward as though they have a
-certainty which the premises have not. Now pure Empiricism,
-in common with other theories of knowledge, is
-open to the criticism, that it neglects thus avowedly to
-recognize the nature of those primary assumptions which
-it lays down as provisionally valid, if it denies that they
-can be necessarily valid. And it is open to the further
-criticism, that it goes on at every step in its argument
-making assumptions which it neglects to specify as provisional;
-since they, too, cannot be known as necessary.
-Until it has assigned some warrant for its original datum
-and for each of its subsequent inferences, or
-else has <span class="xxpn" id="p204">{204}</span>
-acknowledged them all to be but hypothetical, it may be
-stopped either at the outset or at any stage in its argument.
-Against every “because” and every “therefore,”
-an opponent may enter a caveat, until he is told why it is
-asserted: contending, as he may, that if this inference is
-not necessary he is not bound to accept it; and that if it
-is necessary it must be openly declared to be necessary, and
-some test must be assigned by which it is distinguished from
-propositions that are not necessary.</p>
-
-<p>These considerations will, I think, make it obvious that
-the first step in a metaphysical argument, rightly carried
-on, must be an examination of propositions for the purpose
-of ascertaining what character is common to those which
-we call unquestionably true, and is implied by asserting
-their unquestionable truth. Further, to carry on this
-inquiry legitimately, we must restrict our analysis rigorously
-to states of con­scious­ness considered in their relations
-to one another: wholly ignoring any thing beyond con­scious­ness
-to which these states and their relations may be
-supposed to refer. For if, before we have ascertained by
-comparing propositions what is the trait that leads us to
-class some of them as certainly true, we avowedly or tacitly
-take for granted the existence of something beyond con­scious­ness;
-then, a particular proposition is assumed to be
-certainly true before we have ascertained what is the distinctive
-character of the propositions which we call certainly
-true, and the analysis is vitiated. If we cannot transcend
-con­scious­ness—if, therefore, what we know as truth must
-be some mental state, or some combination of mental
-states; it must be possible for us to say in what way we
-distinguish this state or these states. The definition of
-truth must be expressible in terms of con­scious­ness; and,
-indeed, cannot otherwise be expressed if con­scious­ness
-cannot be transcended. Clearly, then, the metaphysician’s
-first step must be to shut out from his investigation every
-thing but what is subjective; not taking for granted
-the <span class="xxpn" id="p205">{205}</span>
-existence of any thing objective corresponding to his ideas,
-until he has ascertained what property of his ideas it is
-which he predicates by calling them true. Let us note the
-result if he does this.</p>
-
-<p class="padtopa">The words of a proposition
-are the signs of certain states
-of con­scious­ness; and the thing alleged by a proposition is
-the connexion or disconnexion of the states of con­scious­ness
-signified. When thinking is carried on with precision—when
-the mental states which we call words, are translated
-into the mental states they symbolize (which they
-very frequently are not)—thinking a proposition consists in
-the occurrence together in con­scious­ness of the subject
-and predicate. “The bird was brown,” is a proposition
-which implies the union in thought of a particular attribute
-with a group of other attributes. When the inquirer compares
-various propositions thus rendered into states of
-con­scious­ness, he finds that they differ very greatly in
-respect of the facility with which the states of con­scious­ness
-are connected and disconnected. The mental state
-known as <i>brown</i> may be united with those mental states
-which make up the figure known as <i>bird</i>, without appreciable
-effort, or may be separated from them without appreciable
-effort: the bird may easily be thought of as black, or green,
-or yellow. Contrariwise, such an assertion as “The ice
-was hot,” is one to which he finds much difficulty in making
-his mind respond. The elements of the proposition cannot
-be put together in thought without great resistance.
-Between those other states of con­scious­ness which the word
-<i>ice</i> connotes, and the state of con­scious­ness named <i>cold</i>,
-there is an extremely strong cohesion—a cohesion measured
-by the resistance to be overcome in thinking of the ice as
-<i>hot</i>. Further, he finds that in many cases the states of
-con­scious­ness grouped together cannot be separated at all.
-The idea of pressure cannot be disconnected from the idea
-of something occupying space. Motion cannot be
-thought <span class="xxpn" id="p206">{206}</span>
-of without an object that moves being at the same time
-thought of. And then, besides these connexions in con­scious­ness
-which remain absolute under all circumstances,
-there are others which remain absolute under special
-circumstances. Between the elements of those more vivid
-states of con­scious­ness which the inquirer distinguishes as
-perceptions, he finds that there is a temp­or­ar­i­ly-in­dis­sol­u­ble
-cohesion. Though when there arises in him that comparatively
-faint state of con­scious­ness which he calls the
-idea of a book, he can easily think of the book as red, or
-brown, or green; yet when he has that much stronger con­scious­ness
-which he calls seeing a book, he finds that so
-long as there continue certain accompanying states of con­scious­ness
-which he calls the conditions to perception, those
-several states of con­scious­ness which make up the perception
-cannot be disunited—he cannot think of the book as
-red, or green, or brown; but finds that, along with a
-certain figure, there absolutely coheres a certain colour.</p>
-
-<p>Still shutting himself up within these limits, let us
-suppose the inquirer to ask himself what he thinks about
-these various degrees of cohesion among his states of
-con­scious­ness—how he names them, and how he behaves
-toward them. If there comes, no matter whence, the
-proposition—“The bird was brown,” subject and predicate
-answering to these words spring up together in con­scious­ness;
-and if there is no opposing proposition, he
-unites the specified and implied attributes without effort,
-and believes the proposition. If, however, the proposition
-is—“The bird was necessarily brown,” he makes an experiment
-like those above described, and finding that he
-can separate the attribute of brownness, and can think of
-the bird as green or yellow, he does not admit that the
-bird was necessarily brown. When such a proposition as
-“The ice was cold” arises in him, the elements of the
-thought behave as before; and so long as no test is
-applied, the union of the con­scious­ness of cold with
-the <span class="xxpn" id="p207">{207}</span>
-accompanying states of con­scious­ness, seems to be of the
-same nature as the union between those answering to the
-words <i>brown</i> and <i>bird</i>. But should the proposition be
-changed into—“The ice was necessarily cold,” quite a different
-result happens from that which happened in the previous
-case. The ideas answering to subject and predicate
-are here so coherent, that in the absence of careful examination
-they might pass as inseparable, and the proposition
-be accepted. But suppose the proposition is deliberately
-tested by trying whether ice can be thought of as not cold.
-Great resistance is offered in con­scious­ness to this. Still,
-by an effort, he can imagine water to have its temperature
-of congelation higher than blood heat; and can so think
-of congealed water as hot instead of cold. Now the extremely
-strong cohesion of states of con­scious­ness, thus
-experimentally proved by the difficulty of separating them,
-he finds to be what he calls a strong belief. Once more,
-in response to the words—“Along with motion there is
-something that moves,” he represents to himself a moving
-body; and, until he tries an experiment upon it, he may
-suppose the elements of the rep­re­sen­ta­tion to be united in
-the same way as those of the representations instanced
-above. But supposing the proposition is modified into—“Along
-with motion there is necessarily something that
-moves,” the response made in thought to these words, discloses
-the fact that the states of con­scious­ness called up in
-this case are indissolubly connected in the way alleged.
-He discovers this by trying to conceive the negation of
-the proposition—by trying to think of motion as <i>not</i> having
-along with it something that moves; and his inability
-to conceive this negation is the obverse of his inability to
-tear asunder the states of con­scious­ness which constitute
-the affirmation. Those propositions which survive this
-strain, are the propositions he distinguishes as necessary.
-Whether or not he means any thing else by this word, he
-evidently means that in his con­scious­ness the
-connexions <span class="xxpn" id="p208">{208}</span>
-they predicate are, so far as he can ascertain, unalterable.
-The bare fact is that he submits to them because he has
-no choice. They rule his thoughts whether he will or not.
-Leaving out all questions concerning the origin of these
-connexions—all theories concerning their significations,
-there remains in the inquirer the con­scious­ness that certain
-of his states of con­scious­ness are so welded together that
-all other links in the chain of con­scious­ness yield before
-these give way.</p>
-
-<p>Continuing rigorously to exclude everything beyond
-con­scious­ness, let him now ask himself what he means by
-reasoning? what is the essential nature of an argument?
-what is the peculiarity of a conclusion? Analysis soon
-shows him that reasoning is the formation of a coherent
-series of states of con­scious­ness. He has found that the
-thoughts expressed by propositions, vary in the cohesions
-of their subjects and predicates; and he finds that at every
-step in an argument, carefully carried on, he tests the
-strengths of all the connexions asserted and implied. He
-considers whether the object named really does belong to
-the class in which it is included—tries whether he can
-think of it as <i>not</i> like the things it is said to be like. He
-considers whether the attribute alleged is really possessed
-by all members of the class—tries to think of some member
-of the class that has <i>not</i> the attribute—And he admits
-the proposition only on finding, by this criticism, that
-there is a greater degree of cohesion in thought between
-its elements, than between the elements of the coun­ter-pro­po­si­tion.
-Thus testing the strength of each link in the
-argument, he at length reaches the conclusion, which he
-tests in the same way. If he accepts it, he does so because
-the argument has established in him an indirect cohesion
-between states of con­scious­ness that were not directly
-coherent, or not so coherent directly as the argument
-makes them indirectly. But he accepts it only supposing
-that the connexion between the two states of
-con­scious­ness <span class="xxpn" id="p209">{209}</span>
-composing it, is not resisted by some stronger counter-connexion.
-If there happens to be an opposing argument,
-of which the component thoughts are felt, when tested, to
-be more coherent; or if, in the absence of an opposing
-argument, there exists an apposing conclusion, of which
-the elements have some direct cohesion greater than that
-which the proffered argument indirectly gives; then the
-conclusion reached by this argument is not admitted.
-Thus, a discussion in con­scious­ness proves to be simply a
-trial of strength between different connexions in con­scious­ness—a
-systematized struggle serving to determine which
-are the least coherent states of con­scious­ness. And the
-result of the struggle is, that the least coherent states of
-con­scious­ness separate, while the most coherent remain
-together—form a proposition of which the predicate
-persists in rising up in the mind along with its subject—constitute
-one of the connexions in thought which is distinguished
-as something known, or as something believed,
-according to its strength.</p>
-
-<p>What corollary may the inquirer draw, or rather what
-corollary must he draw, on pushing the analysis to its
-limit? If there are any indissoluble connexions, he is
-compelled to accept them. If certain states of con­scious­ness
-absolutely cohere in certain ways, he is obliged to
-think them in those ways. The proposition is an identical
-one. To say that they are necessities of thought is merely
-another way of saying that their elements cannot be torn
-asunder. No reasoning can give to these absolute cohesions
-in thought any better warrant; since all reasoning,
-being a process of testing cohesions, is itself carried on by
-accepting the absolute cohesions; and can, in the last
-resort, do nothing more than present some absolute cohesions
-in justification of others—an act which unwarrantably
-assumes in the absolute cohesions it offers, a greater
-value than is allowed to the absolute cohesions it would
-justify. Here, then, the inquirer comes down to an <span class="xxpn" id="p210">{210}</span>
-ultimate mental uniformity—a universal law of his thinking.
-How completely his thought is subordinated to this law,
-is shown by the fact that he cannot even represent to himself
-the possibility of any other law. To suppose the connexions
-among his states of con­scious­ness to be otherwise
-determined, is to suppose a smaller force overcoming a
-greater—a proposition which may be expressed in words
-but cannot be rendered into ideas. No matter what he
-calls these indestructible relations, no matter what he supposes
-to be their meanings, he is completely fettered by
-them. Their in­de­struc­ti­bil­i­ty is the proof to him that his
-con­scious­ness is imprisoned within them; and supposing
-any of them to be in some way destroyed, he perceives
-that in­de­struc­ti­bil­ity would still be the distinctive character
-of the bounds that remained—the test of those which
-he must continue to think.</p>
-
-<p>These results the inquirer arrives at without assuming
-any other existence than that of his own con­scious­ness.
-They postulate nothing about mind or matter, subject or
-object. They leave wholly untouched the questions—what
-does con­scious­ness imply? and how is thought
-generated? There is not involved in the analysis any
-hypothesis respecting the origin of these relations between
-thoughts—how there come to be feeble cohesions, strong
-cohesions, and absolute cohesions. Whatever some of the
-terms used may have seemed to connote, it will be found,
-on examining each step, that nothing is essentially involved
-beyond states of mind and the connexions among them,
-which are themselves other states of mind. Thus far, the
-argument is not vitiated by any <i>petitio principii</i>.</p>
-
-<p>Should the inquirer enter upon the question, How are
-these facts to be explained? he must consider how any
-further investigation is to be conducted, and what is the
-possible degree of validity of its conclusions. Remembering
-that he cannot transcend con­scious­ness, he sees that
-anything in the shape of an interpretation must be <span class="xxpn" id="p211">{211}</span>
-subordinate to the laws of con­scious­ness. Every hypothesis he
-entertains in trying to explain himself to himself, being an
-hypothesis which can be dealt with by him only in terms of
-his mental states, it follows that any process of explanation
-must itself be carried on by testing the cohesions among
-mental states, and accepting the absolute cohesions. His
-conclusions, therefore, reached only by repeated recognitions
-of this test of absolute cohesion, can never have any
-higher validity than this test. It matters not what name
-he gives to a conclusion—whether he calls it a belief, a
-theory, a fact, or a truth. These words can be themselves
-only names for certain relations among his states of con­scious­ness.
-Any secondary meanings which he ascribes to
-them must also be meanings expressed in terms of con­scious­ness,
-and therefore subordinate to the laws of con­scious­ness.
-Hence he has no appeal from this ultimate
-dictum; and seeing this, he sees that the only possible
-further achievement is the reconciliation of the dicta of con­scious­ness
-with one another—the bringing all other dicta of
-con­scious­ness into harmony with this ultimate dictum.</p>
-
-<p class="padtopa">Here, then,
-the inquirer discovers a warrant higher than
-that which any argument can give, for asserting an objective
-existence. Mysterious as seems the con­scious­ness of
-something which is yet out of con­scious­ness, he finds that
-he alleges the reality of this something in virtue of the
-ultimate law—he is obliged to think it. There is an indissoluble
-cohesion between each of those vivid and definite
-states of con­scious­ness which he calls a sensation, and an
-indefinable con­scious­ness which stands for a mode of being
-beyond sensation, and separate from himself. When grasping
-his fork and putting food into his mouth, he is wholly
-unable to expel from his mind the notion of something
-which resists the force he is conscious of using; and he
-cannot suppress the nascent thought of an independent
-existence keeping apart his tongue and palate, and
-giving <span class="xxpn" id="p212">{212}</span>
-him that sensation of taste which he is unable to generate
-in con­scious­ness by his own activity. Though self-criticism
-shows him that he cannot know what this is which
-lies outside of him; and though he may infer that not
-being able to say what it is, it is a fiction; he discovers
-that such self-criticism utterly fails to extinguish the con­scious­ness
-of it as a reality. Any conclusion into which he
-argues himself, that there is no objective existence connected
-with these subjective states, proves to be a mere
-verbal conclusion to which his thoughts will not respond.
-The relation survives every effort to destroy it—is proved
-by experiment, repeated no matter how often, to be one of
-which the negation is inconceivable; and therefore one
-having supreme authority. In vain he endeavours to give
-it any greater authority by reasoning; for whichever of
-the two alternatives he sets out with, leaves him at the end
-just where he started. If, knowing nothing more than his
-own states of con­scious­ness, he declines to acknowledge
-any thing beyond con­scious­ness until it is proved, he may
-go on reasoning for ever without getting any further;
-since the perpetual elaboration of states of con­scious­ness
-out of states of con­scious­ness, can never produce anything
-more than states of con­scious­ness. If, contrariwise, he
-postulates external existence, and considers it as merely
-postulated, then the whole fabric of his argument, standing
-upon this postulate, has no greater validity than the
-postulate gives it, <i>minus</i> the possible invalidity of the
-argument itself. The case must not be confounded with
-those cases in which an hypothesis, or provisional assumption,
-is eventually proved true by its agreement with facts;
-for in these cases the facts with which it is found to agree,
-are facts known in some other way than through the
-hypothesis: a calculated eclipse of the moon serves as a
-verification of the hypothesis of gravitation, because its
-occurrence is observable without taking for granted the
-hypothesis of gravitation. But when the external
-world <span class="xxpn" id="p213">{213}</span>
-is postulated, and it is supposed that the validity of the
-postulate may be shown by the explanation of mental phenomena
-which it furnishes, the vice is, that the process of
-verification is itself possible only by assuming the thing to
-be proved.</p>
-
-<p>But now, recognizing the indissoluble cohesion between
-the con­scious­ness of <i>self</i> and an unknown <i>not-self</i>, as
-constituting a dictum of con­scious­ness which he is both
-compelled to accept and is justified by analysis in accepting,
-it is competent for the inquirer to consider whether, setting
-out with this dictum, he can base on it a satisfactory
-explanation of what he calls knowledge. He finds such an
-explanation possible. The hypothesis that the more or less
-coherent relations among his states of con­scious­ness, are
-generated by experience of the more or less constant
-relations in something beyond his con­scious­ness, furnishes
-him with solutions of numerous facts of con­scious­ness: not,
-however, of all, if he assumes that this adjustment of inner
-to outer relations has resulted from his own experiences
-alone. Nevertheless, if he allows himself to suppose that
-this moulding of thoughts into correspondence with things,
-has been going on through countless preceding generations;
-and that the effects of experiences have been inherited in
-the shape of modified organic structures; then he is able
-to interpret all the phenomena. It becomes possible to
-understand how these persistent cohesions among states of
-con­scious­ness, are themselves the products of often-repeated
-experiences; and that even what are known as “forms of
-thought,” are but the absolute internal uniformities generated
-by infinite repetitions of absolute external uniformities.
-It becomes possible also to understand how, in the course
-of organizing of these multiplying and widening experiences,
-there may arise partially-wrong connexions in thought,
-answering to limited converse with things; and that these
-connexions in thought, temporarily taken for indissoluble
-ones, may afterwards be made dissoluble by
-presentation <span class="xxpn" id="p214">{214}</span>
-of external relations at variance with them. But even
-when this occurs, it can afford no ground for questioning
-the test of indissolubility; since the process by which some
-connexion previously accepted as indissoluble, is broken, is
-simply the establishment of some antagonistic connexion,
-which proves, on a trial of strength, to be the stronger—which
-remains indissoluble when pitted against the other,
-while the other gives way. And this leaves the test just
-where it was; showing only that there is a liability to error
-as to what <i>are</i> indissoluble connexions. From the very
-beginning, therefore, to the very end of the explanation,
-even down to the criticism of its conclusions and the
-discovery of its errors, the validity of this test must be
-postulated. Whence it is manifest, as before said, that the
-whole business of explanation can be nothing more than
-that of bringing all other dicta of con­scious­ness into harmony
-with this ultimate dictum.</p>
-
-<p class="padtopa">To the positive
-justification of a proposition, may be
-added that negative justification which is derived from the
-untenability of the coun­ter-pro­po­si­tion. When describing
-the attitude of pure Empiricism, some indications that its
-coun­ter-pro­po­si­tion is untenable were given; but it will be
-well here to state, more specifically, the fundamental
-objections to which it is open.</p>
-
-<p>If the ultimate test of truth is not that here alleged,
-then what is the ultimate test of truth? And if there is
-no ultimate test of truth, then what is the warrant for
-accepting certain propositions and rejecting others? An
-opponent who denies the validity of this test, may legitimately
-decline to furnish any test himself, so long as he
-does not affirm any thing to be true; but if he affirms some
-things to be true and others to be not true, his warrant for
-doing so may fairly be demanded. Let us glance at the
-possible response to the demand. If asked why he holds
-it to be unquestionably true that two quantities which
-differ <span class="xxpn" id="p215">{215}</span>
-in unequal degrees from a third quantity are themselves
-unequal, two replies seem open to him: he may say that
-this is an ultimate fact of con­scious­ness, or that it is an
-induction from personal experiences. The reply that it is
-an ultimate fact of con­scious­ness, raises the question, How
-is an ultimate fact of con­scious­ness distinguished? All
-beliefs, all conclusions, all imaginations even, are facts of
-con­scious­ness; and if some are to be accepted as beyond
-question because ultimate, while others are not to be
-accepted as beyond question because not ultimate, there
-comes the inevitable inquiry respecting the test of ultimacy.
-On the other hand, the reply that this truth is known only by
-induction from personal experiences, suggests the query—On
-what warrant are personal experiences asserted? The
-testimony of experience is given only through memory;
-and its worth depends wholly on the trustworthiness of
-memory. Is it, then, that the trustworthiness of memory
-is less open to doubt than the immediate con­scious­ness
-that two quantities must be unequal if they differ from a
-third quantity in unequal degrees? This can scarcely be
-alleged. Memory is notoriously uncertain. We sometimes
-suppose ourselves to have said things which it turns out we
-did not say; and we often forget seeing things which it is
-proved we did see. We speak of many passages of our lives
-as seeming like dreams; and can vaguely imagine the whole
-past to be an illusion. We can go much further toward
-conceiving that our recollections do not answer to any
-actualities, than we can go toward conceiving the non-existence
-of Space. But even supposing the deliverances
-of memory to be above criticism, the most that can be said
-for the experiences to which memory testifies, is that we are
-obliged to think we have had them—cannot conceive the
-negation of the proposition that we have had them; and to
-say this is to assign the warrant which is repudiated.</p>
-
-<p>A further counter-criticism may be made. Throughout
-the argument of pure Empiricism, it is tacitly assumed
-that <span class="xxpn" id="p216">{216}</span>
-there may be a Philosophy in which nothing is asserted but
-what is proved. It proposes to admit into the coherent
-fabric of its conclusions, no conclusion that is incapable of
-being established by evidence; and it thus takes for granted
-that not only may all derivative truths be proved, but also
-that proof may be given of the truths from which they are
-derived, down to the very deepest. The result of thus
-refusing to recognize some fundamental unproved truth, is
-simply to leave its fabric of conclusions without a base.
-The giving proof of any special proposition, is the assimilation
-of it to some class of propositions known to be true. If
-any doubt arises respecting the general proposition which
-is cited in justification of this special proposition, the course
-is to show that this general proposition is deducible from a
-proposition or propositions of still greater generality; and
-if pressed for proof of each such still more general proposition,
-the only resource is to repeat the process. Is this
-process endless? If so, nothing can be proved—the whole
-series of propositions depends on some unassignable proposition.
-Has the process an end? If so, there must
-eventually be reached a widest proposition—one which
-cannot be justified by showing that it is included by any
-wider—one which cannot be proved. Or to put the argument
-otherwise: Every inference depends on premises;
-every premise, if it admits of proof, depends on other
-premises; and if the proof of the proof be continually
-demanded, it must either end in an unproved premise, or in
-the acknowledgment that there cannot be reached any
-premise on which the entire series of proofs depends.
-Hence Philosophy, if it does not avowedly stand on some
-datum underlying reason, must acknowledge that it has
-nothing on which to stand.</p>
-
-<p class="padtopa">The expression of divergence from Mr. Mill on this
-fundamental question, I have undertaken with reluctance,
-only on finding it needful, both on personal and on
-general <span class="xxpn" id="p217">{217}</span>
-grounds, that his statements and arguments should be met.
-For two reasons, especially, I regret having thus to contend
-against the doctrine of one whose agreement I should
-value more than that of any other thinker. In the first
-place, the difference is, I believe, superficial rather than
-substantial; for it is in the interests of the
-Ex­per­i­ence-Hy­poth­e­sis
-that Mr. Mill opposes the alleged criterion of
-truth; while it is as harmonizing with the
-Ex­per­i­ence-Hy­poth­e­sis,
-and reconciling it with all the facts, that
-I defend this criterion. In the second place, this
-lengthened exposition of a single point of difference,
-unaccompanied by an exposition of the numerous points
-of concurrence, unavoidably produces an appearance of
-dissent very far greater than that which exists. Mr. Mill,
-however, whose unswerving allegiance to truth is on all
-occasions so conspicuously displayed, will fully recognize
-the justification for this utterance of disagreement on a
-matter of such profound importance, philosophically considered;
-and will not require any apology for the entire
-freedom with which I have criticised his views while
-seeking to substantiate my own.</p>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p218">REPLIES TO CRITICISMS.</h2>
-
-<p class="pchappre">[<i>First published in</i>
-The Fortnightly Review <i>for November and
-December 1873.</i>]</p>
-
-<p>When made by a competent reader, an objection usually
-implies one of two things. Either the statement to which
-he demurs is wholly or partially untrue; or, if true, it is
-presented in such a way as to permit mis­app­re­hen­sion. A
-need for some change or addition is in any case shown.</p></div>
-
-<p>Not recognizing the errors alleged, but thinking rather
-that mis­app­re­hen­sions cause the dissent of those who have
-attacked the me­ta­phys­i­co-the­o­lo­gi­cal doctrines held by me,
-I propose here to meet, by explanations and arguments,
-the chief objections urged: partly with the view of justifying
-these doctrines, and partly with the view of guarding
-against the wrong in­ter­pre­ta­tions which it appears are apt
-to be made.</p>
-
-<p>The pages of a periodical intended for general reading
-may be thought scarcely fitted for the treatment of these
-highly abstract questions. There is now, however, so considerable
-a class interested in them, and they are so deeply
-involved with the great changes of opinion in progress,
-that I have ventured to hope for readers outside the circle
-of those who occupy themselves with philosophy.</p>
-
-<p>Of course the criticisms to be noticed I have
-selected, <span class="xxpn" id="p219">{219}</span>
-either because of their intrinsic force, or because they
-come from men whose positions or reputations give them
-weight. To meet more than a few of my opponents is out
-of the question.</p>
-
-<p class="padtopa">Let me begin with a criticism contained in the sermon
-preached by the Rev. Principal Caird before the British
-Association, on the occasion of its meeting in Edinburgh,
-in August, 1871. Expressed with a courtesy which, happily,
-is now less rare than of yore in theological controversy,
-Dr. Caird’s objection might, I think, be admitted without
-involving essential change in the conclusion demurred to;
-while it might be shown to tell with greater force against
-the conclusions of thinkers classed as orthodox, Sir W.
-Hamilton and Dean Mansel, than against my own. Describing
-this as set forth by me, Dr. Caird <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“His thesis is that the provinces of science and religion are
-distinguished from each other as the known from the unknown and
-unknowable. This thesis is maintained mainly on a critical examination
-of the nature of human intelligence, in which the writer adopts and
-carries to its extreme logical results the doctrine of the relativity
-of human knowledge which, propounded by Kant, has been reproduced with
-special application to theology by a famous school of philosophers
-in this country. From the very nature of human intelligence, it
-is attempted to be shown that it can only know what is finite and
-relative, and that therefore the absolute and infinite the human mind
-is, by an inherent and insuperable disability, debarred from knowing.
-.&#160;.&#160;.&#160;. May it not be asked, for one thing, whether in the assertion,
-as the result of an examination of the human intellect, that it
-is incapable of knowing what lies beyond the finite, there is not
-involved an obvious self-contradiction? The examination of the mind
-can be conducted only by the mind, and if the instrument be, as is
-alleged, limited and defective, the result of the inquiry must partake
-of that defectiveness. Again, does not the knowledge of a limit imply
-already the power to transcend it? In affirming that human science
-is incapable of crossing the bounds of the finite world, is it not a
-necessary presupposition that you who so affirm have crossed these
-bounds?”</p></blockquote>
-
-<p>That this objection is one I am not disinclined to recognize,
-will be inferred when I state that it is one I have
-myself raised. While preparing the second edition of
-the <span class="xxpn" id="p220">{220}</span>
-<i>Principles of Psychology</i>, I found, among my memoranda, a
-note which still bore the wafers by which it had been
-attached to the original manuscript (unless, indeed, it had
-been transferred from the MS. of <i>First Principles</i>, which
-its allusion seems to imply). It was <span class="nowrap">this:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“I may here remark in passing that the several
-reasonings, including the one above quoted, by which
-Sir William Hamilton would demonstrate the pure
-relativity of our knowledge—reasonings which clearly
-establish many important truths, and with which in
-the main I agree—are yet capable of being turned
-against himself, when he definitely concludes that
-it is impossible for us to know the absolute. For to
-positively assert that the absolute cannot be known,
-is in a certain sense to assert a <i>knowledge</i> of it—is
-to <i>know</i> it as <i>unknowable</i>. To affirm that human
-intelligence is confined to the conditioned, is to put
-an <i>absolute limit</i> to human intelligence, and implies
-<i>absolute knowledge</i>. It seems to me that the ‘learned
-ignorance’ with which philosophy ends, must be carried
-a step further; and instead of positively saying that
-the absolute is unknowable, we must say that we cannot
-tell whether it is knowable or not.”</p></blockquote>
-
-<p>Why I omitted this note I cannot now remember. Possibly
-it was because re-consideration disclosed a reply to
-the contained objection. For while it is true that the
-intellect cannot prove its own competence, since it must
-postulate its own competence in the course of the proof,
-and so beg the question; yet it does not follow that it
-cannot prove its own incompetence respecting questions of
-certain kinds. Its inability in respect of such questions has
-two conceivable causes. It may be that the deliverances
-of Reason in general are invalid, in which case the incompetence
-of Reason to solve questions of a certain class is
-implied by its general incompetence; or it may be that the
-deliverances of Reason, valid within a certain range, themselves
-end in the conclusion that Reason is incapable beyond
-that range. So that while there can be no proof of competence,
-because competence is postulated in each step of
-the demonstration, there may be proof of incompetence
-either (1) if the successive deliverances forming the steps
-of the demonstration, by severally evolving contradictions,
-show their un­trust­worth­i­ness, or (2) if, being
-trustworthy, <span class="xxpn" id="p221">{221}</span>
-they lead to the result that on certain questions Reason
-cannot give any deliverance.</p>
-
-<p>Reason leads both inductively and deductively to the
-conclusion that the sphere of Reason is limited. Inductively,
-this conclusion expresses the result of countless
-futile attempts to transcend this sphere—attempts to understand
-Matter, Motion, Space, Time, Force, in their ultimate
-natures—attempts which, bringing us always to alternative
-impossibilities of thought, warrant the inference that such
-attempts will continue to fail, as they have hitherto failed.
-Deductively, this conclusion expresses the result of mental
-analysis, which shows us that the product of thought is in
-all cases a relation, identified as such or such; that the
-process of thought is the identification and classing of
-relations; that therefore Being in itself, out of relation, is
-unthinkable, as not admitting of being brought within the
-form of thought. That is to say, deduction explains that
-failure of Reason established as an induction from many
-experiments. And to call in question the ability of Reason
-to give this verdict against itself in respect of these
-transcendent problems, is to call in question its ability
-to draw valid conclusions from premises; which is to
-assert a general incompetence necessarily inclusive of the
-special incompetence.</p>
-
-<p class="padtopa">Closely connected with the foregoing, is a criticism from
-Dr. Mansel, on which I may here make some comments.
-In a note to his <i>Philosophy of the Conditioned</i> p. 39,
-he <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Mr. Herbert Spencer, in his work on <i>First Principles</i>, endeavours
-to press Sir W. Hamilton into the service of Pantheism and Positivism
-together” [a somewhat strange assertion, by the way, considering
-that I reject them both], “by adopting the negative portion only
-of his philosophy—in which, in common with many other writers, he
-declares the absolute to be inconceivable by the mere intellect,—and
-rejecting the positive portions, in which he most emphatically
-maintains that the belief in a personal God is imperatively demanded
-by the facts of our moral and emotional
-con­scious­ness. .&#160;.&#160;.&#160;. Sir W.
-Hamilton’s fundamental principle is, that con­scious­ness <span class="xxpn" id="p222">{222}</span> must
-be accepted entire, and that the moral and religious feelings, which
-are the primary source of our belief in a personal God, are in no way
-invalidated by the merely negative inferences which have deluded men
-into the assumption of an impersonal absolute. .&#160;.&#160;.&#160;. Mr. Spencer, on
-the other hand, takes these negative inferences as the only basis of
-religion, and abandons Hamilton’s great principle of the distinction
-between knowledge and belief.”</p></blockquote>
-
-<p>Putting these statements in the order most convenient
-for discussion, I will deal first with the last of them. Instead
-of saying what he does, Dr. Mansel should have said that
-I decline to follow Sir W. Hamilton in confounding two
-distinct, and indeed radically-opposed, meanings of the
-word <i>belief</i>. This word “is habitually applied to dicta of
-con­scious­ness for which no proof can be assigned: both
-those which are unprovable because they underlie all proof,
-and those which are unprovable because of the absence of
-evidence.”<a class="afnanch" href="#fn24" id="fnanch24">24</a>
-In the pages of the <i>Fortnightly Review</i> for
-July, 1865, I exhibited this distinction as <span class="nowrap">follows:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“We commonly say we ‘believe’ a thing for which we can assign some
-preponderating evidence, or concerning which we have received some
-indefinable impression. We <i>believe</i> that the next House of Commons
-will not abolish Church-rates; or we <i>believe</i> that a person on
-whose face we look is good-natured. That is, when we can give
-con­fes­sed­ly-in­ad­e­quate proofs, or no proofs at all, for the things
-we think, we call them ‘beliefs.’ And it is the peculiarity of these
-beliefs, as contrasted with cognitions, that their connexions with
-antecedent states of con­scious­ness may be easily severed, instead of
-being difficult to sever. But unhappily, the word ‘belief’ is also
-applied to each of those temporarily or permanently indissoluble
-connexions in con­scious­ness, for the acceptance of which the only
-warrant is that it cannot be got rid of. Saying that I feel a pain,
-or hear a sound, or see one line to be longer than another, is saying
-that there has occurred in me a certain change of state; and it is
-impossible for me to give a stronger evidence of this fact than that
-it is present to my mind. .&#160;.&#160;.&#160;. ‘Belief’ having, as above pointed
-out, become the name of an impression for which we can give only a
-con­fes­sed­ly-in­ad­e­quate reason, or no reason at all; it happens that
-when pushed hard respecting the warrant for any ultimate dictum of
-con­scious­ness, we say, in the absence of all assignable reason, that
-we <i>believe</i> it. Thus the two opposite poles of knowledge go under the
-same name; and by the reverse connotations of this name, as used for
-the most coherent and least coherent relations of thought, profound
-misconceptions have been generated.”</p></blockquote>
-
-<p>Now that the belief which the moral and religious <span class="xxpn" id="p223">{223}</span>
-feelings are said to yield of a personal God, is not one
-of the beliefs which are unprovable because they underlie
-all proof, is obvious. It needs but to remember that in
-works on Natural Theology, the existence of a personal
-God is <i>inferred</i> from these moral and religious feelings,
-to show that it is not contained in these feelings themselves,
-or joined with them as an inseparable intuition. It is not
-a belief like the beliefs which I now have that this is
-daylight, and that there is open space before me—beliefs
-which cannot be proved because they are of equal simplicity
-with, and of no less certainty than, each step in a demonstration.
-Were it a belief of this most certain kind,
-argument would be superfluous: all races of men and
-every individual would have the belief in an inexpugnable
-form. Hence it is manifest that, confusing the two very
-different states of con­scious­ness called beliefs, Sir W.
-Hamilton ascribes to the second a certainty that belongs
-only to the first.</p>
-
-<p>Again, neither Sir W. Hamilton nor Dr. Mansel has
-enabled us to distinguish those “facts of our moral and
-emotional con­scious­ness” which imperatively demand the
-belief in a personal God, from those facts of our (or of
-men’s) “moral and emotional con­scious­ness” which, in
-those having them, imperatively demand beliefs that Sir
-W. Hamilton would regard as untrue. A New Zealand
-chief, discovering his wife in an infidelity, killed the man;
-the wife then killed herself that she might join her lover
-in the other world; and the chief thereupon killed himself
-that he might go after them to defeat this intention. These
-two acts of suicide furnish tolerably strong evidence that
-these New Zealanders believed in another world to which,
-they could go at will, and fulfil their desires as they did
-here. If they were asked the justification for this belief,
-and if the arguments by which they sought to establish it
-were not admitted, they might still fall back on
-emotional <span class="xxpn" id="p224">{224}</span>
-con­scious­ness as yielding them an unshakeable foundation
-for it. I do not see why a Fiji Islander, adopting the
-Hamiltonian argument, should not justify by it his conviction
-that after being buried alive, his life in the other
-world, forthwith commencing at the age he has reached
-in this, will similarly supply him with the joys of conquest
-and the gratifications of cannibalism. That he has a
-conviction to this effect stronger than the religious convictions
-current among civilized people, is proved by the
-fact that he goes to be buried alive quite willingly. And
-as we may presume that his conviction is not the outcome
-of a demonstration, it must be the outcome of some state
-of feeling—some “emotional con­scious­ness.” Why, then,
-should he not assign the “facts” of his “emotional con­scious­ness”
-as “imperatively demanding” this belief?
-Manifestly, this principle that “con­scious­ness must be
-accepted entire,” either obliges us to accept as true the
-superstitions of all mankind, or else obliges us to say that
-the con­scious­ness of a certain limited class of cultivated
-people is alone meant. If things are to be believed simply
-because the facts of emotional con­scious­ness imperatively
-demand the beliefs, I do not see why the actual existence
-of a ghost in a house, is not inevitably implied by the
-intense fear of it that is aroused in the child or the servant.</p>
-
-<p>Lastly, and chiefly, I have to deal with Dr. Mansel’s
-statement that “Mr. Spencer, on the other hand, takes
-these negative inferences as the only basis of religion.”
-This statement is exactly the reverse of the truth; since
-I have contended, against Hamilton and against him, that
-the con­scious­ness of that which is manifested to us
-through phenomena is <i>positive</i>, and not <i>negative</i>, as they
-allege, and that this positive con­scious­ness supplies an
-indestructible basis for the religious sentiment (<i>First
-Principles</i>, § 26). Instead of giving here passages to
-show this, I may fitly quote the statement and opinion of
-a <span class="xxpn" id="p225">{225}</span>
-foreign theologian. M. le pasteur Grotz, of the Reformed
-Church at Nismes, writes <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“La science serait-elle done par nature ennemie de la religion? pour
-être religieux, faut-il proscrire la science?—C’est la science,
-la science expérimentale qui va maintenant parler en faveur de la
-religion; c’est elle qui, par la bouche de l’un des penseurs .&#160;.&#160;. de
-notre époque, M. Herbert Spencer, va répondre à la fois à M. Vacherot
-et à M. Comte.”</p>
-
-<div class="dctr01"><img class="iglyph-a"
- src="images/hr-asterisks.png"
- width="600" height="17" alt="thought-break" /></div>
-
-<p>“Ici, M. Spencer discute la théorie de l’<i>inconditionné</i>; entendez
-par ce mot: Dieu. Le philosophie écossais, Hamilton, et son disciple,
-M. Mansel, disent comme nos positivistes français: ‘Nous ne pouvons
-affirmer l’existence positive de quoi que ce soit au delà des
-phénomènes.’ Seulement, Hamilton et son disciple se séparent de nos
-compatriotes en faisant intervenir une ‘révélation merveilleuse’ qui
-nous fait croire à l’existence de l’inconditionné, et grâce à cette
-révélation vraiment merveilleuse, toute l’orthodoxie revient. Est-il
-vrai que nous ne puissions rien affirmer au delà des phénomènes? M.
-Spencer déclare qu’il y a dans cette assertion une grave erreur. Le
-côté logique, dit-il fort justement, n’est pas le seul; il y a aussi
-le côté psychologique, et, selon nous, il prouve que l’existence
-positive de l’absolu est une donnée nécessaire de la conscience.”</p>
-
-<p>“Là est la base de l’accord entre la religion et la science. Dans
-un chapitre .&#160;.&#160;.&#160;. intitulé <i>Réconciliation</i>, M. Spencer etablit et
-développe cet accord sur son véritable terrain.”</p>
-
-<div class="dctr01"><img class="iglyph-a"
- src="images/hr-asterisks.png"
- width="600" height="17" alt="thought-break" /></div>
-
-<p>“M. Spencer, en restant sur le terrain de la logique et de la
-psychologie, et sans recourir à une intervention surnaturelle, a
-établi la legitimité, la nécessité et l’eternelle durée du sentiment
-religieux et de la
-religion.”<a class="afnanch" href="#fn25" id="fnanch25">25</a></p>
-</blockquote>
-
-<p>I turn next to what has been said by Dr. Shadworth H.
-Hodgson, in his essay on “The Future of Metaphysic,”
-published in the <i>Contemporary Review</i> for November, 1872.
-Remarking only, with respect to the agreements he
-expresses in certain views of mine, that I value them as
-coming from a thinker of subtlety and independence,
-I will confine myself here to his disagreements. Dr.
-Hodgson, before giving his own view, briefly describes
-and criticizes the views of Hegel and Comte, with both
-of whom he partly agrees and partly disagrees, and then <span class="xxpn" id="p226">{226}</span>
-proceeds to criticize the view set forth by me. After a
-preliminary brief statement of my position, to the wording
-of which I demur, he goes on to <span class="nowrap">say:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“In his <i>First Principles</i>, Part I, second ed., there is a chapter headed
-‘Ultimate Scientific Ideas,’ in which he enumerates six such ideas or groups
-of ideas, and attempts to show that they are entirely in­com­pre­hen­sible. The
-six are:—1. Space and Time. 2. Matter. 3. Rest and Motion. 4. Force.
-5. Consciousness. 6. The Soul, or the Ego. Now to enter at length into all
-of these would be an undertaking too large for the present occasion; but I
-will take the first of the six, and endeavour to show in its case the entire
-untenability of Mr. Spencer’s view; and since the same arguments may
-be employed against the rest, I shall be content that my case against them
-should be held to fail if my case should fail in respect to Space and Time.”</p></blockquote>
-
-<p>I willingly join issue with Dr. Hodgson on these terms;
-and proceed to examine, one by one, the several arguments
-he uses to show the invalidity of my conclusions. Following
-his criticisms in the order he has chosen, I begin
-with the sentence following that which I have just quoted.
-The first part of it runs thus:—“The metaphysical
-view of Space and Time is, that they are elements in
-all phenomena, whether the phenomena are presentations
-or representations.”</p>
-
-<p>Whether, by “the metaphysical view,” is here meant the
-view of Kant, whether it means Dr. Hodgson’s own view,
-or whether the expression has a more general meaning, I
-have simply to reply that the metaphysical view is incorrect.
-Dealing with the Kantian version of this doctrine,
-that Space is a form of intuition, I have pointed out that
-only with certain classes of phenomena is Space united
-indissolubly; that Kant habitually considers phenomena
-belonging to the visual and tactual groups, with which the
-con­scious­ness of space is inseparably joined, and overlooks
-groups with which it is not inseparably joined. Though in
-the adult, perception of sound has certain space-implications,
-mostly, if not wholly, acquired by individual experience;
-and though it would seem from the instructive experiments
-of Mr. Spalding, that in creatures born with nervous
-systems much more organized than our own are at
-birth, <span class="xxpn" id="p227">{227}</span>
-there is some innate perception of the side from which
-a sound comes; yet it is demonstrable that the space-implications
-of sound are not originally given with the
-sensation as its form of intuition. Bearing in mind the
-Kantian doctrine, that Space is the form of sensuous
-intuitions not only as <i>presented</i> but also as <i>represented</i>, let
-us examine critically our musical ideas. As I have elsewhere
-suggested to the <span class="nowrap">reader―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Let him observe what happens when some melody takes possession of
-his imagination. Its tones and cadences go on repeating themselves apart
-from any space-con­scious­ness—they are not localized. He may or may not
-be reminded of the place where he heard them—this association is incidental
-only. Having observed this, he will see that such space-implications as
-sounds have, are learnt in the course of individual experience, and are not
-given with the sounds themselves. Indeed, if we refer to the Kantian
-definition of form, we get a simple and conclusive proof of this. Kant says
-form is ‘that which effects that the content of the phænomenon can be
-arranged under certain relations.’ How then can the content of the phenomenon
-we call sound be arranged? Its parts can be arranged in order of
-sequence—that is, in Time. But there is no possibility of arranging its parts
-in order of coexistence—that is, in Space. And it is just the same with
-odour. Whoever thinks that sound and odour have Space for their form of
-intuition, may convince himself to the contrary by trying to find the right
-and left sides of a sound, or to imagine an odour turned the other way
-upwards.”—<i>Principles of Psychology</i>, § 399.—Note.</p></blockquote>
-
-<p>As I thus dissent, not I think without good reason, from
-“the metaphysical view of Space and Time” as “elements
-in all phenomena,” it will naturally be expected that I
-dissent from the first criticism which Dr. Hodgson proceeds
-to deduce from it. Dealing first with the arguments I have
-used to show the in­comp­re­hens­i­bil­i­ty of Space and Time,
-if we consider them as objective, and stating in other
-words the conclusion I draw, that “as Space and Time
-cannot be either nonentities nor the attributes of entities,
-we have no choice but to consider them as entities.” Dr.
-Hodgson <span class="nowrap">continues:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“So far good. Secondly, he argues that they cannot be represented in
-thought as such real existences, because ‘to be conceived at all, a thing must
-be conceived as having attributes.’ Now here the metaphysical doctrine
-enables us to conceive them as real existences, and rebuts the
-argument for <span class="xxpn" id="p228">{228}</span>
-their in­con­ceiv­abil­ity; for the other element, the material element, the
-feeling or quality occupying Space and Time stands in the place and
-performs the function of the required attributes, composing together with
-the space and time which is occupied the empirical phenomena of perception.
-So far as this argument of Mr. Spencer goes, then, we are entitled
-to say that his case for the in­con­ceiv­abil­ity of Space and Time as real
-existences is not made out.”</p></blockquote>
-
-<p>Whether the fault is in me or not I cannot say, but I
-fail to see that my argument is thus rebutted. On the
-contrary, it appears to me substantially conceded. What
-kind of entity is that which can exist only when occupied
-by something else? Dr. Hodgson’s own argument is a
-tacit assertion that Space <i>by itself</i> cannot be conceived as
-an existence; and this is all that I have alleged.</p>
-
-<p>Dr. Hodgson deals next with the further argument,
-familiar to all readers, which I have added as showing the
-insurmountable difficulty in the way of conceiving Space
-and Time as objective entities; namely, that “all entities
-which we actually know as such are limited. .&#160;.&#160;. But of
-Space and Time we cannot assert either limitation, or the
-absence of limitation.” Without quoting at length the
-reasons Dr. Hodgson gives for distinguishing between
-Space as <i>per</i>ceived and Space as <i>con</i>ceived, it will suffice
-if I quote his own statement of the result to which they
-bring him: “So that Space and Time as perceived are not
-finite, but infinite, as conceived are not infinite, but finite.”</p>
-
-<p>Most readers will, I think, be startled by the assertion
-that conception is less extensive in range than perception;
-but, without dwelling on this, I will content myself by
-asking in what case Space is perceived as infinite?
-Surely Dr. Hodgson does not mean to say that he can
-perceive the whole surrounding Space at once—that the
-Space behind is united in perception with the Space in
-front. Yet this is the necessary implication of his words.
-Taking his statement less literally, however, and not
-dwelling on the fact that in perception Space is habitually
-bounded by objects more or less distant, let us test
-his <span class="xxpn" id="p229">{229}</span>
-assertion under the most favourable conditions. Supposing
-the eye directed upwards towards a clear sky; is not the
-space then perceived, laterally limited? The visual area,
-restricted by the visual apertures, cannot include in
-perception even 180° from side to side, and is still more
-confined in a direction at right angles to this. Even in the
-third direction, to which alone Dr. Hodgson evidently
-refers, it cannot properly be said that it is infinite in
-perception. Look at a position in the sky a thousand miles
-off. Now look at a position a million miles off. What is
-the difference in perception? Nothing. How then can
-an infinite distance be perceived when these immensely-unlike
-finite distances cannot be perceived as differing
-from one another, or from an infinite distance? Dr.
-Hodgson has used the wrong word. Instead of saying
-that Space as perceived is infinite, he should have said that,
-in perception, Space is finite in two dimensions, and
-becomes <i>indefinite</i> in the third when this becomes great.</p>
-
-<p>I now come to the paragraph beginning “Mr. Spencer
-then turns to the second or subjective hypothesis, that of
-Kant.” This paragraph is somewhat difficult to deal with,
-because in it my reasoning is criticized both from the
-Kantian point of view and from Dr. Hodgson’s own point
-of view. Dissenting from Kant’s view, Dr. Hodgson says,
-“I hold that both Space and Time and Feeling, or the
-material element, are equally and alike subjective, equally
-and alike objective.” As I cannot understand this, I am
-unable to deal with those arguments against me which Dr.
-Hodgson bases upon it, and must limit myself to that
-which he urges on behalf of Kant. He <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“But I think that Mr. Spencer’s rep­re­sen­ta­tion of Kant’s view is very
-incorrect; he seems to be misled by the large term non-ego. Kant held that
-Space and Time were <i>in their origin</i> subjective, but when applied to the non-ego
-resulted in phenomena, and were the formal element in those phenomena,
-among which some were phenomena of the internal sense or ego, others of
-the external sense or non-ego. The non-ego to which the forms of Space
-and Time did not apply and did not belong, was the Ding-an-sich,
-not the <span class="xxpn" id="p230">{230}</span>
-phenomenal non-ego. Hence the objective existence of Space and Time in
-phenomena, but not in the Ding-an-sich, is a consistent and necessary consequence
-of Kant’s view of their subjective origin.”</p></blockquote>
-
-<p>If I have misunderstood Kant, as thus alleged, then
-my comment must be that I credited him with an hypothesis
-less objectionable than that which he held. I supposed
-his view to be that Space, as a form of intuition
-belonging to the <i>ego</i>, is imposed by it on the <i>non-ego</i> (by
-which I understood the thing in itself) in the act of intuition.
-But now the Kantian doctrine is said to be that
-Space, originating in the <i>ego</i>, when applied to the <i>non-ego</i>,
-results in phenomena (the <i>non-ego</i> meant being, in that case,
-necessarily the Ding-an-sich, or thing in itself); and that
-the phenomena so resulting become objective existences
-along with the Space given to them by the subject. The
-subject having imposed Space as a form on the primordial
-object, or thing in itself, and so created phenomena, this
-Space thereupon becomes an objective existence, independent
-of both the subject and the original thing in itself!
-To Dr. Hodgson this may seem a more tenable position
-than that which I ascribed to Kant; but to me it seems
-only a multiplication of in­con­ceiv­abil­i­ties. I am content to
-leave it as it stands: not feeling my reasons for rejecting
-the Kantian hypothesis much weakened.<a class="afnanch" href="#fn26" id="fnanch26">26</a></p>
-
-<p>The remaining reply which Dr. Hodgson makes runs
-thus:―</p>
-
-<blockquote class="blktight">
-
-<p>“But Mr. Spencer has a second argument to prove this in­con­ceiv­abil­ity.
-It is this:—‘If Space and Time are forms of thought, they can
-never be <span class="xxpn" id="p231">{231}</span>
-thought of; since it is impossible for anything to be at once the <i>form</i> of
-thought and the <i>matter</i> of thought.’ .&#160;.&#160;.&#160;. An instance will show the fallacy
-best. Syllogism is usually held to be a form of thought. Would it be any
-argument for the in­con­ceiv­abil­ity of syllogisms to say, they cannot be at once
-the form and the matter of thought? Can we not syllogize about syllogism?
-Or, more plainly still,—no dog can bite himself, for it is impossible to be
-at once the thing that bites and the thing that is bitten.”</p></blockquote>
-
-<p>Had Dr. Hodgson quoted the whole of the passage from
-which he takes the above sentence; or had he considered it
-in conjunction with the Kantian doctrine to which it refers
-(namely, that Space survives in con­scious­ness when all
-contents are expelled, which implies that then Space is the
-thing with which con­scious­ness is occupied, or the <i>object</i> of
-con­scious­ness), he would have seen that his reply has none
-of the cogency he supposes. If, taking his first illustration,
-he will ask himself whether it is possible to “syllogize
-about syllogism,” when syllogism has no content whatever,
-symbolic or other—has nonentity to serve for major, nonentity
-for minor, and nonentity for conclusion; he will, I
-think, see that syllogism, considered as surviving terms of
-every kind, cannot be syllogized about: the “pure form”
-of reason (supposing it to be syllogism, which it is not) if
-absolutely discharged of all it contains, cannot be represented
-in thought, and therefore cannot be reasoned about. Following
-Dr. Hodgson to his second illustration, I must
-express my surprise that a metaphysician of his acuteness
-should have used it. For an illustration to have any value,
-the relation between the terms of the
-analogous case <span class="xxpn" id="p232">{232}</span>
-must have some parallelism to the relation between the
-terms of the case with which it is compared. Does
-Dr. Hodgson really think that the relation between a dog
-and the part of himself which he bites, is like the relation
-between <i>matter</i> and <i>form</i>? Suppose the dog bites his tail.
-Now the dog, as biting, stands, according to Dr. Hodgson,
-for the form as the containing mental faculty; and the tail,
-as bitten, stands for this mental faculty as contained. Now
-suppose the dog loses his tail. Can the faculty as containing
-and the faculty as contained be separated in the
-same way? Does the mental form when deprived of all
-content, even itself (granting that it can be its own content),
-continue to exist in the same way that a dog continues to
-exist when he has lost his tail? Even had this illustration
-been applicable, I should scarcely have expected Dr.
-Hodgson to remain satisfied with it. I should have thought
-he would prefer to meet my argument directly, rather than
-indirectly. Why has he not shown the invalidity of the
-reasoning used in the <i>Principles of Psychology</i> (§ 399,
-2nd ed.)? Having there quoted the statement of Kant, that
-“Space and Time are not merely forms of sensuous intuition,
-but <i>intuitions</i> themselves;” I have <span class="nowrap">written―</span></p>
-
-<blockquote class="blktight">
-
-<p>“If we inquire more closely, this ir­rec­on­cil­abil­ity becomes still
-clearer. Kant says:—‘That which in the phænomenon corresponds to
-the sensation, I term its <i>matter</i>; but that which effects that the
-content of the phenomenon can be arranged under certain relations, I
-call its <i>form</i>.’ Carrying with us this definition of form, as ‘that
-which effects that the content .&#160;.&#160;.&#160;. can be arranged under certain
-relations,’ let us return to the case in which the intuition of Space
-is the intuition which occupies con­scious­ness. Can the content of this
-intuition ‘be arranged under certain relations’ or not? It can be so
-arranged, or rather, it <i>is</i> so arranged. Space cannot be thought of
-save as having parts, near and remote, in this direction or the other.
-Hence, if that is the form of a thing ‘which effects that the content
-.&#160;.&#160;.&#160;. can be arranged under certain relations,’ it follows that
-when the content of con­scious­ness is the intuition of Space, which
-has ‘parts that can be arranged under certain relations,’ there must
-be a form of that intuition. What is it? Kant does not tell us—does
-not appear to perceive that there must be such a form; and could
-not have perceived this without abandoning his hypothesis that the
-space-intuition is primordial.”</p></blockquote>
-
-<p>Now when Dr. Hodgson has shown me how that
-“which <span class="xxpn" id="p233">{233}</span>
-effects that the content .&#160;.&#160;.&#160;. can be arranged under
-certain relations,” may also be that which effects its own
-arrangement under the same relations, I shall be ready to
-surrender my position; but until then, no analogy drawn
-from the ability of a dog to bite himself will weigh much
-with me.</p>
-
-<p>Having, as he considers, disposed of the reasons given by
-me for concluding that, considered in themselves, “Space
-and Time are wholly in­com­pre­hen­sible” (he continually
-uses on my behalf the word “inconceivable,” which, by its
-unfit connotations, gives a wrong aspect to my position),
-Dr. Hodgson goes on to say:-</p>
-
-<blockquote class="blktight">
-
-<p>“Yet Mr. Spencer proceeds to use these inconceivable ideas as the basis of
-his philosophy. For mark, it is Space and Time as we know them, the actual
-and phenomenal Space and Time, to which all these
-in­con­ceiv­a­bil­i­ties attach.
-Mr. Spencer’s result, ought, therefore, logically to be—Scepticism. What is
-his actual result? Ontology. And how so? Why, instead of rejecting
-Space and Time as the inconceivable things he has tried to demonstrate them
-to be, he substitutes for them an Unknowable, a something which they
-really are, though we cannot know it, and rejects that, instead of them,
-from knowledge.”</p></blockquote>
-
-<p>This statement has caused me no little astonishment.
-That having before him the volume from which he quotes,
-so competent a reader should have so completely missed the
-meaning of the passages (§ 26) already referred to, in which
-I have contended against Hamilton and Mansel, makes me
-almost despair of being understood by any ordinary reader.
-In that section I have, in the first place, contended that the
-con­scious­ness of an Ultimate Reality, though not capable of
-being made a thought, properly so called, because not
-capable of being brought within limits, nevertheless remains
-as a con­scious­ness that is <i>positive</i>: is not rendered <i>negative</i>
-by the negations of limits. I have pointed out <span class="nowrap">that―</span></p>
-
-<blockquote class="blktight">
-
-<p>“The error, (very naturally fallen into by philosophers intent on demonstrating
-the limits and conditions of con­scious­ness), consists in assuming that
-con­scious­ness contains <i>nothing but</i> limits and conditions; to the entire
-neglect of that which is limited and conditioned. It is forgotten that there
-is something which alike forms the raw material of definite thought and
-remains after the definiteness which thinking gave to it has
-been <span class="xxpn" id="p234">{234}</span> destroyed”—something
-which “ever persists in us as the body of a thought to which we
-can give no shape.”</p></blockquote>
-
-<p>This <i>positive</i> element of con­scious­ness it is which, “at
-once necessarily indefinite and necessarily indestructible,”
-I regard as the con­scious­ness of the Unknowable Reality.
-Yet Dr. Hodgson says “Mr. Spencer proceeds to use these
-inconceivable ideas as the basis of his philosophy:”
-implying that such basis consists of negations, instead of
-consisting of that which persists <i>notwithstanding the negation
-of limits</i>. And then, beyond this perversion, or almost
-inversion, of meaning, he conveys the notion that I take as
-the basis of philosophy, the “inconceivable ideas” “or
-self-contradictory notions” which result when we endeavour
-to comprehend Space and Time. He speaks of me as
-proposing to evolve substance out of form, or rather, out of
-the negations of forms—gives his readers no conception that
-the <i>Power</i> manifested to us is that which I regard as the
-Unknowable, while what we call Space and Time answer to
-the unknowable <i>nexus</i> of its manifestations. And yet the
-chapter from which I quote, and still more the chapter
-which follows it, makes this clear—as clear, at least, as I can
-make it by carefully-worded statements and re-statements.</p>
-
-<p class="padtopa">Philosophical
-systems, like theological ones, following the
-law of evolution in general, severally become in course of
-time more rigid, while becoming more complex and more
-definite; and they similarly become less alterable—resist
-all compromise, and have to be replaced by the more plastic
-systems that descend from them.</p>
-
-<p>It is thus with pure Empiricism and pure Tran­scen­den­ta­lism.
-Down to the present time disciples of Locke
-have continued to hold that all mental phenomena are
-interpretable as results of accumulated individual experiences;
-and, by criticism, have been led simply to
-elaborate their in­ter­pre­ta­tions—ignoring the proofs of
-inadequacy. On the other hand, disciples of Kant, <span class="xxpn" id="p235">{235}</span>
-asserting this inadequacy, and led by perception of it to adopt
-an antagonist theory, have persisted in defending that
-theory under a form presenting fatal inconsistencies. And
-then, when there is offered a mode of reconciliation, the
-spirit of no-compromise is displayed: each side continuing
-to claim the whole truth. After it has been pointed out
-that all the obstacles in the way of the experiential
-doctrine disappear if the effects of ancestral experiences
-are joined with the effects of individual experiences, the
-old form of the doctrine is still adhered to. And meanwhile
-Kantists persist in asserting that the <i>ego</i> is born with
-intuitional forms which are wholly independent of anything
-in the <i>non-ego</i>, after it has been shown that the innateness
-of these intuitional forms may be so understood as to
-escape the insurmountable difficulties of the hypothesis as
-originally expressed.</p>
-
-<p>I am led to say this by reading the remarks concerning
-my own views, made with an urbanity I hope to imitate,
-by Professor Max Müller, in a lecture delivered at the
-Royal Institution in March, 1873.<a class="afnanch" href="#fn27" id="fnanch27">27</a>
-Before dealing with
-the criticisms contained in this lecture, I must enter a
-demurrer against that interpretation of my views by which
-Professor Max Müller makes it appear that they are
-more allied to those of Kant than to those of Locke.
-He <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Whether the pre-historic genesis of these congenital dispositions or
-inherited necessities of thought, as suggested by Mr. Herbert Spencer, be
-right or wrong, does not signify for the purpose which Kant had in view.
-In admitting that there is something in our mind, which is not the result of
-our own <i>à posteriori</i> experience, Mr. Herbert Spencer is a thorough Kantian,
-and we shall see that he is a Kantian in other respects too. If it could be
-proved that nervous modifications, accumulated from generation to generation,
-could result in nervous structures that are fixed in proportion as the
-outer relations to which they answer are fixed, we, as followers of Kant,
-should only have to put in the place of Kant’s intuitions of Space and Time
-‘the constant space-re­la­tions expressed in definite nervous structures, congenitally
-framed to act in definite ways, and incapable of acting
-in any other <span class="xxpn" id="p236">{236}</span>
-way.’ If Mr. Herbert Spencer had not misunderstood the exact meaning of
-what Kant calls the intuitions of Space and Time, he would have perceived
-that, barring his theory of the pre-historic origin of these intuitions, he was
-quite at one with Kant.”</p></blockquote>
-
-<p>On this passage let me remark, first, that the word
-“pre-historic,” ordinarily employed only in respect to
-human history, is misleading when applied to the history of
-Life in general; and his use of it leaves me in some doubt
-whether Professor Max Müller has rightly conceived the
-hypothesis he refers to.</p>
-
-<p>My second comment is, that the description of me as
-“quite at one with Kant,” “<i>barring</i>” the “theory of the
-prehistoric origin of these intuitions,” curiously implies that
-it is a matter of comparative indifference whether the forms
-of thought are held to be <i>naturally generated</i> by intercourse
-between the organism and its environing relations,
-during the evolution of the lowest into the highest types,
-or whether such forms are held to be <i>supernaturally given</i>
-to the human mind, and are independent both of environing
-relations and of ancestral minds. But now, addressing
-myself to the essential point, I must meet the statement
-that I have “misunderstood the exact meaning of what
-Kant calls the intuitions of Space and Time,” by saying
-that I think Professor Max Müller has overlooked certain
-passages which justify my interpretation, and render his
-interpretation untenable. For Kant says “Space is <i>nothing
-else</i> than the form of all phenomena of the external sense;”
-further, he says that “Time is <i>nothing but</i> the form of our
-internal intuition;” and, to repeat words I have used elsewhere,
-“He distinctly shuts out the supposition that there
-are forms of the <i>non-ego</i> to which these forms of the <i>ego</i>
-correspond, by saying that ‘Space is not a conception
-which has been derived from outward experiences.’” Now
-so far from being in harmony with, these statements are in
-direct contradiction to, the view which I hold; and seem
-to me absolutely irreconcilable with it. How can it be said
-that, “barring” a difference represented as trivial, I
-am <span class="xxpn" id="p237">{237}</span>
-“quite at one with Kant,” when I contend that these subjective
-forms of intuition are moulded into correspondence
-with, and therefore derived from, some objective form or
-<i>nexus</i>, and therefore dependent upon it; while the Kantian
-hypothesis is that these subjective forms are not derived
-from the object, but pre-exist in the subject—are imposed
-by the <i>ego</i> on the <i>non-ego</i>. It seems to me that not only do
-Kant’s words, as above given, exclude the view which I
-hold, but also that Kant could not consistently have held
-any such view. Rightly recognizing, as he did, these forms
-of intuition as innate, he was, from his stand-point, <i>obliged</i>
-to regard them as imposed on the matter of intuition in the
-act of intuition. In the absence of the hypothesis that
-intelligence has been evolved, it was <i>not possible</i> for him to
-regard these subjective forms as having been derived from
-objective forms.</p>
-
-<p>A disciple of Locke might, I think, say that the Evolution-view
-of our con­scious­ness of Space and Time is
-essentially Lockian, with more truth than Professor Max
-Müller can represent it as essentially Kantian. The
-Evolution-view is completely experiential. It differs from
-the original view of the ex­pe­rien­tial­ists by containing a
-great extension of that view. With the relatively-small
-effects of individual experiences, it joins the relatively-vast
-effects of the experiences of antecedent individuals.
-But the view of Kant is avowedly and absolutely unexperiential.
-Surely this makes the predominance of kinship
-manifest.</p>
-
-<p>In Professor Max Müller’s replies to my criticisms on
-Kant, I cannot see greater validity than in this affiliation
-to which I have demurred. One of his arguments is that
-which Dr. Hodgson has used, and which I have already
-answered; and I think that the others, when compared with
-the passages of the <i>Principles of Psychology</i> which they
-concern, will not be found adequate. I refer to them
-here <span class="xxpn" id="p238">{238}</span>
-chiefly for the purpose of pointing out that when he speaks
-of me as bringing “three arguments against Kant’s
-view,” he understates the number. Let me close what
-I have to say on this disputed question, by quoting
-the summary of reasons I have given for rejecting the
-Kantian <span class="nowrap">hypothesis:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Kant tells us that Space is the form of all external intuition; which is
-not true. He tells us that the con­scious­ness of Space continues when the
-con­scious­ness of all things contained in it is suppressed; which is also not
-true. From these alleged facts he <i>infers</i> that Space is an <i>à priori</i> form of
-intuition. I say <i>infers</i>, because this conclusion is not presented in necessary
-union with the premises, in the same way that the con­scious­ness of duality
-is necessarily presented along with the con­scious­ness of inequality; but it is
-a conclusion voluntarily drawn for the purpose of explaining the alleged
-facts. And then that we may accept this conclusion, which is not necessarily
-presented along with these alleged facts which are not true, we are obliged to
-affirm several propositions which cannot be rendered into thought. When
-Space is itself contemplated, we have to conceive it as at once the form of
-intuition and the matter of intuition; which is impossible. We have to
-unite that which we are conscious of as Space with that which we are
-conscious of as the <i>ego</i>, and contemplate the one as a property of the other;
-which is impossible. We have at the same time to disunite that which we
-are conscious of as Space, from that which we are conscious of as the <i>non-ego,</i>
-and contemplate the one as separate from the other; which is also
-impossible. Further, this hypothesis that Space is “nothing else” than a
-form of intuition belonging wholly to the <i>ego</i>, commits us to one of the two
-alternatives, that the <i>non-ego</i> is formless or that its form produces absolutely
-no effect upon the <i>ego</i>; both of which alternatives involve us in impossibilities
-of thought.”—<i>Prin. of Psy.,</i> § 399.</p></blockquote>
-
-<p class="padtopb">Objections
-of another, though allied, class have been
-made in a review of the <i>Principles of Psychology</i> by Mr.
-H. Sidgwick—a critic whose remarks on questions of mental
-philosophy always deserve respectful consideration.</p>
-
-<p>Mr. Sidgwick’s chief aim is to show what he calls “the
-mazy inconsistency of his [my] metaphysical results.”
-More specifically, he expresses thus the proposition he seeks
-to justify—“His view of the subject appears to have a
-fundamental incoherence, which shows itself in various ways
-on the surface of his exposition, but of which the root
-lies <span class="xxpn" id="p239">{239}</span>
-much deeper, in his inability to harmonise different lines
-of thought.”</p>
-
-<p>Before dealing with the reasons given for this judgment,
-let me say that, in addition to the value which candid
-criticisms have as showing where more explanation is
-needed, they are almost indispensable as revealing to a
-writer incongruities he had not perceived. Especially
-where, as in this case, the subject-matter has many aspects,
-and where the words supplied by our language are so inadequate
-in number that, to avoid cumbrous circumlocution,
-they have to be used in senses that vary according to the
-context, it is extremely difficult to avoid imperfections of
-statement. But while I acknowledge sundry such imperfections
-and the resulting incongruities, I cannot see
-that these are, as Mr. Sidgwick says, fundamental. Contrariwise,
-their superficiality seems to me proved by
-the fact that they may be rectified without otherwise
-altering the expositions in which they occur. Here is an
-instance.</p>
-
-<p>Mr. Sidgwick points out that, when treating of the
-“Data of Psychology,” I have said (in § 56) that, though
-we reach inferentially “the belief that mind and nervous
-action are the subjective and objective faces of the same
-thing, we remain utterly incapable of seeing, and even of
-imagining, how the two are related” (I quote the passage
-more fully than he does). He then goes on to show that
-in the “Special Synthesis,” where I have sketched the
-evolution of Intelligence under its objective aspect, as
-displayed in the processes by which beings of various
-grades adjust themselves to surrounding actions, I “speak
-as if” we could see how con­scious­ness “naturally arises at
-a particular stage” of nervous action. The chapter he
-here refers to is one describing that “dif­fer­en­ti­a­tion of the
-psychical from the physical life” which accompanies
-advancing organization, and more especially advancing
-development of the nervous system. In it I have
-shown <span class="xxpn" id="p240">{240}</span>
-that, while the changes constituting physical life continue
-to be characterized by the <i>simultaneity</i> with which all
-kinds of them go on throughout the organism, the changes
-constituting psychical life, arising as the nervous system
-develops, become gradually more distinguished by their
-<i>seriality</i>. And I have said that as nervous integration
-advances, “there must result an unbroken series of these
-changes—there must arise a con­scious­ness.” Now I admit
-that here is an apparent inconsistency. I ought to have
-said that “there must result an unbroken series of these
-changes,” which, taking place in the nervous system of a
-highly-organized creature, gives coherence to its conduct;
-and along with which we assume a con­scious­ness, because
-con­scious­ness goes along with coherent conduct in ourselves.
-If Mr. Sidgwick will substitute this statement for
-the statement as it stands, he will see that the arguments
-and conclusions remain intact. A survey of the chapter as
-a whole, proves that its aim is not in the least to explain
-how nervous changes, considered as waves of molecular
-motion, become the feelings constituting con­scious­ness;
-but that, contemplating the facts objectively in living
-creatures at large, it points out the cardinal distinction
-between vital actions in general, and those particular vital
-actions which, in a creature displaying them, lead us to
-speak of it as intelligent. It is shown that the rise of such
-actions becomes marked in proportion as the changes
-taking place in the part called the nervous system, are
-made more and more distinctly serial, by union in a
-supreme centre of co-ordination. The introduction of the
-word con­scious­ness, arises in the effort to show what
-fundamental character there is in these particular physiological
-changes which is <i>parallel to</i> a fundamental character
-in the psychological changes.</p>
-
-<p>Another instance of the way in which Mr. Sidgwick
-evolves an incongruity which he considers fundamental,
-out of what I should have thought he would see is
-a <span class="xxpn" id="p241">{241}</span>
-defective expression, I will give in his own words. Speaking
-of a certain view of mine, he <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“He tells us that ‘logic .&#160;.&#160;. contemplates in its propositions certain
-connexions predicated, which are necessarily involved with certain other
-connexions given: <i>regarding all these connexions as existing in the
-non-ego</i>—not,
-it may be, under the form in which we know them, but in some form.’
-But in § 473, where Mr. Spencer illustrates by a diagram his ‘Transfigured
-Realism,’ the view seems to be this: although we cannot say that the real
-non-ego resembles our notion of it in ‘its elements, relations, or laws,’ we
-can say that ‘a change in the objective reality causes in the subjective state
-a change exactly answering to it—so answering as to <i>constitute a cognition of
-it</i>.’ Here the ‘something beyond con­scious­ness’ is no longer said to be
-unknown, as its effect in con­scious­ness ‘constitutes a cognition of it.’”</p></blockquote>
-
-<p>This apparent inconsistency, marked by the italics,
-would not have existed if, instead of “a cognition of it,”
-I had said, as I ought to have said, “<i>what we call</i> a
-cognition of it”—that is, a relative cognition as distinguished
-from an absolute cognition. In ordinary
-language we speak of as cognitions, those connexions in
-thought which so guide us in our dealings with things,
-that actual experience verifies ideal anticipation: marking
-off, by opposed words, those connexions in thought which
-<i>mis</i>-guide us. The difference between accepting a cognition
-as relatively true and accepting it as absolutely true, will
-be clearly shown by an illustration. There is no direct
-resemblance whatever between the sizes, forms, colours,
-and arrangements, of the figures in an account-book, and
-the moneys or goods, debts or credits, represented by
-them; and yet the forms and arrangements of the written
-symbols, are such as answer in a perfectly-exact way to
-stocks of various commodities and to various kinds of
-transactions. Hence we say, figuratively, that the account-book
-will “tell us” all about these stocks and transactions.
-Similarly, the diagram Mr. Sidgwick refers to, suggests a
-way in which symbols, registered in us by objects, may
-have forms and arrangements wholly unlike their objective
-causes and the <i>nexus</i> among those causes, while yet they
-are so related as to guide us correctly in our
-transactions <span class="xxpn" id="p242">{242}</span>
-with those objective causes, and, <i>in that sense</i>, constitute
-cognitions of them; though they no more constitute cognitions
-in the absolute sense, than do the guiding symbols in
-the account-book constitute cognitions of the things to
-which they refer. So repeatedly is this view implied
-throughout the <i>Principles of Psychology</i>, that I am surprised
-to find a laxity of expression raising the suspicion that I
-entertain any other.</p>
-
-<p>To follow Mr. Sidgwick through sundry criticisms of like
-kind, which may be similarly met, would take more space
-than I can here afford. I must restrict myself now to the
-alleged “fundamental incoherence” of which he thinks
-these inconsistencies are signs. I refer to that reconciliation
-of Realism and Idealism considered by him as an impossible
-compromise. A difficulty is habitually felt in accepting a
-coalition after long conflict. Whoever has espoused one
-of two antagonist views, and, in defending it, has gained
-a certain comprehension of the opposite view, becomes
-accustomed to regard these as the only alternatives, and is
-puzzled by an hypothesis which is at once both and neither.
-Yet, since it turns out in nearly all cases that, of conflicting
-doctrines, each contains an element of truth, and that
-controversy ends by combination of their respective half-truths,
-there is <i>a priori</i> probability on the side of an
-hypothesis which qualifies Realism by Idealism.</p>
-
-<p>Mr. Sidgwick expresses his astonishment, or rather
-bespeaks that of his readers, because, while I accept
-Idealistic criticisms, I nevertheless defend the fundamental
-intuition of Common Sense; and, as he puts it, “fires his
-[my] argument full in the face of Kant, Mill, and ‘metaphysicians’
-generally.”</p>
-
-<blockquote class="blktight">
-
-<p>“He tells us that ‘metaphysicians’ illegitimately assume that ‘beliefs
-reached through complex intellectual processes,’ are more valid than ‘beliefs
-reached through simple intellectual processes;’ that the common language
-they use refuses to express their hypotheses, and thus their reasoning
-inevitably implies the common notions which they repudiate; that the
-belief of Realism has the advantage of ‘priority,’ ‘simplicity,’
-‘distinctness.’ <span class="xxpn" id="p243">{243}</span>
-But surely this prior, simple, distinctly affirmed belief is that of what
-Mr. Spencer terms ‘crude Realism’, the belief that the non-ego is <i>per se</i>
-extended, solid, even coloured (if not resonant and odorous). This is what
-common language implies; and the argument by which Mr. Spencer proves
-the relativity of feelings and relations, still more the subtle and complicated
-analysis by which he resolves our notion of extension into an aggregate of
-feelings and transitions of feeling, lead us away from our original simple
-belief—that (<i>e.g.</i>) the green grass we see exists out of con­scious­ness as
-we see it—just as much as the reasonings of Idealism, Scepticism, or
-Kantism.”</p></blockquote>
-
-<p>On the face of it the anomaly seems great; but I should
-have thought that after reading the chapter on “Transfigured
-Realism,” a critic of Mr. Sidgwick’s acuteness
-would have seen the solution of it. He has overlooked an
-essential distinction. All which my argument implies is
-that the direct intuition of Realism must be held of
-superior authority to the arguments of Anti-Realism, <i>where
-their deliverances cannot be reconciled</i>. The one point on
-which their deliverances cannot be reconciled, is the
-existence of an objective reality. But while, against this
-intuition of Realism, I hold the arguments of Anti-Realism
-to be powerless, because they cannot be carried on without
-postulating that which they end by denying; yet, having
-admitted objective existence as a necessary postulate, it is
-possible to make valid criticisms upon all those judgments
-which Crude Realism joins with this primordial judgment:
-it is possible to show that a transfigured interpretation of
-properties and relations, is more tenable than the original
-interpretation.</p>
-
-<p>To elucidate the matter, let us take the most familiar
-case in which the indirect judgments of Reason correct
-the direct judgments of Common Sense. The direct
-judgment of Common Sense is that the Sun moves round
-the Earth. In course of time, Reason, finding some facts
-at variance with this, begins to doubt; and, eventually,
-hits upon an hypothesis which explains the anomalies, but
-which denies this appar­ent­ly-cer­tain <i>dictum</i> of Common
-Sense. What is the reconciliation? It consists in
-showing <span class="xxpn" id="p244">{244}</span>
-to Common Sense that the new interpretation equally well
-corresponds with direct intuition, while it avoids all the
-difficulties. Common Sense is reminded that the apparent
-motion of an object may be due either to its actual motion
-or to the motion of the observer; and that there are
-terrestrial experiences in which the observer thinks an
-object he looks at is moving, when the motion is in himself.
-Extending the conception thus given, Reason shows that
-if the Earth revolves on its axis, there will result that
-apparent motion of the Sun which Common Sense interpreted
-into an actual motion of the Sun; and the common-sense
-observer thereupon becomes able to think of sunrise
-and sunset as due to his position as spectator on a vast
-revolving globe. Now if the astronomer, setting out by
-recognizing these celestial appearances, and proceeding to
-evolve the various anomalies following from the common-sense
-interpretation of them, had drawn the conclusion
-that there externally exist no Sun and no motion at all, he
-would have done what Idealists do; and his arguments
-would have been equally powerless against the intuition of
-Common Sense. But he does nothing of the kind. He
-accepts the intuition of Common Sense respecting the
-reality of the Sun and of the motion; but replaces the old
-interpretation of the motion by a new interpretation reconcilable
-with all the facts.</p>
-
-<p>Everyone must see that here, acceptance of the inexpugnable
-element in the common-sense judgment, by no
-means involves acceptance of the accompanying judgments;
-and I contend that the like discrimination must be
-made in the case we are considering. It does not follow
-that while, against the con­scious­ness which Crude Realism
-has of an objective reality, the arguments of Anti-Realism
-are futile, they are therefore futile against the conceptions
-which Crude Realism forms of the objective reality. If
-Anti-Realism can show that, granting an objective reality,
-the interpretation of Crude Realism contains
-insuperable <span class="xxpn" id="p245">{245}</span>
-difficulties, the process is quite legitimate. And, its primordial
-intuition remaining unshaken, Realism may, on
-reconsideration, be enabled to frame a new conception
-which harmonizes all the facts.</p>
-
-<p>To show that there is not here the “mazy inconsistency”
-alleged, let us take the case of sound as interpreted by
-Crude Realism, and as re-interpreted by Transfigured
-Realism. Crude Realism assumes the sound present in
-con­scious­ness to exist as such beyond con­scious­ness.
-Anti-Realism proves the inadmissibility of this assumption
-in sundry ways (all of which, however, set out by talking
-of sounding bodies beyond con­scious­ness, just as Realism
-talks of them); and then Anti-Realism concludes that we
-know of no existence save the sound as a mode of con­scious­ness:
-which conclusion, and all kindred conclusions,
-I contend are vicious—first, because all the words used
-connote an objective activity; second, because the arguments
-are impossible without postulating at the outset an
-objective activity; and third, because no one of the
-intuitions out of which the arguments are built, is of equal
-validity with the single intuition of Realism that an objective
-activity exists. But now the Transfigured Realism
-which Mr. Sidgwick thinks “has all the serious incongruity
-of an intense metaphysical dream,” neither affirms
-the untenable conception of Crude Realism, nor, like Anti-Realism,
-draws unthinkable conclusions by suicidal arguments;
-but, accepting that which is essential in Crude
-Realism, and admitting the difficulties which Anti-Realism
-insists upon, reconciles matters by a re-inter­pre­ta­tion
-analogous to that which an astronomer makes of the solar
-motion. Continuing all along to recognize an objective
-activity which Crude Realism calls sound, it shows that
-the answering sensation is produced by a succession of
-separate impacts which, if made slowly, may be separately
-identified, and which will, if progressively increased in
-rapidity, produce tones higher and higher in pitch.
-It <span class="xxpn" id="p246">{246}</span>
-shows by other experiments that sounding bodies are in
-states of vibration, and that the vibrations may be made
-visible. And it concludes that the objective activity is not
-what it subjectively seems, but is proximately interpretable
-as a succession of aërial waves. Thus Crude Realism is
-shown that while there unquestionably exists an objective
-activity corresponding to the sensation known as sound,
-yet the facts are not explicable on the original supposition
-that this is like the sensation; while they are explicable
-by conceiving it as a rhythmical mechanical action.
-Eventually this re-inter­pre­ta­tion, joined with kindred re­in­ter­pre­ta­tions
-of other sensations, comes to be itself
-further transfigured by analysis of its terms, and re-expression
-of them in terms of molecular motion; but,
-however abstract the interpretation ultimately reached, the
-objective activity continues to be postulated: the primordial
-judgment of Crude Realism remains unchanged,
-though it has to change the rest of its judgments.</p>
-
-<p>In another part of his argument, however, Mr. Sidgwick
-implies that I have no right to use those conceptions of
-objective existence by which this compromise is effected.
-Quoting sundry passages to show that while I hold the
-criticisms of the Idealist to be impossible without “tacitly
-or avowedly postulating an unknown something beyond
-con­scious­ness,” I yet admit that “our states of con­scious­ness
-are the only things we can know;” he goes on to
-argue that I am radically inconsistent, because, in interpreting
-the phenomena of con­scious­ness, I continually
-postulate, not an unknown something, but a something of
-which I speak in ordinary terms, as though its ascribed
-physical characters really exist as such, instead of being,
-as I admit they are, synthetic states of my con­scious­ness.
-His objection, if I understand it, is that for the purposes
-of Objective Psychology I apparently profess to know
-Matter and Motion in the ordinary realistic way; while, as
-a result of subjective analysis, I reach the conclusion
-that <span class="xxpn" id="p247">{247}</span>
-it is impossible to have that knowledge of objective
-existence which Realism supposes we have. Doubtless
-there seems here to be what he calls “a fundamental
-incoherence.” But I think it exists, not between my two expositions,
-but between the two con­scious­nesses of subjective
-and objective existence, which we cannot suppress and yet
-cannot put into definite forms. The alleged incoherence
-I take to be but another name for the inscrutability of the
-relation between subjective feeling and its objective correlate
-which is not feeling—an inscrutability which meets
-us at the bottom of all our analyses. An exposition of
-this inscrutability I have elsewhere summed up <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“See, then, our predicament. We can think of Matter only in terms
-of Mind. We can think of Mind only in terms of Matter. When we have
-pushed our explorations of the first to the uttermost limit, we are
-referred to the second for a final answer; and when we have got the
-final answer of the second, we are referred back to the first for an
-interpretation of it. We find the value of <i>x</i> in terms of <i>y</i>; then
-we find the value of <i>y</i> in terms of <i>x</i>; and so on we may continue
-for ever without coming nearer to a solution.”—<i>Prin. of Psy.</i> § 272.</p></blockquote>
-
-<p>Carrying a little further this simile, will, I think, show
-where lies the insuperable difficulty felt by Mr. Sidgwick.
-Taking <i>x</i> and <i>y</i> as the subjective and objective activities,
-unknown in their natures and known only as phenomenally
-manifested; and recognizing the fact that every state of
-con­scious­ness implies, immediately or remotely, the action
-of object on subject or subject on object, or both; we may
-say that every state of con­scious­ness will be symbolized by
-some modification of <i>xy</i>—the phenomenally-known product
-of the two unknown factors. In other words, <i>xy′</i>, <i>x′y</i>, <i>x′y′</i>,
-<i>x″y′</i>, <i>x′y″</i>, &amp;c., &amp;c., will represent all perceptions and
-thoughts. Suppose, now, that these are thoughts about
-the object; composing some hypothesis respecting its
-characters as analyzed by physicists. Clearly, all such
-thoughts, be they about shapes, resistances, momenta,
-molecules, molecular motions, or what not, will contain
-forms of the subjective activity <i>x</i>. Now let the
-thoughts <span class="xxpn" id="p248">{248}</span>
-be concerning mental processes. It must similarly happen
-that some mode of the unknown objective activity <i>y</i>, will be
-in every case a component. Now suppose that the problem
-is the genesis of mental phenomena; and that, in the course
-of the inquiry, bodily organization and the functions of the
-nervous system are brought into the explanation. It will
-happen, as before, that these, considered as objective, have
-to be described and thought about in modes of <i>xy</i>. And
-when by the actions of such a nervous system, conceived
-objectively in modes of <i>xy</i>, and acted upon by physical
-forces which are conceived in other modes of <i>xy</i>, we
-endeavour to explain the genesis of sensations, perceptions,
-and ideas, which we can think of only in other modes of <i>xy,</i>
-we find that all our factors, and therefore all our in­ter­pre­ta­tions,
-contain the two unknown terms, and that no
-interpretation is imaginable that will not contain the two
-unknown terms.</p>
-
-<p>What is the defence for this appar­ent­ly-circ­u­lar process?
-Simply that it is a process of establishing <i>congruity</i> among
-our symbols. It is finding a mode of so symbolizing
-the unknown activities, subjective and objective, and so
-operating with our symbols, that all our acts may be
-rightly guided—guided, that is, in such ways that we can
-anticipate, when, where, and in what quantity some one of
-our symbols, or some combination of our symbols, will be
-found. Mr. Sidgwick’s difficulty arises, I think, from
-having insufficiently borne in mind the statements made at
-the outset, in “The Data of Philosophy,” that such conceptions
-as “are vital, or cannot be separated from the rest
-without mental dissolution, must be assumed as true
-<i>provisionally</i>;” that “there is no mode of establishing the
-validity of any belief except that of showing its entire
-<i>congruity</i> with all other beliefs;” and that “Philosophy,
-compelled to make those fundamental assumptions without
-which thought is impossible, has to justify them by showing
-their <i>congruity</i> with all other dicta of con­scious­ness.”
-In <span class="xxpn" id="p249">{249}</span>
-pursuance of this distinctly-avowed mode of procedure, I
-assume provisionally, an objective activity and a subjective
-activity, and certain general forms and modes (Space,
-Time, Matter, Motion, Force), which the subjective activity,
-operated on by the objective activity, ascribes to it, and
-which I suppose to correspond in some way to unknown
-forms and modes of the objective activity. These provisional
-assumptions, having been carried out to all their
-consequences, and these consequences proved to be congruous
-with one another and with the original assumptions,
-these original assumptions are justified. And if, finally, I
-assert, as I have repeatedly asserted, that the terms in
-which I express my assumptions and carry on my operations
-are but symbolic, and that all I have done is to show that
-by certain ways of symbolizing, perfect harmony results—invariable
-agreement between the symbols in which I frame
-my expectations, and the symbols which occur in experience—I
-cannot be blamed for incoherence. On the contrary, it
-seems to me that my method is the most coherent that can
-be devised. Lastly, should it be said that this regarding
-of everything constituting experience and thought as
-symbolic, has a very shadowy aspect; I reply that these
-which I speak of as symbols, are real relatively to our
-con­scious­ness; and are symbolic only in their relation to
-the Ultimate Reality.</p>
-
-<p>That these explanations will make clear the coherence of
-views which before seemed “fundamentally incoherent,” I
-feel by no means certain; since, as I did not perceive the
-difficulties presented by the exposition as at first made, I
-may similarly fail to perceive the difficulties in this explanation.
-Originally, I had intended to complete the <i>Principles
-of Psychology</i> by a division showing how the results reached
-in the preceding divisions, physiological and psychological,
-analytic and synthetic, subjective and objective, harmonize
-with one another, and are but different aspects of the same
-aggregate of phenomena. But the work was
-already <span class="xxpn" id="p250">{250}</span>
-bulky; and I concluded that this division might be dispensed
-with, because the congruities to be pointed out were
-sufficiently obvious. So little was I conscious of the alleged
-“inability to harmonize different lines of thought.”
-Mr. Sidgwick’s perplexities, however, show me that such
-an exposition of concords is needful.</p>
-
-<p class="padtopa">I have reserved to the last, one of the first objections
-made to the me­ta­phys­i­co-the­o­lo­gi­cal doctrine set forth in
-<i>First Principles</i>, and implied in the several volumes that
-have succeeded it. It was urged by an able metaphysician,
-the Rev. James Martineau, in an essay entitled “Science,
-Nescience, and Faith;” and, effective against my argument
-as it stands, shows the need for some development of my
-argument. That Mr. Martineau’s criticism may be understood,
-I must quote the passages it concerns. Continuing
-the reasoning employed against Hamilton and Mansel,
-to show that our con­scious­ness of that which transcends
-knowledge is <i>positive</i>, and not, as they allege, <i>negative</i>,
-I have <span class="nowrap">said:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Still more manifest will this truth become when it is observed that
-our conception of the Relative itself disappears, if our conception of the
-Absolute is a pure negation. It is admitted, or rather it is contended,
-by the writers I have quoted above, that contradictories can be known
-only in relation to each other—that Equality, for instance, is unthinkable
-apart from its correlative Inequality; and that thus the Relative can itself
-be conceived only by opposition to the Non-relative. It is also admitted,
-or rather contended, that the con­scious­ness of a relation implies a
-con­scious­ness of both the related members. If we are required to conceive
-the relation between the Relative and Non-relative without being conscious
-of both, ‘we are in fact’ (to quote the words of Mr. Mansel
-differently applied) ‘required to compare that of which we are conscious
-with that of which we are not conscious; the comparison itself being an
-act of con­scious­ness, and only possible through the con­scious­ness of
-both its objects.’ What, then, becomes of the assertion that, ‘the
-Absolute is conceived merely by a negation of conceivability,’ or as ‘the
-mere absence of the conditions under which con­scious­ness is possible?’
-If the Non-relative or Absolute, is present in thought only as a mere
-negation, then the relation between it and the Relative becomes unthinkable,
-because one of the terms of the relation is absent from
-con­scious­ness. <span class="xxpn" id="p251">{251}</span>
-And if this relation is unthinkable, then is the Relative itself unthinkable,
-for want of its antithesis: whence results the disappearance of all thought
-whatever.”—<i>First Principles</i>, § 26.</p></blockquote>
-
-<p>On this argument Mr. Martineau comments as follows;
-first re-stating it in other <span class="nowrap">words:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Take away its antithetic term, and the relative, thrown into
-isolation, is set up as absolute, and disappears from thought. It
-is indispensable therefore to uphold the Absolute in existence,
-as condition of the relative sphere which constitutes our whole
-intellectual domain. Be it so: but when saved on this plea,—to
-preserve the balance and interdependence of two <i>co</i>-relatives,—the
-‘Absolute’ is absolute no more; it is reduced to a term of relation:
-it loses therefore its exile from thought: its dis­qual­i­fi­ca­tion is
-cancelled: and the alleged nescience is discharged.</p>
-
-<p>“So, the same law of thought which warrants the existence, dissolves
-the inscrutableness, of the Absolute.”—<i>Essays, Philosophical and</i>
-<i>Theological</i> pp. <span class="nowrap">186–7.</span></p></blockquote>
-
-<p>I admit this to be a telling rejoinder; and one which can be met only
-when the meanings of the words, as I have used them, are carefully
-discriminated, and the implications of the doctrine fully traced out.
-We will begin by clearing the ground of minor misconceptions.</p>
-
-<p>First, let it be observed that though I have used the
-word Absolute as the equivalent of Non-relative, because
-it is used in the passages quoted from the writers I am
-contending against; yet I have myself chosen for the
-purposes of my argument, the name Non-relative, and I
-do not necessarily commit myself to any propositions respecting
-the Absolute, considered as that which includes
-both Subject and Object. The Non-relative as spoken of
-by me, is to be understood rather as the totality of Being
-<i>minus</i> that which constitutes the individual con­scious­ness,
-present to us under forms of Relation. Did I use
-the word in some Hegelian sense, as comprehensive of
-that which thinks and that which is thought about, and
-did I propose to treat of the order of things, not as
-phenomenally manifested but as noumenally proceeding,
-the objection would be fatal. But the aim being simply
-to formulate the order of things as present under relative
-forms, the antithetical Non-relative here named
-as <span class="xxpn" id="p252">{252}</span>
-implied by the conception of the Relative, is that which,
-in any act of thought, is outside of and beyond it, rather
-than that which is inclusive of it. Further, it should be
-observed that this Non-relative, spoken of as a necessary
-complement to the Relative, is not spoken of as a conception
-but as a <i>con­scious­ness</i>; and I have in sundry
-passages distinguished between those modes of con­scious­ness
-which, having limits, and constituting thought
-proper, are subject to the laws of thought, and the mode
-of con­scious­ness which persists when the removal of
-limits is carried to the uttermost, and when distinct
-thought consequently ceases.</p>
-
-<p>This opens the way to the reply here to be made to
-Mr. Martineau’s criticism—namely, that while by the
-necessities of thought the Relative implies a Non-relative;
-and while, to think of this antithesis completely,
-requires that the Non-relative shall be made a conception
-proper; yet, for the vague thought which is alone in this
-case possible, it suffices that the Non-relative shall be
-present as a con­scious­ness which though undefined is
-positive. Let us observe what necessarily happens when
-thought is employed on this ultimate question.</p>
-
-<p>In a preceding part of the argument criticized, I have,
-in various ways, aimed to show that, alike when we
-analyze the product of thought and when we analyze
-the process of thought, we are brought to the conclusion
-that invariably “a thought involves <i>relation</i>,
-<i>difference</i>, <i>likeness</i>;” and that even from the very nature
-of Life itself, we may evolve the conclusion that “thinking
-being relationing, no thought can ever express more
-than relations.” What, now, must happen if thought,
-having this law, occupies itself with the final mystery?
-Always implying terms in relation, thought implies that
-both terms shall be more or less defined; and as fast as
-one of them becomes indefinite, the relation also becomes
-indefinite, and thought becomes indistinct. Take
-the <span class="xxpn" id="p253">{253}</span>
-case of magnitudes. I think of an inch; I think of a
-foot; and having tolerably-definite ideas of the two, I
-have a tolerably-definite idea of the relation between
-them. I substitute for the foot a mile; and being able
-to represent a mile much less definitely, I cannot so
-definitely think of the relation between an inch and a
-mile—cannot distinguish it in thought from the relation
-between an inch and two miles, as clearly as I can
-distinguish in thought the relation between an inch and
-one foot from the relation between an inch and two feet.
-And now if I endeavour to think of the relation between
-an inch and the 240,000 miles from here to the Moon,
-or the relation between an inch and the 93,000,000 miles
-from here to the Sun, I find that while these distances,
-practically inconceivable, have become little more than
-numbers to which I frame no answering ideas, so, too,
-has the relation between an inch and either of them
-become practically inconceivable. Evidently then this
-partial failure in the process of forming thought-relations,
-which happens even with finite magnitudes when one of
-them is immense, passes into complete failure when one
-of them cannot be brought within any limits. The relation
-itself becomes unrepresentable at the same time that one
-of its terms becomes unrepresentable. Nevertheless, in
-this case it is to be observed that the almost-blank form
-of relation preserves a certain qualitative character. It
-is still dis­tin­guish­able as belonging to the con­scious­ness
-of extensions, not to the con­scious­nesses of forces or durations;
-and in so far remains a vague­ly-ident­i­fi­able relation.
-But now suppose we ask what happens when one term
-of the relation has not simply magnitude having no
-known limits, and duration of which neither beginning
-nor end is cognizable, but is also an existence not to be
-defined? In other words, what must happen if one term
-of the relation is not only quantitatively but also
-qualitatively unrepresentable? Clearly in this case
-the <span class="xxpn" id="p254">{254}</span>
-relation does not simply cease to be thinkable except as
-a relation of a certain class, but it lapses completely. When
-one of the terms becomes wholly unknowable, the law of
-thought can no longer be conformed to; both because
-one term cannot be present, and because relation itself
-cannot be framed. That is to say, the law of thought that
-contradictories can be known only in relation to each other,
-no longer holds when thought attempts to transcend the
-Relative; and yet, when it attempts to transcend the Relative,
-it must make the attempt in conformity with its law—must
-in some dim mode of con­scious­ness posit a Non-relative,
-and, in some similarly dim mode of con­scious­ness,
-a relation between it and the Relative. In brief then,
-to Mr. Martineau’s objection I reply, that the insoluble
-difficulties he indicates arise here, as elsewhere, when
-thought is applied to that which transcends the sphere
-of thought; and that just as when we try to pass beyond
-phenomenal manifestations to the Ultimate Reality manifested,
-we have to symbolize it out of such materials
-as the phenomenal manifestations give us; so we have
-simultaneously to symbolize the connexion between this
-Ultimate Reality and its manifestations, as somehow
-allied to the connexions among the phenomenal manifestations
-themselves. The truth Mr. Martineau’s criticism
-adumbrates, is that the law of thought fails where the
-elements of thought fail; and this is a conclusion quite
-conformable to the general view I defend. Still holding
-the validity of my argument against Hamilton and Mansel,
-that in pursuance of their own principle the Relative is
-not at all thinkable <i>as such</i>, unless in contra­dis­tinc­tion
-to some existence posited, however vaguely, as the other
-term of a relation, conceived however indefinitely; it is
-consistent on my part to hold that in this effort which
-thought inevitably makes to pass beyond its sphere, not
-only does the product of thought become a dim symbol
-of a product, but the process of thought becomes a
-dim <span class="xxpn" id="p255">{255}</span>
-symbol of a process; and hence any predicament inferable
-from the law of thought cannot be asserted.</p>
-
-<p>I may fitly close this reply by a counter-criticism. To
-the direct defence of a proposition, may be added the
-indirect defence which results from showing the untenability
-of an alternative proposition. This criticism on the
-doctrine of an Unknowable Existence manifested to us in
-phenomena, Mr. Martineau makes in the interests of the
-doctrine held by him, that this existence is, to a considerable
-degree, knowable. We are quite at one in holding
-that there is an indestructible con­scious­ness of Power
-behind Appearance; but whereas I contend that this
-Power cannot be brought within the forms of thought,
-Mr. Martineau contends that there can be consistently
-ascribed certain attributes of personality—not, indeed,
-human char­ac­ter­is­tics so concrete as were ascribed in
-past times; but still, human char­ac­ter­is­tics of the more
-abstract and higher class. His general doctrine is this:—Regarding
-Matter as independently existing; regarding
-as also independently existing, those primary qualities of
-Body “which are inseparable from the very idea of Body,
-and may be evolved <i>a priori</i> from the consideration of it
-as solid extension or extended solidity;” and saying that
-to this class “belong Triple Dimension, Divisibility,
-In­com­pres­si­bil­i­ty;” he goes on to assert that as <span class="nowrap">these―</span></p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“cannot
-absent themselves from Body, they have a reality coeval with it,
-and belong eternally to the material datum objective to God: and his mode
-of activity with regard to them must be similar to that which alone we can
-think of his directing upon the relations of Space, viz. not Volitional, to
-cause them, but Intellectual, to think them out. The Secondary Qualities, on
-the other hand, having no logical tie to the Primary, but being appended to
-them as contingent facts, cannot be referred to any deductive thought, but
-remain over as products of pure Inventive Reason and Determining Will.
-This sphere of cognition, <i>a posteriori</i> to us,—where we cannot move a step
-alone but have submissively to wait upon experience, is precisely the realm
-of Divine originality: and we are most sequacious where He is most free.
-While on this Secondary field His Mind and ours are thus contrasted, they
-meet in resemblance again upon the Primary: for the evolutions of deductive
-Reason there is but one track possible to all intelligences; no <span class="xxpn" id="p256">{256}</span>
-<i>merum arbitrium</i> can interchange the false and true, or make more than one
-geometry, one scheme of pure Physics, for all worlds: and the Omnipotent
-Architect Himself, in realizing the Kosmical conception, in shaping the
-orbits out of immensity and determining seasons out of eternity, could but
-follow the laws of curvature, measure, and proportion.”—<i>Essays, Philosophical
-and Theological</i>, pp. 163–4.</p></blockquote>
-
-<p>Before the major criticism which I propose to make on
-this hypothesis, let me make a minor one. Not only of
-space-re­la­tions, but also of primary physical properties,
-Mr. Martineau asserts the necessity: not a necessity to
-our minds simply, but an ontological necessity. What
-is true for human thought, is, in respect of these, true
-absolutely: “the laws of curvature, measure, and proportion,”
-as we know them, are unchangeable even by
-Divine power; as are also the Divisibility and In­com­pres­si­bil­ity
-of Matter. But if, in these cases, Mr. Martineau
-holds that a necessity in thought implies an
-answering necessity in things, why does he refrain from
-saying the like in other cases? Why, if he tacitly asserts
-it in respect of space-re­la­tions and the statical attributes
-of Body, does he not also assert it in respect of the
-dynamical attributes of Body? The laws conformed to
-by that mode of force now distinguished as “energy,”
-are as much necessary to our thought as are the laws of
-space-re­la­tions. The axioms of Mechanics lie on the
-same plane with the axioms of pure Mathematics. Now
-if Mr. Martineau admits this—if he admits, as he must,
-the corollary that there can be no such manifestation of
-energy as that displayed in the motion of a planet, save
-at the expense of equivalent energy which pre-existed—if
-he draws the further necessary corollary that the direction
-of a motion cannot be changed by any action, without
-an equal reaction in an opposite direction on something
-acting—if he bears in mind that this holds not
-only of all visible motions, celestial and terrestrial, but
-that those activities of Body which affect us as secondary
-properties, are also known only through other forms
-of <span class="xxpn" id="p257">{257}</span>
-energy, which are equivalents of mechanical energy and
-conform to these same laws—and if, lastly, he infers that
-none of these derivative energies can have given to them
-their characters and directions, save by pre-existing
-forces, statical and dynamical, conditioned in special
-ways; what becomes of that “realm of Divine originality”
-which Mr. Martineau describes as remaining within the
-realm of necessity? Consistently carried out, his argument
-implies a un­i­vers­al­ly-in­ev­i­ta­ble order, in which volition can
-have no such place as that he alleges.</p>
-
-<p>Not pushing Mr. Martineau’s reasoning to this conclusion,
-so entirely at variance with the one he draws, but accepting
-his statement just as it stands, let us consider the solution
-it offers us. We are left by it without any explanation of
-Space and Time; we are not helped in conceiving the
-origin of Matter; and there is afforded us no idea how
-Matter came to have its primary attributes. All these are
-tacitly assumed to exist uncreated. Creative activity is
-represented as under the restrictions imposed by mathematical
-necessities, and as having for <i>datum</i> (mark the word)
-a substance which, in respect of certain characters, defies
-modification. But surely this is not an interpretation of
-the mystery of things. The mystery is simply relegated to
-a remoter region, respecting which no inquiry is to be
-made. But the inquiry <i>must</i> be made. After every such
-solution there arises afresh the question—what is the origin
-and nature of that which imposes these limits on creative
-power? what is the primary God which dominates over
-this secondary God? For, clearly, if the “Omnipotent
-Architect himself” (to use Mr. Martineau’s somewhat inconsistent
-name) is powerless to change the “material datum
-objective” to him, and powerless to change the conditions
-under which it exists, and under which he works, there is
-obviously implied a power to which he is subject. So that
-in Mr. Martineau’s doctrine also, there is an
-Ultimate <span class="xxpn" id="p258">{258}</span>
-Unknowable; and it differs from the doctrine he opposes,
-only by intercalating a partially Knowable between this and
-the wholly Knowable.</p>
-
-<p>Finding, as explained above, that this interpretation is
-not consistent with itself; and finding, as just shown,
-that it leaves the essential mystery unsolved; I do not
-see that it has an advantage over the doctrine of the
-Unknowable in its unqualified shape. There cannot, I
-think, be more than temporary rest in a proximate solution
-which takes for its basis the ultimately insoluble.
-Just as thought cannot be prevented from passing beyond
-Appearance, and trying to conceive the Cause behind;
-so, following out the interpretation Mr. Martineau offers,
-thought cannot be prevented from asking what Cause it
-is which restricts the Cause he assigns. And if we must
-admit that the question under this eventual form cannot
-be answered, may we not as well confess that the question
-under its immediate form cannot be answered? Is it
-not better candidly to acknowledge the incompetence of
-our intelligence, rather than to persist in calling that an
-explanation which does but disguise the inexplicable?
-Whatever answer each may give to this question, he
-cannot rightly blame those who, finding in themselves an
-indestructible con­scious­ness of an ultimate Cause, whence
-proceed alike what we call the Material Universe and what
-we call Mind, refrain from affirming anything respecting
-it; because they find it as inscrutable in nature as it is
-inconceivable in extent and duration.</p>
-
-<div class="dhp">
-<h3 class="h3inline"><span class="smcap">P<b>OSTSCRIPT</b></span>.</h3>—With
-the concluding paragraph of the foregoing
-article, I had hoped to end, for a long time, all
-controversial writing; and, if the article had been published
-entire in the November number of the <i>Fortnightly</i>, as
-originally intended, the need for any addition would not
-have been pressing. But while it was in the
-printer’s <span class="xxpn" id="p259">{259}</span>
-hands, two criticisms, more elaborate than those dealt with
-above, made their appearance; and now that the postponed
-publication of this latter half of the article affords the
-opportunity, I cannot, without risking mis­in­ter­pre­ta­tions,
-leave these criticisms unnoticed.</div>
-
-<p>Especially do I feel called upon by courtesy to make
-some response to one who, in the <i>Quarterly Review</i> for
-October, 1873, has dealt with me in a spirit which, though
-largely antagonistic, is not wholly unsympathetic; and
-who manifestly aims to estimate justly the views he
-opposes. In the space at my disposal, I cannot of course
-follow him through all the objections he has urged.
-I must content myself with brief comments on the two
-propositions he undertakes to establish. His enunciation
-of these runs <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“We would especially direct attention to two points, to both of which we
-are confident objections may be made; and although Mr. Spencer has himself
-doubtless considered such objections (and they may well have struck many
-of his readers also), we nevertheless do not observe that he has anywhere
-noticed or provided for them.</p>
-
-<p>“The two points we so select <span class="nowrap">are:―</span></p>
-
-<p>“(1) <i>That his system involves the denial of all truth.</i></p>
-
-<p>“(2) <i>That it is radically and necessarily opposed to all sound principles of
-morals.</i>”</p></blockquote>
-
-<p>On this passage, ending in these two startling assertions,
-let me first remark that I am wholly without this con­scious­ness
-the reviewer ascribes to me. Remembering that I
-have expended some little labour in developing what I
-conceive to be a system of truths, I am surprised by the
-supposition that “the denial of all truth” is an implication
-which I am “doubtless” aware may be alleged against
-this system. Remembering, too, that by its programme
-this system is shown to close with two volumes on <i>The
-Principles of Morality</i>, the statement that it is “necessarily
-opposed to all sound principles of morals,” naturally
-astonishes me; and still more the statement that I am
-doubtless conscious it may be so regarded. Saying thus
-much by way of repudiating that latent
-scepticism <span class="xxpn" id="p260">{260}</span>
-attributed to me by the reviewer, I proceed to consider
-what he says in proof of these propositions.</p>
-
-<p>On those seeming incongruities of Transfigured Realism
-commented on by him, I need say no more than I have
-already said in reply to Mr. Sidgwick; by whom also they
-have been alleged. I will limit myself to the corollary
-he draws from the doctrine of the Relativity of Knowledge,
-as held by me. Rightly pointing out that I hold this in
-common with “Messrs. Mill, Lewes, Bain, and Huxley;”
-but not adding, as he should have done, that I hold it in
-common with Hamilton, Mansel, and the long list of
-predecessors through whom Hamilton traced it; the
-reviewer proceeds to infer from this doctrine of relativity
-that no absolute truth of any kind can be asserted—not
-even the absolute truth of the doctrine of relativity itself.
-And then he leaves it to be supposed by his readers, that
-this inference tells especially against the system he is
-criticizing. If, however, the reviewer’s inference is valid,
-this “denial of all truth” must be charged against the
-doctrines of thinkers called orthodox, as well as against
-the doctrines of those many philosophers, from Aristotle
-down to Kant, who have said the same thing. But now I
-go further, and reply that against that form of the doctrine
-of relativity held by me, this allegation cannot be made
-with the same effect as it can against preceding forms of
-the doctrine. For I diverge from other relativists in
-asserting that the existence of a non-relative is not only a
-positive deliverance of con­scious­ness, but a deliverance
-transcending in certainty all others whatever; and is one
-without which the doctrine of relativity cannot be framed
-in thought. I have urged that “unless a real Non-relative
-or Absolute be postulated, the Relative itself becomes
-absolute; and so brings the argument to a contradiction;”<a class="afnanch" href="#fn28" id="fnanch28">28</a>
-and elsewhere I have described this con­scious­ness of a
-Non-relative manifested to us through the Relative as <span class="xxpn" id="p261">{261}</span>
-“deeper than demonstration—deeper even than definite
-cognition—deep as the very nature of mind;”<a class="afnanch" href="#fn29" id="fnanch29">29</a>
-which seems
-to me to be saying as emphatically as possible that, while
-all other truths may be held as relative, this truth must be
-held as absolute. Yet, strangely enough, though contending
-thus against the pure relativists, and holding with the
-reviewer, that “every asserter of such a [purely-relative]
-philosophy must be in the position of a man who saws
-across the branch of a tree on which he actually sits, at a
-point between himself and the trunk,”<a class="afnanch" href="#fn30" id="fnanch30">30</a>
-I am singled out
-by him as though this were my own predicament! So far,
-then, from admitting that the view I hold “involves the
-denial of all truth,” I assert that, having at the outset
-posited the co-existence of subject and object as a deliverance
-of con­scious­ness which precedes all reasoning;<a class="afnanch" href="#fn31" id="fnanch31">31</a>
-having
-subsequently shown, analytically, that this postulate is in
-every way verified,<a class="afnanch" href="#fn32" id="fnanch32">32</a>
-and that in its absence the proof of
-relativity is impossible; my view is distinguished by an
-exactly-opposite trait.</p>
-
-<p>The justification of his second proposition the reviewer
-commences by saying that—“In the first place the process
-of Evolution, as understood by Mr. Spencer, compels him
-to be at one with Mr. Darwin in his denial of the existence
-of any fundamental and essential distinction between Duty
-and Pleasure.” Following this by a statement respecting
-the genesis of moral sentiments as understood by me
-(which is extremely unlike the one I have given in the
-<i>Principles of Psychology</i>, § 215, §§ 503–512, and §§ 524–532),
-the reviewer goes on to say that “We yield with
-much reluctance to the necessity of affirming that Mr.
-Spencer gives no evidence of ever having acquired a
-knowledge of the meaning of the term ‘morality,’ according
-to the true sense of the word.”</p>
-
-<p>Just noting that, as shown by the context, the assertion <span class="xxpn" id="p262">{262}</span>
-thus made is made against all those who hold the Doctrine
-of Evolution in its unqualified form, I reply that in so far
-as it concerns me, it is one the reviewer would scarcely have
-made had he more carefully examined the evidence: not
-limiting himself to those works of mine named at the head
-of his article. And I cannot but think that had the spirit
-of fairness which he evidently strives to maintain, been
-fully awake when these passages were written, he would
-have seen that, before making so serious an allegation,
-wider inquiry was needful. If he had simply said that,
-given the doctrine of mental evolution as held by me, he
-failed to see how moral principles are to be established, I
-should not have objected; provided he had also said that
-I believe they can be established, and had pointed out
-what I hold to be their bases. As it is, however, he has so
-presented his own inference from my premises, as to make
-it seem an inference which I also must draw from my
-premises. Quite a different and much more secure foundation
-for moral principles is alleged by me, than that
-afforded by moral sentiments and conceptions; which he
-refers to as though they formed the sole basis of the ethical
-conclusions I hold. While the reviewer contends that
-“Mr. Spencer’s moral system is even yet more profoundly
-defective, as it denies any objective distinction between
-right and wrong in any being, whether men are or are not
-responsible for their actions;” I contend, contrariwise,
-that it is distinguished from other moral systems by
-asserting the objectivity of the distinction, and by endeavouring
-to show that the subjective distinction is derived
-from the objective distinction. In my first work, <i>Social
-Statics</i>, published twenty-three years ago, the essential
-thesis is that, apart from their warrant as alleged Divine
-injunctions, and apart from their authority as moral intuitions,
-the principles of justice are primarily deducible from
-the laws of life as carried on under social conditions. I
-argued throughout that these principles so derived
-have <span class="xxpn" id="p263">{263}</span>
-a supreme authority, to which considerations of immediate
-expediency must yield; and I was for this reason classed
-by Mr. Mill as an anti-utilitarian. More recently, in a
-letter drawn from me by this mis­app­re­hen­sion of Mr. Mill,
-and afterwards published by Professor Bain in his <i>Mental
-and Moral Science</i>, I have re-stated this position. Already,
-in an explanatory article entitled <i>Morals and Moral Sentiments</i>,
-published in the <i>Fortnightly Review</i> for April, 1871,
-I have quoted passages from that letter; and here, considering
-the gravity of the assertions made by the <i>Quarterly</i>
-reviewer, I hope to be excused for re-quoting <span class="nowrap">them:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Morality, properly so called—the science of right conduct—has for its
-object to determine <i>how</i> and <i>why</i> certain modes of conduct are detrimental,
-and certain other modes beneficial. These good and bad results cannot be
-accidental, but must be necessary consequences of the constitution of things;
-and I conceive it to be the business of Moral Science to deduce from the
-laws of life and the conditions of existence, what kinds of action necessarily
-tend to produce happiness, and what kinds to produce unhappiness.
-Having done this, its deductions are to be recognized as laws of conduct;
-and are to be conformed to irrespective of a direct estimation of happiness
-or misery.”</p>
-
-<div class="dctr01"><img class="iglyph-a"
- src="images/hr-asterisks.png"
- width="600" height="17" alt="thought-break" /></div>
-
-<p>“If it is true that pure rectitude prescribes a system of things far too good
-for men as they are, it is not less true that mere expediency does not of
-itself tend to establish a system of things any better than that which exists.
-While absolute morality owes to expediency the checks which prevent it
-from rushing into Utopian absurdities, expediency is indebted to absolute
-morality for all stimulus to improvement. Granted that we are chiefly
-interested in ascertaining what is <i>relatively right</i>, it still follows that we
-must first consider what is <i>absolutely right</i>; since the one conception
-presupposes the other.”</p></blockquote>
-
-<p>And the comment I then made on these passages I may
-make now, that “I do not see how there could well be a
-more emphatic assertion that there exists a primary basis
-of morals independent of, and in a sense antecedent to,
-that which is furnished by experiences of utility; and
-consequently independent of, and in a sense antecedent to,
-those moral sentiments which I conceive to be generated
-by such experiences.” I will only add that, had my
-beliefs been directly opposite to those I have
-enunciated, <span class="xxpn" id="p264">{264}</span>
-the reviewer might, I think, have found good reasons for
-his assertion. If, instead of demurring to the doctrine
-“that greatest happiness should be the <i>immediate</i> aim of
-man,”<a class="afnanch" href="#fn33" id="fnanch33">33</a>
-I had endorsed that doctrine—if, instead of
-explaining and justifying “a belief in the special sacredness
-of these highest principles, and a sense of the supreme
-authority of the altruistic sentiments answering to them,”<a class="afnanch" href="#fn34" id="fnanch34">34</a>
-I had denied the sacredness and the supreme authority—if,
-instead of saying of the wise man that “the highest
-truth he sees he will fearlessly utter; knowing that, let
-what may come of it, he is thus playing his right part in
-the world,”<a class="afnanch" href="#fn35" id="fnanch35">35</a>
-I had said that the wise man will <i>not</i> do this;
-the reviewer might with truth have described me as not
-understanding “the term ‘morality’ according to the true
-sense of the word.” And he might then have inferred
-that the Doctrine of Evolution as I hold it, implies denial
-of the “distinction between Duty and Pleasure.” But as
-it is, I think the evidence will not generally be held to
-warrant his assertion.</p>
-
-<p>I quite agree with the reviewer that the prevalence of a
-philosophy “is no mere question of speculative interest,
-but is one of the highest practical importance.” I join
-him, too, in the belief that “calamitous social and political
-changes” may be the outcome of a mistaken philosophy.
-Moreover, writing as he does under the conviction that
-there can be no standard of right and wrong save one
-derived from a Revelation interpreted by an Infallible
-Authority, I can conceive the alarm with which he regards
-so radically opposed a system. Though I could have wished
-that the sense of justice he generally displays had prevented
-him from ignoring the evidence I have above given,
-I can understand how, from his point of view, the Doctrine
-of Evolution, as I understand it, “seems
-absolutely fatal <span class="xxpn" id="p265">{265}</span>
-to every germ of morality,” and “entirely negatives every
-form of religion.” But I am unable to understand that
-modified Doctrine of Evolution which the reviewer hints at
-as an alternative. For, little as the reader would anticipate
-it after these expressions of profound dissent, the reviewer
-displays such an amount of agreement as to suggest that
-the system he is criticizing might be converted, “rapidly
-and without violence, into an ‘allotropic state,’ in which its
-conspicuous characters would be startlingly diverse from
-those that it exhibits at present.” May I, using a different
-figure, suggest a different transformation, having a subjective
-instead of an objective character? As in a stereoscope,
-the two views representing diverse aspects, often
-yield at first a jumble of conflicting impressions, but, after
-a time, suddenly combine into a single whole which stands
-out quite clearly; so, may it not be that the
-seem­ing­ly-in­con­sis­tent
-Idealism and Realism dwelt on by the reviewer,
-as well as the other seem­ing­ly-fun­da­men­tal incongruities
-he is struck by, will, under more persistent contemplation,
-unite as complementary sides of the same thing?</p>
-
-<p class="padtopa">My excuse for
-devoting some space to a criticism of so
-entirely different a kind as that contained in the <i>British
-Quarterly Review</i> for October, 1873, must be that, under
-the circumstances, I cannot let it pass unnoticed without
-seeming to admit its validity.</p>
-
-<p>Saying that my books should be dealt with by specialists,
-and tacitly announcing himself as an expert in Physics, the
-reviewer takes me to task both for errors in the statement
-of physical principles and for erroneous reasoning in physics.
-That he discovers no mistakes I do not say. It would be
-marvellous if in such a multitude of propositions, averaging
-a dozen per page, I had made all criticism-proof. Some
-are inadvertencies which I should have been obliged to the
-reviewer for pointing out as such, but which he prefers
-to <span class="xxpn" id="p266">{266}</span>
-instance as proving my ignorance. In other cases, taking
-advantage of an imperfection of statement, he proceeds to
-instruct me about matters which either the context, or
-passages in the same volume, show to be quite familiar to
-me. Here is a sample of his criticisms belonging to this
-class:―</p>
-
-<blockquote class="blktight">
-
-<p>“Nor should we counsel a man to venture upon physical speculations who
-converts the proposition ‘<i>heat is insensible motion</i>’ into ‘<i>insensible motion is
-heat</i>,’ and hence concludes that when a force is applied to a mass so large
-that no motion is seen to result from it, or when, as in the case of sound,
-motion gets so dispersed that it becomes insensible, it turns to heat.”</p></blockquote>
-
-<p>Respecting the first of the two statements contained in
-this sentence, I will observe that the reader, if not misled
-by the quotation-marks into the supposition that I have
-made, in so many words, the assertion that “insensible
-motion is heat,” will at any rate infer that this assertion
-is distinctly involved in the passage named. And he will
-infer that the reviewer would never have charged me with
-such an absurd belief, if there was before him evidence
-proving that I have no such belief. What will the reader
-say, then, when he learns, not simply that there is no such
-statement, and not simply that on the page referred to, which
-I have ascertained to be the one intended, there is no such
-implication visible, even to an expert (and I have put the
-question to one); but when he further learns that in other
-passages, the fact that heat is one only of the modes of
-insensible motion is distinctly stated (see <i>First Prin</i>. §§ 66,
-68, 171); and when he learns that elsewhere I have specified
-the several forms of insensible motion? If the reviewer,
-who looks so diligently for flaws as to search an essay in a
-volume he is not reviewing to find one term of an incongruity,
-had sought with equal diligence to learn what I
-thought about insensible motion, he would have found in
-the <i>Classification of the Sciences</i>, Table II., that insensible
-motion is described by me as having the forms of Heat,
-Light, Electricity, Magnetism. Even had there been
-in <span class="xxpn" id="p267">{267}</span>
-the place he names, an unquestionable implication of the
-belief which he ascribes to me, fairness might have led
-him to regard it as an oversight when he found it at
-variance with statements I have elsewhere made. What
-then is to be thought of him when, in the place named, no
-such belief is manifest; either to an ordinary reader or to
-a spec­i­al­ly-in­struc­ted reader?</p>
-
-<p>No less significant is the state of mind betrayed in the
-second clause of the reviewer’s sentence. By representing
-me as saying that when the motion constituting sound
-“gets so dispersed that it becomes insensible, it turns to
-heat,” does he intend to represent me as thinking that
-when sound-undulations become too weak to be audible,
-they become heat-undulations? If so, I reply that the
-passage he refers to has no such meaning. Does he then
-allege that some part of the force diffused in sound-waves
-is expended in generating electricity, by the friction of
-heterogeneous substances (which, however, eventually lapses
-from this special form of molecular motion in that general
-form constituting heat); and that I ought to have thus
-qualified my statement? If so, he would have had me
-commit a piece of scientific pedantry hindering the argument.
-If he does not mean either of these things, what
-does he mean? Does he contest the truth of the hypothesis
-which enabled Laplace to correct Newton’s estimate of the
-velocity of sound—the hypothesis that heat is evolved by
-the compression each sound-wave produces in the air?
-Does he deny that the heat so generated is at the expense
-of so much wave-motion lost? Does he question the inference
-that some of the motion embodied in each wave is
-from instant to instant dissipated, partly in this way and
-partly in the heat evolved by fluid friction? Can he show
-any reason for doubting that when the sound-waves have
-become too feeble to affect our senses, their motion still
-continues to undergo this transformation and diminution
-until it is all lost? If not, why does he implicitly deny
-that <span class="xxpn" id="p268">{268}</span>
-the molar motion constituting sound, eventually disappears
-in producing the molecular motion constituting heat?<a class="afnanch" href="#fn36" id="fnanch36">36</a></p>
-
-<p>I will dwell no longer on the ex­clus­ive­ly-per­son­al questions
-raised by the reviewer’s statements; but, leaving the
-reader to judge of the rest of my “stupendous mistakes”
-by the one I have dealt with, I will turn to a question
-worthy to occupy some space, as having an impersonal
-interest—the question, namely, respecting the nature of
-the warrant we have for asserting ultimate physical truths.
-The contempt which, as a physicist, the reviewer expresses
-for the metaphysical exploration of physical ideas, I will
-pass over with the remark that every physical question,
-probed to the bottom, opens into a metaphysical one; and
-that I should have thought the controversy now going on
-among chemists, respecting the legitimacy of the atomic
-hypothesis, might have shown him as much. On his
-erroneous statement that I use the phrase “Persistence
-of Force” as an equivalent for the now-gen­er­al­ly-ac­cep­ted
-phrase “Conservation of Energy,” I will observe only that,
-had he not been in so great a hurry to find inconsistencies,
-he would have seen why, for the purposes of my argument,
-<span class="xxpn" id="p269">{269}</span>
-I intentionally use the word Force: Force being the generic
-word, including both that species known as Energy, and
-that species by which Matter occupies space and maintains
-its integrity—a species which, whatever may be its relation
-to Energy, and however clearly recognized as a necessary
-<i>datum</i> by the theory of Energy, is not otherwise considered
-in that theory. I will confine myself to the proposition,
-disputed at great length by the reviewer, that our cognition
-of the Persistence of Force is <i>a priori</i>. He relies much on
-the authority of Professor Tait, whom he twice quotes to
-the effect <span class="nowrap">that―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Natural philosophy is an experimental, and not an intuitive science. No
-<i>à priori</i> reasoning can conduct us demonstratively to a single physical truth.”</p></blockquote>
-
-<p>Were I to take a hypercritical attitude, I might dwell
-on the fact that Professor Tait leaves the extent of his
-proposition somewhat doubtful, by speaking of “Natural
-philosophy” as <i>one</i> science. Were I to follow further the
-reviewer’s example, I might point out that “Natural
-philosophy,” in that Newtonian acceptation adopted by
-Professor Tait, includes Astronomy; and, going on to ask
-what astronomical “experiments” those are which conduct
-us to astronomical truths, I might then “counsel” the
-reviewer not to depend on the authority of one who (to use
-the reviewer’s polite language) “blunders” by confounding
-experiment and observation. I will not, however, thus
-infer from Professor Tait’s imperfection of statement that
-he is unaware of the difference between the two; and shall
-rate his authority as of no less value than I should, had he
-been more accurate in his expression. Respecting that
-authority I shall simply remark that, if the question had to
-be settled by the authority of any physicist, the authority
-of Mayer, who is diametrically opposed to Prof. Tait on
-this point, and who has been specially honoured, both by
-the Royal Society and by the French Institute, might well
-counter-weigh his, if not out-weigh it. I am not
-aware, <span class="xxpn" id="p270">{270}</span>
-however, that the question is one in Physics. It seems to
-me a question respecting the nature of proof. And, without
-doubting Professor Tait’s competence in Logic and Psychology,
-I should decline to abide by his judgment on such
-a question, even were there no opposite judgment given by
-a physicist, certainly of not less eminence.</p>
-
-<p>Authority aside, however, let us discuss the matter on
-its merits. In the <i>Treatise on Natural Philosophy</i>, by
-Profs. Thomson and Tait, § 243 (1st ed.), I read that “as we
-shall show in our chapter on ‘Experience,’ physical axioms
-are axiomatic to those only who have sufficient knowledge
-of the action of physical causes to enable them to see at
-once their necessary truth.” In this I agree entirely. It
-is in Physics, as it is in Mathematics, that before necessary
-truths can be grasped, there must be gained by individual
-experience, such familiarity with the elements of the
-thoughts to be framed, that propositions about those
-elements may be mentally represented with distinctness.
-Tell a child that things which are equal to the same thing
-are equal to one another, and the child, lacking a
-suf­fi­cient­ly-ab­stract notion of equality, and lacking, too,
-the needful practice in comparing relations, will fail to
-grasp the axiom. Similarly, a rustic, never having thought
-much about forces and their results, cannot form a definite
-conception answering to the axiom that action and reaction
-are equal and opposite. In the last case as in the first,
-ideas of the terms and their relations require to be made,
-by practice in thinking, so vivid that the involved truths
-may be mentally seen. But when the individual experiences
-have been multiplied enough to produce distinctness
-in the representations of the elements dealt with; then, in
-the one case as in the other, those mental forms generated
-by ancestral experiences, cannot be occupied by the elements
-of one of these ultimate truths without perception of its
-necessity. If Professor Tait does not admit this,
-what <span class="xxpn" id="p271">{271}</span>
-does he mean by speaking of “physical <i>axioms</i>,” and by
-saying that the cultured are enabled “to see <i>at once</i> their
-<i>necessary</i> truth?”</p>
-
-<p>Again, if there are no physical truths which must be
-classed as <i>a priori</i>, I ask why Professor Tait joins Sir
-W. Thomson in accepting as bases for Physics, Newton’s
-Laws of Motion? Though Newton gives illustrations of
-prolonged motion in bodies that are little resisted, he gives
-no <i>proof</i> that a body in motion will continue moving, if uninterfered
-with, in the same direction at the same velocity;
-nor, on turning to the enunciation of this law quoted in the
-above-named work, do I find that Professor Tait does more
-than exemplify it by facts which can themselves be asserted
-only by taking the law for granted. Does Professor Tait
-deny that the first law of motion is a physical truth? If
-so, what does he call it? Does he admit it to be a physical
-truth, and, denying that it is <i>a priori</i>, assert that it is
-established <i>a posteriori</i>—that is, by conscious induction
-from observation and experiment? If so, what is the
-inductive reasoning which can establish it? Let us glance
-at the several conceivable arguments which we must suppose
-him to rely on.</p>
-
-<p>A body set in motion soon ceases to move if it encounters
-much friction, or much resistance from the bodies struck.
-If less of its energy is expended in moving, or otherwise
-affecting, other bodies, or in overcoming friction, its motion
-continues longer. And it continues longest when, as over
-smooth ice, it meets with the smallest amount of obstruction.
-May we then, proceeding by the method of concomitant
-variations, infer that were it wholly unobstructed
-its motion would continue undiminished? If so, we assume
-that the diminution of its motion observed in experience, is
-proportionate to the amount of energy abstracted from it in
-producing other motion, either molar or molecular. We
-assume that no variation has taken place in its rate, save
-that caused by deductions in moving other matter; for
-if <span class="xxpn" id="p272">{272}</span>
-its motion be supposed to have otherwise varied, the
-conclusion that the differences in the distances travelled
-result from differences in the obstructions met with, is
-vitiated. Thus the truth to be established is already taken
-for granted in the premises. Nor is the question begged
-in this way only. In every case where it is remarked that
-a body stops the sooner, the more it is obstructed by other
-bodies or media, the law of inertia is assumed to hold in
-the obstructing bodies or media. The very conception of
-greater or less retardation so caused, implies the belief that
-there can be no retardations without proportionate retarding
-causes; which is itself the assumption otherwise expressed
-in the first law of motion.</p>
-
-<p>Again, let us suppose that instead of inexact observations
-made on the movements occurring in daily experience, we
-make exact experiments on movements specially arranged
-to yield measured results; what is the postulate underlying
-every experiment? Uniform velocity is defined as
-motion through equal spaces in equal times. How do we
-measure equal times? By an instrument which can be
-inferred to mark equal times only if the oscillations of the
-pendulum are isochronous; which they can be proved to be
-only if the first and second laws of motion are granted.
-That is to say, the proposed experimental proof of the first
-law, assumes not only the truth of the first law, but of that
-which Professor Tait agrees with Newton in regarding as a
-second law. Is it said that the ultimate time-measure
-referred to is the motion of the Earth round its axis,
-through equal angles in equal times? Then the obvious
-rejoinder is that the assertion of this, similarly involves an
-assertion of the truth to be proved; since the undiminished
-rotatory movement of the Earth is itself a corollary from
-the first law of motion. Is it alleged that this axial movement
-of the Earth through equal angles in equal times, is
-ascertainable by reference to the stars? I answer that a
-developed system of Astronomy, leading through
-complex <span class="xxpn" id="p273">{273}</span>
-reasonings to the conclusion that the Earth rotates, is,
-in that case, supposed to be needful before there can be
-established a law of motion which this system of Astronomy
-itself postulates. For even should it be said that the
-Newtonian theory of the Solar System is not necessarily
-pre-supposed, but only the Copernican; still, the proof
-of this assumes that a body at rest (a star being taken
-as such) will continue at rest; which is a part of the first
-law of motion, regarded by Newton as not more self-evident
-than the remaining part.</p>
-
-<p>Not a little remarkable, indeed, is the oversight made by
-Professor Tait, in asserting that “no <i>a priori</i> reasoning can
-conduct us demonstratively to a single physical truth,”
-when he has before him the fact that the system of physical
-truths constituting Newton’s <i>Principia</i>, which he has joined
-Sir William Thomson in editing, is established by <i>a priori</i>
-reasoning. That there can be no change without a cause,
-or, in the words of Mayer, that “a force cannot become
-nothing, and just as little can a force be produced from
-nothing,” is that ultimate dictum of con­scious­ness on which
-all physical science rests. It is involved alike in the
-assertion that a body at rest will continue at rest, in the
-assertion that a body in motion must continue to move at
-the same velocity in the same line if no force acts on it, and
-in the assertion that any divergent motion given to it must
-be proportionate to the deflecting force; and it is also
-involved in the axiom that action and reaction are equal
-and opposite.</p>
-
-<p>The reviewer’s doctrine, in support of which he cites
-against me the authority of Professor Tait, illustrates in
-Physics that same error of the inductive philosophy which,
-in Metaphysics, I have pointed out elsewhere (<i>Principles of
-Psychology</i>, Part VII.). It is a doctrine implying that we
-can go on for ever asking the proof of the proof, without
-finally coming to any deepest cognition which is unproved
-and unprovable. That this is an untenable doctrine, I
-need <span class="xxpn" id="p274">{274}</span>
-not say more to show. Nor, indeed, would saying more to
-show it be likely to have any effect, in so far at least as
-the reviewer is concerned; seeing that he thinks I am
-“ignorant of the very nature of the principles” of which I
-am speaking, and seeing that my notions of scientific
-reasoning “remind” him “of the Ptolemists,” who argued
-that the heavenly bodies must move in circles because the
-circle is the most perfect figure.<a class="afnanch" href="#fn37" id="fnanch37">37</a></p>
-
-<p>Not to try the reader’s patience further, I will end by
-pointing out that, even were the reviewer’s criticisms all
-valid, they would leave unshaken the theory he contends
-against. Though one of his sentences (p. 480) raises the
-expectation that he is about to assault, and greatly to
-damage, the bases of the system contained in the second
-part of <i>First Principles</i>, yet all those propositions which
-constitute the bases, he leaves, not only uninjured, but even
-untouched,—contenting himself with trying to show (with
-what success we have seen) that the fundamental one is
-an <i>a posteriori</i> truth and not an <i>a priori</i> truth. Against the
-general Doctrine of Evolution, considered as an induction
-from all classes of concrete phenomena, he utters not a
-word; nor does he utter a word to disprove any one of
-those laws of the redistribution of matter
-and motion, by <span class="xxpn" id="p275">{275}</span>
-which the process of Evolution is deductively interpreted.
-Respecting the law of the Instability of the Homogeneous, he
-says no more than to quarrel with one of the illustrations.
-He makes no criticism on the law of the Multiplication of
-Effects. The law of Segregation he does not even mention.
-Nor does he mention the law of Equilibration. Further, he
-urges nothing against the statement that these general
-laws are severally deducible from the ultimate law of the
-Persistence of Force. Lastly, he does not deny the Persistence
-of Force; but only differs respecting the nature
-of our warrant for asserting it. Beyond pointing out, here
-a cracked brick and there a quoin set askew, he merely
-makes a futile attempt to show that the foundation is not
-natural rock, but concrete.</p>
-
-<p>From his objections I may, indeed, derive much satisfaction.
-That a competent critic, obviously anxious to
-do all the mischief he can, and not over-scrupulous about
-the means he uses, has done so little, may be taken as
-evidence that the fabric of conclusions attacked will not
-be readily overthrown.</p>
-
-<hr class="hr33" />
-
-<p>In the <i>British Quarterly Review</i>
-for January, 1874, the
-writer of the article I have dealt with above, makes a
-rejoinder. It is of the kind which might have been
-anticipated. There are men to whom the discovery that
-they have done injustice is painful. After proof of having
-wrongly ascribed to another such a nonsensical belief as
-that insensible motion is heat because heat is insensible
-motion, some would express regret. Not so my reviewer.
-Having by forced in­ter­pre­ta­tions debited me with an
-absurdity, he makes no apology; but, with an air implying
-that he had all along done this, he attacks the allegation
-I had really made—an allegation which is at least so far
-from an absurdity, that he describes it only as not justified
-by “the present state of science.” And here, having
-incidentally referred to this point, I may as well,
-before <span class="xxpn" id="p276">{276}</span>
-proceeding, deal with his substituted charge at the same
-time that I further exemplify his method. Probably most
-of those who see the <i>British Quarterly</i>, will be favourably
-impressed by the confidence of his assertion; but those
-who compare my statement with his travesty of it, and who
-compare both with some authoritative exposition, will be
-otherwise impressed. To his statement that I conclude
-“that friction must ultimately transform <i>all</i> [the italics are
-his] the energy of a sound into heat,” I reply that it is
-glaringly untrue: I have named friction as a second cause
-only. And when he pooh-poohs the effect of compression
-because it is “merely momentary,” is he aware of the
-meaning of his words? Will he deny that, from first to
-last, during the interval of condensation, heat is being
-generated? Will he deny to the air the power of radiating
-such heat? He will not venture to do so. Take then the
-interval of condensation as one-thousandth of a second. I
-ask him to inform those whom he professes to instruct,
-what is the probable number of heat-waves which have
-escaped in this interval. Must they not be numbered by
-thousands of millions? In fact, by his “merely momentary,”
-he actually assumes that what is momentary in
-relation to our time-measures, is momentary in relation to
-the escape of ethereal undulations!</p>
-
-<p>Let me now proceed more systematically, and examine
-his rejoinder point by point. It sets out <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“In the notice of Mr. Spencer’s works that appeared in the last number
-of this <i>Review</i>, we had occasion to point out that he held mistaken
-notions of the most fundamental gen­er­al­i­za­tions of dynamics; that he
-had shown an ignorance of the nature of proof in his treatment of the
-Newtonian Law; that he had used phrases such as the Persistence of
-Force in various and inconsistent significations; and more especially
-that he had put forth proofs logically faulty in his endeavour to
-demonstrate certain physical propositions by <i>à priori</i> methods, and
-to show that such proofs must exist. To this article Mr. Spencer has
-replied in the December number of the <i>Fortnightly Review</i>. His reply
-leaves every one of the above positions unassailed.”</p></blockquote>
-
-<p>In my “Replies to Criticisms,” which, as it was, trespassed
-unduly on the pages of the <i>Fortnightly Review</i>, I
-singled <span class="xxpn" id="p277">{277}</span>
-out from those of his allegations which touched me personally,
-one that might be briefly dealt with as an example;
-and I stated that, passing over other personal questions,
-as not interesting to the general reader, I should devote
-the small space available to an impersonal one. Notwithstanding
-this, the reviewer, in the foregoing paragraph,
-enumerates his chief positions; asserts that I have not
-assailed any of them (which is untrue); and then leads his
-readers to the belief that I have not assailed them because
-they are unassailable.</p>
-
-<p>Leaving this misbelief to be dealt with presently, I
-continue my comments on his rejoinder. After referring
-to the passage I have quoted from Prof. Tait’s statement
-about physical axioms, and after indicating the nature of
-my criticism, the reviewer <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Had Mr. Spencer, however, read the sentence that follows it, we doubt
-whether we should have heard aught of this quotation. It is ‘Without
-further remark we shall give Newton’s Three Laws; it being remembered
-that as the properties of matter might have been such as to render a totally
-different set of laws axiomatic, <i>these laws must be considered as resting
-on convictions drawn from observation and experiment and not on intuitive
-perception</i>.’ This not only shows that the term ‘axiomatic’ is used in the
-previous sentence in a sense that does not exclude an inductive origin, but it
-leaves us indebted to Mr. Spencer for the discovery of the clearest and most
-authoritative expression of disapproval of his views respecting the nature of
-the Laws of Motion.”</p></blockquote>
-
-<p>Let us analyze this “authoritative expression.” It
-contains several startling implications, the disclosure of
-which the reader will find not uninteresting. Consider,
-first, what is implied by framing the thought that “the
-properties of matter might have been such as to render a
-totally different set of laws axiomatic.” I will not stop to
-make the inquiry whether matter having properties fundamentally
-unlike its present ones, can be conceived; though
-such an inquiry, leading to the conclusion that no conception
-of the kind is possible, would show that the proposition is
-merely a verbal one. It will suffice if I examine the nature
-of this proposition that “the properties of matter <i>might
-have been</i>” <span class="xxpn" id="p278">{278}</span> other than they are.
-Does it express an ex­per­i­men­tal­ly-as­cer­tained
-truth? If so, I invite Prof. Tait to
-describe the experiments. Is it an intuition? If so, then
-along with doubt of an intuitive belief concerning things
-<i>as they are</i>, there goes confidence in an intuitive belief concerning
-things <i>as they are not</i>. Is it an hypothesis? If so,
-the implication is that a cognition of which the negation is
-inconceivable (for an axiom is such) may be discredited by
-inference from that which is not a cognition at all, but
-simply a supposition. Does the reviewer admit that no
-conclusion can have a validity greater than is possessed
-by its premises? or will he say that the trustworthiness of
-cognitions increases in proportion as they are the more
-inferential? Be his answer what it may, I shall take it as
-unquestionable that nothing concluded can have a warrant
-higher than that from which it is concluded, though it may
-have a lower. Now the elements of the proposition before
-us are these:—<i>As</i> “the properties of matter might have
-been such as to render a totally different set of laws
-axiomatic” [<i>therefore</i>] “these laws [now in force] must
-be considered as resting .&#160;.&#160;. not on intuitive perception:”
-that is, the intuitions in which these laws are
-recognized, must not be held authoritative. Here the
-cognition posited as premiss, is that the properties of
-matter might have been other than they are; and the conclusion
-is that our intuitions relative to existing properties
-are uncertain. Hence, if this conclusion is valid, it is valid
-because the cognition or intuition respecting what might
-have been, is more trustworthy than the cognition or
-intuition respecting what is! Scepticism respecting the
-deliverances of con­scious­ness about things as they are, is
-based upon faith in a deliverance of con­scious­ness about
-things as they are not!</p>
-
-<p>I go on to remark that this “authoritative expression of
-disapproval” by which I am supposed to be silenced, even
-were its allegation as valid as it is fallacious, would
-leave <span class="xxpn" id="p279">{279}</span>
-wholly untouched the real issue. I pointed out how
-Prof. Tait’s denial that any physical truths could be reached
-<i>a priori</i>, was contradicted by his own statement respecting
-physical axioms. The question thus raised the reviewer
-evades, and substitutes another with which I have just
-dealt. Now I bring forward again the evaded question.</p>
-
-<p>In the passage I quoted, Prof. Tait, besides speaking of
-physical “<i>axioms</i>,” says of them that due familiarity with
-physical phenomena gives the power of seeing “<i>at once</i>”
-“their <i>necessary</i> truth.” These last words, which express
-his conception of an axiom, express also the usual conception.
-An axiom is defined as a “self-evident truth,” or a truth
-that is seen <i>at once</i>; and the definition otherwise worded is—a
-“truth so evident <i>at first sight</i>, that no process of
-reasoning or demonstration can make it plainer.” Now I
-contend that Prof. Tait, by thus committing himself to a
-definition of physical axioms identical with that which is
-given of mathematical axioms, tacitly admits that they have
-the same <i>a priori</i> character; and I further contend that no
-such nature as that which he describes physical axioms to
-have, can be acquired by experiment or observation during
-the life of an individual. Axioms, if defined as truths of
-which the <i>necessity</i> is at once seen, are thereby defined as
-truths of which the negation is inconceivable; and the
-familiar contrast between them and the truths established
-by individual experiences, is that these last never become
-such that their negations are inconceivable, however multitudinous
-the experiences may be. Thousands of times has
-the sportsman heard the report that follows the flash
-from his gun, but still he can imagine the flash as occurring
-silently; and countless daily experiments on the burning of
-coal, leave him able to conceive coal as remaining in the
-fire without ignition. So that the “convictions drawn from
-observation and experiment” during a single life, can never
-acquire that character which Prof. Tait admits physical
-axioms to have: in other words, physical axioms cannot
-be <span class="xxpn" id="p280">{280}</span>
-derived from personal observation and experiment. Thus,
-otherwise applying the reviewer’s words, I “doubt whether
-we should have heard aught of this quotation” to which he
-calls my attention, had he studied the matter more closely;
-and he “leaves us indebted to” him “for the discovery of”
-a passage which serves to make clearer the untenability of
-the doctrine he so dogmatically affirms.</p>
-
-<p>I turn now to what the reviewer says concerning the
-special arguments I used to show that the first law of
-motion cannot be proved experimentally. After a bare
-enunciation of my positions, he <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“On the utterly erroneous character of these statements we do not care to
-dwell, we wish simply to call our reader’s attention to the conclusion arrived
-at. Is that a disproof of the possibility of an inductive proof? We thought
-that every tolerably educated man was aware that the proof of a scientific law
-<i>consisted in</i> showing that <i>by</i> assuming its truth, we could explain the
-observed phenomena.”</p></blockquote>
-
-<p>Probably the reviewer expects his readers to conclude
-that he could easily dispose of the statements referred to
-if he tried. Among scientific men, however, this cavalier
-passing over of my arguments will perhaps be ascribed to
-another cause. I will give him my reason for saying this.
-Those arguments, read in proof by one of the most eminent
-physicists, and by a specially-honoured mathematician,
-had their entire concurrence; and I have since had from
-another mathematician, standing among the very first,
-such qualified agreement as is implied in saying that
-the first law of motion cannot be proved by terrestrial
-observations (which is in large measure what I undertook
-to show in the paragraphs which the reviewer
-passes over so contemptuously). But his last sentence,
-telling us what he thought “every tolerably educated
-man was aware” of, is the one which chiefly demands
-attention. In it he uses the word <i>law</i>—a word which,
-conveniently wide in meaning, suits his purpose remarkably
-well. But we are here speaking of physical <i>axioms</i>.
-The question is whether the justification of a
-physical <span class="xxpn" id="p281">{281}</span>
-axiom consists in showing that by assuming its truth,
-we can explain the observed phenomena. If it does, then
-all distinction between hypothesis and axiom disappears.
-Mathematical axioms, for which there is no other definition
-than that which Prof. Tait gives of physical axioms,
-must stand on the same footing. Henceforth we must
-hold that our warrant for asserting that “things which
-are equal to the same thing are equal to one another,”
-consists in the observed truth of the geometrical and other
-propositions deducible from it and the associated axioms—the
-<i>observed</i> truth, mind; for the fabric of deductions
-yields none of the required warrant until these deductions
-have been tested by measurement. When we have
-described squares on the three sides of a right-angled
-triangle, cut them out in paper, and, by weighing them,
-have found that the one on the hypothenuse balances the
-other two; then we have got a fact which, joined with
-other facts similarly ascertained, justifies us in asserting
-that things which are equal to the same thing are equal to
-one another! Even as it stands, this implication will not,
-I think, be readily accepted; but we shall find that its
-unacceptability becomes still more conspicuous when the
-analysis is pursued to the end.</p>
-
-<p>Continuing his argument to show that the laws of motion
-have no <i>a priori</i> warrant, the reviewer <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Mr. Spencer asserts that Newton gave no proof of the Laws of Motion.
-The whole of the <i>Principia</i> was the proof, and the fact that, taken as a
-system, these laws account for the lunar and planetary motions, is the
-warrant on which they chiefly rest to this day.”</p></blockquote>
-
-<p>I have first to point out that here, as before, the reviewer
-escapes by raising a new issue. I did not ask
-what he thinks about the <i>Principia</i>, and the proof of the
-laws of motion by it; nor did I ask whether others at this
-day, hold the assertion of these laws to be justified mainly
-by the evidence the Solar System affords. I asked what
-Newton thought. The reviewer had represented the belief
-that the second law of motion is knowable <i>a priori</i>, as
-too <span class="xxpn" id="p282">{282}</span>
-absurd even for me openly to enunciate. I pointed out
-that since Newton enunciates it openly under the title of an
-axiom, and offers no proof whatever of it, he did explicitly
-what I am blamed for doing implicitly. And thereupon I
-invited the reviewer to say what he thought of Newton.
-Instead of answering, he gives me his opinion to the effect
-that the laws of motion are proved true by the truth of the
-<i>Principia</i> deduced from them. Of this hereafter. My
-present purpose is to show that Newton did not say this,
-and gave every indication of thinking the contrary. He
-does not call the laws of motion “hypotheses;” he calls
-them “axioms.” He does not say that he assumes them to
-be true <i>provisionally</i>; and that the warrant for accepting
-them as actually true, will be found in the as­tro­nom­i­cal­ly-proved
-truth of the deductions. He lays them down just
-as mathematical axioms are laid down—posits them as
-truths to be accepted <i>a priori</i>, from which follow consequences
-that must therefore be accepted. And though
-the reviewer thinks this an untenable position, I am quite
-content to range myself with Newton in thinking it a
-tenable one—if, indeed, I may say so without undervaluing
-the reviewer’s judgment. But now, having shown that the
-reviewer evaded the issue I raised, which it was inconvenient
-for him to meet, I pass to the issue he substitutes
-for it. I will first deal with it after the methods of
-ordinary logic, before dealing with it after the methods of
-what may be called transcendental logic.</p>
-
-<p>To establish the truth of a proposition postulated, by
-showing that the deductions from it are true, requires that
-the truth of the deductions shall be shown in some way
-that does not directly or indirectly assume the truth of the
-proposition postulated. If, setting out with the axioms of
-Euclid, we deduce the truths that “the angle in a semi-circle
-is a right angle,” and that “the opposite angles of
-any quadrilateral figure described in a circle, are together
-equal to two right angles,” and so forth; and if,
-because <span class="xxpn" id="p283">{283}</span>
-these propositions are true, we say that the axioms are true,
-we are guilty of a <i>petitio principii</i>. I do not mean simply
-that if these various propositions are taken as true on the
-strength of the demonstrations given, the reasoning is
-circular, because the demonstrations assume the axioms;
-but I mean more—I mean that any supposed <i>experimental</i>
-proof of these propositions by measurement, itself assumes
-the axioms to be justified. For even when the supposed
-experimental proof consists in showing that some two lines
-demonstrated by reason to be equal, are equal when tested
-in perception, the axiom that things which are equal to the
-same thing are equal to one another, is taken for granted.
-The equality of the two lines can be ascertained only by
-carrying from the one to the other, some measure (either
-a moveable marked line or the space between the points
-of compasses), and by assuming that the two lines are
-equal to one another, because they are severally equal to
-this measure. The ultimate truths of mathematics, then,
-cannot be established by any experimental proof that
-the deductions from them are true; since the supposed
-experimental proof takes them for granted. The same
-thing holds of ultimate physical truths. For the alleged
-<i>a posteriori</i> proof of these truths, has a vice exactly
-analogous to the vice I have just indicated. Every
-evidence yielded by astronomy that the axioms called “the
-laws of motion” are true, resolves itself into a fulfilled
-prevision that some celestial body or bodies, will be seen
-in a specified place, or in specified places, in the heavens,
-at some assigned time. Now the day, hour, and minute
-of this verifying observation, can be fixed only on the
-assumption that the Earth’s motion in its orbit and its
-motion round its axis, continue undiminished. Mark, then,
-the parallelism. One who chose to deny that things which
-are equal to the same thing are equal to one another,
-could never have it proved to him by showing the truth
-of deduced propositions; since the testing process would
-in <span class="xxpn" id="p284">{284}</span>
-every case assume that which he denied. Similarly, one
-who refused to admit that motion, uninterfered with,
-continues in the same straight line at the same velocity,
-could not have it proved to him by the fulfilment of an
-astronomical prediction; because he would say that both
-the spectator’s position in space, and the position of the
-event in time, were those alleged, only if the Earth’s
-motions of translation and rotation were undiminished,
-which was the very thing he called in question. Evidently
-such a sceptic might object that the seeming fulfilment of
-the prediction, say a transit of Venus, may be effected by
-various combinations of the changing positions of Venus,
-of the Earth, and of the spectator on the Earth. The
-appearances may occur as anticipated, though Venus is at
-some other place than the calculated one; provided the
-Earth also is at some other place, and the spectator’s
-position on the Earth is different. And if the first law of
-motion is not assumed, it must be admitted that the Earth
-and the spectator <i>may</i> occupy these other places at the
-predicted time: supposing that in the absence of the first
-law, this predicted time can be ascertained, which it cannot.
-Thus the testing process inevitably begs the question.</p>
-
-<p>That the perfect congruity of all astronomical observations
-with all deductions from “the laws of motion,” gives
-coherence to this group of intuitions and perceptions,
-and so furnishes a warrant for the entire aggregate of
-them which it would not have were any of them at
-variance, is unquestionable. But it does not therefore
-follow that astronomical observations can furnish a test
-for <i>each individual assumption</i>, out of the many which
-are simultaneously made. I will not dwell on the fact
-that the process of verification assumes the validity
-of the assumptions on which acts of reasoning proceed; for
-the reply may be that these are shown to be valid apart
-from astronomy. Nor will I insist that the assumptions
-underlying mathematical inferences, geometrical
-and <span class="xxpn" id="p285">{285}</span>
-numerical, are involved; since it may be said that these are
-justifiable separately by our terrestrial experiences. But,
-passing over all else that is taken for granted, it suffices to
-point out that, in making every astronomical prediction,
-the three laws of motion and the law of gravitation are <i>all</i>
-assumed; that if the first law of motion is to be held proved
-by the fulfilment of the prediction, it can be so only by
-taking for granted that the two other laws of motion and
-the law of gravitation are true; and that non-fulfilment of
-the prediction would not disprove the first law of motion,
-since the error might be in one or other of the three
-remaining assumptions. Similarly with the second law:
-the astronomical proof of it depends on the truth of the
-accompanying assumptions. So that the warrants for the
-assumptions A, B, C, and D, are respectively such that
-A, B, and C being taken as trustworthy, prove the validity
-of D; D being thus proved valid, joins C, and B, in giving
-a character to A; and so throughout. The result is that
-everything comes out right if they happen to be all true;
-but if one of them is false, it may destroy the characters of
-the other three, though these are in reality exact. Clearly,
-then, astronomical prediction and observation can never
-test any one of the premises by itself. They can only
-justify the entire aggregate of premises, mathematical and
-physical, joined with the entire aggregate of reasoning
-processes leading from premises to conclusions.</p>
-
-<p>I now recall the reviewer’s “thought,” uttered in his
-habitual manner, “that every tolerably educated man was
-aware that the proof of a scientific law <i>consisted in</i> showing
-that <i>by</i> assuming its truth, we could explain the observed
-phenomena.” Having from the point of view of ordinary
-logic dealt with this theory of proof as applied by the
-reviewer, I proceed to deal with it from the point of view
-of transcendental logic, as I have myself applied it. And
-here I have to charge the reviewer with either being
-ignorant of, or else deliberately ignoring,
-a cardinal <span class="xxpn" id="p286">{286}</span>
-doctrine of the System of Philosophy he professes to review—a
-doctrine set forth not in those four volumes of it which he
-seems never to have looked into; but in the one volume of
-it he has partially dealt with. For this principle which, in
-respect to scientific belief, he enunciates for my instruction,
-is one which, in <i>First Principles</i>, I have enunciated in
-respect to all beliefs whatever. In the chapter on the
-“Data of Philosophy,” where I have inquired into the
-legitimacy of our modes of procedure, and where I have
-pointed out that there are certain ultimate conceptions
-without which the intellect can no more stir “than the
-body can stir without help of its limbs,” I have inquired
-how their validity or invalidity is to be shown; and I have
-gone on to reply <span class="nowrap">that―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Those of them which are vital, or cannot be severed from the rest
-without mental dissolution, must be assumed as true <i>provisionally</i> .&#160;.&#160;.&#160;.
-leaving the assumption of their un­ques­tion­able­ness to be justified by
-the results.</p>
-
-<p>Ҥ 40. How is it to be justified by the results? As any other assumption
-is justified—by ascertaining that all the conclusions deducible from it, correspond
-with the facts as directly observed—by showing the agreement between
-the experiences it leads us to anticipate, and the actual experiences. There
-is no mode of establishing the validity of any belief, except that of showing
-its entire congruity with all other beliefs.”</p></blockquote>
-
-<p>Proceeding avowedly and rigorously on this principle,
-I have next inquired what is the fundamental <i>process</i> of
-thought by which this congruity is to be determined, and
-what is the fundamental <i>product</i> of thought yielded by
-this process. This fundamental product I have shown to
-be the coexistence of subject and object; and then, describing
-this as a postulate to be justified by “its sub­se­quent­ly-proved
-congruity with every result of experience, direct and
-indirect,” I have gone on to say that “the two divisions of
-self and not-self, are re-divisible into certain most general
-forms, the reality of which Science, as well as Common
-Sense, from moment to moment assumes.” Nor is this all.
-Having thus assumed, <i>only provisionally</i>, this deepest of all
-intuitions, far transcending an axiom in self-evidence,
-I <span class="xxpn" id="p287">{287}</span>
-have, after drawing deductions occupying four volumes,
-deliberately gone back to the assumption (<i>Prin. of Psy.,</i>
-§ 386). After quoting the passage in which the principle
-was laid down, and after reminding the reader that the
-deductions drawn had been found congruous with one
-another; I have pointed out that it still remained to ascertain
-whether this primordial assumption was congruous
-with all the deductions; and have thereupon proceeded,
-throughout eighteen chapters, to show the congruity. And
-yet having before him the volumes in which this principle
-is set forth with a distinctness, and acted upon with a
-deliberation, which I believe are nowhere paralleled, the
-reviewer enunciates for my benefit this principle of which
-he “thought that every tolerably educated man was aware”!
-He enunciates it as applying to limited groups of beliefs, to
-which it does not apply; and shuts his eyes to the fact that
-I have avowedly and systematically acted upon it in respect
-to the entire aggregate of our beliefs (axioms included) for
-which it furnishes the ultimate justification!</p>
-
-<p>Here I must add another elucidatory statement, which
-would have been needless had the reviewer read that which
-he criticizes. His argument proceeds throughout on the
-assumption that I understand <i>a priori</i> truths after the
-ancient manner, as truths independent of experience; and
-he shows this more tacitly, where he “trusts” that he is
-“attacking one of the last attempts to deduce the laws of
-nature from our inner con­scious­ness.” Manifestly, a leading
-thesis of one of the works he professes to review, is entirely
-unknown to him—the thesis that forms of thought, and
-consequently the intuitions which those forms of thought
-involve, result entirely from the effects of experiences,
-organized and inherited. With the <i>Principles of Psychology</i>
-before him, not only does he seem unaware that it contains
-this doctrine, but though this doctrine, set forth in its first
-edition published nearly twenty years ago, has
-gained <span class="xxpn" id="p288">{288}</span>
-considerable currency, he seems never to have heard of it.
-The implication of this doctrine is, not that the “laws of
-nature” are deducible from “our inner con­scious­ness,” but
-that our con­scious­ness has a pre-established correspondence
-with such of those laws (simple, perpetually presented, and
-never negatived) as have, in the course of prac­ti­cal­ly-in­fi­nite
-ancestral experiences, registered themselves in our nervous
-structure. Had he taken the trouble to acquaint himself
-with this doctrine, he would have learned that the intuitions
-of axiomatic truths are regarded by me as latent in
-the inherited brain, just as bodily reflex actions are latent
-in the inherited nervous centres of a lower order; that
-such latent intuitions are made potentially more distinct
-by the greater definiteness of structure due to
-individual action and culture; and that thus, axiomatic
-truths, having a warrant entirely <i>a posteriori</i> for the
-race, have for the individual a warrant which, substantially
-<i>a priori</i>, is made complete <i>a posteriori</i>. And
-he would then have learned that as, during evolution,
-Thought has been moulded into increasing correspondence
-with Things; and as such correspondence, tolerably complete
-in respect of the simple, ever-present, and invariable
-relations, as those of space, has made considerable advance
-in respect of the primary dynamical relations; the assertion
-that the resulting intuitions are authoritative, is the
-assertion that the simplest uniformities of nature, as
-experienced throughout an immeasurable past, are better
-known than they are as experienced during an individual
-life. All which conceptions, however, being, as it seems,
-unheard of by the reviewer, he regards my trust in these
-primordial intuitions as like that of the Ptolemists in their
-fancies about perfection!</p>
-
-<p class="padtopa">Thus far my chief antagonists, passive if not active, have
-been Prof. Tait and, by implication, Sir William
-Thomson, <span class="xxpn" id="p289">{289}</span>
-his coadjutor in the work quoted against me—men of
-standing, and the last of them of world-wide reputation as
-a mathematician and physicist. Partly because the opinions
-of such men demand attention, I have dealt with the
-questions raised at some length; and partly, also, because
-the origin and consequent warrant of physical axioms are
-questions of general and permanent interest. The reviewer,
-who by citing against me these authorities has gained for
-some of his criticisms consideration they would otherwise
-not deserve, I must, in respect of his other criticisms, deal
-with very briefly. Because, for reasons sufficiently indicated,
-I did not assail sundry of his statements, he has reiterated
-them as unassailable. I will here add no more than is
-needful to show how groundless is his assumption.</p>
-
-<p>What the reviewer says on the metaphysical aspects of
-the propositions we distinguish as physical, need not detain
-us long. His account of my exposition of “Ultimate
-Scientific Ideas,” he closes by saying of me that “he is not
-content with less than showing that all our fundamental
-conceptions are inconceivable.” Whether the reviewer
-knows what he means by an inconceivable conception, I
-cannot tell. It will suffice to say that I have attempted no
-such remarkable feat as that described. My attempt has
-been to show that objective activities, together with their
-objective forms, are inconceivable by us—that such
-symbolic conceptions of them as we frame, and are obliged
-to use, are proved, by the alternative contradictions which
-a final analysis of them discloses, to have no likeness to
-the realities. But the proposition that objective existence
-cannot be rendered in terms of subjective existence, the
-reviewer thinks adequately expressed by saying that “our
-fundamental conceptions” (subjective products) “are inconceivable”
-(cannot be framed by subjective processes)!
-Giving this as a sample from which may be judged his
-fitness for discussing these ultimate questions, I pass over
-his phys­i­co-meta­phys­i­cal criticisms, and proceed at once
-to <span class="xxpn" id="p290">{290}</span>
-those which his special discipline may be assumed to render
-more worthy of attention.</p>
-
-<p>Quoting a passage relative to the law that “all central
-forces vary inversely as the squares of the distances,” he
-derides the assertion that “this law is not simply an
-empirical one, but one deducible mathematically from the
-relations of space—one of which the negation is inconceivable.”
-Now whether this statement can or cannot be
-fully justified, it has at any rate none of that absurdity
-alleged by the reviewer. When he puts the question—“Whence
-does he [do I] get this?” he invites the suspicion
-that his mind is not characterized by much excursiveness.
-It seems never to have occurred to him that,
-if rays like those of light radiate in straight lines from a
-centre, the number of them falling on any given area of a
-sphere described from that centre, will diminish as the
-square of the distance increases, because the surfaces of
-spheres vary as the squares of their radii. For, if this
-has occurred to him, why does he ask whence I get the
-inference? The inference is so simple a one as naturally
-to be recognized by those whose thoughts go a little
-beyond their lessons in geometry.<a class="afnanch" href="#fn38" id="fnanch38">38</a>
-If the reviewer means
-to ask, whence I get the implied assumption that central
-forces act only in straight lines, I reply that this assumption
-has a warrant akin to that of Newton’s first axiom, that a
-moving body will continue moving in a straight line unless
-interfered with. For that the force exerted by one centre
-on another should act in a curved line, implies the conception
-of some second force, complicating the direct effect
-of the first. And, even could a central force be truly conceived
-as acting in lines not straight,
-the <i>average</i> <span class="xxpn" id="p291">{291}</span>
-distribution of its effects upon the inner surface of the surrounding
-sphere, would still follow the same law. Thus, whether or
-not the law be accepted on <i>a priori</i> grounds, the assumed
-absurdity of representing it to have <i>a priori</i> grounds, is
-not very obvious. Respecting this statement of mine the
-reviewer goes on to <span class="nowrap">say―</span></p>
-
-<blockquote class="blktight">
-
-<p>“This is a wisdom far higher than that possessed by the discoverer of the
-great law of attraction, who was led to consider it from no cogitations on
-the relations of space, but from observations of the movements of the
-planets; and who was so far from rising to that clearness of view of the
-truth of his great discovery, which is expressed by the phrase, ‘its negation
-is inconceivable,’ that he actually abandoned it for a time, because (through
-an error in his estimate of the earth’s diameter) it did not seem fully to
-account for the motion of the moon.”</p></blockquote>
-
-<p>To the first clause in this sentence, I have simply to
-give a direct denial; and to assert that neither Newton’s
-“observations of the movements of the planets” nor other
-such observations continued by all astronomers for all time,
-would yield “the great law of attraction.” Contrariwise,
-I contend that when the reviewer says, by implication, that
-Newton had no antecedent hypothesis respecting the cause
-of the planetary motions, he (the reviewer) is not only
-going beyond his possible knowledge, but he is asserting
-that which even a rudimentary acquaintance with the
-process of discovery, might have shown him was impossible.
-Without framing, beforehand, the supposition that there
-was at work an attractive force varying inversely as the
-square of the distance, no such comparison of observations
-as that which led to the establishment of the theory of
-gravitation could have been made. On the second clause
-of the sentence, in which the reviewer volunteers for my
-benefit the information that Newton “actually abandoned”
-his hypothesis for a while because it did not bring out right
-results, I have first to tell him that, in an early number of
-the very periodical containing his article,<a class="afnanch" href="#fn39" id="fnanch39">39</a>
-I
-cited this fact <span class="xxpn" id="p292">{292}</span>
-(using these same words) at a time when he was at school,
-or before he went there.<a class="afnanch" href="#fn40" id="fnanch40">40</a>
-I have next to assert that this
-fact is irrelevant; and that Newton, while probably seeing
-it to be a necessary implication of geometrical laws that
-central forces vary inversely as the squares of the distances,
-did not see it to be a necessary implication of any laws,
-geometrical or dynamical, that there exists a force by
-which the celestial bodies affect one another; and therefore
-doubtless saw that there was no <i>a priori</i> warrant for
-the doctrine of gravitation. The reviewer, however, aiming
-to substitute for my “confused notions” his own clear
-ones, wishes me to identify the proposition—Central forces
-vary inversely as the squares of the distances—with the
-proposition—There exists a cosmical attractive force which
-varies inversely as the squares of the distances. But I
-decline to identify them; and I suspect that a considerable
-distinction between them was recognized by Newton.
-Lastly, apart from all this, I have to point out that even
-had Newton thought the existence of an attractive force
-throughout space was an <i>a priori</i> truth, as well as the law
-of variation of such a force if it existed; he would still,
-naturally enough, pause before asserting gravitation and
-its law, when he found his deductions did not correspond
-with the facts. To suppose otherwise, is to ascribe to
-him a rashness which no disciplined man of science could
-be guilty of.</p>
-
-<p>See, then, the critical capacity variously exhibited in the
-space of a single sentence. The reviewer, quite erroneously,
-thinks that observations unguided by hypotheses suffice for
-physical discoveries. He seems unaware that, on <i>a priori</i>
-grounds, the law of the inverse square had been suspected
-as the law of some cosmical force, before Newton. He
-asserts, without warrant, that no such <i>a priori</i> conception
-preceded, in Newton’s mind, his observations and <span class="xxpn" id="p293">{293}</span>
-calculations. He confounds the law of variation of a force,
-with the existence of a force varying according to that
-law. And he concludes that Newton could have had no
-<i>a priori</i> conception of the law of variation, because he did
-not assert the existence of a force varying according to this
-law in defiance of the evidence as then presented to him!</p>
-
-<p>Now that I have analyzed, with these results, the first of
-his criticisms, the reader will neither expect me to waste
-time in similarly dealing with the rest <i>seriatim</i>, nor will he
-wish to have his own time occupied in following the analysis.
-To the evidence thus furnished of the reviewer’s fitness for
-the task he undertakes, it will suffice if I add an illustration
-or two of the <i>animus</i> which leads him to make grave imputations
-on trivial grounds, and to ignore the evidence which
-contradicts his in­ter­pre­ta­tions.</p>
-
-<p>Because I have spoken of a balanced system, like that
-formed by the sun and planets, as having the “peculiarity,
-that though the constituents of the system have relative
-movements, the system, as a whole, has no movement,” he
-unhesitatingly assumes me to be unaware that in a system
-of bodies whose movements are not balanced, it is equally
-true that the centre of gravity remains constant. Ignorance
-of a general principle in dynamics is alleged against
-me solely because of this colloquial use of the word
-“peculiarity,” where I should have used a word (and there
-is no word perfectly fit) free from the implication of exclusiveness.
-If the reviewer were to assert that arrogance
-is a “peculiarity” of critics; and if I were thereupon to
-charge him with entire ignorance of mankind, many of
-whom besides critics are arrogant, he would rightly say
-that my conclusion was a very large one to draw from so
-small a premise.</p>
-
-<p>To this example of strained inference I will join an
-example of what seems like deliberate misconstruction.
-From one of my essays (not among the works he professes
-to deal with) the reviewer, to strengthen his attack,
-brings <span class="xxpn" id="p294">{294}</span>
-a strange mistake; which, even without inquiry, any fair-minded
-reader would see must be an oversight. A statement
-true of a single body acted on by a tractive force, I
-have inadvertently pluralized: being so possessed by
-another aspect of the question, as to overlook the obvious
-fact that with a plurality of bodies the statement became
-untrue. Not only, however, does the reviewer ignore
-various evidences furnished by the works before him, that
-I could not really think what I had there said, but he
-ignores a direct contradiction contained in the paragraph
-succeeding that from which he quotes. So that the case
-stands thus:—On two adjacent pages I have made two
-opposite statements, both of which I cannot be supposed
-to believe. One of them is right; and this the reviewer
-assumes I do not believe. One of them is glaringly wrong;
-and this the reviewer assumes I do believe. Why he made
-this choice no one who reads his criticism will fail to see.</p>
-
-<p>Even had his judgments more authority than is given to
-them by his mathematical honours, this brief char­ac­ter­i­za­tion
-would, I think, suffice. Perhaps already, in rebutting
-the assumption that I did not answer his allegations
-because they were unanswerable, I have ascribed to them
-an unmerited importance. For the rest, suggesting that
-their value may be measured by the value of that above
-dealt with as a sample, I leave them to be answered by the
-works they are directed against.</p>
-
-<p>Here I end. The foregoing pages, while serving, I
-think, the more important purpose of making clearer the
-relations of physical axioms to physical knowledge, incidentally
-justify the assertion that the reviewer’s charges of
-fallacious reasoning and ignorance of the nature of proof,
-recoil on himself. When, in his confident way, he undertakes
-to teach me the nature of our warrant for scientific
-beliefs, ignoring absolutely the inquiry contained in <i>Principles
-of Psychology</i>, concerning the relative values of direct
-intuitions and reasoned conclusions, he lays himself open
-to <span class="xxpn" id="p295">{295}</span>
-a sarcasm which is sufficiently obvious. And when a certain
-ultimate principle of justification for our beliefs, set forth
-and acted upon in the <i>System of Synthetic Philosophy</i> more
-distinctly than in any other work, is enunciated by him for
-my instruction, as one which he “thought that every
-tolerably educated man was aware” of, his course is one
-for which I find no fit epithet in the vocabulary I permit
-myself to use. That in some cases he has shown eagerness
-to found charges on mis­in­ter­pre­ta­tions little less than
-deliberate, has been sufficiently shown; as also that, in
-other cases, his own failure to discriminate is made the
-ground for ascribing to me beliefs that are manifestly
-untenable. Save in the single case of a statement respecting
-collisions of bodies, made by me without the needful
-qualification, I am not aware of any errors he detects,
-except errors of oversight or those arising from imperfect
-expression and inadequate exposition. When he unhesitatingly
-puts the worst constructions on these, it cannot be
-because his own exactness is such that no other constructions
-occur to him; for he displays an unusual capacity for
-inadvertencies, and must have had many experiences
-showing him how much he might be wronged by illiberal
-in­ter­pre­ta­tions of them. One who in twenty-three professed
-extracts makes fifteen mistakes—words omitted, or added,
-or substituted—should not need reminding how largely
-mere oversight may raise suspicion of something worse.
-One who shows his notions of accurate statement by
-asserting that as I substitute “persistence” for “conservation,”
-I therefore identify Persistence of <i>Force</i> with
-Conservation of <i>Energy</i>, and debits me with the resulting
-incongruities—one who, in pursuance of this error, confounds
-a special principle with the general principle it is
-said to imply, and thereupon describes a wider principle as
-being included in a narrower (p. 481)—one who speaks
-of our “inner con­scious­ness” (p. 488), so asserting, by
-implication, that we have an outer con­scious­ness—one
-who <span class="xxpn" id="p296">{296}</span>
-talks of an inconceivable conception; ought surely to be
-aware how readily lax expressions may be turned into
-proofs of absurd opinions. And one who, in the space of a
-few pages, falls into so many solecisms, ought to be vividly
-conscious that a whole volume thus written would furnish
-multitudinous statements from which a critic, moved by a
-spirit like his own, might evolve abundant absurdities;
-supplying ample occasion for blazoning the tops of pages
-with insulting words.</p>
-
-<hr class="hr33" />
-
-<p>[<i>A letter, drawn from</i> Prof. Tait <i>by the foregoing criticisms,
-and published by him in</i> Nature, <i>initiated a controversy
-carried on in that periodical between March 26th and June
-18th, 1874. Partly in justification of my position, and
-partly as tending to make clearer the nature and origin of
-physical axioms, I append certain portions of the correspondence,
-with some additional explanations and comments.
-For the purpose of elucidation I prefix the theses I have
-maintained.</i>] <span class="xxpn" id="p297">{297}</span></p>
-
-<div class="chapter">
-<h3>THESES.</h3></div>
-
-<p>1. <i>If A produces B, then 2 A will produce 2 B.</i></p>
-
-<p class="pindsml">This is the blank form of causal relation quantitatively considered,
-when the causes and effects are simple—that is, are unimpeded by
-other causes and uncomplicated by other effects; and whenever two or
-more causes co-operate, there is no possibility of determining the
-relation between the compound cause and the compound effect except
-by assuming that between each co-operating cause and its separate effect
-there exists this same quantitative relation.</p>
-
-<p>2. <i>This truth holds whatever the natures of the simple
-causes and simple effects; and is an</i> a priori <i>assumption
-made in conducting every experiment and in reasoning
-from it.</i></p>
-
-<p class="pindsml">Every process of weighing, every chemical analysis, every physical
-investigation, proceeds on this truth without assigning warrant for it;
-and in allowing for the effect of any minor cause that interferes with
-the major cause, this same truth is assumed.</p>
-
-<p>3. <i>When A is an impressed force and B the produced
-motion, then the general truth that if A produces B, 2 A
-will produce 2 B, becomes the more special truth called the
-Second Law of Motion.</i></p>
-
-<p class="pindsml">Newton’s amplified statement of this Law is:—“If any force
-generates a motion, a double force will generate double the motion, a
-triple force triple the motion, whether that force be impressed altogether
-and at once, or gradually and successively.” And his further clause,
-asserting that this law holds whether the directions of the forces are or
-are not the same, asserts a pro­por­tion­al­i­ty between each force and its
-produced motion, such as we have seen to be invariably assumed
-between each cause and its separate effect, when there are co-operating
-causes.</p>
-
-<p>4. <i>This Law may be affirmed, without specification of the
-modes in which the impressed force and the resulting motion
-are to be estimated.</i></p>
-
-<p class="pindsml">Newton’s statement is abstract. Taking for granted right modes of
-measurement, it asserts that the alteration of motion (rightly measured)
-is proportional to the impressed force (rightly measured).</p>
-
-<p>5. <i>No</i> a posteriori <i>proof of the general ultimate physical
-truth (or of this more special truth it includes) is possible;
-because every supposed process of verification assumes it.</i></p>
-
-<p>These, cleared from entanglements, are the theses held
-by me, and defended in the following
-pages. <span class="xxpn" id="p298">{298}</span></p>
-
-<div class="chapter">
-<h3>APPENDIX A.</h3></div>
-
-<p class="pchappre">(<i>From</i> Nature, <i>April 16, 1874.</i>)</p>
-
-<p>Absence from town has delayed what further remarks I have
-to make respecting the disputed origin of physical axioms.</p>
-
-<p>The particular physical axiom in connection with which
-the general question was raised, was the Second Law of
-Motion. It stands in the <i>Principia</i> as <span class="nowrap">follows:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“<i>The alteration of motion is ever proportional to the motive force impressed;
-and is made in the direction of the right line in which that force is impressed.</i></p>
-
-<p>“If any force generates a motion, a double force will generate double the
-motion, a triple force triple the motion, whether that force be impressed
-altogether and at once, or gradually and successively. And this motion
-(being always directed the same way with the generating force), if the body
-moved before, is added to or subducted from the former motion, according
-as they directly conspire with or are directly contrary to each other; or
-obliquely joined, when they are oblique, so as to produce a new motion
-compounded from the determination of both.”</p></blockquote>
-
-<p>As this, like each of the other Laws of Motion, is called
-an axiom;<a class="afnanch" href="#fn41" id="fnanch41">41</a>
-as the paragraph appended to it is simply
-an amplification, or re-statement in a more concrete form;
-as there are no facts named as bases of induction, nor any
-justifying experiment; and as Newton proceeds forthwith
-to draw deductions; it was a legitimate inference that he
-regarded this truth as <i>a priori</i>. My statement to this
-effect was based on the contents of the <i>Principia</i> itself;
-and I think I was warranted in assuming that the nature
-of the Laws of Motion, as conceived by Newton, was to be
-thence inferred.</p>
-
-<p>The passages quoted by the <i>British Quarterly</i> Reviewer
-from Newton’s correspondence, which were unknown to
-me, show that this was not Newton’s conception of them.
-Thus far, then, my opponent has the best
-of the <span class="xxpn" id="p299">{299}</span>
-argument. Several qualifying considerations have to be set
-down, however.</p>
-
-<p>(1) Clearly, the statements contained in the <i>Principia</i> do
-not convey Newton’s conception; otherwise there would
-have been no need for his explanations. The passages
-quoted prove that he wished to exclude these cardinal
-truths from the class of hypotheses, which he said he did
-not make; and to do this he had to define them.</p>
-
-<p>(2) By calling them “axioms,” and by yet describing
-them as principles “<i>deduced</i> from phenomena,” he makes
-it manifest that he gives the word “axiom” a sense widely
-unlike the sense in which it is usually accepted.</p>
-
-<p>(3) Further, the quotations fail to warrant the statement
-that the Laws of Motion are proved true by the truth of
-the <i>Principia</i>. For if the fulfilment of astronomical predictions
-made in pursuance of the <i>Principia</i>, is held to be
-the evidence “on which they chiefly rest to this day,” then,
-until thus justified, they are unquestionably hypotheses.
-Yet Newton says they are not hypotheses.</p>
-
-<p>Newton’s view may be found without seeking for it in
-his letters: it is contained in the <i>Principia</i> itself. The
-scholium to Corollary VI. begins <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Hitherto I have laid down such principles as have been received by
-mathematicians, and are <i>confirmed</i> by abundance of experiments. By the
-two first Laws and the two first Corollaries, Galileo discovered that the
-descent of bodies observed the duplicate ratio of the time, and that the
-motion of projectiles was in the curve of a parabola; experience <i>agreeing</i>
-with both,” &amp;c.</p></blockquote>
-
-<p>Now as this passage precedes the deductions constituting
-the <i>Principia</i>, it shows conclusively, in the first place,
-that Newton did not think “the whole of the <i>Principia</i>
-was the proof” of the Laws of Motion, though the
-Reviewer asserts that it is. Further, by the words I have
-italicised, Newton implicitly describes Galileo as having
-asserted these Laws of Motion, if not as gratuitous hypotheses
-(which he says they are not), then as <i>a priori</i>
-intuitions. For a proposition which is <i>confirmed</i>
-by <span class="xxpn" id="p300">{300}</span>
-experiment, and which is said to <i>agree</i> with experience,
-must have been entertained before the alleged verifications
-could be reached. And as before he made his experiments on
-falling bodies and projectiles, Galileo had no facts serving
-as an inductive basis for the Second Law of Motion, the
-law could not have been arrived at by induction.</p>
-
-<p>Let me end what I have to say on this vexed question by
-adding a further reason to those I have already given, for
-saying that physical axioms cannot be established experimentally.
-The belief in their experimental establishment
-rests on the tacit assumption that experiments can be
-made, and conclusions drawn from them, without any
-truths being postulated. It is forgotten that there is a
-foundation of pre-conceptions without which the perceptions
-and inferences of the physicist cannot stand—<i>pre-conceptions
-which are the products of simpler experiences than those
-yielded by consciously-made experiments</i>. Passing over the
-many which do not immediately concern us, I will name
-only that which does,—the exact quantitative relation [of
-pro­por­tion­al­i­ty] between cause and effect. It is taken by
-the chemist as a truth needing no proof, that if two
-volumes of hydrogen unite with one volume of oxygen to
-form a certain quantity of water, four volumes of hydrogen
-uniting with two volumes of oxygen will form double the
-quantity of water. If a cubic foot of ice at 32° is liquefied
-by a specified quantity of heat, it is taken to be unquestionable
-that three times the quantity of heat will liquefy
-three cubic feet. And similarly with mechanical forces,
-the unhesitating assumption is that if one unit of force
-acting in a given direction produces a certain result, two
-units will produce twice the result. Every process of
-measurement in a physical experiment takes this for
-granted; as we see in one of the simplest of them—the
-process of weighing. If a measured quantity of metal,
-gravitating towards the Earth, counterbalances a quantity
-of some other substance, the truth postulated in every
-act <span class="xxpn" id="p301">{301}</span>
-of weighing is, that any multiple of such weight will
-counterbalance an equi-multiple of such substance. That is
-to say, each unit of force is assumed to work its equivalent
-of effect in the direction in which it acts. Now this is
-nothing else than the assumption which the Second Law of
-Motion expresses in respect to effects of another kind. “If
-any force generates a motion, a double force will generate
-a double motion,” &amp;c., &amp;c.; and when carried on to the
-composition of motions, the law is, similarly, the assertion
-that any other force, acting in any other direction, will
-similarly produce in that direction a proportionate motion.
-So that the law simply asserts the exact equivalence [or
-pro­por­tion­al­i­ty] of causes and effects of this particular
-class, while all physical experiments <i>assume</i> this exact
-equivalence [or pro­por­tion­al­i­ty] among causes and effects
-of all classes. Hence, the proposal to prove the Laws of
-Motion experimentally, is the proposal to make a wider
-assumption for the purpose of justifying one of the narrower
-assumptions included in it.</p>
-
-<p>Reduced to its briefest form, the argument is this:—If
-definite quantitative relations [of pro­por­tion­al­i­ty] between
-causes and effects be assumed <i>a priori</i>, then, the Second
-Law of Motion is an immediate corollary. If there are not
-definite quantitative relations [of pro­por­tion­al­i­ty] between
-causes and effects, all the conclusions drawn from physical
-experiments are invalid. And further, in the absence of
-this <i>a priori</i> assumption of equivalence, the quantified
-conclusion from any experiment may be denied, and any
-other quantification of the conclusion
-asserted.<a class="afnanch" href="#fn42" id="fnanch42">42</a></p>
-
-<p class="psignature">
-<span class="smcap">H<b>ERBERT</b></span>
-<span class="smcap">S<b>PENCER</b></span>.
-</p>
-
-<p class="padtopa">Entire misconstruction
-of the view expressed above,
-<span class="xxpn" id="p302">{302}</span>
-having been shown by a new assailant, who announced
-himself as also “A Senior Wrangler,” Mr. James Collier
-[my secretary at that time] wrote on my behalf an explanatory
-letter, published in <i>Nature</i> for May 21, 1874, from
-which the following passages are
-<span class="nowrap">extracts:―</span></p>
-
-<p>“The cue may be taken from an experience described in
-Mr. Spencer’s <i>Principles of Psychology</i> (§ 468, note), where
-it is shown that when with one hand we pull the other, we
-have in the feeling of tension produced in the limb pulled,
-a measure of the reaction that is equivalent to the action
-of the other limb. Both terms of the relation of cause and
-effect are in this case present to con­scious­ness as muscular
-tensions, which are our symbols of forces in general.
-While no motion is produced they are felt to be equal, so
-far as the sensations can serve to measure equality; and
-when excess of tension is felt in the one arm, motion is experienced
-in the other. Here, as in the examples about
-to be given, the relation between cause and effect, though
-numerically indefinite, is definite in the respect that every
-additional increment of cause produces an additional
-increment of effect; and it is out of this and similar
-experiences that the idea of the relation of pro­por­tion­al­i­ty
-grows and becomes organic.</p>
-
-<p>“A child, when biting his food, discovers that the harder
-he bites the deeper is the indentation; in other words, that
-the more force applied, the greater the effect. If he tears
-an object with his teeth, he finds that the more he pulls
-the more the thing yields. Let him press against something
-soft, as his own person, or his clothes, or a lump of
-clay, and he sees that the part or object pressed yields
-little or much, according to the amount of the muscular
-strain. He can bend a stick the more completely the more
-force he applies. Any elastic object, as a piece of india-rubber
-or a catapult, can be stretched the farther the
-harder he pulls. If he tries to push a small body, there is
-little resistance and it is easy to move; but he finds that
-a <span class="xxpn" id="p303">{303}</span>
-big body presents greater resistance and is harder to move.
-The experience is precisely similar if he attempts to lift a
-big body and a little one; or if he raises a limb, with or
-without any object attached to it. He throws a stone: if
-it is light, little exertion propels it a considerable distance;
-if very heavy, great exertion only a short distance. So,
-also, if he jumps, a slight effort raises him to a short
-height, a greater effort to a greater height. By blowing
-with his mouth he sees that he can move small objects,
-or the surface of his morning’s milk, gently or violently
-according as the blast is weak or strong. And it is the
-same with sounds: with a slight strain on the vocal
-organs he produces a murmur; with great strain he can
-raise a shout.</p>
-
-<p>“The experiences these propositions record all implicate
-the same con­scious­ness—the notion of pro­por­tion­al­i­ty
-between force applied and result produced; and it is out of
-this latent con­scious­ness that the axiom of the perfect
-quantitative equivalence of the relations between cause and
-effect is evolved. To show how rigorous, how irreversible,
-this con­scious­ness becomes, take a boy and suggest to him
-the following statements:—Can he not break a string he
-has, by pulling? tell him to double it, and then he will
-break it. He cannot bend or break a particular stick: let
-him make less effort and he will succeed. He is unable
-to raise a heavy weight: tell him he errs by using too
-much force. He can’t push over a small chest: he will
-find it easier to upset a larger one. By blowing hard he
-cannot move a given object: if he blows lightly, he will
-move it. By great exertion he cannot make himself
-audible at a distance: but he will make himself heard with
-less exertion at a greater distance. Tell him to do all or
-any of these, and of course he fails. The propositions are
-unthinkable, and their unthinkableness shows that the
-con­scious­ness which yields them is irreversible. These,
-then, are preconceptions, properly so called, which
-have <span class="xxpn" id="p304">{304}</span>
-grown un­con­scious­ly out of the earliest experiences,
-beginning with those of the sucking infant, which are
-perpetually confirmed by fresh experiences, and which
-have at last become organized in the mental structure.</p>
-
-<div class="dctr01"><img class="iglyph-a"
- src="images/hr-asterisks.png"
- width="600" height="17" alt="thought-break" /></div>
-
-<p>“Mr. Spencer’s argument appears to be briefly this:—1.
-There are numberless experiences un­con­scious­ly acquired
-and un­con­scious­ly accumulated during the early life of the
-individual (in harmony with the acquisitions of all ancestral
-individuals) which yield the preconception, long anteceding
-anything like conscious physical experiments, that physical
-causes and effects vary together quantitatively. This is
-gained from all orders of physical experiences, and forms
-a universal preconception respecting them, which the
-physicist or other man of Science brings with him to
-his experiments.</p>
-
-<p>“2. Mr. Spencer showed in three cases—chemical,
-physical, and mechanical—that this preconception, so
-brought, was tacitly involved in the conception which the
-experimenter drew from the results of his experiments.</p>
-
-<p>“3. Having indicated this universal preconception, and
-illustrated its presence in these special conceptions, Mr.
-Spencer goes on to say that it is involved also in the
-special conception of the relation between force and
-motion, as formulated in the ‘Second Law of Motion.’
-He asserts that this is simply one case out of the numberless
-cases in which all these con­scious­ly-reasoned conclusions
-rest upon the un­con­scious­ly-formed conclusions that precede
-reasoning. Mr. Spencer alleges that as it has become
-impossible for a boy to think that by a smaller effort he
-can jump higher, and for a shopman to think that smaller
-weights will outbalance greater quantities, and for the
-physicist to think that he will get increased effects from
-diminished causes, so it is impossible to think that ‘alteration
-of motion’ is not ‘proportional to the motive force
-impressed.’ And he maintains that this is, in fact,
-a <span class="xxpn" id="p305">{305}</span>
-latent implication of un­con­scious­ly-or­ga­nized experiences,
-just as much as those which the experimenter necessarily
-postulates.”</p>
-
-<p class="padtopa">To
-meet further mis­in­ter­pre­ta­tions, a second letter was
-written by Mr. Collier and published in <i>Nature</i> for June 4,
-1874. The following are passages from <span class="nowrap">it:―</span></p>
-
-<p>“Having but limited space, and assuming that the
-requisite qualifications would be made by unbiased readers,
-I passed over all those details of the child’s experiences
-which would have been required in a full exposition. Of
-course I was aware that in the bending of a stick the
-visible effect does not increase in the same ratio as the
-force applied; and hardly needed the ‘Senior Wrangler’
-to tell me that the resistance to a body moving through
-a fluid increases in a higher ratio than the velocity. It
-was taken for granted that he, and those who think with
-him, would see that out of all these experiences, in some
-of which the causes and effects are simple, and in others
-of which they are complex, there grows the con­scious­ness
-that the pro­por­tion­al­i­ty is the more distinct the simpler the
-antecedents and consequents. This is part of the preconception
-which the physicist brings with him and acts upon.
-Perhaps it is within the ‘Senior Wrangler’s’ knowledge of
-physical exploration, that when the physicist finds a result
-not bearing that ratio to its assigned cause which the two
-were ascertained in other cases to have, he immediately
-assumes the presence of some perturbing cause or causes,
-which modify the ratio. There is, in fact, no physical
-determination made by any experimenter which does not
-assume, as an <i>a priori</i> necessity, that there cannot be a
-deviation from proportion without the presence of such
-additional cause.</p>
-
-<p>“Returning to the general issue, perhaps the ‘Senior
-Wrangler’ will pay some respect to the judgment of
-one <span class="xxpn" id="p306">{306}</span>
-who was a Senior Wrangler too, and a great deal more—who
-was distinguished not only as a mathematician but
-as an astronomer, a physicist, and also as an inquirer
-into the methods of science: I mean Sir John Herschel.
-In his <i>Discourse on the Study of Natural Philosophy</i>,
-he <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“‘When we would lay down general rules for guiding and facilitating our
-search, among a great mass of assembled facts, for their common cause, we
-must have regard to the characters of that relation which we intend by
-cause and effect.’</p></blockquote>
-
-<p>“Of these ‘characters’ he sets down the third and fourth
-in the following <span class="nowrap">terms:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“‘Increase or diminution of the effect, with the increased or diminished
-intensity of the cause, in cases which admit of increase and diminution.’</p>
-
-<p>“‘Proportionality of the effect to its cause in all cases of <i>direct unimpeded</i>
-action.’</p></blockquote>
-
-<p>“Observe that, in Sir J. Herschel’s view, these are
-‘characters’ of the relation of cause and effect to be
-accepted as ‘general rules for <i>guiding</i> and facilitating our
-search’ among physical phenomena—truths that must be
-taken for granted <i>before</i> the search, not truths derived <i>from</i>
-the search. Clearly, the ‘pro­por­tion­al­i­ty of the effect to
-its cause in all cases of direct and unimpeded action’ is here
-taken as <i>a priori</i>. Sir J. Herschel would, therefore, have
-asserted, with Mr. Spencer, that the Second Law of Motion
-is <i>a priori</i>; since this is one of the cases of the ‘pro­por­tion­al­i­ty
-of the effect to its cause.’</p>
-
-<p>“And now let the ‘Senior Wrangler’ do what Sir J.
-Herschel has not done or thought of doing—<i>prove</i> the pro­por­tion­al­i­ty
-of cause and effect. Neither he, nor any other of
-Mr. Spencer’s opponents, has made the smallest attempt to
-deal with this main issue. Mr. Spencer alleges that this
-cognition of pro­por­tion­al­i­ty is <i>a priori</i>: not in the old sense,
-but in the sense that it grows out of experiences that precede
-reasoning. His opponents, following Prof. Tait in the
-assertion that Physics is a purely experimental science,
-containing, therefore, no <i>a priori</i> truths, affirm that
-this <span class="xxpn" id="p307">{307}</span>
-cognition is <i>a posteriori</i>—a product of conscious induction.
-Let us hear what are the experiments. It is required to
-establish the truth that there is pro­por­tion­al­i­ty between
-causes and effects, <i>by a process which nowhere assumes</i> that
-if one unit of force produces a certain unit of effect, two
-units of such force will produce two units of such effect.
-Until the ‘Senior Wrangler’ has done this he has left
-Mr. Spencer’s position untouched.”</p>
-
-<hr class="hr33" />
-
-<h3>APPENDIX B.</h3>
-
-<p>[After publication of the letters from which the foregoing
-are reproduced, there appeared in <i>Nature</i> certain rejoinders
-containing mis­rep­re­sen­ta­tions even more extreme than those
-preceding them. There resulted a direct cor­re­spond­ence
-with two of the writers—Mr. Robert B. Hayward, of
-Harrow, and Mr. J. F. Moulton, my original assailant, the
-author of the article in the <i>British Quarterly Review</i>.
-This cor­re­spond­ence, in which I demanded from these
-gentlemen the justifications for their statements, formed
-part of this Appendix in its pamphlet form, as distributed
-among those who are competent to judge of the questions
-at issue. It is needless to give permanence to the replies
-and rejoinders. The character of Mr. Moulton’s allegations,
-quite congruous with those I have exposed in the
-“Replies to Criticisms,” may be inferred from one of the
-sentences closing my reply—“Wonderful to relate, my
-inductive proof that pro­por­tion­al­i­ty [of cause and effect] is
-taken for granted, he cites as my inductive proof of pro­por­tion­al­i­ty
-itself!” The result of the interchange of
-letters with Mr. Hayward, was to make it clear that “the
-thing I assert is not really disputed; and the thing disputed,
-I have nowhere asserted.” While, however, the
-controversial part of the correspondence may fitly
-disappear, <span class="xxpn" id="p308">{308}</span>
-I retain an expository part embodied in the following letter
-to Mr. Hayward.]</p>
-
-<div class="section">
-<blockquote>
-<p class="psignature">
-38, Queen’s Gardens, Bayswater,<br />
-June 21st, 1874.</p>
-
-<p><span class="smcap">S<b>IR</b></span>,—Herewith I send you a copy of your letter with my
-interposed comments. I think those comments will make
-it clear to you that I have not committed myself to three
-different definitions of our con­scious­ness of the Second Law
-of Motion.</p>
-
-<p>As others may still feel a difficulty such as you seem
-to have felt, in understanding that which familiarity has
-made me regard as simple, I will endeavour, by a synthetic
-exposition, to make clear the way in which these later and
-more complex products of organized experiences stand
-related to earlier and simpler products. To make this
-exposition easier to follow, I will take first our Space-con­scious­ness
-and the derived conceptions.</p>
-
-<p>On the hypothesis of Evolution, the Space-con­scious­ness
-results from organized motor, tactual, and visual experiences.
-In the <i>Principles of Psychology</i>, §§ 326–346, I
-have described in detail what I conceive to have been its
-genesis. Such Space-con­scious­ness so generated, is one
-possessed in greater or less degree by all creatures of any
-intelligence; becoming wider, and more definite, according
-to the degree of mental evolution which converse with the
-environment has produced. How deeply registered the
-external relations have become in the internal structure, is
-shown by the facts that the decapitated frog pushes away
-with one or both legs the scalpel applied to the hind part of
-its body, and that the chick, as soon as it has recovered
-from the exhaustion of escaping from the egg, performs
-correctly-guided actions (accompanied by con­scious­ness of
-distance and direction) in picking up grains. Ascending at
-once to such organized and inherited Space-con­scious­ness
-as exists in the child, and which from moment to
-moment <span class="xxpn" id="p309">{309}</span>
-it is making more complete by its own experiences (aiding
-the development of its nervous system into the finished
-type of the adult, by the same exercises which similarly aid
-the development of its muscular system), we have to
-observe that, along with in­creas­ing­ly-def­i­nite ideas of
-distance and direction, it gains unawares certain more
-special ideas of geometrical relations. Take one group of
-these. Every time it spreads open its fingers it sees increase
-of the angles between them, going along with increase
-of the distances between the finger-tips. In opening wide
-apart its own legs, and in seeing others walk, it has continually
-before it the relation between increase or decrease of
-base in a triangle having equal sides, and increase or decrease
-of the angle included by those sides. [The relation impressed
-on it being simply that of <i>concomitant variation</i>: I
-do not speak of any more definite relation, which, indeed, is
-unthinkable by the young.] It does not observe these facts
-in such way as to be conscious that it has observed them;
-but they are so impressed upon it as to establish a rigid
-association between certain mental states. Various of its
-activities disclose space-re­la­tions of this class more definitely.
-The drawing of a bow exhibits them in another way and
-with somewhat greater precision; and when, instead of the
-ends of a bow, capable of approaching one another, the
-points of attachment are fixed and the string elastic, the
-connexion between increasing length in the sides of an
-isosceles triangle and increasing acuteness of the included
-angle, is still more forced upon the attention; though it
-still does not rise into a conscious cognition. This is what
-I mean by an “un­con­scious­ly-formed preconception.”
-When, in course of time, the child, growing into the boy,
-draws diagrams on paper, and, among other things, draws
-isosceles triangles, the truth that, the base being the same,
-the angle at the apex becomes more acute as the sides
-lengthen, is still more definitely displayed to him; and when
-his attention is drawn to this relation he finds that
-he <span class="xxpn" id="p310">{310}</span>
-cannot think of it as being otherwise. If he imagines the
-lengths of the sides to change, he cannot exclude the con­scious­ness
-of the correlative change in the angle; and
-presently, when his mental power is sufficiently developed,
-he perceives that if he continues to lengthen the sides in
-imagination, the lines approach parallelism as the angle
-approaches zero: yielding a conception of the relations of
-parallel lines. Here the con­scious­ness has risen into the
-stage of definite conception. But, manifestly, the definite
-conception so reached is but a finishing of the preconceptions
-previously reached, and would have been impossible in
-their absence; and these un­con­scious­ly-formed preconceptions
-would similarly have been impossible in the absence
-of the still earlier con­scious­nesses of distance, direction,
-relative position, embodied in the con­scious­ness of Space.
-The whole evolution is one; the arrival at the distinct
-conception is the growing up to an ultimate definiteness
-and complexity; and it can no more be reached without
-passing through the earlier stages of indefinite con­scious­ness,
-than the adult bodily structure can be reached
-without passing through the structures of the embryo, the
-infant, and the child.<a class="afnanch" href="#fn43" id="fnanch43">43</a></p>
-
-<p>Through a parallel evolution arises, first
-the vague <span class="xxpn" id="p311">{311}</span>
-con­scious­ness of forces as exerted by self and surrounding things;
-presently, some discrimination in respect of their amounts as
-related to their effects; later, an association formed unawares
-between greatness of quantity in the two, and between
-smallness of quantity in the two; later still, a tacit assumption
-of pro­por­tion­al­i­ty, though without a distinct con­scious­ness
-that the assumption has been made; and, finally, a
-rising of this assumption into definite recognition, as a truth
-necessarily holding where the forces are simple. Throughout
-its life every creature has, <i>within the actions of its moving
-parts</i>, forces and motions conforming to the Laws
-of Motion. <span class="xxpn" id="p312">{312}</span>
-If it has a nervous system, the differences among the muscular
-tensions and the movements initiated, register themselves in a
-vague way in that nervous system. As the nervous system develops,
-along with more developed limbs, there are at once more numerous
-different experiences .&#160;.&#160;. of momentum generated, of connected actions
-and reactions (as when an animal tears the food which it holds with
-its paws); and, at the same time, there are, in its more developed
-nervous system, increased powers of appreciating and registering these
-differences. All the resulting connexions in con­scious­ness, though
-unknowingly formed and unknowingly entertained, are ever present as
-guides to action: witness the proportion between the effort an animal
-makes and the distance it means to spring; or witness the delicate
-adjustments of muscular strains to changes of motion, made by a
-swallow catching flies or a hawk swooping on its quarry. Manifestly,
-then, these experiences, organized during the earlier stages of
-mental evolution, form a body of con­scious­nesses, not formulated into
-cognitions, nor present even as preconceptions, but nevertheless
-present as a mass of associations <i>in which the truths of relation
-between force and motion are potentially present</i>. On ascending to
-human beings of the uncultured sort, we reach a stage at which some
-nascent generalization of these experiences occur. The savage has
-not expressed to himself the truth that if he wants to propel his
-spear further he must use more force; nor does the rustic put into a
-distinct thought the truth that to raise double the weight he must
-put forth twice the effort; but in each there is a tacit assumption
-to this effect, as becomes manifest on calling it in question. So
-that, in respect of these and other simple mechanical actions, there
-exist un­con­scious­ly-formed preconceptions. And just as the geometrical
-truths presented in a rude way by the relations among surrounding
-objects, are not overtly recognized until there is some familiarity
-with straight lines, and diagrams made
-of them; <span class="xxpn" id="p313">{313}</span>
-so, until linear measures, long used, have led to the equal-armed lever,
-or scales, and thus to the notion of equal units of force, this
-mechanical preconception cannot rise into definiteness. Nor after it
-has risen into definiteness does it for a long time reach the form of
-a consciously-held cognition; for neither the village huxter nor the
-more cultivated druggist in the town, recognizes the general abstract
-truth that, when uninterfered with, equi-multiples of causes and their
-effects are necessarily connected. But now observe that this truth,
-acted upon with more or less distinct con­scious­ness of it by the man
-of science, and perfected by him through analysis and abstraction,
-is thus perfected only as the last step in its evolution. This
-definite cognition is but the finished form of a con­scious­ness long in
-preparation—a con­scious­ness the body of which is present in the brute,
-takes some shape in the primitive man, reaches greater definiteness in
-the semi-civilized, becomes afterwards an assumption distinct though
-not formulated, and takes its final development only as it rises into
-a con­scious­ly-ac­cept­ed axiom. Just as there is a continuous evolution
-of the nervous system, so is there a continuous evolution of the
-con­scious­ness accompanying its action. Just as the one grows in volume,
-complexity, and definiteness, so does the other. And just as necessary
-as the earlier stages are to the later in the one case, are they in
-the other. To suppose that the finished conceptions of science can
-exist without the unfinished common knowledge which precedes them,
-or this without still earlier mental acquisitions, is the same thing
-as to suppose that we can have the correct judgments of the adult
-without passing through the crude judgments of the youth, the narrow,
-incoherent ones of the child, and the vague, feeble ones of the infant.
-So far is it from being true that the view of physical axioms held by
-me, is one which bases cognitions on some other source than experience,
-it asserts experience to be the only possible source of these, as of
-other cognitions; but it asserts,
-further, that <span class="xxpn" id="p314">{314}</span>
-not simply is the con­scious­ly-ac­quired experience of present
-actions needful, but that <i>for the very possibility of gaining
-this</i> we are indebted to the accumulated experiences of all
-past actions. Not I, but my antagonists, are really chargeable
-with accepting the ancient <i>a priori</i> view; since,
-without any explanation of them or justification of them,
-they posit as unquestionable the assumptions underlying
-every experiment and the conclusion drawn from it. The
-belief in physical causation, assumed from moment to
-moment as necessary in every experiment and in all reasoning
-from it, is a belief which, if not justified by the
-hypothesis above set forth, is tacitly asserted as an <i>a priori</i>
-belief. Contrariwise, my own position is one which affiliates
-all such beliefs upon experiences acquired during the whole
-past; which alleges those experiences as the only warrant
-for them; which asserts that during the converse between
-the mind and its environment, necessary connexions in
-Thought, such as those concerning Space, have resulted
-from infinite experiences of corresponding necessary connexions
-in Things; and that, similarly, out of perpetual
-converse with the Forces manifested to us in Space, there
-has been a progressive establishment of internal relations
-answering to external relations, in such wise that there
-finally emerge as physical axioms, certain necessities of
-Thought which answer to necessities in Things.</p>
-
-<p>I need scarcely say that I have taken the trouble of
-making my comments on your letter, and of writing this
-further exposition, with a view to their ulterior use.</p>
-
-<p class="psignature">
-I am, <span class="spc-a">&amp;c.,</span><br />
-<span class="smcap">H<b>ERBERT</b></span>
-<span class="smcap">S<b>PENCER.</b></span></p>
-</blockquote>
-
-<hr class="hr33" />
-</div><!--section-->
-
-<h3>APPENDIX C.
-<span class="hsmall">SUMMARY OF RESULTS.</span></h3>
-
-<p>Those who deny a general doctrine enunciated by Mayer as
-the basis of his reasonings, habitually assumed by
-Faraday <span class="xxpn" id="p315">{315}</span>
-as a guiding principle in drawing his conclusions, distinctly
-held by Helmholtz, and tacitly implied by Sir John Herschel—those,
-I say, who deny this general doctrine and even
-deride it, should be prepared with clear and strong reasons
-for doing this. Having been attacked, not in the most
-temperate manner, for enunciating this doctrine and its
-necessary implications in a specific form, I have demanded
-such reasons. Observe the responses to the demand.</p>
-
-<p class="p315a">1. The <i>British Quarterly</i>
-Reviewer quoted for my
-instruction the <i>dictum</i> of Professor Tait, that
-“Natural Philosophy is an experimental, and not an
-intuitive science. No <i>à priori</i> reasoning can conduct
-us demonstratively to a single physical truth.”
-Thereupon I inquired what Professor Tait meant “by
-speaking of ‘physical <i>axioms</i>,’ and by saying that
-the cultured are enabled ‘to see <i>at once</i> their
-<i>necessary</i> truth?’”&#160;.&#160;.&#160;.</p>
-
-<p class="p315b">No reply.</p>
-
-<p class="p315a">2. Instead of an answer to the question, how this
-intuition of necessity can be alleged by Professor
-Tait consistently with his other doctrine, the
-Reviewer quotes, as though it disposed of my question,
-Professor Tait’s statement that “as the properties of
-matter might have been such as to render a totally
-different set of laws axiomatic, <i>these laws</i>
-[of motion] <i>must be considered as resting</i> <i>on
-convictions drawn from observation</i> <i>and experiment,
-and not on intuitive</i> <i>perception.</i>” Whereupon I
-inquired how Professor Tait knows that “the properties
-of matter <i>might have been</i>” other <span class="xxpn"
-id="p316">{316}</span> than they are. I asked how it
-happened that his intuition concerning things <i>as they
-are not</i>, is so certain that, by inference from it, he
-discredits our intuitions concerning things <i>as they</i>
-<i>are</i>&#160;.&#160;.&#160;.</p>
-
-<p class=" p315b">No reply: Pro­fes­sor
-Tait told, <i>à pro­pos</i> of my
-ques­tion, a story of which no one could dis­cov­er the
-ap­pli­ca­tion; but, other­wise, de­clined to an­swer. Nor
-was any an­swer given by his dis­ciple.</p>
-
-<p class="p315a">3. Further, I asked how it happened that Professor
-Tait accepted as bases for Physics, Newton’s Laws
-of Motion; which were illustrated but not <i>proved</i>
-by Newton, and of which no <i>proofs</i> are supplied
-by Professor Tait, in the <i>Treatise on Natural
-Philosophy</i>. I went on to examine what conceivable
-<i>a posteriori</i> warrant there can be if there is no
-warrant <i>a priori</i>; and I pointed out that neither
-from terrestrial nor from celestial phenomena can the
-First Law of Motion be deduced without a <i>petitio
-principii</i>&#160;.&#160;.&#160;.</p>
-
-<p class="p315b">No reply: the Re­view­er char­act­er­ized
-my reas­on­ing as
-“ut­terly er­ro­neous” (therein dif­fering en­tirely from
-two <span class="xxpn" id="p317">{317}</span> eminent
-auth­or­i­ties who read it in proof); but be­yond so
-char­act­er­iz­ing it he said nothing.</p>
-
-<p class="p315a">4. To my assertion that Newton gave no proof of the
-Laws of Motion, the Reviewer rejoined that “the whole
-of the <i>Principia</i> was the proof.” On which my comment
-was that Newton called them “axioms,” and that axioms
-are not commonly supposed to be proved by deductions
-from them&#160;.&#160;.&#160;.</p>
-
-<p class="p315b">The Reviewer quotes from one of New­ton’s let­ters a
-pas­sage show­ing that though he called the Laws of
-Motion “axioms,” he re­gard­ed them as prin­ci­ples “made
-gen­er­al by in­duc­tion;” and that there­fore he could not
-have re­gard­ed them as <i>a priori</i>.</p>
-
-<p class="p315a">5. In rejoinder, I pointed out that whatever
-conception Newton may have had of these “axioms,”
-he explicitly and distinctly excluded them from
-the class of “hypotheses.” Hence I inferred
-that he did not regard the whole of the <span
-class="xxpn" id="p318">{318}</span> <i>Principia</i>
-as the proof, which the Reviewer says it is; since
-an assumption made at the outset, to be afterwards
-justified by the results of assuming it, is an
-“hypothesis”&#160;.&#160;.&#160;.</p>
-
-<p class="p315b">No reply.</p>
-
-<p class="p315a">6. Authority aside, I examined on its merits the
-as­ser­tion that the Laws of Motion are, or can be,
-proved true by the as­cer­tained truth of as­tro­nom­i­cal
-pre­dic­tions; and showed that the process of
-ver­i­fi­ca­tion itself as­sumed those Laws.</p>
-
-<p class="p315b">No reply.</p>
-
-<p class="p315a">7. To make still clearer the fact that ultimate
-physical truths are, and must be, accepted as <i>a
-priori</i>, I pointed out that in every experiment
-the physicist tacitly assumes a relation between
-cause and effect, such that, if one unit of cause
-produces its unit of effect, two units of the
-cause will produce two units of the effect; and I
-argued that this general assumption included the
-special assumption asserted in the Second Law of
-Motion.&#160;.&#160;.&#160;.</p>
-
-<p class="p315b">No reply: that is to say, no endeavour to show the
-un­truth of this state­ment, but a quib­ble based on my
-omis­sion of the word “pro­por­tion­al­i­ty” in places where
-it was implied, though not stated.</p>
-
-<p class="p315a">8. Attention was drawn to a passage <span class="xxpn"
-id="p319">{319}</span> from Sir John Herschel’s
-<i>Discourse on the</i> <i>Study of Natural Philosophy</i>,
-in which the “pro­por­tion­al­i­ty of the effect to its
-cause in all cases of <i>direct unimpeded</i> action” is
-included by him among “the characters of that relation
-which we intend by cause and effect;” and in which
-this assumption of pro­por­tion­al­i­ty is set down as one
-<i>preceding</i> physical exploration, and not as one to be
-established by it&#160;.&#160;.&#160;.</p>
-
-<p class="p315b">No reply.</p>
-
-<p class="p315a">9. Lastly, a challenge to prove this pro­por­tion­al­i­ty.
-“It is required to establish the truth that there
-is pro­por­tion­al­i­ty between causes and effects, <i>by
-a process which nowhere assumes</i> that if one unit
-of force produces a certain unit of effect, two
-units of such force will produce two units of such
-effect.”&#160;.&#160;.&#160;.</p>
-
-<p class="p315b">No reply.</p>
-
-<p class="padtopc">Thus
-on all these essential points my three mathematical
-opponents allow judgment to go against them by default.
-The attention of readers has been drawn off from the main
-issues by the discussion of side issues. Fundamental questions
-have been evaded, and new questions of subordinate
-kinds raised.</p>
-
-<p>What is the implication? One who is able to reach and
-to carry the central position of his antagonist, does not
-spend his strength on small outposts. If he declines to
-assault the stronghold, it must be because he sees it to
-be impregnable.</p>
-
-<hr class="hr33" />
-
-<p>The trouble I have thus taken to meet criticisms and
-dissipate mis­app­re­hen­sions, I have taken because the
-attack <span class="xxpn" id="p320">{320}</span>
-made on the special doctrine defended, is part of an attack
-on the ultimate doctrine underlying the deductive part of
-<i>First Principles</i>—the doctrine that the quantity of existence
-is unchangeable. I agree with Sir W. Hamilton that our
-con­scious­ness of the necessity of causation, results from
-the impossibility of conceiving the totality of Being to
-increase or decrease. The pro­por­tion­al­i­ty of cause and
-effect is an implication: denial of it involves the assertion
-that some quantity of cause has disappeared without effect,
-or some quantity of effect has arisen without cause. I have
-asserted the <i>a priori</i> character of the Second Law of Motion,
-<i>under the abstract form in which it is expressed</i>, simply
-because this, too, is an implication, somewhat more remote,
-of the same ultimate truth. And my sole reason for insisting
-on the validity of these intuitions, is that, on the
-hypothesis of Evolution, absolute uniformities in things
-have produced absolute uniformities in thoughts; and that
-necessary thoughts represent infinitely-larger accumulations
-of experiences than are formed by the observations, experiments,
-and reasonings of any single life.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTES TO <i>REPLIES TO CRITICISMS</i>.</h3>
-</div>
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch24" id="fn24">24</a>
-<i>Principles of Psychology</i>, Second Edition, § 425, note.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch25" id="fn25">25</a>
-<i>Le Sentiment Religieux</i>, par A. Grotz. Paris, J. Cherbuliez,
-1870.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch26" id="fn26">26</a>
-Instead of describing me as mis­un­der­stand­ing Kant on this
-point, Dr. Hodgson should have described Kant as having, in successive
-sentences, so changed the meanings of the words he uses, as to make
-either interpretation possible. At the outset of his <i>Critique of
-Pure Reason</i>, he says:—“The effect of an object upon the faculty
-of rep­re­sen­ta­tion, so far as we are affected by the said object, is
-sensation. That sort of intuition which relates to an object by means
-of sensation, is called an empirical intuition. The undetermined object
-of an empirical intuition, is called <i>phænomenon</i>. That which in the
-phænomenon corresponds to the sensation, I term its <i>matter</i>;”
-[here, remembering the definition just given of phenomenon,
-objective existence is manifestly referred to] “but that which effects
-that the content of the phænomenon can be arranged under certain
-relations, I call its <i>form</i>” [so that <i>form</i>, as here applied,
-refers to objective existence]. “But that in which our sensations
-are merely arranged, and by which they are susceptible of assuming a
-certain form, cannot be itself sensation.” [In which sentence the word
-<i>form</i> obviously refers to subjective existence.] At the outset, the
-‘phenomenon’ and the ‘sensation’ are distinguished as objective and
-subjective respectively; and then, in the closing sentences, the <i>form</i>
-is spoken of in connexion first with the one and then with the other,
-as though they were the same.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch27" id="fn27">27</a>
-See <i>Fraser’s Magazine</i> for May,
-1873.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch28" id="fn28">28</a>
-<i>First Principles</i>, § 26.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch29" id="fn29">29</a>
-<i>Ibid.</i> § 76 (1st ed.)</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch30" id="fn30">30</a>
-Compare <i>Principles of Psychology</i>, §§ 88, 95, 391, 401, 406.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch31" id="fn31">31</a>
-<i>First Principles</i>, §§ 39–45.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch32" id="fn32">32</a>
-<i>Principles of Psychology</i>, part vii.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch33" id="fn33">33</a>
-<i>Social Statics</i>, chap. iii.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch34" id="fn34">34</a>
-<i>Principles of Psychology</i>, § 531.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch35" id="fn35">35</a>
-<i>First Principles</i>, § 34.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch36" id="fn36">36</a>
-Only after the foregoing paragraphs were written, did
-the remark of a distinguished friend show me how certain words were
-misconstrued by the reviewer in a way that had never occurred to me
-as possible. In the passage referred to, I have said that sound-waves
-“finally die away in generating thermal undulations that radiate into
-space;” meaning, of course, that the force embodied in the sound-waves
-is finally <i>exhausted</i> in generating thermal undulations. In common
-speech, the dying-away of a prolonged sound, as that of a church-bell,
-includes its gradual diminution as well as its final cessation. But
-rather than suppose I gave to the words this ordinary meaning, the
-reviewer supposes me to believe, not simply that the <i>longitudinal</i>
-waves of air can pass, <i>without discontinuity</i>, into the <i>transverse</i>
-waves of ether, but he also debits me with the belief that the one
-order of waves, having lengths measurable in feet, and rates expressed
-in hundreds per second, can, <i>by mere enfeeblement</i>, pass into the
-other order of waves, having lengths of some fifty thousand to the
-inch, and rates expressed in many billions per second! Why he preferred
-so to interpret my words, and that, too, in the face of contrary
-implications elsewhere (instance § 100), will, however, be manifest to
-every one who reads his criticisms.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch37" id="fn37">37</a>
-Other examples of these amenities of controversy, in
-which I decline to imitate my reviewer, have already been given. What
-occasions he supplies me for imitation, were I minded to take advantage
-of them, an instance will show. Pointing out an implication of certain
-reasonings of mine, he suggests that it is too absurd even for me to
-avow explicitly; saying:—“We scarcely think that even Mr. Spencer
-will venture to claim as a datum of con­scious­ness the Second Law of
-Motion, with its attendant complexities of component velocities, &amp;c.”
-Now any one who turns to Newton’s <i>Principia,</i> will find that to the
-enunciation of the Second Law of Motion, nothing whatever is appended
-but an amplified re-statement—there is not even an illustration, much
-less a proof. And from this law, this axiom, this immediate intuition
-or “datum of con­scious­ness,” Newton proceeds forthwith to draw those
-corollaries respecting the composition of forces which underlie all
-dynamics. What, then, must be thought of Newton, who explicitly assumes
-that which the reviewer thinks it absurd to assume implicitly?</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch38" id="fn38">38</a>
-That I am certainly not singular in this view, is shown to me, even
-while I write, by the just-issued work of Prof. Jevons on the <i>Principles of
-Science: a Treatise on Logic and Scientific Method</i>. In vol. ii., p. 141, Prof.
-Jevons remarks respecting the law of variation of the attractive force, that
-it “is doubtless connected at this point with the primary properties of space
-itself, and is so far conformable to our necessary
-ideas.”</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch39" id="fn39">39</a>
-See Essay on “The Genesis of Science,” in the <i>British
-Quarterly Review</i> for July, 1854, p. 127.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch40" id="fn40">40</a>
-I do not say this at random. The reviewer, who has sought
-rather to make known than to conceal his identity, took his degree in
-1868.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch41" id="fn41">41</a>
-It is true that in Newton’s time, “axiom” had not the same
-rigorously defined meaning as now; but it suffices for my argument
-that, <i>standing unproved</i> as a basis for physical deductions, it bears
-just the same relation to them that a mathematical axiom does to
-mathematical deductions.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch42" id="fn42">42</a>
-The above letter, written after absence at Easter had
-involved a week’s delay, and written somewhat hurriedly to prevent the
-delay of a second week, was less carefully revised than it should have
-been. The words in square brackets, obviously implied by the reasoning,
-and specifically implied by the illustrations, were not in the letter
-as originally published.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch43" id="fn43">43</a>
-Here, in explaining the genesis of special space-intuitions, I have singled
-out a group of experiences which, in <i>Nature</i>, May 28, Mr. Hayward had
-chosen as illustrating the absurdity of supposing that the scientific conception
-of pro­por­tion­al­i­ty could be reached as alleged. He said:―
-</p>
-
-<blockquote class="blktight">
-
-<p>“It is hardly a parody of Mr. Collier’s remarks to say:—‘A child discovers that the
-greater the angle between his legs the greater the distance between his feet, an experience
-which implicates the notion of pro­por­tion­al­i­ty between the angle of a triangle and its
-opposite side;’ a preconception, as it appears to me, with just as good a basis as that
-whose formation Mr. Collier illustrates, but one which, as I need hardly add, is soon
-corrected by a conscious study of geometry or by
-actual measurement.”</p></blockquote>
-
-<p>I am indebted to Mr. Hayward for giving this instance. It conveniently
-serves two purposes. It serves to exemplify the connexion between the
-crude preconceptions un­con­scious­ly formed by earlier experiences, and
-the conceptions consciously evolved out of them by the help of later
-experiences, when the requisite powers of analysis and abstraction
-have been reached. And at the same time it serves to show the failure
-of my opponents to understand how, in the genesis of intelligence,
-the scientific conception of exact pro­por­tion­al­i­ty develops from the
-crude, vague, and inaccurate preconception. For while the notion of
-pro­por­tion­al­i­ty acquired by the child in Mr. Hayward’s example, is not
-true, it is an approximation towards one which <i>is</i> true, and one which
-is reached when its more developed intelligence is brought critically
-to bear on the facts. Eventually it is discovered that the angle is not
-proportional to the subtending side, but to the subtending arc; and
-this is discovered <i>in the process of disentangling a simple relation
-from other relations which complicate and disguise it</i>. Between the
-angle and the arc there is exact pro­por­tion­al­i­ty, for the reason that
-only one set of direct­ly-con­nect­ed space-re­la­tions are concerned:
-the distance of the subtending arc from the subtended angle, remains
-constant—there is no change in the relation between the increasing
-angle and the increasing arc; and therefore the two vary together
-in direct proportion. But it is otherwise with the subtending side.
-The parts of this stand in different relations of distance from the
-subtended angle; and as the line is lengthened, each added part differs
-from the preceding parts in its distance from the angle. That is to
-say, one set of simple direct­ly-con­nect­ed geometrical relations, is
-here involved with another set; and the relation between the side
-and the angle is such that the law of relative increase involves the
-co-operation of two sets of factors. Now the distinguishing the true
-pro­por­tion­al­i­ty (between the angle and the arc) from the relation
-which simulates pro­por­tion­al­i­ty (between the angle and the side) is
-just that process of final development of exact conceptions, which
-I assert to be the finishing step of all the preceding development;
-and to be impossible in its absence. And the truth to which my
-assailants shut their eyes, is that, just as among these conceptions of
-space-re­la­tions, the conception of exact pro­por­tion­al­i­ty can be reached
-only by evolution from the crude notion of pro­por­tion­al­i­ty, formed
-before reasoning begins; so, among the force-relations, the conception
-of pro­por­tion­al­i­ty finally reached, when simple causes and their
-effects are disentangled by analytical intelligence, can be reached
-only by evolution of the crude notion of pro­por­tion­al­i­ty, established
-as a preconception by early experiences which reinforce ancestral
-experiences.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p321">PROF. GREEN’S EXPLANATIONS.</h2>
-
-<p class="pchappre">[<i>From the</i>
-Contemporary Review <i>for Feb. 1881. It would not
-have occurred to me to reproduce this essay, had it not been
-that there has lately been a reproduction of the essay to which
-it replies. But as Mr. Nettleship, in his editorial capacity,
-has given a permanent shape to Professor Green’s unscrupulous
-criticism, I am obliged to give a permanent shape to the pages
-which show its un­scru­pu­lous­ness.</i>]</p></div>
-
-<p>Dreary at best, metaphysical controversy becomes
-especially dreary when it runs into rejoinders and re-rejoinders;
-and hence I feel some hesitation in inflicting,
-even upon those readers of the <i>Contemporary</i> who are
-interested in metaphysical questions, anything further
-concerning Prof. Green’s criticism, Mr. Hodgson’s reply to
-it, and Prof. Green’s explanations. Still, it appears to me
-that I can now hardly let the matter pass without saying
-something in justification of the views attacked by Prof.
-Green; or, rather, in disproof of the allegations he makes
-against them.</p>
-
-<p>I did not, when Prof. Green’s two articles appeared,
-think it needful to notice them: my wish to avoid hindrance
-to my work, being supported partly by the thought that
-very few would read a discussion so difficult to follow, and
-partly by the thought that, of the few who did read it,
-most would be those whose knowledge of <i>The Principles of
-Psychology</i> enabled them to see how unlike the
-argument <span class="xxpn" id="p322">{322}</span>
-I have used is the rep­re­sen­ta­tion of it given by Prof.
-Green, and how inapplicable his animadversions therefore
-are. This last belief was, I find, quite erroneous; and I
-ought to have known better than to form it. Experience
-might have shown me that readers habitually assume a
-critic’s version of an author’s statement to be the true
-version, and that they rarely take the trouble to see
-whether the meaning ascribed to a detached passage is the
-meaning which it bears when taken with the context.
-Moreover, I should have remembered that in the absence
-of disproofs it is habitually assumed that criticisms are
-valid; and that inability rather than pre-occupation prevents
-the author from replying. I ought not, therefore,
-to have been surprised to learn, as I did from the first
-paragraph of Mr. Hodgson’s article, that Prof. Green’s
-criticisms had met with considerable acceptance.</p>
-
-<p>I am much indebted to Mr. Hodgson for undertaking the
-defence of my views; and after reading Prof. Green’s
-rejoinder, it seems to me that Mr. Hodgson’s chief allegations
-remain outstanding. I cannot here, of course, follow
-the controversy point by point. I propose to deal simply
-with the main issues.</p>
-
-<p class="padtopa">At the
-close of his answer, Prof. Green refers to “two
-other mis­app­re­hen­sions of a more general nature, which he
-[Mr. Hodgson] alleges against me at the outset of his
-article.” Not admitting these, Prof. Green postpones
-replies for the present; though by what replies he can
-show his apprehensions to be true ones, I do not see.
-Further mis­app­re­hen­sions of a general nature, which stand
-as preliminaries to his criticisms, may here be instanced,
-as serving, I think, to show that those criticisms are
-misdirected.</p>
-
-<p>From <i>The Principles of Psychology</i> Prof. Green quotes
-the following <span class="nowrap">sentences:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“The relation between these, as antithetically opposed divisions
-of the <span class="xxpn" id="p323">{323}</span>
-entire assemblage of manifestations of the Unknowable, was our datum.
-The fabric of conclusions built upon it must be unstable if this datum can be
-proved either untrue or doubtful. Should the idealist be right, the doctrine
-of evolution is a dream.”</p></blockquote>
-
-<p class="pcontinue">And on these sentences he comments <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“To those who have humbly accepted the doctrine of evolution as a
-valuable formulation of our knowledge of animal life, but at the same time
-think of themselves as ‘idealists,’ this statement may at first cause some
-uneasiness. On examination, however, they will find in the first place that
-when Mr. Spencer in such a connection speaks of the doctrine of evolution,
-he is thinking chiefly of its application to the explanation of knowledge—an
-application at least not necessarily admitted in the acceptance of it as a
-theory of animal life.”<a class="afnanch" href="#fn44" id="fnanch44">44</a></p></blockquote>
-
-<p class="pcontinue">From which it appears that Prof. Green’s conception of
-Evolution is that popular conception in which it is
-identified with that set forth in <i>The Origin of Species</i>.
-That my conception of Evolution, referred to in the
-passage he quotes, is a widely different one, would have
-been perceived by him had he referred to the exposition
-of it contained in <i>First Principles</i>. My meaning in the
-passage he quotes is, that since Evolution, as I conceive it,
-is, under certain conditions, the result of that universal
-redistribution of matter and motion which is, and ever has
-been, going on; and since, during those phases of it which
-are dis­tin­guish­able as astronomic and geologic, the implication
-is that no life, still less con­scious­ness (under any
-such form as is known to us), existed; there is necessarily
-implied by the theory of Evolution, a mode of Being
-independent of, and antecedent to, the mode of Being we
-now call con­scious­ness. And I implied that, consequently,
-this theory must be a dream, if either ideas are the only
-existences, or if, as Prof. Green appears to think, the
-object exists only by correlation with the subject. How
-necessary is this more general view as a basis for my
-psychological view, and how erroneous is a criticism which
-ignores it, will be seen on observing that by ignoring it, I
-am made to appear profoundly inconsistent
-where <span class="xxpn" id="p324">{324}</span>
-otherwise there is no inconsistency. Prof. Green says that
-my <span class="nowrap">doctrine―</span></p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“ascribes to the object, which in
-truth is nothing without the subject, an independent
-reality, and then supposes it gradually to produce
-certain qualities in the subject, of which the
-existence is in truth necessary to the possibility
-of those qualities in the object which are supposed
-to produce them.”<a class="afnanch" href="#fn45"
-id="fnanch45">45</a></p></blockquote>
-
-<p class="pcontinue">On which
-my comment is that, ascribing, as I do, “an
-independent reality” to the object, and denying that the
-object is “nothing without the subject,” my doctrine,
-though wholly inconsistent with that of Professor Green,
-is wholly consistent with itself. Had he rightly conceived
-the doctrine of Transfigured Realism (<i>Prin. of Psy.</i> § 473),
-Prof. Green would have seen that while I hold that the
-qualities of object and subject, as present to con­scious­ness,
-being resultants of the co-operation of object and subject,
-exist only through their co-operation, and, in common with
-all resultants, must be unlike their factors; yet that there
-pre-exist those factors, and that without them no resultants
-can exist.</p>
-
-<p>Equally fundamental is another preliminary misconception
-which Prof. Green exhibits. He <span class="nowrap">says―</span></p>
-
-<blockquote class="blktight">
-
-<p>“We should be sorry to believe that Mr. Spencer and Mr. Lewes regard
-the relation between con­scious­ness and the world as corresponding to that
-between two bodies, of which one is inside the other; but apart from some
-such crude imagination it does not appear, &amp;c.”</p></blockquote>
-
-<p class="pcontinue">Now since
-I deliberately accept, and have expounded at
-great length, this view which Professor Green does not
-ascribe to me, because he would be “sorry to believe”
-I entertain such a “crude imagination”—since this view
-is everywhere posited by the doctrine of Psychological
-Evolution as I have set it forth; I am astonished at finding
-it supposed that I hold some other view. Considering that
-Parts II. III. and IV. of the <i>Principles of Psychology</i> are
-occupied with tracing out mental Evolution as a result of
-converse between organism and
-environment; and <span class="xxpn" id="p325">{325}</span>
-considering that throughout Part V. the in­ter­pre­ta­tions,
-analytical instead of synthetical, pre-suppose from moment
-to moment a surrounding world and an included organism;
-I cannot imagine a stranger assumption than that I do
-not believe the relationship between con­scious­ness and the
-world to be that of inclusion of the one by the other. I
-am aware that Prof. Green does not regard me as a
-coherent thinker; but I scarcely expected he would ascribe
-to me an incoherence so extreme that in Part VI. I abandon
-the fundamental assumption on which all the preceding
-parts stand, and adopt some other. And I should the less
-have expected so extreme an incoherence to be ascribed to
-me, considering that throughout Part VI. this same belief
-is tacitly implied as part of that realistic belief which it is
-the aim of its argument to explain and justify. Here,
-however, the fact of chief significance is, that as Professor
-Green would be “sorry to believe” I hold the view named,
-and refrains from ascribing to me so “crude an imagination,”
-it is to be concluded that his arguments are directed
-against some other view which he supposes me to hold.
-If so, one of two conclusions is inevitable. Either his
-criticisms are valid against this other view which he tacitly
-ascribes to me, or they are not. If he admits them to
-be invalid on the assumption that I hold this other view,
-the matter ends. If he holds them to be valid on the
-assumption that I hold this other view, then they must
-be invalid against the ab­so­lute­ly-dif­fer­ent view which I
-actually hold; and again the matter ends.</p>
-
-<p>Even were I to leave off here, I might, I think, say that
-the inapplicability of Prof. Green’s arguments is sufficiently
-shown; but it may be desirable to point out that beyond
-these general mis­app­re­hen­sions, by which they are vitiated,
-there are special mis­app­re­hen­sions. Much to my surprise,
-considering the careful preliminary explanation I have
-given, he has failed to understand the mental attitude
-assumed by me when describing the synthesis of
-experiences <span class="xxpn" id="p326">{326}</span>
-against which he more especially urges his objections. In
-chapters entitled “Partial Dif­fer­en­ti­a­tion of Subject and
-Object,” “Completed Dif­fer­en­ti­a­tion of Subject and
-Object,” and “Developed Conception of the Object,” I have
-endeavoured, as these titles imply, to trace up the gradual
-establishment of this fundamental antithesis in a developing
-intelligence. It appeared to me, and still appears, that for
-coherent thinking there must be excluded at the outset,
-not only whatever implies acquired knowledge of objective
-existence, but also whatever implies acquired knowledge
-of subjective existence. At the close of the chapter preceding
-those just named, as well as in <i>First Principles</i>,
-where this process of dif­fer­en­ti­a­tion was more briefly
-indicated, I recognized, and emphatically enlarged upon, the
-difficulty of carrying out such an inquiry: pointing out
-that in any attempts we make to observe the way in which
-subject and object become distinguished, we inevitably use
-those faculties and conceptions which have grown up while
-the dif­fer­en­ti­a­tion of the two has been going on. In trying
-to discern the initial stages of the process, we carry with
-us all the products which belong to the final stage, and
-cannot free ourselves from them. In <i>First Principles</i>
-(§ 43) I have pointed out that the words <i>impressions</i> and
-<i>ideas</i>, the term <i>sensation</i>, the phrase <i>state of con­scious­ness,</i>
-severally involve large systems of beliefs; and that if we
-allow ourselves to recognize their connotations we inevitably
-reason circularly. And in the closing sentence of the
-chapter preceding those above named, I have <span class="nowrap">said―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Though in every illustration taken we shall have tacitly to posit an
-external existence, and in every reference to states of con­scious­ness we shall
-have to posit an internal existence which has these states; yet, as before, we
-must ignore these implications.”</p></blockquote>
-
-<p>I should have thought that, with all these cautions before
-him, Prof. Green would not have fallen into the error of
-supposing that in the argument thereupon commenced, the
-phrase “states of con­scious­ness” is used with all its
-ordinary implications. I should have thought that, as
-in <span class="xxpn" id="p327">{327}</span>
-a note appended to the outset of the argument I have
-referred to the parallel argument in <i>First Principles</i>, where
-I have used the phrase “manifestations of existence”
-instead of “states of con­scious­ness,” as the least objectionable;
-and as the argument in the <i>Psychology</i> is definitely
-described in this note as a re-statement in a different form
-of the argument in <i>First Principles</i>; he would have seen
-that in the phrase “states of con­scious­ness,” as used
-throughout this chapter, was to be included no more
-meaning than was included in the phrase “manifestations
-of existence.”<a class="afnanch" href="#fn46" id="fnanch46">46</a>
-I should have thought he would have seen
-that the purpose of the chapter was passively to watch,
-with no greater intelligence than is implied in watching,
-how the manifestations or states, vivid and faint, comport
-themselves: excluding all thought of their meanings—all
-in­ter­pre­ta­tions of them. Nevertheless, Prof. Green charges
-me with having, at the outset of the examination, invalidated
-my argument by implying, in the terms I use, certain
-products of developed con­scious­ness.<a class="afnanch" href="#fn47" id="fnanch47">47</a>
-He contends that
-my division of the “states of con­scious­ness,” or, as I elsewhere
-term them, “manifestations of existence,” into vivid
-and faint, is vitiated from the first by including along with
-the vivid ones those faint ones needful to constitute them
-perceptions, in the ordinary sense of the word. Because,
-describing all I passively watch, I speak of a distant <span class="xxpn" id="p328">{328}</span>
-head-land, of waves, of boats, &amp;c., he actually supposes me to be
-speaking of those developed cognitions under which these
-are classed as such and such objects. What would he have
-me do? It is impossible to give any such account of the
-process as I have attempted, without using names for
-things and actions. The various manifestations, vivid and
-faint, which in the case described impose themselves on
-my receptivity, must be indicated in some way; and the
-words indicating them inevitably carry with them their
-respective connotations. What more can I do than warn
-the reader that all these connotations must be ignored, and
-that attention must be paid exclusively to the manifestations
-themselves, and the modes in which they comport themselves.
-At the stage described in this “partial dif­fer­en­ti­a­tion,”
-while I suppose myself as yet unconscious of my
-own individuality and of a world as separate from it, the
-obvious implication is, that what I name “states of con­scious­ness,”
-because this is the current term for them, are
-to have no in­ter­pre­ta­tions whatever put upon them; but
-that their characters and modes of behaviour are to be
-observed, as they might be while yet there had been none
-of that organization of experiences which makes things
-known in the ordinary sense. It is true that, thus misinterpreting
-me in December, Prof. Green, writing again
-in March, puts into the mouth of an imagined advocate the
-true statement of my view;<a class="afnanch" href="#fn48" id="fnanch48">48</a>
-though he (Prof. Green) then
-proceeds to deny that I can mean what this imagined
-advocate rightly says I mean: taking occasion to allege
-that I use the phrase “states of con­scious­ness” “to give a
-philosophical character” to what would else seem “written
-too much after the fashion of a newspaper correspondent.”<a class="afnanch" href="#fn49" id="fnanch49">49</a>
-Even, however, had he admitted that intended meaning
-which he sees, but denies, the rectification would have been
-somewhat unsatisfactory, coming three months
-after various <span class="xxpn" id="p329">{329}</span>
-absurdities, based on his mis­in­ter­pre­ta­tion, had been
-ascribed to me.</p>
-
-<p>But the most serious allegation made by Mr. Hodgson
-against Prof. Green, and which I here repeat, is that he
-habitually says I regard the object as constituted by “the
-aggregate of vivid states of con­scious­ness,” in face of the
-conspicuous fact that I identify the object with the <i>nexus</i>
-of this aggregate. In his defence Prof. Green <span class="nowrap">says―</span></p>
-
-<blockquote class="blktight">
-
-<p>“If I had made any attempt to show that Mr. Spencer believes the
-object to be no more than an aggregate of vivid states of con­scious­ness,
-Mr. Hodgson’s complaint, that I ignore certain passages in which a contrary
-persuasion is stated, would have been to the purpose.”</p></blockquote>
-
-<p class="pcontinue">Let us look at
-the facts. Treating of the relation between
-my view and the idealistic and sceptical views, he imagines
-addresses made to me by Berkeley and Hume. “‘You
-agree with me,’ Berkeley might say, ‘that when we speak
-of the external world we are speaking of certain lively
-ideas connected in a certain manner;’”<a class="afnanch" href="#fn50" id="fnanch50">50</a>
-and this identification
-of the world with ideas, I am tacitly represented as
-accepting. Again, Hume is supposed to say to me—“You
-agree with me that what we call the world is a series of
-impressions;”<a class="afnanch" href="#fn51" id="fnanch51">51</a>
-and here, as before, I am supposed silently
-to acquiesce in this as a true statement of my view.
-Similarly throughout his argument, Prof. Green continually
-states or implies that the object is, in my belief, constituted
-by the vivid aggregate of states of con­scious­ness. At the
-outset of his second article,<a class="afnanch" href="#fn52" id="fnanch52">52</a>
-he says of me:—“He there”
-[in the <i>Principles of Psychology</i>] “identifies the object with
-a certain aggregate of vivid states of con­scious­ness, which
-he makes out to be independent of another aggregate,
-consisting of faint states, and identified with the subject.”
-And admitting that he thus describes my view, he nevertheless
-alleges that he does not misrepresent me, because,
-as he says,<a class="afnanch" href="#fn53" id="fnanch53">53</a>
-“there is scarcely a page of my
-article in <span class="xxpn" id="p330">{330}</span>
-which Mr. Spencer’s conviction of the externality and
-independence of the object, in the various forms in which
-it is stated by him, is not referred to.” But what if it is
-referred to in the process of showing that the externality
-and independence of the object is utterly inconsistent with
-the conception of it as an aggregate of vivid states of
-con­scious­ness? What if I am continually made to seem
-thus absolutely inconsistent, by omitting the fact that not
-the aggregate of vivid states itself is conceived by me as
-the object, but the <i>nexus</i> binding it together?</p>
-
-<p>A single brief example will typify Prof. Green’s general
-method of procedure. On page 40 of his first article
-he says—“And in the sequel the ‘separation of themselves’
-on the part of states of con­scious­ness ‘into two
-great aggregates, vivid and faint,’ is spoken of as a
-‘dif­fer­en­ti­a­tion between the antithetical existences we
-call object and subject.’ If words mean anything, then,
-Mr. Spencer plainly makes the ‘object’ an aggregate of
-conscious states.” But in the entire passage from which
-these words of mine are quoted, which he gives at the
-bottom of the page, a careful reader will observe a word
-(<i>omitted</i> from Prof. Green’s quotation in the text), which
-quite changes the meaning. I have described the result,
-not as “a dif­fer­en­ti­a­tion,” but as “a <i>partial</i> dif­fer­en­ti­a­tion.”
-Now, to use Prof. Green’s expression, “if words
-mean anything,” a partial dif­fer­en­ti­a­tion cannot have the
-same sense as a complete dif­fer­en­ti­a­tion. If the ‘’object’
-has been already constituted by this partial dif­fer­en­ti­a­tion,
-what does the ‘object’ become when the dif­fer­en­ti­a­tion is
-completed? Clearly, “if words mean anything,” then,
-had Prof. Green not omitted the word “partial,” it would
-have been manifest that the aggregate of vivid states was
-<i>not</i> alleged to be the object. The mode of treatment
-which we here see in little, exemplifies Prof. Green’s mode
-of treatment at large. Throughout his two articles he
-criticizes detached portions, and ascribes to them
-meanings <span class="xxpn" id="p331">{331}</span>
-quite different from those which they have when joined
-with the rest.</p>
-
-<p>With the simplicity of “a raw undergraduate” (to some
-of whose views Prof. Green compares some of mine) I
-had assumed that an argument running through three
-chapters would not be supposed to have its conclusion
-expressed in the first; but now, after the professorial
-lesson I have received, my simplicity will be decreased,
-and I shall be aware that a critic may deal with that
-which is avowedly partial, as though it were entire, and
-may treat as though it were already developed, a conception
-which the titles of the chapters before him show is
-yet but incipient.</p>
-
-<p>Here I leave the matter, and if anything more is said,
-shall let it pass. Controversy must be cut short, or work
-must be left undone. I can but suggest that metaphysical
-readers will do well to make their own in­ter­pre­ta­tions of
-my views, rather than to accept without inquiry all the
-in­ter­pre­ta­tions offered them.</p>
-
-<div class="dhp">
-<h3 class="h3inline"><span
-class="smcap">P<b>OSTSCRIPT.</b></span></h3>—From a note
-appended by Mr. Nettleship to his republished versions of Prof.
-Green’s articles, it appears that, after the foregoing pages
-were published by me, Prof. Green wrote to the editor of the
-<i>Contemporary Review</i>, saying:―</div>
-
-<blockquote class="blktight">
-
-<p>“While I cannot honestly retract anything in the substance of what I then
-wrote, there are expressions in the article which I very much regret, so far
-as they might be taken to imply want of personal respect for Mr. Spencer.
-For reasons sufficiently given in my reply to Mr. Hodgson, I cannot plead
-guilty to the charge of mis­rep­re­sen­ta­tion which Mr. Spencer repeats; but on
-reading my first article again in cold blood I found that I had allowed controversial
-heat to betray me into the use of language which was unbecoming—especially
-on the part of an unknown writer (not even then a ‘professor’)
-assailing a veteran philosopher. I make this acknowledgment merely for
-my own satisfaction, not under the impression that it can at all concern
-Mr. Spencer” (vol. i., p. 541).</p></blockquote>
-
-<p>Possibly some of Prof. Green’s adherents will ask how,
-after he has stated that he cannot honestly retract, and
-that <span class="xxpn" id="p332">{332}</span>
-he is not guilty of mis­rep­re­sen­ta­tion, I can describe his
-criticism as unscrupulous. My reply is that a critic who
-persists in saying that which, on the face of it, is dishonest,
-and then avers that he cannot honestly do otherwise, does
-not thereby prove his honesty, but contrariwise. One who
-deliberately omits from his quotation the word “partial,”
-and then treats, as though it were complete, that which is
-avowedly incomplete—one who, in dealing with an argument
-which runs through three chapters, recognizes only the first
-of them—one who persists in thinking it proper to do this
-after the consequent distortions of statement have been
-pointed out to him; is one who, if not knowingly dishonest,
-is lacking in due perception of right and wrong in controversy.
-The only other possible supposition which occurs to
-me, is that such a proceeding is a natural sequence of the
-philosophy to which he adheres. Of course, if Being and
-non-Being are the same, then rep­re­sen­ta­tion and mis­rep­re­sen­ta­tion
-are the same.</p>
-
-<p>I may add that there is a curious kinship between the
-ideas implied by the letter above quoted and its implied sentiments.
-Prof. Green says that his apology for unbecoming
-language he makes merely for his “own satisfaction.” He
-does not calm his qualms of conscience by indicating his
-regret to those who read this unbecoming language; nor
-does he express his regret to me, against whom it was
-vented; but he expresses his regret to the editor of the
-<i>Contemporary Review</i>! So that a public insult to A is
-supposed to be cancelled by a private apology to B! Here
-is more Hegelian thinking; or rather, here is Hegelian
-feeling congruous with Hegelian
-thinking.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTES TO
-<i>PROF. GREEN’S EXPLANATIONS</i>.</h3>
-</div>
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch44" id="fn44">44</a>
-<i>Contemporary Review</i>, December, 1877, p.
-35.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch45" id="fn45">45</a>
-<i>Contemporary Review</i>, December, 1877, p. 37</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch46" id="fn46">46</a>
-If I am asked why here I used the phrase “states of
-con­scious­ness” rather than “manifestations of existence,” though I had
-previously preferred the last to the first, I give as my reason the
-desire to maintain continuity of language with the preceding chapter,
-“The Dynamics of Consciousness.” In that chapter an examination
-of con­scious­ness had been made with the view of ascertaining what
-principle of cohesion determines our beliefs, as preliminary to
-observing how this principle operates in establishing the beliefs
-in subject and object. But on proceeding to do this, the phrase
-“state of con­scious­ness” was supposed, like the phrase “manifestation
-of existence,” not to be used as anything more than a name by
-which to distinguish this or that form of being, as an undeveloped
-receptivity would become aware of it, while yet self and not-self were
-undistinguished.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch47" id="fn47">47</a>
-<i>Contemporary Review</i>, December, 1877, pp. 49, 50.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch48" id="fn48">48</a>
-<i>Contemporary Review</i>, March, 1878, p. 753.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch49" id="fn49">49</a>
-<i>Ibid.</i>, March, 1878, p. 755.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch50" id="fn50">50</a>
-<i>Contemporary Review</i>, December, 1877, p. 44.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch51" id="fn51">51</a>
-<i>Ibid.</i>, December, 1877, p. 44.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch52" id="fn52">52</a>
-<i>Ibid.</i>, March, 1878, p. 745.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch53" id="fn53">53</a>
-<i>Ibid.</i>, January, 1881, p. 115.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p333">THE PHILOSOPHY OF STYLE.</h2>
-
-<p class="pchappre">[<i>First published in</i> The Westminster Review
-<i>for October 1852.</i>]</p></div>
-
-<p>Commenting on the seeming incongruity between his
-father’s argumentative powers and his ignorance of formal
-logic, Tristram Shandy says:—“It was a matter of just
-wonder with my worthy tutor, and two or three fellows of
-that learned society, that a man who knew not so much as
-the names of his tools, should be able to work after that
-fashion with them.” Sterne’s implied conclusion that a
-knowledge of the principles of reasoning neither makes,
-nor is essential to, a good reasoner, is doubtless true.
-Thus, too, is it with grammar. As Dr. Latham, condemning
-the usual school-drill in Lindley Murray, rightly
-remarks:—“Gross vulgarity is a fault to be prevented;
-but the proper prevention is to be got from habit—not
-rules.” Similarly, good composition is far less
-dependent on acquaintance with its laws, than on practice
-and natural aptitude. A clear head, a quick imagination,
-and a sensitive ear, will go far towards making all
-rhetorical precepts needless. And where there exists any
-mental flaw—where there is a deficient verbal memory, or
-an inadequate sense of logical dependence, or but little
-perception of order, or a lack of constructive ingenuity;
-no amount of instruction will insure good writing. Nevertheless,
-<i>some</i> result may be expected from a
-familiarity <span class="xxpn" id="p334">{334}</span>
-with the principles of style. The endeavour to conform to
-laws may tell, though slowly. And if in no other way, yet,
-as facilitating revision, a knowledge of the thing to be
-achieved—a clear idea of what constitutes a beauty, and
-what a blemish—cannot fail to be of service.</p>
-
-<p class="padtopa">No
-general theory of expression seems yet to have been
-enunciated. The maxims contained in works on composition
-and rhetoric, are presented in an unorganized form. Standing
-as isolated dogmas—as empirical gen­er­al­i­za­tions, they are
-neither so clearly apprehended, nor so much respected, as
-they would be were they deduced from some simple first
-principle. We are told that “brevity is the soul of wit.”
-We hear styles condemned as verbose or involved. Blair
-says that every needless part of a sentence “interrupts the
-description and clogs the image;” and again, that “long
-sentences fatigue the reader’s attention.” It is remarked
-by Lord Kaimes that, “to give the utmost force to a
-period, it ought, if possible, to be closed with the word
-that makes the greatest figure.” Avoidance of parentheses,
-and the use of Saxon words in preference to those of Latin
-origin, are often insisted upon. But, however influential
-the precepts thus dogmatically expressed, they would
-be much more influential if reduced to something like
-scientific ordination. In this as in other cases, conviction is
-strengthened when we understand the <i>why</i>. And we may
-be sure that recognition of the general principle from
-which the rules of composition result, will not only bring
-them home to us with greater force, but will disclose other
-rules of like origin.</p>
-
-<p>On seeking for some clue to the law underlying these
-current maxims, we may see implied in many of them, the importance
-of economizing the reader’s or hearer’s attention.
-To so present ideas that they may be apprehended with the
-least possible mental effort, is the desideratum towards
-which most of the rules above quoted point. When
-we <span class="xxpn" id="p335">{335}</span>
-condemn writing that is wordy, or confused, or intricate—when
-we praise this style as easy, and blame that as
-fatiguing, we consciously or un­con­scious­ly assume this
-desideratum as our standard of judgment. Regarding
-language as an apparatus of symbols for conveying
-thought, we may say that, as in a mechanical apparatus, the
-more simple and the better arranged its parts, the greater
-will be the effect produced. In either case, whatever force
-is absorbed by the machine is deducted from the result.
-A reader or listener has at each moment but a limited
-amount of mental power available. To recognize and
-interpret the symbols presented to him, requires part of
-this power; to arrange and combine the images suggested
-by them requires a further part; and only that part which
-remains can be used for framing the thought expressed.
-Hence, the more time and attention it takes to receive and
-understand each sentence, the less time and attention can
-be given to the contained idea; and the less vividly will
-that idea be conceived. How truly language must be
-regarded as a hindrance to thought, though the necessary
-instrument of it, we shall clearly perceive on remembering
-the comparative force with which simple ideas are communicated
-by signs. To say, “Leave the room,” is less
-expressive than to point to the door. Placing a finger on
-the lips is more forcible than whispering, “Do not speak.”
-A beck of the hand is better than, “Come here.” No
-phrase can convey the idea of surprise so vividly as
-opening the eyes and raising the eyebrows. A shrug of
-the shoulders would lose much by translation into words.
-Again, it may be remarked that when oral language is
-employed, the strongest effects are produced by interjections,
-which condense entire sentences into syllables.
-And in other cases, where custom allows us to express
-thoughts by single words, as in <i>Beware</i>, <i>Heigho</i>, <i>Fudge</i>,
-much force would be lost by expanding them into specific
-propositions. Hence, carrying out the metaphor
-that <span class="xxpn" id="p336">{336}</span>
-language is the vehicle of thought, we may say that in all
-cases the friction and inertia of the vehicle deduct from its
-efficiency; and that in composition, the chief thing to be
-done, is, to reduce the friction and inertia to the smallest
-amounts. Let us then inquire whether economy of the
-recipient’s attention is not the secret of effect, alike in the
-right choice and collocation of words, in the best arrangement
-of clauses in a sentence, in the proper order of its
-principal and subordinate propositions, in the judicious use
-of simile, metaphor, and other figures of speech, and even
-in the rhythmical sequence of syllables.</p>
-
-<p>The greater forcibleness of Saxon English, or rather
-non-Latin English, first claims our attention. The several
-special reasons assignable for this may all be reduced to
-the general reason—economy. The most important of
-them is early association. A child’s vocabulary is almost
-wholly Saxon. He says, <i>I have</i>, not <i>I possess</i>—<i>I wish</i>, not
-<i>I desire</i>; he does not <i>reflect</i>, he <i>thinks</i>; he does not beg
-for <i>amusement</i>, but for <i>play</i>; he calls things <i>nice</i> or <i>nasty</i>,
-not <i>pleasant</i> or <i>disagreeable</i>. The synonyms learned in
-after years, never become so closely, so organically, connected
-with the ideas signified, as do these original words
-used in childhood; the association remains less strong.
-But in what does a strong association between a word and
-an idea differ from a weak one? Essentially in the greater
-ease and rapidity of the suggestive action. Both of two
-words, if they be strictly synonymous, eventually call up
-the same image. The expression—It is <i>acid</i>, must in the
-end give rise to the same thought as—It is <i>sour</i>; but
-because the term <i>acid</i> was learnt later in life, and has not
-been so often followed by the ideal sensation symbolized,
-it does not so readily arouse that ideal sensation as the
-term <i>sour</i>. If we remember how slowly the meanings
-follow unfamiliar words in another language, and how
-increasing familiarity with them brings greater rapidity
-and ease of comprehension; and if we consider that
-the <span class="xxpn" id="p337">{337}</span>
-like effect must have resulted from using the words of our
-mother tongue from childhood upwards; we shall clearly
-see that the earliest learnt and oftenest used words, will,
-other things equal, call up images with less loss of time and
-energy than their later learnt equivalents.</p>
-
-<p>The further superiority possessed by Saxon English in
-its comparative brevity, obviously comes under the same
-generalization. If it be an advantage to express an idea
-in the smallest number of words, then it must be an
-advantage to express it in the smallest number of syllables.
-If circuitous phrases and needless expletives distract the
-attention and diminish the strength of the impression
-produced, then so, too, must surplus articulations. A
-certain effort, though commonly an inappreciable one, is
-required to recognize every vowel and consonant. If, as
-all know, it is tiresome to listen to an indistinct speaker,
-or to read an ill-written manuscript; and if, as we cannot
-doubt, the fatigue is a cumulative result of the attention
-needed to catch successive syllables; it follows that attention
-is in such cases absorbed by each syllable. And this
-being so when the syllables are difficult of recognition, it
-will be so too, though in a less degree, when the recognition
-of them is easy. Hence, the shortness of Saxon words
-becomes a reason for their greater force. One qualification,
-however, must not be overlooked. A word which embodies
-the most important part of the idea to be conveyed, especially
-when emotion is to be produced, may often with advantage
-be a polysyllabic word. Thus it seems more forcible to say—“It
-is <i>magnificent</i>,” than—“It is <i>grand</i>.” The word <i>vast</i>
-is not so powerful a one as <i>stupendous</i>. Calling a thing
-<i>nasty</i> is not so effective as calling it <i>disgusting</i>. There seem
-to be several causes for this exceptional superiority of
-certain long words. We may ascribe it partly to the fact
-that a voluminous, mouth-filling epithet is, by its very size,
-suggestive of largeness or strength, as is shown by the pomposity
-of sesquipedalian verbiage; and when great power
-or <span class="xxpn" id="p338">{338}</span>
-intensity has to be suggested, this association of ideas aids
-the effect. A further cause may be that a word of several
-syllables admits of more emphatic articulation; and as
-emphatic articulation is a sign of emotion, the unusual
-impressiveness of the thing named is implied by it. Yet
-another cause is that a long word (of which the latter
-syllables are generally inferred as soon as the first are
-spoken) allows the hearer’s con­scious­ness more time to
-dwell on the quality predicated; and where, as in the
-above cases, it is to this predicated quality that the entire
-attention is called, an advantage results from keeping it
-before the mind for an appreciable interval. To make our
-generalization quite correct we must therefore say, that
-while in certain sentences expressing feeling, the word
-which more especially implies that feeling may often with
-advantage be a many-syllabled one; in the immense
-majority of cases, each word, serving but as a step to the
-idea embodied by the whole sentence, should, if possible,
-be a single syllable.</p>
-
-<p>Once more, that frequent cause of strength in Saxon and
-other primitive words—their onomatopœia, may be similarly
-resolved into the more general cause. Both those
-directly imitative, as <i>splash</i>,<i>bang</i>, <i>whiz</i>, <i>roar</i>, &amp;c., and those
-analogically imitative, as <i>rough</i>, <i>smooth</i>, <i>keen</i>, <i>blunt</i>, <i>thin</i>,
-<i>hard</i>, <i>crag</i>, &amp;c., have a greater or less likeness to the things
-symbolized; and by making on the ears impressions allied
-to the ideas to be called up, they save part of the effort
-needed to call up such ideas, and leave more attention for
-the ideas themselves.</p>
-
-<p>Economy of the recipient’s mental energy may be
-assigned, too, as a manifest cause for the superiority of
-specific over generic words. That concrete terms produce
-more vivid impressions than abstract ones, and should,
-when possible, be used instead, is a current maxim of
-composition. As Dr. Campbell says, “The more general
-the terms are, the picture is the fainter; the more
-special <span class="xxpn" id="p339">{339}</span>
-they are, the brighter.” When aiming at effect we should
-avoid such a sentence as:</p>
-
-<p>―― When the manners, customs, and amusements of a
-nation are cruel and barbarous, the regulations of their
-penal code will be severe.</p>
-
-<p>And in place of it we should write:</p>
-
-<p>―― When men delight in battles, bull-fights, and combats
-of gladiators, will they punish by hanging, burning,
-and the rack.</p>
-
-<p>This superiority of specific expressions is clearly due to
-a saving of the effort required to translate words into
-thoughts. As we do not think in generals but in particulars—as,
-whenever any class of things is named, we
-represent it to ourselves by calling to mind individual
-members of the class; it follows that when a general word
-is used, the hearer or reader has to choose from his stock
-of images, one or more, by which he may figure to himself
-the whole group. In doing this, some delay must arise—some
-force be expended; and if, by employing a specific
-term, an appropriate image can be at once suggested, an
-economy is achieved, and a more vivid impression produced.</p>
-
-<p>Turning now from the choice of words to their sequence,
-we find the same principle hold good. We have <i>a priori</i>
-reasons for believing that there is some one order of
-words by which every proposition may be more effectively
-expressed than by any other; and that this order is the
-one which presents the elements of the proposition in the
-succession in which they may be most readily put together.
-As in a narrative, the events should be stated in such
-sequence that the mind may not have to go backwards and
-forwards in order to rightly connect them; as in a group
-of sentences, the arrangement should be such that each of
-them may be understood as it comes, without waiting for
-subsequent ones; so in every sentence, the sequence of
-words should be that which suggests the constituents of
-the thought in the order most convenient for building
-it <span class="xxpn" id="p340">{340}</span>
-up. Duly to enforce this truth, and to prepare the way
-for applications of it, we must analyze the mental act by
-which the meaning of a series of words is apprehended.</p>
-
-<p>We cannot more simply do this than by considering the
-proper collocation of substantive and adjective. Is it
-better to place the adjective before the substantive, or the
-substantive before the adjective? Ought we to say with
-the French—<i>un cheval noir</i>; or to say as we do—a black
-horse? Probably, most persons of culture will say that
-one order is as good as the other. Alive to the bias
-produced by habit, they will ascribe to that the preference
-they feel for our own form of expression. They will
-expect those educated in the use of the opposite form
-to have an equal preference for that. And thus they will
-conclude that neither of these instinctive judgments
-is of any worth. There is, however, a psychological ground
-for deciding in favour of the English custom. If “a
-horse black” be the arrangement, then immediately on
-the utterance of the word “horse,” there arises, or tends to
-arise, in the mind, an idea answering to that word; and as
-there has been nothing to indicate what <i>kind</i> of horse, any
-image of a horse suggests itself. Very likely, however, the
-image will be that of a brown horse: brown horses being
-the most familiar. The result is that when the word
-“black” is added, a check is given to the process of
-thought. Either the picture of a brown horse already
-present to the imagination has to be suppressed, and the
-picture of a black one summoned in its place; or else, if
-the picture of a brown horse be yet unformed, the tendency
-to form it has to be stopped. Whichever is the case, some
-hindrance results. But if, on the other hand, “a black
-horse” be the expression used, no mistake can be made.
-The word “black,” indicating an abstract quality, arouses
-no definite idea. It simply prepares the mind for conceiving
-some object of that colour; and the attention is
-kept suspended until that object is known.
-If, then, by <span class="xxpn" id="p341">{341}</span>
-precedence of the adjective, the idea is always conveyed rightly,
-whereas precedence of the substantive is apt to produce a
-misconception; it follows that the one gives the mind less
-trouble than the other, and is therefore more forcible.</p>
-
-<p>Possibly it will be objected that the adjective and substantive
-come so close together, that practically they may
-be considered as uttered at the same moment; and that on
-hearing the phrase, “a horse black,” there is not time to
-imagine a wrongly coloured horse before the word “black”
-follows to prevent it. It must be owned that it is not easy
-to decide by introspection whether this is so or not. But
-there are facts collaterally implying that it is not. Our
-ability to anticipate the words yet unspoken is one of them.
-If the ideas of the hearer lingered behind the expressions
-of the speaker, as the objection assumes, he could hardly
-foresee the end of a sentence by the time it was half
-delivered; yet this constantly happens. Were the supposition
-true, the mind, instead of anticipating, would fall more
-and more in arrear. If the meanings of words are not
-realized as fast as the words are uttered, then the loss of
-time over each word must entail an accumulation of delays
-and leave a hearer entirely behind. But whether the force
-of these replies be or be not admitted, it will scarcely be
-denied that the right formation of a picture must be
-facilitated by presenting its elements in the order in which
-they are wanted; even though the mind should do nothing
-until it has received them all.</p>
-
-<p>What is here said respecting the succession of the
-adjective and substantive is applicable, by change of terms,
-to the adverb and verb. And without further explanation,
-it will be manifest, that in the use of prepositions and other
-particles, most languages spontaneously conform with more
-or less completeness to this law.</p>
-
-<p>On similarly analyzing sentence considered as vehicles
-for entire propositions, we find not only that the same
-principle holds good, but that the advantage of
-respecting <span class="xxpn" id="p342">{342}</span>
-it becomes marked. In the arrangement of predicate and
-subject, for example, we are at once shown that as the
-predicate determines the aspect under which the subject is
-to be conceived, it should be placed first; and the striking
-effect produced by so placing it becomes comprehensible.
-Take the often-quoted contrast between—“Great is Diana
-of the Ephesians,” and—“Diana of the Ephesians is
-great.” When the first arrangement is used, the utterance
-of the word “great,” arousing vague associations of an
-imposing nature prepares the imagination to clothe with
-high attributes whatever follows; and when the words,
-“Diana of the Ephesians” are heard, appropriate imagery
-already nascent in thought, is used in the formation of the
-picture: the mind being thus led directly, and without
-error, to the intended impression. But when the reverse
-order is followed, the idea, “Diana of the Ephesians,”
-is formed with no special reference to greatness; and when
-the words, “is great,” are added, it has to be formed afresh;
-whence arises a loss of mental energy, and a corresponding
-diminution of effect. The following verse from Coleridge’s
-“Ancient Mariner,” though incomplete as a sentence, well
-illustrates the same truth.</p>
-
-<blockquote class="blkpoem"><div class="dstanza">
-<p class="pvsq">“<i>Alone, alone, all, all alone,</i></p>
-<p class="pvs0"><i>Alone on a wide wide sea!</i></p>
-<p class="pvs0"><i>And never a saint took pity on</i></p>
-<p class="pvs0"><i>My soul in agony.”</i></p>
-</div></blockquote>
-
-<p>Of course the principle equally applies when the predicate
-is a verb or a participle. And as effect is gained by placing
-first all words indicating the quality, conduct, or condition
-of the subject, it follows that the copula also should have
-precedence. It is true, that the general habit of our
-language resists this arrangement of predicate, copula, and
-subject; but we may readily find instances of the additional
-force gained by conforming to it. Thus in the line from
-“Julius <span class="nowrap">Cæsar”―</span></p>
-
-<blockquote class="blkpoem"><div class="dstanza">
-<p class="pvsq">“Then <i>burst</i> his mighty heart,”</p>
-</div></blockquote>
-
-<p class="pcontinue">priority
-is given to a word embodying both predicate
-and <span class="xxpn" id="p343">{343}</span>
-copula. In a passage contained in Sir W. Scott’s “Marmion,”
-the like order is systematically employed with
-great effect:</p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“The Border slogan rent the sky!</p>
-<p class="pvs0"><i>A Home! a Gordon! was</i> the cry;</p>
-<p class="pvs0"><i>Loud were</i> the clanging blows;</p>
-<p class="pvs0"><i>Advanced</i>,—<i>forced back</i>,—<i>now low, now high,</i></p>
-<p class="pvs1">The pennon sunk and rose;</p>
-<p class="pvs0">As <i>bends</i> the bark’s mast in the gale</p>
-<p class="pvs0">When <i>rent are</i> rigging, shrouds, and sail,</p>
-<p class="pvs1">It waver’d ’mid the foes.”</p>
-</div></blockquote>
-
-<p>Pursuing the principle further, it is obvious that for
-producing the greatest effect, not only should the main
-divisions of a sentence observe this sequence, but the sub-divisions
-of these should have their parts similarly arranged.
-In nearly all cases, the predicate is accompanied by some
-limit or qualification called its complement. Commonly,
-also, the circumstances of the subject, which form its complement,
-have to be specified. And as these qualifications
-and circumstances must determine the mode in which the
-acts and things they belong to are conceived, precedence
-should be given to them. Lord Kaimes notices the fact
-that this order is preferable; though without giving the
-reason. He says:—“When a circumstance is placed at
-the beginning of the period, or near the beginning, the
-transition from it to the principal subject is agreeable: is
-like ascending or going upward.” A sentence arranged in
-illustration of this will be desirable. Here is one:</p>
-
-<p>―― Whatever it may be in theory, it is clear that in
-practice the French idea of liberty is—the right of every
-man to be master of the rest.</p>
-
-<p>In this case, were the first two clauses, up to the word
-“practice” inclusive, which qualify the subject, to be
-placed at the end instead of the beginning, much of the
-force would be lost; as thus:</p>
-
-<p>―― The French idea of liberty is—the right of every man
-to be master of the rest; in practice at least, if not in theory.</p>
-
-<p>Similarly with respect to the conditions under which
-any <span class="xxpn" id="p344">{344}</span>
-fact is predicated. Observe in the following example the
-effect of putting them last:</p>
-
-<p>―― How immense would be the stimulus to progress,
-were the honour now given to wealth and title given exclusively
-to high achievements and intrinsic worth!</p>
-
-<p>And then observe the superior effect of putting them first:</p>
-
-<p>―― Were the honour now given to wealth and title
-given exclusively to high achievements and intrinsic worth,
-how immense would be the stimulus to progress!</p>
-
-<p>The effect of giving priority to the complement of the
-predicate, as well as the predicate itself, is finely displayed
-in the opening of “Hyperion:”</p>
-
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“<i>Deep in the shady sadness of a vale</i></p>
-<p class="pvs0"><i>Far sunken from the healthy breath of morn,</i></p>
-<p class="pvs0"><i>Far from the fiery noon, and eve’s one star,</i></p>
-<p class="pvs0"><i>Sat</i> grey-haired Saturn, quiet as a stone.”</p>
-</div></blockquote>
-
-<p class="pcontinue">Here we
-see, not only that the predicate “sat” precedes
-the subject “Saturn,” and that the three lines in italics,
-constituting the complement of the predicate, come before
-it; but that in the structure of this complement also, the
-same order is followed: each line being so composed that
-the qualifying words are placed before the words suggesting
-concrete images.</p>
-
-<p>The right succession of the principal and subordinate
-propositions in a sentence depends on the same law.
-Regard for economy of the recipient’s attention, which, as
-we find, determines the best order for the subject, copula,
-predicate, and their complements, dictates that the subordinate
-proposition shall precede the principal one, when
-the sentence includes two. Containing, as the subordinate
-proposition does, some qualifying or explanatory idea, its
-priority prevents misconception of the principal one; and
-therefore saves the mental effort needed to correct such
-misconception. This will be seen in the annexed example.</p>
-
-<p>―― The secrecy once maintained in respect to the parliamentary
-debates, is still thought needful in diplomacy;
-and diplomacy being secret, England may any day
-be <span class="xxpn" id="p345">{345}</span>
-unawares betrayed by its ministers into a war costing a
-hundred thousand lives, and hundreds of millions of
-treasure: yet the English pique themselves on being a self-governed
-people.</p>
-
-<p>The two subordinate propositions, ending with the semicolon
-and colon respectively, almost wholly determine the
-meaning of the principal proposition with which the sentence
-concludes; and the effect would be lost were they
-placed last instead of first.</p>
-
-<p>From this general principle of right arrangement may
-also be inferred the proper order of those minor divisions
-into which the major divisions of sentences may be decomposed.
-In every sentence of any complexity the complement
-to the subject contains several clauses, and that to the
-predicate several others; and these may be arranged in
-greater or less conformity to the law of easy apprehension.
-Of course with these, as with the larger members, the succession
-should be from the less specific to the more specific—from
-the abstract to the concrete.</p>
-
-<p>Now however we must notice a further condition to be
-fulfilled in the proper construction of a sentence; but still
-a condition dictated by the same general principle with the
-other: the condition, namely, that the words or the expressions
-which refer to the most nearly connected thoughts
-shall be brought the closest together. Evidently the single
-words, the minor clauses, and the leading divisions of every
-proposition, severally qualify each other. The longer the
-time that elapses between the mention of any qualifying
-member and the member qualified, the longer must the
-mind be exerted in carrying forward the qualifying member
-ready for use. And the more numerous the qualifications
-to be simultaneously remembered and rightly applied, the
-greater will be the mental power expended, and the smaller
-the effect produced. Hence, other things equal, force will
-be gained by so arranging the members of a sentence that
-these suspensions shall at any moment be the fewest
-in <span class="xxpn" id="p346">{346}</span>
-number; and shall also be of the shortest duration. The
-following is an instance of defective combination.</p>
-
-<p>―― A modern news­pa­per-state­ment, though probably
-true, would be laughed at, if quoted in a book as testimony;
-but the letter of a court gossip is thought good historical
-evidence, if written some centuries ago.</p>
-
-<p>A re-arrangement of this, in accordance with the principle
-indicated above, will be found to increase the effect.
-Thus:</p>
-
-<p>―― Though probably true, a modern news­pa­per-state­ment
-quoted in a book as testimony, would be laughed at;
-but the letter of a court gossip, if written some centuries
-ago, is thought good historical evidence.</p>
-
-<p>By making this change, some of the suspensions are
-avoided and others shortened; while there is less liability
-to produce premature conceptions. The passage quoted
-below from “Paradise Lost” affords a fine instance of a
-sentence well arranged; alike in the priority of the subordinate
-members, in the avoidance of long and numerous
-suspensions, and in the correspondence between the sequence
-of the clauses and the sequence of the phenomena described,
-which, by the way, is a further prerequisite to easy
-apprehension, and therefore to effect.</p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvs2">“As when a prowling wolf,</p>
-<p class="pvs0">Whom hunger drives to seek new haunt for prey,</p>
-<p class="pvs0">Watching where shepherds pen their flocks at eve,</p>
-<p class="pvs0">In hurdled cotes amid the field secure,</p>
-<p class="pvs0">Leaps o’er the fence with ease into the fold:</p>
-<p class="pvs0">Or as a thief, bent to unhoard the cash</p>
-<p class="pvs0">Of some rich burgher, whose substantial doors,</p>
-<p class="pvs0">Cross-barr’d and bolted fast, fear no assault,</p>
-<p class="pvs0">In at the window climbs, or o’er the tiles:</p>
-<p class="pvs0">So clomb the first grand Thief into God’s fold;</p>
-<p class="pvs0">So since into his Church lewd hirelings climb.”</p>
-</div></blockquote>
-
-<p>The habitual use of sentences in which all or most of the
-descriptive and limiting elements precede those described
-and limited, gives rise to what is called the inverted style:
-a title which is, however, by no means confined to
-this <span class="xxpn" id="p347">{347}</span>
-structure, but is often used where the order of the words is
-simply unusual. A more appropriate title would be the
-<i>direct style</i>, as contrasted with the other, or <i>indirect style</i>:
-the peculiarity of the one being, that it conveys each
-thought step by step with little liability to error; and of
-the other, that it conveys each thought by a series of
-approximations, which successively correct the erroneous
-preconceptions that have been raised.</p>
-
-<p>The superiority of the direct over the indirect form of
-sentence, implied by the several conclusions above drawn,
-must not, however, be affirmed without reservation.
-Though, up to a certain point, it is well for the qualifying
-clauses of a proposition to precede those qualified; yet, as
-carrying forward each qualifying clause costs some mental
-effort, it follows that when the number of them and the
-time they are carried become great, we reach a limit beyond
-which more is lost than is gained. Other things equal, the
-arrangement should be such that no concrete image shall be
-suggested until the materials out of which it is to be framed
-have been presented. And yet, as lately pointed out, other
-things equal, the fewer the materials to be held at once,
-and the shorter the distance they have to be borne, the
-better. Hence in some cases it becomes a question
-whether most mental effort will be entailed by the many
-and long suspensions, or by the correction of successive
-misconceptions.</p>
-
-<p>This question may sometimes be decided by considering
-the capacity of the persons addressed. A greater grasp of
-mind is required for the ready apprehension of thoughts
-expressed in the direct manner, where the sentences are
-anywise intricate. To recollect a number of preliminaries
-stated in elucidation of a coming idea, and to apply them all
-to the formation of it when suggested, demands a good
-memory and considerable power of concentration. To one
-possessing these, the direct method will mostly seem the
-best; while to one deficient in them it will seem the
-worst. <span class="xxpn" id="p348">{348}</span>
-Just as it may cost a strong man less effort to carry a
-hundred-weight from place to place at once, than by a stone
-at a time; so, to an active mind it may be easier to bear
-along all the qualifications of an idea and at once rightly
-form it when named, than to first imperfectly conceive such
-idea, and then carry back to it, one by one, the details and
-limitations afterwards mentioned. While conversely, as for
-a boy the only possible mode of transferring a hundred-weight,
-is that of taking it in portions; so, for a weak mind,
-the only possible mode of forming a compound conception
-may be that of building it up by carrying separately its
-several parts.</p>
-
-<p>That the indirect method—the method of conveying the
-meaning by a series of approximations—is best fitted for
-the uncultivated, may indeed be inferred from their habitual
-use of it. The form of expression adopted by the savage, as
-in—“Water, give me,” is the simplest type of this arrangement.
-In pleonasms, which are comparatively prevalent
-among the uneducated, the same essential structure is seen;
-as, for instance in—“The men, they were there.” Again,
-the old possessive case—“The king, his crown,” conforms
-to the like order of thought. Moreover, the fact that the
-indirect mode is called the natural one, implies that it is the
-one spontaneously employed by the common people; that is—the
-one easiest for undisciplined minds.</p>
-
-<p>There are many cases, however, in which neither the
-direct nor the indirect mode is the best; but in which
-an intermediate mode is preferable to both. When the
-number of circumstances and qualifications to be included
-in the sentence is great, the judicious course is neither to
-enumerate them all before introducing the idea to which
-they belong, nor to put this idea first and let it be remodelled
-to agree with the particulars afterwards mentioned; but
-to do a little of each. It is desirable to avoid so extremely
-indirect an arrangement as the <span class="nowrap">following:―</span></p>
-
-<p>―― “We came to our journey’s end, at last, with
-no <span class="xxpn" id="p349">{349}</span>
-small difficulty, after much fatigue, through deep roads,
-and bad weather.”</p>
-
-<p>Yet to transform this into an entirely direct sentence
-would be unadvisable; as <span class="nowrap">witness:―</span></p>
-
-<p>―― At last, with no small difficulty, after much fatigue,
-through deep roads, and bad weather, we came to our
-journey’s end.</p>
-
-<p>Dr. Whately, from whom we quote the first of these two
-arrangements, proposes this <span class="nowrap">construction:―</span></p>
-
-<p>―― “At last, after much fatigue, through deep roads
-and bad weather, we came, with no small difficulty, to our
-journey’s end.”</p>
-
-<p>Here by introducing the words “we came” a little earlier
-in the sentence, the labour of carrying forward so many
-particulars is diminished, and the subsequent qualification
-“with no small difficulty” entails an addition to the thought
-that is easily made. But a further improvement may be
-effected by putting the words “we came” still earlier;
-especially if at the same time the qualifications be rearranged
-in conformity with the principle already explained,
-that the more abstract elements of the thought should
-come before the more concrete. Observe the result of
-making these two changes:</p>
-
-<p>―― At last, with no small difficulty, and after much
-fatigue, we came, through deep roads and bad weather, to
-our journey’s end.</p>
-
-<p>This reads with comparative smoothness; that is—with
-less hindrance from suspensions and reconstructions
-of thought.</p>
-
-<p>It should be further remarked, that even when addressing
-vigorous intellects, the direct mode is unfit for communicating
-ideas of a complex or abstract character. So long
-as the mind has not much to do, it may be well able to
-grasp all the preparatory clauses of a sentence, and to use
-them effectively; but if some subtlety in the argument
-absorb the attention it may happen that the mind,
-doubly <span class="xxpn" id="p350">{350}</span>
-strained, will break down, and allow the elements of the
-thought to lapse into confusion.</p>
-
-<p class="padtopa">Let us
-pass now to figures of speech. In them we may
-equally discern the same general law of effect. Implied
-in rules given for the choice and right use of them, we
-shall find the same fundamental requirement—economy of
-attention. It is indeed chiefly because they so well subserve
-this requirement, that figures of speech are employed.</p>
-
-<p>Let us begin with the figure called Synecdoche. The
-advantage sometimes gained by putting a part for the
-whole, is due to the more convenient, or more vivid, presentation
-of the idea. If, instead of writing “a fleet of ten
-ships,” we write “a fleet of ten <i>sail</i>,” the picture of a group
-of vessels at sea is more readily suggested; and is so because
-the sails constitute the most conspicuous parts of vessels so
-circumstanced. To say, “All <i>hands</i> to the pumps,” is
-better than to say, “All <i>men</i> to the pumps;” as it calls up
-a picture of the men in the special attitude intended, and
-so saves effort. Bringing “<i>grey hairs</i> with sorrow to the
-grave,” is another expression, the effect of which has the
-same cause.</p>
-
-<p>The effectiveness of Metonymy may be similarly accounted
-for. “The low morality of <i>the bar</i>,” is a phrase
-both more brief and significant than the literal one it
-stands for. A belief in the ultimate supremacy of intelligence
-over brute force, is conveyed in a more concrete form,
-and therefore more representable form, if we substitute <i>the
-pen</i> and <i>the sword</i> for the two abstract terms. To say,
-“Beware of drinking!” is less effective than to say,
-“Beware of <i>the bottle</i>!” and is so, clearly because it calls
-up a less specific image.</p>
-
-<p>The Simile is in many cases used chiefly with a view to
-ornament; but whenever it increases the <i>force</i> of a passage,
-it does so by being an economy. Here is an instance.</p>
-
-<p>―― The illusion that great men and great events
-came <span class="xxpn" id="p351">{351}</span>
-oftener in early times than they come now, is due partly
-to historical perspective. As in a range of equidistant
-columns, the furthest off seem the closest; so, the conspicuous
-objects of the past seem more thickly clustered
-the more remote they are.</p>
-
-<p>To express literally the thought thus conveyed, would
-take many sentences; and the first elements of the picture
-would become faint while the imagination was busy in
-adding the others. But by the help of a comparison much
-of the effort otherwise required is saved.</p>
-
-<p>Concerning the position of the Simile,<a class="afnanch" href="#fn54" id="fnanch54">54</a>
-it needs only to
-remark, that what has been said about the order of the
-adjective and substantive, predicate and subject, principal
-and subordinate propositions, &amp;c., is applicable here. As
-whatever qualifies should precede whatever is qualified,
-force will generally be gained by placing the simile before
-the object or act to which it is applied. That this arrangement
-is the best, may be seen in the following passage from
-the “Lady of the <span class="nowrap">Lake:”―</span></p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“As wreath of snow, on mountain breast,</p>
-<p class="pvs0">Slides from the rock that gave it rest,</p>
-<p class="pvs0">Poor Ellen glided from her stay,</p>
-<p class="pvs0">And at the monarch’s feet she lay.”</p>
-</div></blockquote>
-
-<p class="pcontinue">Inverting these couplets will be found to diminish the
-effect considerably. There are cases, however, even where
-the simile is a simple one, in which it may with advantage
-be placed last; as in these lines from Alexander Smith’s
-“Life <span class="nowrap">Drama:”―</span></p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvs2">“I see the future stretch</p>
-<p class="pvs0">All dark and barren as a rainy sea.”</p>
-</div></blockquote>
-
-<p class="pcontinue">The reason
-for this seems to be, that so abstract an idea
-as that attaching to the word “future,”
-does not present <span class="xxpn" id="p352">{352}</span>
-itself to the mind in any definite form; and hence the
-subsequent arrival at the simile entails no reconstruction
-of the thought.</p>
-
-<p>Such however are not the only cases in which this
-order is the more forcible. As putting the simile first is
-advantageous only when it is carried forward in the mind
-to assist in forming an image of the object or act; it must
-happen that if, from length or complexity, it cannot be so
-carried forward, the advantage is not gained. The annexed
-sonnet, by Coleridge, is defective from this cause.</p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“As when a child, on some long winter’s night,</p>
-<p class="pvs0">Affrighted, clinging to its grandam’s knees,</p>
-<p class="pvs0">With eager wond’ring and perturb’d delight</p>
-<p class="pvs0">Listens strange tales of fearful dark decrees,</p>
-<p class="pvs0">Mutter’d to wretch by necromantic spell;</p>
-<p class="pvs0">Or of those hags who at the witching time</p>
-<p class="pvs0">Of murky midnight, ride the air sublime,</p>
-<p class="pvs0">And mingle foul embrace with fiends of hell;</p>
-<p class="pvs0">Cold horror drinks its blood! Anon the tear</p>
-<p class="pvs0">More gentle starts, to hear the beldame tell</p>
-<p class="pvs0">Of pretty babes, that lov’d each other dear,</p>
-<p class="pvs0">Murder’d by cruel uncle’s mandate fell:</p>
-<p class="pvs0">Ev’n such the shiv’ring joys thy tones impart,</p>
-<p class="pvs0">Ev’n so, thou, Siddons, meltest my sad heart.”</p>
-</div></blockquote>
-
-<p class="pcontinue">Here, from the lapse of time and accumulation of circumstances,
-the first member of the comparison is forgotten
-before the second is reached; and requires re-reading.
-Had the main idea been first mentioned, less effort would
-have been required to retain it, and to modify the conception
-of it into harmony with the illustrative ideas, than to
-remember the illustrative ideas, and refer back to them for
-help in forming the final image.</p>
-
-<p>The superiority of the Metaphor to the Simile is ascribed
-by Dr. Whately to the fact that “all men are more
-gratified at catching the resemblance for themselves, than
-in having it pointed out to them.” But after what has
-been said, the great economy it achieves will seem the more
-probable cause. Lear’s <span class="nowrap">exclamation―</span></p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“Ingratitude! thou marble-hearted fiend,”</p>
-</div></blockquote>
-
-<p class="pcontinue" id="p353">would lose part of its effect were it changed <span class="nowrap">into―</span></p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“Ingratitude! thou fiend with heart like marble;”</p>
-</div></blockquote>
-
-<p class="pcontinue">and the loss would result partly from the position of the
-simile and partly from the extra number of words required.
-When the comparison is an involved one, the greater force
-of the metaphor, due to its relative brevity, becomes much
-more conspicuous. If, drawing an analogy between mental
-and physical phenomena, we say,</p>
-
-<p>―― As, in passing through a crystal, beams of white
-light are decomposed into the colours of the rainbow; so,
-in traversing the soul of the poet, the colourless rays of
-truth are transformed into brightly-tinted poetry;―― it
-is clear that in receiving the two sets of words expressing
-the two halves of the comparison, and in carrying the
-meaning of the one to help in interpreting the other,
-considerable attention is absorbed. Most of this is saved
-by putting the comparison in a metaphorical form, <span class="nowrap">thus:―</span></p>
-
-<p>―― The white light of truth, in traversing the many-sided
-transparent soul of the poet, is refracted into iris-hued
-poetry. How much is conveyed in a few words by
-using Metaphor, and how vivid the effect consequently
-produced, is everywhere shown. From “A Life Drama”
-may be quoted the phrase,</p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-“I spear’d him with a jest,”
-</div></blockquote>
-
-<p class="pcontinue">as a fine instance among the many which that poem
-contains. A passage in the “Prometheus Unbound,” of
-Shelley, displays the power of the metaphor to great
-advantage.</p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvs3">“Methought among the lawns together</p>
-<p class="pvs0">We wandered, underneath the young gray dawn,</p>
-<p class="pvs0">And multitudes of dense white fleecy clouds</p>
-<p class="pvs0">Were wandering in thick flocks along the mountains</p>
-<p class="pvs0"><i>Shepherded</i> by the slow unwilling wind.”</p>
-</div></blockquote>
-
-<p class="pcontinue">This last expression is remarkable for the distinctness with
-which it calls up the features of the scene; bringing the
-mind by a bound to the desired conception.</p>
-
-<p>But a limit is put to the advantageous use of
-Metaphor, <span class="xxpn" id="p354">{354}</span>
-by the condition that it must be simple enough to be
-understood from a hint. Evidently, if there be any
-obscurity in the meaning or application of it, no economy
-of attention will be achieved; but rather the reverse.
-Hence, when the comparison is complex, it is better to put
-it in the form of a Simile. There is, however, a species of
-figure, sometimes classed under Allegory, but which might
-well be called Compound Metaphor, that enables us to
-retain the brevity of the metaphorical form even where the
-analogy is intricate. This is done by indicating the application
-of the figure at the outset, and then leaving the
-reader or hearer to continue the parallel. Emerson has
-employed it with great effect in the first of his <i>Lectures on
-the Times</i>.</p>
-
-<blockquote class="blktight">
-
-<p>“The main interest which any aspects of the Times can have for us, is
-the great spirit which gazes through them, the light which they can shed on
-the wonderful questions, What are we? and Whither do we tend? We do
-not wish to be deceived. Here we drift, like white sail across the wild ocean,
-now bright on the wave, now darkling in the trough of the sea; but from
-what port did we sail? Who knows? Or to what port are we bound?
-Who knows? There is no one to tell us but such poor weather-tossed
-mariners as ourselves, whom we speak as we pass, or who have hoisted some
-signal, or floated to us some letter in a bottle from afar. But what know
-they more than we? They also found themselves on this wondrous sea.
-No; from the older sailors nothing. Over all their speaking-trumpets the
-gray sea and the loud winds answer—Not in us; not in Time.”</p></blockquote>
-
-<p>The division of Simile from Metaphor is by no means
-definite. Between the one extreme in which the two
-elements of the comparison are detailed at full length and
-the analogy pointed out, and the other extreme in which
-the comparison is implied instead of stated, come intermediate
-forms, in which the comparison is partly stated
-and partly implied. For <span class="nowrap">instance:―</span></p>
-
-<p>―― Astonished at the performances of the English
-plough, the Hindoos paint it, set it up, and worship it; thus
-turning a tool into an idol. Linguists do the same with language.—Here
-there is an evident advantage in leaving the
-reader or hearer to complete the figure. And generally
-these <span class="xxpn" id="p355">{355}</span>
-intermediate forms are good in proportion as they do this;
-provided the mode of completion be obvious.</p>
-
-<p>Passing over much that may be said of like purport on
-Hyperbole, Personification, Apostrophe, &amp;c., let us close
-our remarks on construction by a typical example of
-effective expression. The general principle which has
-been enunciated is that, other things equal, the force of a
-verbal form or arrangement is great, in proportion as the
-mental effort demanded from the recipient is small. The
-corollaries from this general principle have been severally
-illustrated. But though conformity now to this and now
-to that requirement has been exemplified, no case of entire
-conformity has yet been quoted. It is indeed difficult to
-find one; for the English idiom does not commonly permit
-the order which theory dictates. A few, however, occur in
-Ossian. Here is <span class="nowrap">one:―</span></p>
-
-<blockquote class="blktight">
-
-<p>“Like autumn’s dark storms pouring from two echoing hills, towards each
-other approached the heroes. Like two deep streams from high rocks meeting,
-mixing, roaring on the plain: loud, rough, and dark in battle meet
-Lochlin and Inisfail. *&#160;*&#160;* As the noise of the troubled ocean when
-roll the waves on high; as the last peal of the thunder of heaven; such
-is the din of war.”</p></blockquote>
-
-<p>Except in the position of the verb in the first two similes,
-the theoretically best arrangement is fully carried out in
-each of these sentences. The simile comes before the
-qualified image, the adjectives before the substantives, the
-predicate and copula before the subject, and their respective
-complements before them. That the passage is
-bombastic proves nothing; or rather, proves our case. For
-what is bombast but a force of expression too great for the
-magnitude of the ideas embodied? All that may rightly
-be inferred is, that only in rare cases should <i>all</i> the conditions
-to effective expression be fulfilled.</p>
-
-<p class="padtopa">A
-more complex application of the theory may now
-be <span class="xxpn" id="p356">{356}</span>
-made. Not only in the structures of sentences, and the
-uses of figures of speech, may we trace economy of the
-recipient’s mental energy as the cause of force; but we
-may trace this same cause in the successful choice and
-arrangement of the minor images out of which some large
-thought is to be built. To select from a scene or event
-described, those elements which carry many others with
-them; and so, by saying a few things but suggesting many,
-to abridge the description; is the secret of producing a
-vivid impression. An extract from Tennyson’s “Mariana”
-will well illustrate this.</p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“All day within the dreamy house,</p>
-<p class="pvs0">The doors upon their hinges creaked,</p>
-<p class="pvs0">The blue fly sung in the pane; the mouse</p>
-<p class="pvs0">Behind the mouldering wainscot shriek’d,</p>
-<p class="pvs0">Or from the crevice peer’d about.”</p>
-</div></blockquote>
-
-<p class="pcontinue">The
-several circumstances here specified bring with them
-many appropriate associations. When alone the creaking
-of a distant door is much more obtrusive than when talking
-to friends. Our attention is rarely drawn by the buzzing
-of a fly in the window, save when everything is still.
-While the inmates are moving about the house, mice
-usually keep silence; and it is only when extreme quietness
-reigns that they peep from their retreats. Hence each of
-the facts mentioned, presupposing various others, calls up
-these with more or less distinctness; and revives the feeling
-of dull solitude with which they are connected in our
-experience. Were all of them detailed instead of suggested,
-the mental energies would be so frittered away in attending
-that little impression of dreariness would be produced.
-Similarly in other cases. In the choice of component
-ideas, as in the choice of expressions, the aim must be to
-convey the greatest quantity of thoughts with the smallest
-quantity of words.</p>
-
-<p>The same principle may sometimes be advantageously
-carried yet further, by indirectly suggesting some
-entirely <span class="xxpn" id="p357">{357}</span>
-distinct thought in addition to the one expressed. Thus
-if we say,</p>
-
-<p>―― The head of a good classic is as full of ancient
-myths, as that of a servant-girl of ghost stories;
-it is manifest that besides the fact asserted, there is an
-implied opinion respecting the small value of much that
-passes as classical learning; and as this implied opinion is
-recognized much sooner than it can be put into words,
-there is gain in omitting it. In other cases, again, great
-effect is produced by an overt omission; provided the
-nature of the idea left out is obvious. A good instance
-occurs in <i>Heroes and Hero-worship</i>. After describing the
-way in which Burns was sacrificed to the idle curiosity of
-lion-hunters—people who sought to amuse themselves, and
-who got their amusement while “the Hero’s life went for
-it!” Carlyle suggests a parallel <span class="nowrap">thus:―</span></p>
-
-<p>“Richter says, in the Island of Sumatra there is a kind
-of ‘Light-chafers,’ large Fire-flies, which people stick upon
-spits, and illuminate the ways with at night. Persons
-of condition can thus travel with a pleasant radiance,
-which they much admire. Great honour to the Fire-flies!
-But—!—”</p>
-
-<p class="padtopa">Before
-inquiring whether the law of effect thus far
-traced, explains the impressiveness of poetry as compared
-with prose, it will be needful to notice some causes of
-force in expression which had not yet been mentioned.
-These are not, properly speaking, additional causes; but
-rather secondary ones, originating from those already
-specified. One is that mental excitement spontaneously
-prompts those forms of speech which have been pointed
-out as the most effective. “Out with him!” “Away with
-him!” are the cries of angry citizens at a disturbed
-meeting. A voyager, describing a terrible storm he had
-witnessed, would rise to some such climax as—“Crack
-went the ropes, and down came the mast.”
-Astonishment <span class="xxpn" id="p358">{358}</span>
-may be heard expressed in the phrase—“Never was there
-such a sight!” All of which sentences are constructed
-after the direct type. Again, there is the fact that excited
-persons are given to figures of speech. The vituperation
-of the vulgar abounds with them. “Beast,” “brute,”
-“gallows rogue,” “cut-throat villain,” these, and like
-metaphors or metaphorical epithets, call to mind a street
-quarrel. Further, it may be noticed that extreme brevity
-is a trait of passionate language. The sentences are
-generally incomplete; and frequently important words are
-left to be gathered from the context. Great admiration
-does not vent itself in a precise proposition, as—“It is
-beautiful;” but in the simple exclamation,—“Beautiful!”
-He who, when reading a lawyer’s letter, should say,
-“Vile rascal!” would be thought angry; while, “He is
-a vile rascal,” would imply comparative coolness. Thus
-alike in the order of the words, in the frequent use of
-figures, and in extreme conciseness, the natural utterances
-of excitement conform to the theoretical conditions to
-forcible expression.</p>
-
-<p>Hence such forms of speech acquire a secondary
-strength from association. Having, in daily intercourse,
-heard them in connection with vivid mental impressions;
-and having been accustomed to meet with them in writing
-of unusual power; they come to have in themselves a
-species of force. The emotions that have from time to
-time been produced by the strong thoughts wrapped up
-in these forms, are partially aroused by the forms themselves.
-These create a preparatory sympathy; and when
-the striking ideas looked for are reached, they are the more
-vividly pictured.</p>
-
-<p>The continuous use of words and forms that are alike
-forcible in themselves and forcible from their associations,
-produces the impressive species of composition which we
-call poetry. The poet habitually adopts those symbols of
-thought, and those methods of using them, which
-instinct <span class="xxpn" id="p359">{359}</span>
-and analysis agree in choosing as most effective. On
-turning back to the various specimens which have been
-quoted, it will be seen that the direct or inverted form of
-sentence predominates in them; and that to a degree
-inadmissible in prose. Not only in the frequency, but in
-what is termed the violence of the inversions, may this
-distinction be remarked. The abundant use of figures,
-again, exhibits the same truth. Metaphors, similes,
-hyperboles, and per­son­if­ica­tions, are the poet’s colours,
-which he has liberty to employ almost without limit. We
-characterize as “poetical” the prose which uses these
-appliances of language with frequency; and condemn it
-as “over florid” or “affected” long before they occur
-with the profusion allowed in verse. Once more, in brevity—the
-other requisite of forcible expression which theory
-points out and emotion spontaneously fulfils—poetical
-phraseology differs from ordinary phraseology. Imperfect
-periods are frequent; elisions are perpetual; and many
-minor words which would be deemed essential in prose, are
-dispensed with.</p>
-
-<p>Thus poetry is especially impressive partly because it
-conforms to all the laws of effective speech, and partly
-because in so doing it imitates the natural utterances
-of excitement. While the matter embodied is idealized
-emotion, the vehicle is the idealized language of emotion.
-As the musical composer catches the cadences in which
-our feelings of joy and sympathy, grief and despair, vent
-themselves, and out of these germs evolves melodies
-suggesting higher phases of these feelings; so, the poet
-develops from the typical expressions in which men utter
-passion and sentiment, those choice forms of verbal combination
-in which concentrated passion and sentiment may
-be fitly presented.</p>
-
-<p>There is one peculiarity of poetry conducing much to
-its effect—the peculiarity which is indeed usually thought
-its characteristic one—still remaining to be considered:
-we <span class="xxpn" id="p360">{360}</span>
-mean its rhythmical structure. This, improbable though it
-seems, will be found to come under the same generalization
-with the others. Like each of them, it is an idealization
-of the natural language of emotion, which is not uncommonly
-more or less metrical if the emotion be not too
-violent; and like each of them it economizes the reader’s
-or hearer’s attention. In the peculiar tone and manner we
-adopt in uttering versified language, may be discerned its
-relationship to the feelings; and the pleasure which its
-measured movement gives, is ascribable to the comparative
-ease with which words metrically arranged can be recognized.
-This last position will not be at once admitted;
-but explanation will justify it. If, as we have seen, there
-is an expenditure of mental energy in so listening to verbal
-articulations as to identify the words, or in that silent
-repetition of them which goes on in reading, then, any
-mode of so combining words as to present a regular
-recurrence of certain traits which can be anticipated, will
-diminish that strain on the attention entailed by the total
-irregularity of prose. Just as the body, when receiving
-a series of varying concussions, must keep its muscles
-ready to meet the most violent of them, as not knowing
-when such may come; so, the mind when receiving unarranged
-articulations, must keep its perceptive faculties
-active enough to recognize the least easily caught sounds.
-And as, if the concussions recur in a definite order, the
-body may husband its forces by adjusting the resistance
-needful for each concussion; so, if the syllables be rhythmically
-arranged, the mind may economize its energies by
-anticipating the attention required for each syllable. Far-fetched
-though this idea will be thought, introspection
-countenances it. That we <i>do</i> take advantage of metrical
-language to adjust our perceptive faculties to the expected
-articulations, is clear from the fact that we are balked by
-halting versification. Much as at the bottom of a flight of
-stairs, a step more or less than we counted upon gives us
-a <span class="xxpn" id="p361">{361}</span>
-shock; so, too, does a misplaced accent or a supernumerary
-syllable. In the one case, we <i>know</i> that there is an
-erroneous pre-adjustment; and we can scarcely doubt that
-there is one in the other. But if we habitually pre-adjust
-our perceptions to the measured movement of verse, the
-physical analogy above given renders it probable that by
-so doing we economize attention; and hence that metrical
-language is more effective than prose, because it enables
-us to do this.</p>
-
-<p>Were there space, it might be worth while to inquire
-whether the pleasure we take in rhyme, and also that
-which we take in euphony, are not partly ascribable to the
-same general cause.</p>
-
-<p class="padtopa">A few paragraphs only, can be devoted to a second
-division of our subject. To pursue in detail the laws of
-effect, as applying to the larger features of composition,
-would carry us beyond our limits. But we may briefly
-indicate a further aspect of the general principle hitherto
-traced, and hint a few of its wider applications.</p>
-
-<p>Thus far, we have considered only those causes of force
-in language which depend on economy of the mental
-<i>energies</i>. We have now to glance at those which depend
-on economy of the mental <i>sensibilities</i>. Questionable
-though this division may be as a psychological one, it will
-serve roughly to indicate the remaining field of investigation.
-It will suggest that besides considering the extent
-to which any faculty or group of faculties is tasked in
-receiving a form of words and constructing its contained
-idea, we have to consider the state in which this faculty or
-group of faculties is left; and how the reception of subsequent
-sentences and images will be influenced by that
-state. Without going fully into so wide a topic as the
-action of faculties and its reactive effects, it will suffice to
-recall the fact that every faculty is exhausted by
-exercise. <span class="xxpn" id="p362">{362}</span>
-This generalization, which our bodily experiences force upon
-us, and which in daily speech is recognized as true of the
-mind as a whole, is true of each mental power, from the
-simplest of the senses to the most complex of the sentiments.
-If we hold a flower to the nose for long, we become
-insensible to its scent. We say of a brilliant flash of
-lightning that it blinds us; which means that our eyes
-have for a time lost their ability to appreciate light. After
-eating honey, we are apt to think our tea is without sugar.
-The phrase “a deafening roar,” implies that men find
-a very loud sound temporarily incapacitates them for
-hearing faint sounds. To a hand which has for some time
-carried a heavy body, small bodies afterwards lifted seem
-to have lost their weight. Now, the truth thus exemplified,
-may be traced throughout. Alike of the reflective faculties,
-the imagination, the perceptions of the beautiful, the
-ludicrous, the sublime, it may be shown that action
-exhausts; and that in proportion as the action is violent
-the subsequent prostration is great.</p>
-
-<p>Equally throughout the whole nature, may be traced the
-law that exercised faculties are ever tending to resume
-their original states. Not only after continued rest, do they
-regain their full powers—not only are brief cessations in
-the demands on them followed by partial re-invigoration;
-but even while they are in action, the resulting exhaustion
-is ever being neutralized. The processes of waste and
-repair go on together. Hence with faculties habitually
-exercised—as the senses of all persons, or the muscles of
-any one who is strong—it happens that, during moderate
-activity, the repair is so nearly equal to the waste, that the
-diminution of power is scarcely appreciable. It is only
-when effort has been long continued, or has been violent,
-that repair becomes so far in arrear of waste as to cause a
-perceptible enfeeblement. In all cases, however, when, by
-the action of a faculty, waste has been incurred, <i>some</i>
-lapse <span class="xxpn" id="p363">{363}</span>
-of time must take place before full efficiency can be reacquired;
-and this time must be long in proportion as the
-waste has been great.</p>
-
-<p>Keeping in mind these general truths, we shall be in a
-condition to understand certain causes of effect in composition
-now to be considered. Every perception received,
-and every conception framed, entailing some amount of
-waste in the nervous system, and the efficiency of the
-faculties employed being for a time, though often but
-momentarily, diminished; the resulting partial inability
-affects the acts of perception and conception that immediately
-succeed. Hence the vividness with which images
-are pictured must, in many cases, depend on the order of
-their presentation; even when one order is as convenient
-to the understanding as the other. Sundry facts illustrate
-this truth, and are explained by it: instance climax and
-anti-climax. The marked effect obtained by placing last
-the most striking of any series of ideas, and the weakness—often
-the ludicrous weakness—produced by reversing
-this arrangement, depends on the general law indicated.
-As immediately after looking at the sun we cannot perceive
-the light of a fire, while by looking at the fire first and the
-sun afterwards we can perceive both; so, after receiving a
-brilliant, or weighty, or terrible thought, we cannot properly
-appreciate a less brilliant, less weighty, or less terrible
-one, though by reversing the order, we can appreciate each.
-In Antithesis, again, the like truth is exemplified. The
-opposition of two thoughts which are the reverse of each
-other in some prominent trait, insures an impressive effect;
-and does this by giving a momentary relaxation to the
-faculties addressed. If, after a series of ordinary images
-exciting in a moderate degree to the emotion of reverence,
-or approbation, or beauty, the mind has presented to it an
-insignificant, or unworthy, or ugly image; the structure
-which yields the emotion of reverence, or approbation, or
-beauty, having for the time nothing to do, tends to
-resume <span class="xxpn" id="p364">{364}</span>
-its full power; and will immediately afterwards appreciate
-anything vast, admirable, or beautiful better than it would
-otherwise do. Conversely, where the idea of absurdity
-due to extreme insignificance is to be produced, it may be
-intensified by placing it after something impressive;
-especially if the form of phrase implies that something still
-more impressive is coming. A good illustration of the effect
-gained by thus presenting a petty idea to a con­scious­ness
-which has not yet recovered from the shock of an exciting
-one, occurs in a sketch by Balzac. His hero writes to a
-mistress who has cooled towards him, the following <span class="nowrap">letter:―</span></p>
-
-<blockquote class="blktight">
-<p>“Madame,—Votre conduite m’étonne autant qu’elle m’afflige. Non contente
-de me déchirer le cœur par vos dédains, vous avez l’indélicatesse de me
-retenir une brosse à dents, que mes moyens ne me permettent pas de remplacer,
-mes propriétés étant grevées d’hypothèques au delà de leur valeur.</p>
-
-<p>“Adieu, trop belle et trop ingrate amie! Puissions-nous nous revoir dans
-un monde meilleur!</p>
-
-<p class="psignature">“<span
- class="smcap">C<b>HARLES</b>-E<b>DOUARD.</b></span>”</p>
-</blockquote>
-
-<p class="padtopc">Thus
-the phenomena of Climax, Antithesis, and Anticlimax,
-alike result from this general principle. Improbable
-as these momentary variations in susceptibility may seem,
-we cannot doubt their occurrence when we contemplate
-the analogous variations in the susceptibility of the senses.
-Every one knows that a patch of black on a white ground
-looks blacker, and a patch of white on a black ground
-looks whiter, than elsewhere. As the blackness and the
-whiteness are really the same, the only assignable cause,
-is a difference in their actions upon us, dependent on the
-different states of our faculties. The effect is due to a
-visual antithesis.</p>
-
-<p>But this extension of the general principle of economy—this
-further condition to effective composition, that the
-sensitiveness of the faculties must be husbanded—includes
-much more than has been yet hinted. Not only does it
-follow that certain arrangements and certain juxtapositions
-of connected ideas are best; but also that some modes of
-dividing and presenting a subject will be more
-striking <span class="xxpn" id="p365">{365}</span>
-than others, irrespective of logical cohesion. We are
-shown why we must progress from the less interesting
-to the more interesting; alike in the composition as a
-whole, and in each successive portion. At the same time,
-the indicated requirement negatives long continuity of the
-same kind of thought, or repeated production of like
-effects. It warns us against the error committed by Pope
-in his poems and by Bacon in his essays—the error of
-constantly employing forcible forms of expression. As the
-easiest posture by and by becomes fatiguing, and is with
-pleasure exchanged for one less easy; so, the most
-per­fect­ly-con­struct­ed sentences unceasingly used must
-cause weariness, and relief will be given by using those of
-inferior kinds. Further, we may infer not only that we
-ought to avoid generally combining our words in one
-manner, however good, or working out our figures and
-illustrations in one way, however telling; but that we
-ought to avoid anything like uniform adherence to the
-wider conditions of effect. We should not make every
-division of our subject progress in interest; we should not
-always rise to a climax. As we saw that in single sentences
-it is but rarely allowable to fulfil all the conditions to
-strength; so, in the larger sections of a composition we
-must not often conform entirely to the principles indicated.
-We must subordinate the component effects to the
-total effect.</p>
-
-<p>The species of composition which the law we have
-traced out indicates as the perfect one, is the one which
-genius tends naturally to produce. As we found that the
-kinds of sentence which are theoretically best, are those
-commonly employed by superior minds, and by inferior
-minds when temporarily exalted; so, we shall find that the
-ideal form for a poem, essay, or fiction, is that which the
-ideal writer would evolve spontaneously. One in whom
-the powers of expression fully responded to the state of
-feeling, would un­con­scious­ly use that variety in the
-mode <span class="xxpn" id="p366">{366}</span>
-of presenting his thoughts, which Art demands. Constant
-employment of one species of phraseology implies an
-undeveloped linguistic faculty. To have a specific style is
-to be poor in speech. If we remember that in the far past,
-men had only nouns and verbs to convey their ideas with,
-and that from then to now the progress has been towards
-more numerous implements of thought, and towards greater
-complexity and variety in their combinations; we may
-infer that, in the use of sentences, we are at present much
-what the primitive man was in the use of words; and that
-a continuance of the process which has hitherto gone on,
-must produce increasing heterogeneity in our modes of
-expression. As now, in a fine nature, the play of the
-features, the tones of the voice and its cadences, vary in
-harmony with every thought uttered; so, in one possessed
-of fully-developed powers of language, the mould in which
-each combination of words is cast will vary with, and be
-appropriate to, the mental state. That a perfectly-endowed
-man must un­con­scious­ly write in all styles, we may infer
-from considering how styles originate. Why is Johnson
-pompous, Goldsmith simple? Why is one author abrupt,
-another involved, another concise? Evidently in each
-case the habitual mode of utterance depends on the
-habitual balance of the nature. The dominant feelings
-have by use trained the intellect to represent them. But
-while long habit has made it do this efficiently, it remains,
-from lack of practice, unable to do the like for the less
-active feelings; and when these are excited, the usual
-verbal forms undergo but slight modifications. But let the
-ability of the intellect to represent the mental state be
-complete, and this fixity of style will disappear. The
-perfect writer will be now rhythmical and now irregular;
-here his language will be plain and there ornate; sometimes
-his sentences will be balanced and at other times
-unsymmetrical; for a while there will be considerable
-sameness, and then again great variety. His mode
-of <span class="xxpn" id="p367">{367}</span>
-expression naturally responding to his thought and
-emotion, there will flow from his pen a composition
-changing as the aspects of his subject change. He will
-thus without effort conform to what we have seen to be
-the laws of effect. And while his work presents to the
-reader that variety needful to prevent continuous exertion
-of the same faculties, it will also answer to the description
-of all highly-organized products both of man and nature.
-It will be, not a series of like parts simply placed in
-juxtaposition, but one whole made up of unlike parts that
-are mutually dependent.</p>
-
-<div class="dhp">
-<h3 class="h3inline"><span
-class="smcap">P<b>OSTSCRIPT.</b></span></h3>—The
-conclusion that because of their comparative
-brevity and because of those stronger associations
-formed by more frequent use, words of Old-English origin
-are preferable to words derived from Latin or Greek, should
-be taken with two qualifications, which it seems needful to
-add here.</div>
-
-<p>In some cases the word furnished by our original tongue,
-and the corresponding word directly or indirectly derived
-from Latin, though nominally equivalents, are not actually
-such; and the word of Latin origin, by certain extra connotations
-it has acquired, may be the more expressive. For
-instance, we have no word of native origin which can be
-advantageously substituted for the word “grand.” No
-such words as “big” or “great,” which connote little
-more than superiority in size or quantity, can be used
-instead: they do not imply that qualitative superiority
-which is associated with the idea of grandeur. As adopted
-into our own language, the word “grand” has been differentiated
-from “great” by habitual use in those cases where
-the greatness has an æsthetic superiority. In this case,
-then, a word of Latin origin is better than its nearest
-equivalent of native origin, because by use it has acquired
-an additional meaning. And here, too, we may
-conveniently <span class="xxpn" id="p368">{368}</span>
-note the fact that the greater brevity of a word does not
-invariably conduce to greater force. Where the word,
-instead of being one conveying a subordinate component of
-the idea the sentence expresses, is one conveying the central
-element of the idea, on which the attention may with
-advantage rest a moment, a longer word is sometimes
-better than a shorter word. Thus it may be held that the
-sentence—“It is grand” is not so effective as the sentence—“It
-is magnificent.” Besides the fact that here greater
-length of the word favours a longer dwelling on the essential
-part of the thought, there is the fact that its greater length,
-aided by its division into syllables, gives opportunity for a
-cadence appropriate to the feeling produced by the thing
-characterized. By an ascent of the voice on the syllable “nif,”
-and an utterance of this syllable, not only in a higher note,
-but with greater emphasis than the preceding or succeeding
-syllables, there is implied that emotion which contemplation
-of the object produces; and the emotion thus implied is, by
-sympathy, communicated. One may say that in the case
-of these two words, if the imposingness is alone to be
-considered, the word “magnificent” may with advantage be
-employed; but if the sentence expresses a proposition in
-which, not the imposingness itself, but something <i>about</i> the
-imposingness, is to be expressed, then the word “grand”
-is preferable.</p>
-
-<p>The second qualification above referred to, concerns the
-superiority of words derived from Latin or Greek, in cases
-where more or less abstract ideas have to be expressed.
-In such cases it is undesirable to use words having concrete
-associations; for such words, by the very vividness with
-which they call up thoughts of particular objects or particular
-actions, impede the formation of conceptions which
-refer, not to particular objects and actions, but to general
-truths concerning objects or actions of kinds that are more
-or less various. Thus, such an expression as “the colligation
-of facts” is better for philosophical purposes than
-such <span class="xxpn" id="p369">{369}</span>
-an expression as “the tying together of facts.” This last
-expression cannot be used without suggesting the thought
-of a bundle of material things bound up by a string or cord—a
-thought which, in so far as the materiality of its components
-is concerned, conflicts with the conception to be
-suggested. Though it is true that when its derivation is
-remembered, “colligation” raises the same thought, yet, as
-the thought is not so promptly or irresistibly raised, it
-stands less in the way of the abstract conception with which
-attention should be exclusively
-occupied.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTE TO <i>THE PHILOSOPHY OF STYLE</i>.</h3>
-</div>
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch54" id="fn54">54</a>
-Properly the term “simile” is applicable only to the
-entire figure, including the two things compared and the comparison
-drawn between them. But as there exists no name for the illustrative
-member of the figure, there seems no alternative but to employ “simile”
-to express this also. The context will in each case show in which sense
-the word is used.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p370">USE AND BEAUTY.</h2>
-
-<p class="pchappre">[<i>First
-published in</i> The Leader <i>for January 3, 1852.</i>]</p>
-
-<p>In one of his essays, Emerson remarks, that what Nature
-at one time provides for use, she afterwards turns to ornament;
-and he cites in illustration the structure of a sea-shell,
-in which the parts that have for a while formed the mouth
-are at the next season of growth left behind, and become
-decorative nodes and spines.</p></div>
-
-<p>Ignoring the implied teleology, which does not here concern
-us, it has often occurred to me that this same remark
-might be extended to the progress of Humanity. Here,
-too, the appliances of one era serve as embellishments to
-the next. Equally in institutions, creeds, customs, and
-superstitions, we may trace this evolution of beauty out
-of what was once purely utilitarian.</p>
-
-<p>The contrast between the feeling with which we regard
-portions of the Earth’s surface still left in their original
-state, and the feeling with which the savage regarded them,
-is an instance that comes first in order of time. If any
-one walking over Hampstead Heath, will note how strongly
-its picturesqueness is brought out by contrast with the surrounding
-cultivated fields and the masses of houses lying in
-the distance; and will further reflect that, had this irregular
-gorse-covered surface extended on all sides to the horizon,
-it <span class="xxpn" id="p371">{371}</span>
-would have looked dreary and prosaic rather than pleasing;
-he will see that to the primitive man a country so clothed
-presented no beauty at all. To him it was merely a haunt of
-wild animals, and a ground out of which roots might be dug.
-What have become for us places of relaxation and enjoyment—places
-for afternoon strolls and for gathering flowers—were
-his places for labour and food, probably arousing
-in his mind none but utilitarian associations.</p>
-
-<p>Ruined castles afford obvious instances of this metamorphosis
-of the useful into the beautiful. To feudal barons and
-their retainers, security was the chief, if not the only end,
-sought in choosing the sites and styles of their strongholds.
-Probably they aimed as little at the picturesque as do the
-builders of cheap brick houses in our modern towns. Yet
-what were erected for shelter and safety, and what in those
-early days fulfilled an important function in the social
-economy, have now assumed a purely ornamental character.
-They serve as scenes for picnics; pictures of them decorate
-our drawing-rooms; and each supplies its surrounding
-districts with legends for Christmas Eve.</p>
-
-<p>On following out the train of thought suggested by this
-last illustration, we may see that not only do the material
-exuviæ of past social states become the ornaments of our
-landscapes; but that past habits, manners, and arrangements,
-serve as ornamental elements in our literature. The tyrannies
-which, to the serfs who bore them, were harsh and dreary
-facts; the feuds which, to those who took part in them, were
-very practical life-and-death affairs; the mailed, moated,
-sentinelled security which was irksome to the nobles who
-needed it; the imprisonments, and tortures, and escapes,
-which were stern and quite prosaic realities to all concerned
-in them; have become to us material for romantic tales—material
-which, when woven into Ivanhoes and Marmions,
-serves for amusement in leisure hours, and becomes poetical
-by contrast with our daily lives.</p>
-
-<p>Thus, also, is it with extinct creeds. Stonehenge,
-which <span class="xxpn" id="p372">{372}</span>
-in the hands of the Druids had a governmental influence
-over men, is in our day a place for antiquarian excursions;
-and its attendant priests are worked up into an opera.
-Greek sculptures, preserved for their beauty in our galleries
-of art, and copied for the decoration of pleasure grounds
-and entrance halls, once lived in men’s minds as gods
-demanding obedience; as did also the grotesque idols that
-now amuse the visitors to our museums.</p>
-
-<p>Equally marked is this change of function in the case of
-minor superstitions. The fairy lore, which in past times
-was matter of grave belief, and held sway over people’s
-conduct, have since been transformed into ornament for
-<i>A Midsummer Night’s Dream</i>, <i>The Tempest</i>, <i>The Fairy Queen,</i>
-and endless small tales and poems; and still affords subjects
-for children’s story-books, themes for ballets, and plots for
-Planché’s burlesques. Gnomes, and genii, and afrits, losing
-their terrors, give piquancy to the woodcuts in our illustrated
-edition of the <i>Arabian Nights</i>. While ghost-stories, and
-tales of magic and witchcraft, after serving to amuse boys
-and girls in their leisure hours, become matter for jocose
-allusions that enliven tea-table conversation.</p>
-
-<p>Even our serious literature and our speeches are relieved
-by ornaments drawn from such sources. A Greek myth is
-often used as a parallel by which to vary the monotony of
-some grave argument. The lecturer breaks the dead level
-of his practical discourse by illustrations drawn from bygone
-customs, events, or beliefs. And metaphors, similarly
-derived, give brilliancy to political orations, and to <i>Times</i>
-leading articles.</p>
-
-<p>Indeed, on careful inquiry, I think it will be found that
-we turn to purposes of beauty most byegone phenomena
-which are at all conspicuous. The busts of great men in
-our libraries, and their tombs in our churches; the once
-useful but now purely ornamental heraldic symbols; the
-monks, nuns, and convents, which give interest to a certain
-class of novels; the bronze mediæval soldiers used
-for <span class="xxpn" id="p373">{373}</span>
-embellishing drawing-rooms; the gilt Apollos which recline
-on time-pieces; the narratives that serve as plots for our
-great dramas; and the events that afford subjects for
-historical pictures;—these and such like illustrations of
-the metamorphosis of the useful into the beautiful, are so
-numerous as to suggest that, did we search diligently
-enough, we should find that in some place, or under some
-circumstance, nearly every notable product of the past
-has assumed a decorative character.</p>
-
-<p>And here the mention of historical pictures reminds me
-that an inference may be drawn from all this, bearing
-directly on the practice of art. It has of late years been a
-frequent criticism upon our historical painters, that they err
-in choosing their subjects from the past; and that, would
-they found a genuine and vital school, they must render on
-canvas the life and deeds and aims of our own time. If,
-however, there be any significance in the foregoing facts,
-it seems doubtful whether this criticism is a just one. For
-if it be the course of things that what has performed some
-active function in society during one era, becomes available
-for ornament in a subsequent one; it almost follows that,
-conversely, whatever is performing some active function
-now, or has very recently performed one, does not possess
-the ornamental character; and is, consequently, inapplicable
-to any purpose of which beauty is the aim, or of which
-it is a needful ingredient.</p>
-
-<p>Still more reasonable will this conclusion appear, when
-we consider the nature of this process by which the useful
-is changed into the ornamental. An essential pre-requisite
-to all beauty is <i>contrast</i>. To obtain artistic effect, light must
-be put in juxtaposition with shade, bright colours with dull
-colours, a fretted surface with a plain one. <i>Forte</i> passages
-in music must have <i>piano</i> passages to relieve them; concerted
-pieces need interspersing with solos; and rich chords
-must not be continuously repeated. In the drama we
-demand contrast of characters, of scenes, of sentiment,
-of <span class="xxpn" id="p374">{374}</span>
-style. In prose composition an eloquent passage should
-have a comparatively plain setting; and in poems great
-effect is obtained by occasional change of versification.
-This general principle will, I think, explain the transformation
-of the bygone useful into the present beautiful. It is
-by virtue of their contrast with our present modes of life,
-that past modes of life look interesting and romantic. Just
-as a picnic, which is a temporary return to an aboriginal
-condition, derives, from its unfamiliarity, a certain poetry
-which it would not have were it habitual; so, everything
-ancient gains, from its relative novelty to us, an element of
-interest. Gradually as, by the growth of society, we leave
-behind the customs, manners, arrangements, and all the
-products, material and mental, of a bygone age—gradually
-as we recede from these so far that there arises a conspicuous
-difference between them and those we are familiar with;
-so gradually do they begin to assume to us a poetical aspect,
-and become applicable for ornament. And hence it follows
-that things and events which are close to us, and which are
-accompanied by associations of ideas not markedly contrasted
-with our ordinary associations, are <i>relatively</i> inappropriate
-for purposes of art. I say relatively because an
-incident of modern life or even of daily life may acquire
-adequate fitness for art purposes by an unusualness of
-some other kind than that due to unlikeness between past
-and present.</p>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p375">THE SOURCES
-OF ARCHITECTURAL TYPES.</h2>
-
-<p class="pchappre">[<i>First published
-in</i> The Leader <i>for October 23, 1852.</i>]</p>
-
-<p>When lately looking through the gallery of the Old
-Water-Colour Society, I was struck with the incongruity
-produced by putting regular architecture into irregular
-scenery. In one case, where the artist had introduced a
-symmetrical Grecian edifice into a mountainous and wild
-landscape, the discordant effect was particularly marked.
-“How very unpicturesque,” said a lady to her friend, as
-they passed; showing that I was not alone in my opinion.
-Her phrase, however, set me speculating. Why unpicturesque?
-Picturesque means, like a picture—like what
-men choose for pictures. Why then should this be not
-fit for a picture?</p></div>
-
-<p>Thinking the matter over, it seemed to me that the artist
-had sinned against that harmony of sentiment which is
-essential to a good picture. When the other constituents
-of a landscape have irregular forms, any artificial structure
-introduced should have an irregular form, that it may
-seem <i>part</i> of the landscape. The same general character
-must pervade it and the surrounding objects; otherwise it,
-and the scene amid which it stands, become not <i>one</i> thing
-but <i>two</i> things; and we say that it looks out of place.
-Or, speaking psychologically, the associated ideas
-called <span class="xxpn" id="p376">{376}</span>
-up by a building with its wings, windows, columns, and
-all its parts symmetrically disposed, differ widely from the
-ideas associated with an unsymmetrical landscape; and the
-one set of ideas tends to banish the other.</p>
-
-<p>Pursuing the train of thought, sundry illustrative facts
-came to mind. I remembered that a castle, which is
-usually more irregular in outline than any other kind of
-building, pleases us most when seated amid crags and
-precipices; while a castle on a plain seems incongruous.
-The partly-regular and partly-irregular forms of our old
-farm-houses, and our gabled gothic manors and abbeys,
-appear quite in harmony with an undulating, wooded
-country. In towns we prefer symmetrical architecture;
-and in towns it produces in us no feeling of incongruity,
-because all surrounding things—men, horses, vehicles—are
-symmetrical also.</p>
-
-<p>And here I was reminded of a notion that has frequently
-recurred to me; namely, that there is some relationship
-between the several kinds of architecture and the several
-classes of natural objects. Buildings in the Greek and
-Roman styles seem, in virtue of their symmetry, to take
-their type from animal life. In the par­tial­ly-irreg­u­lar
-Gothic, ideas derived from the vegetable world appear to
-predominate. And wholly irregular buildings, such as
-castles, may be considered as having inorganic forms for
-their basis.</p>
-
-<p>Whimsical as this speculation looks at first sight, it is
-countenanced by numerous facts. The connexion between
-symmetrical architecture and animal forms, may be inferred
-from the <i>kind</i> of symmetry we expect, and are satisfied
-with, in regular buildings. In a Greek temple we require
-that the front shall be symmetrical in itself, and that the
-two flanks shall be alike; but we do not look for uniformity
-between the flanks and the front, nor between the
-front and the back. The identity of this symmetry with
-that found in animals is obvious. Again, why is it that
-a <span class="xxpn" id="p377">{377}</span>
-building making any pretensions to symmetry displeases us
-if not quite symmetrical? Probably the reply will be—Because
-we see that the designer’s idea is not fully carried
-out; and that hence our love of completeness is offended.
-But then there come the further questions—How do we
-know that the architect’s conception was symmetrical?
-Whence comes this notion of symmetry which we have,
-and which we attribute to him? Unless we fall back upon
-the old doctrine of innate ideas, we must admit that the
-idea of bi-lateral symmetry is derived from without; and
-to admit this is to admit that it is derived from the
-higher animals.</p>
-
-<p>That there is some relationship between Gothic architecture
-and vegetal forms is generally admitted. The
-often-remarked similarity between a groined nave and an
-avenue of trees with interlacing branches, shows that the
-fact has forced itself on observation. It is not only in this,
-however, that the kinship is seen. It is seen still better
-in the essential characteristic of Gothic; namely, what is
-termed its <i>aspiring</i> tendency. That predominance of
-vertical lines which so strongly distinguishes Gothic from
-other styles, is the most marked peculiarity of trees, when
-compared with animals or rocks. A tall Gothic tower,
-with its elongated apertures and clusters of thin projections
-running from bottom to top, suggests a vague idea
-of growth.</p>
-
-<p>Of the alleged connexion between inorganic forms and
-the wholly irregular and the castellated styles of building,
-we have, I think, some proof in the fact that when an
-edifice is irregular, the <i>more</i> irregular it is the more it
-pleases us. I see no way of accounting for this fact, save
-by supposing that the greater the irregularity the more
-strongly are we reminded of the inorganic forms typified,
-and the more vividly are aroused the agreeable ideas of
-rugged and romantic scenery associated with those forms.</p>
-
-<p>Further evidence of these relationships of styles
-of <span class="xxpn" id="p378">{378}</span>
-architecture to classes of natural objects, is supplied by
-the kinds of decoration they respectively present. The
-public buildings of Greece, while characterized in their
-outlines by the bi-lateral symmetry seen in the higher
-animals, have their pediments and entablatures covered
-with sculptured men and beasts. Egyptian temples and
-Assyrian palaces, similarly symmetrical in their general
-plan, are similarly ornamented on their walls and at their
-doors. In Gothic, again, with its grove-like ranges of
-clustered columns, we find rich foliated ornaments abundantly
-employed. And accompanying the totally irregular,
-inorganic outlines of old castles, we see neither vegetal
-nor animal decorations. The bare, rock-like walls are
-surmounted by battlements, consisting of almost plain
-blocks, which remind us of the projections on the edge of a
-rugged cliff.</p>
-
-<p>But perhaps the most significant fact is the harmony
-observable between each type of architecture and the
-scenes in which it is indigenous. For what is the
-explanation of this harmony, unless it be that the predominant
-character of surrounding things has, in some
-way, determined the mode of building adopted?</p>
-
-<p>That the harmony exists is clear. Equally in the cases
-of Egypt, Assyria, Greece, and Rome, town life preceded
-the construction of the symmetrical buildings that have
-come down to us. And town life is one in which, as
-already observed, the majority of familiar objects are
-symmetrical. We habitually feel the naturalness of this
-association. Amid the fields, a formal house, with a
-central door flanked by equal numbers of windows to right
-and left, strikes us as unrural—looks as though transplanted
-from a street; and we cannot look at one of those
-stuccoed villas, with mock-windows arranged to balance
-the real ones, without being reminded of the suburban
-residence of a retired tradesman.</p>
-
-<p>In styles indigenous in the country, we not only
-find <span class="xxpn" id="p379">{379}</span>
-the general irregularity characteristic of surrounding
-things, but we may trace some kinship between each kind
-of irregularity and the local circumstances. We see the
-broken rocky masses amid which castles are often placed,
-mirrored in their stern, inorganic forms. In abbeys, and
-such-like buildings, which are commonly found in sheltered
-districts, we find no such violent dislocations of masses and
-outlines; and the nakedness appropriate to the fortress is
-replaced by decorations reflecting the neighbouring woods.
-Between a Swiss cottage and a Swiss view there is an
-evident relationship. The angular roof, so bold and so
-dis­pro­por­tion­ate­ly large when compared to other roofs,
-reminds one of the adjacent mountain peaks; and the
-broad overhanging eaves have a sweep and inclination like
-those of the lower branches of a pine tree. Consider, too,
-the apparent kinship between the flat roofs that prevail in
-Eastern cities, interspersed with occasional minarets, and
-the plains that commonly surround them, dotted here and
-there by palm trees. Contemplate a picture of one of
-these places, and you are struck by the predominance of
-horizontal lines, and their harmony with the wide stretch
-of the landscape.</p>
-
-<p>That the congruity here pointed out should hold in
-every case must not be expected. The Pyramids, for
-example, do not seem to come under this generalization.
-Their repeated horizontal lines do indeed conform to the
-flatness of the neighbouring desert; but their general
-contour seems to have no adjacent analogue. Considering,
-however, that migrating races, carrying their architectural
-systems with them, would naturally produce buildings
-having no relationship to their new localities; and that it
-is not always possible to distinguish styles which are
-indigenous, from those which are naturalized; numerous
-anomalies must be looked for.</p>
-
-<p>The general idea above illustrated will perhaps be somewhat
-misinterpreted. Possibly some will take the <span class="xxpn" id="p380">{380}</span>
-proposition to be that men <i>intentionally</i> gave to their buildings
-the leading char­ac­ter­is­tics of neighbouring objects. But
-this is not what is meant. I do not suppose that they did
-so in times past, any more than they do so now. The
-hypothesis is, that in their choice of forms men are
-un­con­scious­ly influenced by the forms encircling them.
-That flat-roofed, symmetrical architecture should have
-originated in the East, among pastoral tribes surrounded
-by their herds and by wide plains, seems to imply that the
-builders were swayed by the horizontality and symmetry
-to which they were habituated. And the harmony which
-we have found to exist in other cases between indigenous
-styles and their localities, implies the general action of like
-influences. Indeed, on considering the matter psychologically,
-I do not see how it could well be otherwise. For
-as all conceptions must be made up of images, and parts of
-images, received through the senses; and as imagination
-will most readily run in the direction of habitual perceptions;
-it follows that the characteristic which predominates
-in habitual perceptions must impress itself on
-designs.</p>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p381">GRACEFULNESS.</h2>
-
-<p class="pchappre">[<i>First published
-in</i> The Leader <i>for December 25, 1852.</i>]</p>
-
-<p>We do not ascribe gracefulness to cart-horses, tortoises,
-and hippopotami, in all of which the powers of movement
-are relatively inferior; but we ascribe it to greyhounds,
-antelopes, race-horses, all of which have highly efficient
-locomotive organs. What, then, is this distinctive peculiarity
-of structure and action which we call Grace?</p></div>
-
-<p>One night while watching a dancer, and inwardly
-condemning her <i>tours de force</i> as barbarisms which would
-be hissed, were not people such cowards as always to
-applaud what they think it the fashion to applaud, I
-remarked that the truly graceful motions occasionally
-introduced, were those performed with comparatively little
-effort. After calling to mind sundry confirmatory facts,
-I presently concluded that grace, as applied to motion,
-describes motion that is effected with economy of force;
-grace, as applied to animal forms, describes forms capable
-of this economy; grace, as applied to postures, describes
-postures which may be maintained with this economy;
-and grace, as applied to inanimate objects, describes
-such as exhibit certain analogies to these attitudes
-and forms.</p>
-
-<p>That this generalization, if not the whole truth, contains
-at least a large part of it, will, I think, become obvious,
-on <span class="xxpn" id="p382">{382}</span>
-considering how habitually we couple the words <i>easy</i> and
-<i>graceful</i>; and still more, on calling to mind some of the
-facts on which this association is based. The attitude of
-a soldier, drawing himself bolt upright when his serjeant
-shouts “attention,” is more remote from gracefulness than
-when he relaxes at the words “stand at ease.” The <i>gauche</i>
-visitor sitting stiffly on the edge of his chair, and his
-self-possessed host, whose limbs and body dispose themselves
-as convenience dictates, are contrasts as much in
-effort as in elegance. When standing, we commonly
-economise power by throwing the weight chiefly on one
-leg, which we straighten to make it serve as a column,
-while we relax the other; and to the same end, we allow
-the head to lean somewhat on one side. Both these
-attitudes are imitated in sculpture as elements of grace.</p>
-
-<p>Turning from attitudes to movements, current remarks
-will be found to imply the same relationship. No one
-praises as graceful, a walk that is irregular or jerking,
-and so displays waste of power; no one sees any beauty
-in the waddle of a fat man, or the trembling steps of an
-invalid, in both of which effort is visible. But the style
-of walking we admire is moderate in velocity, perfectly
-rhythmical, unaccompanied by violent swinging of the
-arms, and giving us the impression that there is no
-conscious exertion, while there is no force thrown away.
-In dancing, again, the prevailing difficulty—the proper
-disposal of the arms—well illustrates the same truth.
-Those who fail in overcoming this difficulty give the
-spectator the impression that their arms are a trouble to
-them; they are held stiffly in some meaningless attitude,
-at an obvious expense of power; they are checked from
-swinging in the directions in which they would naturally
-swing; or they are so moved that, instead of helping
-to maintain the equilibrium, they endanger it. A good
-dancer, on the contrary, makes us feel that, so far from
-the arms being in the way, they are of great use.
-Each <span class="xxpn" id="p383">{383}</span>
-motion of them, while it seems naturally to result from a
-previous motion of the body, is turned to some advantage.
-We perceive that it has facilitated instead of hindered the
-general action; or, in other words—that an economy of
-effort has been achieved. Any one wishing to distinctly
-realize this fact, may readily do so by studying the action
-of the arms in walking. Let him place his arms close to
-his sides, and there keep them, while walking with some
-rapidity. He will unavoidably fall into a backward and
-forward motion of the shoulders, of a wriggling, ungraceful
-character. After persevering in this for a space, until he
-finds that the action is not only ungraceful but fatiguing,
-let him allow his arms to swing as usual. The wriggling
-of the shoulders will cease; the body will move equably
-forward; and comparative ease will be felt. On analyzing
-this fact, he may perceive that the backward motion of
-each arm is simultaneous with the forward motion of the
-corresponding leg. If he will attend to his muscular
-sensations, he will find that this backward swing of the
-arm is a counterbalance to the forward swing of the leg;
-and that it is easier to produce this counterbalance by
-moving the arm than by contorting the body, as he
-otherwise must do.<a class="afnanch" href="#fn55" id="fnanch55">55</a></p>
-
-<p>The action of the arms in walking being thus understood,
-it will be manifest that the graceful employment of them
-in dancing is simply a complication of the same thing;
-and that a good dancer is one having so acute a muscular
-perception as at once to feel in what direction
-the arms <span class="xxpn" id="p384">{384}</span>
-should be moved to counterbalance any motion of the
-body or legs.</p>
-
-<p>This connexion between gracefulness and economy of
-force, will be most clearly recognized by those who skate.
-They will remember that all early attempts, and especially
-the first timid experiments in figure-skating, are alike
-awkward and fatiguing; and that the acquirement of skill
-is also the acquirement of ease. The requisite confidence,
-and a due command of the feet having been obtained,
-those twistings of the trunk and gyrations of the arms,
-previously used to maintain the balance, are found needless.
-The body is allowed to follow without control the impulse
-given to it; the arms to swing where they will; and it
-is clearly felt that the graceful way of performing any
-evolution is the way that costs least effort. Spectators
-can scarcely fail to see the same fact, if they look for it.</p>
-
-<p>The reference to skating suggests that graceful motion
-might be defined as motion in curved lines. Certainly,
-straight and zig-zag movements are excluded from the
-conception. The sudden stoppages which angular movements
-imply, are its antithesis; for a leading trait of grace
-is continuity, flowingness. It will be found, however, that
-this is merely another aspect of the same truth; and that
-motion in curved lines is economical motion. Given
-certain successive positions to be assumed by a limb, then
-if it be moved in a straight line to the first of these
-positions, suddenly arrested, and then moved in another
-direction straight to the second position, and so on, it is
-clear that at each arrest, the momentum previously given
-to the limb must be destroyed at a certain cost
-of force, <span class="xxpn" id="p385">{385}</span>
-and a new momentum given to it at a further cost of force;
-whereas, if, instead of arresting the limb at its first
-position, its motion be allowed to continue, and a lateral
-force be impressed to make it diverge towards the second
-position, a curvilinear motion is the necessary result;
-and by making use of the original momentum, force
-is economized.</p>
-
-<p>If the truth of these conclusions respecting graceful
-movements be admitted, it cannot, I think, be doubted, that
-graceful form is that kind of form which implies relatively
-small effort required for self-support, and relatively small
-effort required for movement. Were it otherwise, there
-would arise the incongruity that graceful form would either
-not be associated at all with graceful movement, or that
-the one would habitually occur in the absence of the other;
-both which alternatives being at variance with our experience,
-we must conclude that there exists the relationship
-indicated. Any one hesitating to admit this, will, I
-think, do so no longer on remembering that the animals
-which we consider graceful, are those so slight in build
-as not to be burdened by their own weight, and those
-noted for fleetness and agility; while those we class as
-ungraceful, are those which are alike cumbrous and have
-the faculty of locomotion but little developed. In the case
-of the greyhound, especially, we see that the particular
-modification of the canine type in which economy of weight
-is the most conspicuous, and in which the facility of
-muscular motion has been brought to the greatest perfection,
-is the one which we call most graceful.</p>
-
-<p>How trees and inanimate objects should come to have
-this epithet applied to them, seems less obvious. But
-remembrance of the fact that we commonly, and perhaps
-unavoidably, regard all objects under a certain anthropomorphic
-aspect, will help us to understand it. The stiff
-branch of an oak tree standing out at right angles to the
-trunk, gives us a vague notion of great force expended
-to <span class="xxpn" id="p386">{386}</span>
-keep it in that position; and we call it ungraceful, under
-the same feeling that we call the holding out an arm at
-right angles to the body ungraceful. Conversely, the lax
-drooping boughs of a weeping-willow are vaguely associated
-with limbs in attitudes requiring little effort to maintain
-them; and the term graceful, by which we describe these,
-we apply by metaphor to the boughs of the willow.</p>
-
-<p>I may as well here venture the hypothesis, that the idea
-of Grace as displayed by other beings, has its subjective
-basis in Sympathy. The same faculty which makes us
-shudder on seeing another in danger—which sometimes
-causes motions of our own limbs on seeing another
-struggle or fall, gives us a vague participation in all the
-muscular sensations which those around us are experiencing.
-When their motions are violent or awkward, we feel in a
-slight degree the disagreeable sensations which we should
-have were they our own. When they are easy, we
-sympathize with the pleasant sensations they imply in
-those exhibiting them.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTE TO <i>GRACEFULNESS</i>.</h3>
-</div>
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch55" id="fn55">55</a>
-A parallel fact, further elucidating this, is supplied
-by a locomotive engine. On looking at the driving wheel, there will
-be found, besides the boss to which the connecting rod is attached,
-a corresponding mass of metal on the opposite side of the wheel, and
-equidistant from the centre; or, if the engine be one having inside
-cylinders, then, on looking between the spokes of the driving-wheel,
-it will be seen that against each crank is a block of iron, similar
-to it in size, but projecting from the axle in the reverse direction.
-Evidently, being placed on opposite sides of the centre of motion, each
-crank and its counterbalance move in opposite directions relatively to
-the axle; and by so doing, neutralize each other’s perturbing effects,
-and permit a
-smooth rotation. This relationship which exists between the motions of
-the counterbalance and the crank, is analogous to that which exists
-between the motions of the arms and legs in walking; and in the early
-days of railway-locomotion, before these counterbalance weights were
-used, locomotive driving-wheels were subject to violent oscillations,
-analogous to those jerkings of the shoulders which arise when we walk
-fast without moving our arms.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p387">PERSONAL BEAUTY.</h2>
-
-<p class="pchappre">[<i>First published
-in</i> The Leader <i>for April 15, and May 13,
-1854.</i>]</p>
-
-<p>It is a common opinion that beauty of character and
-beauty of aspect are unrelated. I have never been able to
-reconcile myself to this opinion. Indeed, even those who
-hold it do so in an incomplete sense; for notwithstanding
-their theory they continue to manifest surprise when they
-find a mean deed committed by one of noble countenance—a
-fact implying that underneath their professed induction
-lies a still living conviction at variance with it.</p></div>
-
-<p>Whence this conviction? How is it that a belief in the
-connexion between worth and beauty primarily exists in all?
-It cannot be innate. Must it not, then, be from early
-experiences? And must it not be that in those who continue
-to believe in this connexion, spite of their reasonings,
-the early and wide experiences outweigh the later and
-exceptional ones?</p>
-
-<p>Those who do not admit the relationship between mental
-and facial beauty, usually remark that the true connexion
-is between character and expression. While they doubt, or
-rather deny, that the <i>permanent</i> forms of the features
-are <span class="xxpn" id="p388">{388}</span>
-in any way indices of the forms of the mind, they assert that
-the <i>transitory</i> forms of the features are such indices. These
-positions seem scarcely consistent. For may we not say
-that the transitory forms, by perpetual repetition, register
-themselves on the face, and <i>produce</i> permanent forms? Does
-not an habitual frown by-and-by leave ineffaceable marks
-on the brow? Is not a chronic scornfulness presently
-followed by a modified set in the angles of the mouth? Does
-not that compression of the lips significant of great determination,
-often stereotype itself; and so give a changed
-form to the lower part of the face? And if there be any
-truth in the doctrine of hereditary transmission, must there
-not be a tendency to the re-appearance of these modifications
-as new types of feature in the offspring? In brief, may we
-not say that <i>expression is feature in the making</i>; and that if
-expression means something, the form of feature produced
-by it means something?</p>
-
-<p>Possibly it will be urged, in reply, that changes of
-expression affect only the muscles and skin of the face; that
-the permanent marks they produce can extend but to these;
-that, nevertheless, the beauty of a face is mainly dependent
-upon the form of its bony framework; that hence, in this
-chief respect, there cannot take place such modifications as
-those described; and that, therefore, the relationship of
-aspect to character, while it may hold in the details, does
-not hold in the generals.</p>
-
-<p>The rejoinder is, that the framework of the face <i>is</i> modified
-by modifications in the tissues which cover it. It is an
-established doctrine in physiology, that throughout the
-skeleton the greater or less development of bones is dependent
-on the greater or less development of the attached
-muscles; that is, on the exercise of them. Hence, permanent
-changes in the muscular adjustments of the face will be
-followed by permanent changes in its osseous structure.</p>
-
-<p>Not to dwell in general statements, however, let me cite
-cases in which the connexion between organic ugliness
-and <span class="xxpn" id="p389">{389}</span>
-mental inferiority, and the converse connexion between
-organic beauty and comparative perfection of mind, are
-distinctly traceable.</p>
-
-<p>It will be admitted that the projecting jaw, characteristic
-of the lower human races, is a facial defect—is a trait which
-no sculptor would give to an ideal bust. At the same time,
-it is a fact that prominence of jaw is associated in the
-mammalia generally with comparative lack of intelligence.
-This relationship, it is true, does not hold uniformly. It is
-not a direct but an indirect one; and is thus liable to be
-disturbed. Nevertheless, it holds among the higher tribes;
-and on inquiry we shall see why it holds. In conformity
-with the law that organs develop in proportion as they are
-exercised, the jaws are relatively large where the demands
-made on them are great; and diminish in size as their
-functions become less numerous and less onerous. Now, in
-the lower mammals the jaws are the sole organs of manipulation—are
-used not only for mastication, but for seizing,
-carrying, gnawing, and, indeed, for everything save
-locomotion, which is the solitary office performed by the
-limbs. Advancing upwards, we find that the fore-limbs
-begin to aid the jaws, and gradually to relieve them of part
-of their duties. Some creatures use them for burrowing;
-some, as the felines, for striking; many, to keep steady the
-prey they are tearing; and when we arrive at the monkeys,
-whose fore-limbs possess such power of prehension that
-objects can not only be seized, but carried and pulled to
-pieces by them, we see that the jaws have fewer functions.
-Accompanying this series of changes, we see a double change
-in the form of the head. The increased complexity of the
-limbs, the greater variety of actions they perform, and the
-more numerous perceptions they give, imply a greater
-development of the brain and of its bony envelope. At the
-same time, the size of the jaws has diminished in correspondence
-with the diminution of their functions. And by this
-simultaneous protrusion of the upper part of the
-cranium <span class="xxpn" id="p390">{390}</span>
-and recession of its lower part, what is called the <i>facial
-angle</i> has increased.</p>
-
-<p>Well, these co-ordinate changes in functions and forms
-have continued during the civilization of the human race.
-On contrasting the European and the Papuan, we see that
-what the one cuts in two with knife and fork, the other tears
-with his jaws; what the one softens by cooking, the other
-eats in its hard, raw state; the bones which the one utilises
-by stewing, the other gnaws; and for sundry of the
-mechanical manipulations which the one has tools for, the
-other uses his teeth. From the Bushman state upwards,
-there has been a gradual increase in the complexity of our
-appliances. We not only use our hands to save our jaws,
-but we make implements to save our hands; and in our
-engine-factories may be found implements for the making
-of implements. This progression in the arts of life has had
-intellectual progression for its necessary correlative. Each
-new complication requires a new increment of intelligence
-for its production; and the daily use of it develops the
-intelligence still further. Thus that simultaneous protrusion
-of the brain and recession of the jaws, which among lower
-animals has accompanied increase of skill and sagacity, has
-continued during the advance of Humanity from barbarism
-to civilization; and has been, throughout, the result of a
-discipline involving increase of mental power. And so it
-becomes manifest that there exists an organic relationship
-between that protuberance of the jaws which we consider
-ugly, and a certain inferiority of nature.</p>
-
-<p>Again, that lateral jutting-out of the cheek-bones, which
-similarly characterizes the lower races of men, and which is
-similarly thought by us a detraction from beauty, is similarly
-related to lower habits and lower intelligence. The chief
-agents in closing the jaws are the temporal muscles; and
-these are consequently the chief active agents in biting and
-mastication. In proportion as the jaws have much work,
-and correspondingly large size, must the temporal
-muscles <span class="xxpn" id="p391">{391}</span>
-be massive. But the temporal muscles pass between the
-skull and the zygomatic arches, or lateral parts of the
-cheek-bones. Consequently, where the temporal muscles
-are massive, the spaces between the zygomatic arches and
-the skull must be great; and the lateral projection of the
-zygomatic arches great also, as we see it in the uncivilized
-and partially civilized races. Like large jaws, therefore, of
-which it is an accompaniment, excessive size of the cheek-bones
-is both an ugliness and an index of imperfection.</p>
-
-<p>Certain other defects of feature, between which and
-mental defects it is not thus easy to trace the connexion,
-may yet be fairly presumed to have such connexion in
-virtue of their constant co-existence with the foregoing ones:
-alike in the uncivilized races and in the young of the
-civilized races. Peculiarities of face which we find regularly
-associated with those just shown to be significant of intellectual
-inferiority, and which like them disappear as
-barbarism grows into civilization, may reasonably be
-concluded to have like them a psychological meaning.
-Thus is it with depression of the bridge of the nose; which
-is a characteristic both of barbarians and of our babes,
-possessed by them in common with the higher quadrumana.
-Thus, also, is it with that forward opening of the nostrils,
-which renders them conspicuous in a front view of the face—a
-trait alike of infants, savages, and apes. And the same
-may be said of wide-spread alæ to the nose, of great width
-between the eyes, of long mouth, of large mouth,—indeed
-of all those leading peculiarities of feature which are by
-general consent called ugly.</p>
-
-<p>And then mark how, conversely, the type of face usually
-admitted to be the most beautiful, is one that possesses
-opposite peculiarities. In the ideal Greek head, the forehead
-projects so much, and the jaws recede so much, as to
-render the facial angle larger than we ever find it in fact.
-The cheek-bones are so small as scarcely to be traceable.
-The bridge of the nose is so high as to be almost or quite
-in <span class="xxpn" id="p392">{392}</span>
-a line with the forehead. The alæ of the nose join the face
-with but little obliquity. In the front view the nostrils are
-almost invisible. The mouth is small, and the upper lip
-short and deeply concave. The outer angles of the eyes,
-instead of keeping the horizontal line, as is usual, or being
-directed upwards, as in the Mongolian type, are directed
-slightly downwards. And the form of the brow indicates
-an unusually large frontal sinus—a characteristic entirely
-absent in children, in the lowest of the human races, and in
-the allied genera of the <i>primates</i>.</p>
-
-<p>If, then, recession of the forehead, protuberance of the
-jaws, and largeness of the cheek-bones, three leading
-elements of ugliness, are demonstrably indicative of mental
-inferiority—if such other facial defects as great width
-between the eyes, flatness of the nose, spreading of its alæ,
-frontward opening of the nostrils, length of the mouth, and
-largeness of the lips, are habitually associated with these,
-and disappear along with them as intelligence increases,
-both in the race and in the individual; is it not a fair inference
-that all such faulty traits of feature signify deficiencies
-of mind? If, further, our ideal of human beauty is characterized
-not simply by the absence of these traits, but by the
-presence of opposite ones—if this ideal, as found in sculptures
-of the Greek gods, has been used to represent superhuman
-power and intelligence—and if the race so using it were
-themselves distinguished by a mental superiority, which,
-if we consider their disadvantages, produced results
-unparalleled; have we not yet stronger reasons for concluding
-that the chief components of beauty and ugliness
-are severally connected with perfection and imperfection of
-mental nature? And when, lastly, we remember that the
-variations of feature constituting expression are confessedly
-significant of character—when we remember that these tend
-by repetition to organize themselves, to affect not only the
-skin and muscles but the bones of the face, and to be transmitted
-to offspring—when we thus find that there is
-a <span class="xxpn" id="p393">{393}</span>
-psychological meaning alike in each passing adjustment of
-the features, in the marks that habitual adjustments leave,
-in the marks inherited from ancestors, and in those main
-outlines of the facial bones and integuments indicating the
-type or race; are we not almost forced to the conclusion
-that all forms of feature are related to forms of mind, and
-that we consider them admirable or otherwise according as
-the traits of nature they imply are admirable or otherwise?
-In the extremes the relationship is demonstrable. That
-transitory aspects of face accompany transitory mental
-states, and that we consider these aspects ugly or beautiful
-according as the mental states they accompany are ugly or
-beautiful, no one doubts. That those permanent and most
-marked aspects of face dependent on the bony framework,
-accompany those permanent and most marked mental
-states which express themselves in barbarism and civilization;
-and that we consider as beautiful those which
-accompany mental superiority, and as ugly those which
-accompany mental inferiority, is equally certain. And if
-this connexion unquestionably holds in the extremes—if,
-as judged by average facts, and by our half-instinctive
-convictions, it also holds more or less visibly in intermediate
-cases, it becomes an almost irresistible induction, that the
-aspects which please us are the outward correlatives of
-inward perfections, while the aspects which displease us are
-the outward correlatives of inward imperfections.</p>
-
-<p>I am quite aware that when tested in detail this induction
-seems not to be borne out. I know that there are often
-grand natures behind plain faces; and that fine countenances
-frequently hide small souls. But these anomalies
-do not destroy the general truth of the law, any more than
-the perturbations of planets destroy the general ellipticity
-of their orbits. Some of them, indeed, may be readily
-accounted for. There are many faces spoiled by the misproportion
-of features that are in themselves good; others,
-by defects of skin, which, though they indicate defects
-of <span class="xxpn" id="p394">{394}</span>
-visceral constitution, have no relationship to the higher
-parts of the nature. Moreover the facts that have been
-assigned afford reason for thinking that the leading elements
-of facial beauty are not directly associated with <i>moral</i>
-char­ac­ter­is­tics, but with <i>intellectual</i> ones—are the results of
-long-continued civilized habits, long cessation of domestic
-barbarism, long culture of the manipulative powers; and
-so may co-exist with emotional traits not at all admirable.
-It is true that the highest intellectual manifestations imply
-a good balance of the higher feelings; but it is also true
-that great quickness, great sagacity in ordinary affairs,
-great practical skill, can be possessed without these, and
-very frequently are so. The prevalent beauty of the Italians,
-co-existing though it does with a low moral state, becomes,
-on this hypothesis, reconcileable with the general induction;
-as do also many of the anomalies we see around us.</p>
-
-<p>There is, however, a more satisfactory explanation to be
-offered than any of these—an explanation which I think
-renders it possible to admit the seeming contradictions
-which the detailed facts present, and yet to hold by the
-theory. But as more space will be required for showing
-this than can here be spared, I must defer going further
-until next week. In the meantime, my own conviction
-may be expressed in a formula in which I have often before
-uttered it:—The saying that beauty is but skin-deep, is
-but a skin-deep saying.</p>
-
-<h3>II.</h3>
-
-<p>All the civilized races, and probably also the uncivilized
-ones, are of mixed origin; and, as a consequence, have
-physical and mental constitutions in which are mingled
-several aboriginal constitutions more or less differing from
-each other. This heterogeneity of constitution seems to
-me the chief cause of the incongruities between aspect and
-nature which we daily meet with. Given a pure race,
-subject to constant conditions of climate, food, and
-habits <span class="xxpn" id="p395">{395}</span>
-of life, and there is reason to believe that between external
-appearance and internal structure there will be a constant
-connexion. Unite this race with another equally pure, but
-adapted to different conditions and having a correspondingly
-different physique, face, and mind, and there will occur in
-the descendants, not a homogeneous mean between the two
-constitutions, but a seemingly irregular combination of char­ac­ter­is­tics
-of the one with char­ac­ter­is­tics of the other—one
-feature traceable to this race, a second to that, and a third
-uniting the attributes of both; while in disposition and intellect
-there will be found a like medley of the two originals.</p>
-
-<p>The fact that the forms and qualities of any offspring are
-not a mean between the forms and qualities of its parents,
-but a mixture of them, is illustrated in every family. The
-features and peculiarities of a child are separately referred
-by observers to father and mother respectively—nose and
-mouth to this side; colour of the hair and eyes to that—this
-moral peculiarity to the first; this intellectual one
-to the second—and so with contour and idiosyncrasies of
-body. Manifestly if each organ or faculty in a child was
-an average of the two developments of such organ or
-faculty in the parents, it would follow that all brothers and
-sisters should be alike; or should, at any rate, differ no
-more than their parents differed from year to year. So far
-however, from finding this to be the case, we find not only
-that great irregularities are produced by mixture of traits,
-but that there is no constancy in the mode of mixture, or
-the extent of variation produced by it.</p>
-
-<p>This imperfect union of parental constitutions in the constitutions
-of offspring, is still more clearly illustrated by
-the re-appearance of peculiarities traceable to bygone
-generations. Forms, dispositions, and diseases, possessed
-by distant progenitors, habitually come out from time to
-time in descendants. Some single feature, or some solitary
-tendency, will again and again show itself, after being
-apparently lost. It is notoriously thus with gout,
-scrofula, <span class="xxpn" id="p396">{396}</span>
-and insanity. On some of the monumental brasses in our
-old churches are engraved heads having traits still persistent
-in the same families. Wherever, as in portrait galleries,
-a register of ancestral faces has been kept, the same fact is
-more or less apparent. The pertinacity with which particular
-char­ac­ter­is­tics re-produce themselves is well exemplified
-in America, where traces of negro blood can be
-detected in the finger nails, when no longer visible in the
-complexion. Among breeders of animals it is well known
-that, after several generations in which no visible modifications
-were traceable, the effects of a cross will suddenly
-make their appearance. In all which facts we see the
-general truth that an organism produced from two organisms
-cons­ti­tu­tion­al­ly different, is not a homo­ge­neous mean;
-but is made up of components, taken in variable ways and
-proportions from the originals.</p>
-
-<p>In a recent number of the <i>Quarterly Journal of the Agricultural
-Society</i> were published some facts respecting the
-mixture of French and English races of sheep, bearing
-collaterally on this point. Sundry attempts had been made
-to improve the poor French breeds by our fine English ones.
-For a long time these attempts failed. The hybrids bore
-no trace of their English male ancestry; but were as
-dwarfed and poverty-stricken as their French dams.
-Eventually the cause of failure was found to lie in the relative
-heterogeneity and homogeneity of the two constitutions.
-The superior English sheep were of mixed race; the French
-sheep, though inferior, were of pure race; and the compound,
-imperfectly co-ordinated constitution of the one
-could not maintain itself against the simple and completely
-balanced constitution of the other. This, at first an hypothesis,
-was presently demonstrated. French sheep of
-mixed constitution having been obtained by uniting two of
-the pure French breeds, it was found that these hybrid
-French sheep, when united with the English ones, produced
-a cross in which the English char­ac­ter­is­tics
-were duly <span class="xxpn" id="p397">{397}</span>
-displayed. Now, this inability of a mixed constitution to
-stand its ground against an unmixed one, quite accords
-with the above induction. An unmixed constitution is one
-in which all the organs are exactly fitted to each other—are
-perfectly balanced: the system as a whole, is in stable
-equilibrium. A mixed constitution, on the contrary, being
-made up of organs belonging to two separate sets, cannot
-have them in exact fitness—cannot have them perfectly
-balanced; and a system in comparatively unstable equilibrium
-results. But in proportion to the stability of the
-equilibrium will be the power to resist disturbing forces.
-Hence, when two constitutions, in stable and unstable
-equilibrium respectively, become disturbing forces to each
-other, the unstable one will be overthrown, and the stable
-one will assert itself unchanged.</p>
-
-<p>The imperfect co-ordination of parts in a mixed constitution,
-and this consequent instability of its equilibrium, are
-intimately connected with the vexed question of genera,
-species, and varieties; and, with a view partly to the
-intrinsic interest of this question, and partly to the further
-elucidation of the topic in hand, I must again digress.</p>
-
-<p>The current physiological test of distinct species is the
-production of a non-prolific hybrid. The ability of the
-offspring to reproduce itself is held to indicate that its
-parents are of the same species, however widely they may
-differ in appearance; and its inability to do this is taken
-as proof that, nearly allied as its parents may seem, they
-are distinct in kind. Of late, however, facts have been
-accumulating that tend more and more to throw doubt on
-this generalization. Cattle-breeders have established it as
-a general fact, that the offspring of two different breeds of
-sheep or oxen dwindle away in a few generations if allied
-with themselves; and that a good result can be obtained
-only by mixing them with one or other of the original
-breeds—a fact implying that what is true of so-called
-species, is, under a modified form, true of varieties
-also. <span class="xxpn" id="p398">{398}</span>
-The same phenomena are observable in the mixtures of
-different races of men. They, too, it is alleged, cannot
-maintain themselves as separate varieties; but die out
-unless there is intermarriage with the originals. In brief,
-it seems that the hybrids produced from two distinct races
-of organisms may die out in the first, second, third, fourth,
-fifth, &amp;c., generation, according as the constitutional difference
-of the races is greater or less. Now, the experience
-of the French sheep-breeders, above-quoted, suggests a
-rationale of these various results. For if it be true that
-an organism produced by two unlike organisms is not a
-mean between them, but a mixture of parts of the one with
-parts of the other—if it be true that these parts belonging
-to two different sets are of necessity imperfectly co-ordinated;
-then it becomes manifest that in proportion as the
-difference between the parent organisms is greater or less,
-the defects of co-ordination in the offspring will be greater
-or less. Whence it follows that, according to the degree
-of organic incongruity between the parents, we may have
-every gradation in the offspring, from a combination of
-parts so incongruous that it will not work at all, up to a
-combination complete enough to subsist permanently as a
-race. And this is just what we find in fact. Between
-organisms widely differing in character, no intermediate
-organism is possible. When the difference is less, a
-non-prolific hybrid is produced—an organism so ill co-ordinated
-as to be capable only of incomplete life. When
-the difference is still less, there results an organism
-capable of reproducing itself; but not of bequeathing to
-its offspring complete constitutions. And as the degrees
-of difference are further diminished, the incompleteness
-of constitution is longer and longer in making its appearance;
-until we come to those varieties of the same
-species which differ so slightly that their offspring are as
-permanent as themselves. Even in these, however, the
-organic equilibrium seems less perfect; as is
-illustrated <span class="xxpn" id="p399">{399}</span>
-in the case I have quoted. And in connexion with this
-inference, it would be interesting to inquire whether pure
-constitutions are not superior to mixed ones, in their power
-of maintaining the balance of vital functions under disturbing
-conditions. Is it not a fact, that the pure breeds
-are <i>hardier</i> than the mixed ones? Are not the mixed ones,
-though superior in size, less capable of resisting unfavourable
-influences—extremes of temperature, bad food, &amp;c.?
-And is not the like true of mankind?</p>
-
-<p>Returning to the topic in hand, it is manifest that these
-facts and reasonings serve further to enforce the general
-truth, that the offspring of two organisms not identical in
-constitution is a heterogeneous mixture of the two, and not
-a homogeneous mean between them.</p>
-
-<p>If, then, bearing in mind this truth, we remember the
-composite character of the civilized races—the mingling in
-ourselves, for example, of Celt, Saxon, Norman, Dane, with
-sprinklings of other tribes; if we consider the complications
-of constitution that have arisen from the unions of
-these, not in any uniform manner, but with utter irregularity;
-and if we recollect that the incongruities thus produced
-pervade the whole nature, mental and bodily—nervous
-tissue and other tissues; we shall see that there
-must exist in all of us an imperfect correspondence between
-parts of the organism that are really related; and that as
-one manifestation of this, there must be more or less of discrepancy
-between the features and those parts of the nervous
-system with which they have a physiological connexion.</p>
-
-<p>If this be so, then the difficulties which stand in the way
-of the belief that beauty of character is related to beauty
-of face are considerably diminished. It becomes possible
-to admit that plainness may co-exist with nobility of nature,
-and fine features with baseness; and yet to hold that
-mental and facial perfection are fundamentally connected,
-and will, when the present causes of incongruity have
-worked themselves out, be ever found
-united.</p>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p400">THE ORIGIN AND FUNCTION OF MUSIC.</h2>
-
-<p class="pchappre">[<i>First published
-in</i> Fraser’s Magazine <i>for October 1857.</i>]</p>
-
-<p>When Carlo, standing, chained to his kennel, sees his master
-in the distance, a slight motion of the tail indicates his but
-faint hope that he is about to be let out. A much more
-decided wagging of the tail, passing by-and-by into lateral
-undulations of the body, follows his master’s nearer approach.
-When hands are laid on his collar, and he knows that he is
-really to have an outing, his jumping and wriggling are
-such that it is by no means easy to loose his fastenings.
-And when he finds himself actually free, his joy expends
-itself in bounds, in pirouettes, and in scourings hither and
-thither at the top of his speed. Puss, too, by erecting her
-tail, and by every time raising her back to meet the caressing
-hand of her mistress, similarly expresses her gratification
-by certain muscular actions; as likewise do the parrot
-by awkward dancings on his perch, and the canary by
-hopping and fluttering about his cage with unwonted
-rapidity. Under emotions of an opposite kind, animals
-equally display muscular excitement. The enraged lion
-lashes his sides with his tail, knits his brows, protrudes his
-claws. The cat sets up her back; the dog retracts his
-upper lip; the horse throws back his ears. And in the
-struggles of creatures in pain, we see that a like
-relation <span class="xxpn" id="p401">{401}</span>
-holds between excitement of the muscles and excitement of
-the nerves of sensation.</p></div>
-
-<p>In ourselves, distinguished from lower creatures by feelings
-alike more powerful and more varied, parallel facts
-are at once more conspicuous and more numerous. Let us
-look at them in groups. We shall find that pleasurable
-sensations and painful sensations, pleasurable emotions and
-painful emotions, all tend to produce active demonstrations
-in proportion to their intensity.</p>
-
-<p>In children, and even in adults who are not restrained by
-regard for appearances, a highly agreeable taste is followed
-by a smacking of the lips. An infant will laugh and bound
-in its nurse’s arms at the sight of a brilliant colour or the
-hearing of a new sound. People are apt to beat time with
-head or feet to music which particularly pleases them. In
-a sensitive person an agreeable perfume will produce a
-smile; and smiles will be seen on the faces of a crowd gazing
-at some splendid burst of fireworks. Even the pleasant
-sensation of warmth felt on getting to the fireside out of a
-winter’s storm, will similarly express itself in the face.</p>
-
-<p>Painful sensations, being mostly far more intense than
-pleasurable ones, cause muscular actions of much more
-decided kinds. A sudden twinge produces a convulsive start
-of the whole body. A pain less violent, but continuous, is
-accompanied by a knitting of the brows, a setting of the
-teeth or biting of the lip, and a contraction of the features
-generally. Under a persistent pain of a severer kind, other
-muscular actions are added: the body is swayed to and fro;
-the hands clench anything they can lay hold of; and should
-the agony rise still higher, the sufferer rolls about on the
-floor almost convulsed.</p>
-
-<p>Though more varied, the natural language of the pleasurable
-emotions comes within the same generalization.
-A smile, which is the commonest expression of gratified
-feeling, is a contraction of certain facial muscles; and when
-the smile broadens into a laugh, we see a more violent
-and <span class="xxpn" id="p402">{402}</span>
-more general muscular excitement produced by an intenser
-gratification. Rubbing together of the hands, and that
-other motion which Hood describes as the washing of
-“hands with invisible soap in imperceptible water,” have
-like implications. Children may often be seen to “jump for
-joy,” Even in adults of excitable temperament, an action
-approaching to it is sometimes witnessed. And dancing
-has all the world through been regarded as natural to an
-elevated state of minds. Many of the special emotions
-show themselves in special muscular actions. The gratification
-resulting from success, raises the head and gives firmness
-to the gait. A hearty grasp of the hand is currently
-taken as indicative of friendship. Under a gush of affection
-the mother clasps her child to her breast, feeling as though
-she could squeeze it to death. And so in sundry other
-cases. Even in that brightening of the eye with which
-good news is received we may trace the same truth; for
-this sparkling appearance is due to an extra contraction of
-the muscle which raises the eyelid, and so allows more light
-to fall upon, and be reflected from, the wet surface of
-the eyeball.</p>
-
-<p>The bodily indications of painful emotion are equally
-numerous, and still more vehement. Discontent is shown
-by raised eyebrows and wrinkled forehead; disgust by a
-curl of the lip, offence by a pout. The impatient man beats
-a tattoo with his fingers on the table, swings his pendant
-leg with increasing rapidity, gives needless pokings to the
-fire, and presently paces with hasty strides about the room.
-In great grief there is wringing of the hands, and even
-tearing of the hair. An angry child stamps, or rolls on its
-back and kicks its heels in the air; and in manhood, anger,
-first showing itself in frowns, in distended nostrils, in
-compressed lips, goes on to produce grinding of the teeth,
-clenching of the fingers, blows of the fist on the table, and
-perhaps ends in a violent attack on the offending person,
-or in throwing about and breaking the furniture.
-From <span class="xxpn" id="p403">{403}</span>
-that pursing of the mouth indicative of slight displeasure,
-up to the frantic struggles of the maniac, we find that
-mental irritation tends to vent itself in bodily activity.</p>
-
-<p>All feelings, then—sensations or emotions, pleasurable
-or painful—have this common characteristic, that they
-are muscular stimuli. Not forgetting the few apparently
-exceptional cases in which emotions exceeding a certain
-intensity produce prostration, we may set it down as a general
-law, that alike in man and animals, there is a direct connexion
-between feeling and movement; the last growing
-more vehement as the first grows more intense. Were it
-allowable here to treat the matter scientifically, we might
-trace this general law down to the principle known among
-physiologists as that of <i>reflex action</i>.<a class="afnanch" href="#fn56" id="fnanch56">56</a>
-Without doing this,
-however, the above numerous instances justify the generalization
-that every kind of mental excitement ends in excitement
-of the muscles; and that the two preserve a more or less
-constant ratio to each other.</p>
-
-<p class="padtopa">“But what
-has all this to do with <i>The Origin and Function
-of Music</i>?” asks the reader. Very much, as we shall
-presently see. All music is originally vocal. All vocal
-sounds are produced by the agency of certain muscles.
-These muscles, in common with those of the body at large,
-are excited to contraction by pleasurable and painful feelings.
-And therefore it is that feelings demonstrate themselves in
-sounds as well as in movements. Therefore it is that Carlo
-barks as well as leaps when he is let out—that puss purrs
-as well as erects her tail—that the canary chirps as well as
-flutters. Therefore it is that the angry lion roars while he
-lashes his sides, and the dog growls while he retracts his
-lip. Therefore it is that the maimed animal not only
-struggles, but howls. And it is from this cause that in
-human beings bodily suffering expresses itself not
-only in <span class="xxpn" id="p404">{404}</span>
-contortions, but in shrieks and groans—that in anger, and
-fear, and grief, the gesticulations are accompanied by shouts
-and screams—that delightful sensations are followed by
-exclamations—and that we hear screams of joy and shouts
-of exultation.</p>
-
-<p>We have here, then, a principle underlying all vocal
-phenomena; including those of vocal music, and by consequence
-those of music in general. The muscles that move
-the chest, larynx, and vocal chords, contracting like other
-muscles in proportion to the intensity of the feelings; every
-different contraction of these muscles involving, as it does,
-a different adjustment of the vocal organs; every different
-adjustment of the vocal organs causing a change in the
-sound emitted;—it follows that variations of voice are the
-physiological results of variations of feeling. It follows
-that each inflection or modulation is the natural outcome of
-some passing emotion or sensation; and it follows that the
-explanation of all kinds of vocal expression, must be sought
-in this general relation between mental and muscular excitements.
-Let us, then, see whether we cannot thus account
-for the chief peculiarities in the utterance of the feelings:
-grouping these peculiarities under the heads of <i>loudness</i>,
-<i>quality or timbre</i>, <i>pitch</i>, <i>intervals</i>, and <i>rate of variation</i>.</p>
-
-<p class="padtopa">Between the
-lungs and the organs of voice, there is much
-the same relation as between the bellows of an organ and
-its pipes. And as the loudness of the sound given out by
-an organ-pipe increases with the strength of the blast from
-the bellows; so, other things equal, the loudness of a vocal
-sound increases with the strength of the blast from the
-lungs. But the expulsion of air from the lungs is effected
-by certain muscles of the chest and abdomen. The force
-with which these muscles contract, is proportionate to the
-intensity of the feeling experienced. Hence, <i>a priori</i>,
-loud sounds will be the habitual results of strong feelings.
-That they are so we have daily proof. The pain
-which <span class="xxpn" id="p405">{405}</span>
-if moderate, can be borne silently, causes outcries if it
-becomes extreme. While a slight vexation makes a child
-whimper, a fit of passion calls forth a howl that disturbs
-the neighbourhood. When the voices in an adjacent room
-become unusually audible, we infer anger, or surprise, or
-joy. Loudness of applause is significant of great approbation;
-and with uproarious mirth we associate the idea of
-high enjoyment. Commencing with the silence of apathy,
-we find that the utterances grow louder as the sensations or
-emotions, whether pleasurable or painful, grow stronger.</p>
-
-<p>That different <i>qualities</i> of voice accompany different
-mental states, and that under states of excitement the
-tones are more sonorous than usual, is another general
-fact admitting of a parallel explanation. The sounds of
-common conversation have but little resonance; those of
-strong feeling have much more. Under rising ill temper
-the voice acquires a metallic ring. In accordance with
-her constant mood, the ordinary speech of a virago has a
-piercing quality quite opposite to that softness indicative
-of placidity. A ringing laugh marks joyous temperament.
-Grief, unburdening itself, uses tones approaching in <i>timbre</i>
-to those of chanting; and in his most pathetic passages
-an eloquent speaker similarly falls into tones more vibratory
-than those common to him. Now any one may readily
-convince himself that resonant vocal sounds can be produced
-only by a certain muscular effort additional to that
-ordinarily needed. If after uttering a word in his speaking
-voice, the reader, without changing the pitch or the loudness,
-will <i>sing</i> this word, he will perceive that before he can
-sing it, he has to alter the adjustment of the vocal organs;
-to do which a certain force must be used; and by putting
-his fingers on that external prominence marking the top of
-the larynx, he will have further evidence that to produce a
-sonorous tone the organs must be drawn out of their usual
-position. Thus, then, the fact that the tones of excited
-feeling are more vibratory than
-those of common <span class="xxpn" id="p406">{406}</span>
-conversation, is another instance of the connexion between mental
-excitement and muscular excitement. The speaking voice,
-the recitative voice, and the singing voice, severally exemplify
-one general principle.</p>
-
-<p>That the <i>pitch</i> of the voice varies according to the action
-of the vocal muscles, scarcely needs saying. All know
-that the middle notes, in which they converse, are made
-without appreciable effort; and all know that to make
-either very high notes or very low notes requires considerable
-effort. In either ascending or descending from the
-pitch of ordinary speech, we are conscious of increasing
-muscular strain, which, at each extreme of the register,
-becomes painful. Hence it follows from our general
-principle, that while indifference or calmness will use the
-medium tones, the tones used during excitement will be
-either above or below them; and will rise higher and
-higher, or fall lower and lower, as the feelings grow
-stronger. This physiological deduction we also find to
-be in harmony with familiar facts. The habitual sufferer
-utters his complaints in a voice raised considerably above
-the natural key; and agonizing pain vents itself in either
-shrieks or groans—in very high or very low notes.
-Beginning at his talking pitch, the cry of the disappointed
-urchin grows more shrill as it grows louder. The “Oh!”
-of astonishment or delight, begins several notes below the
-middle voice, and descends still lower. Anger expresses
-itself in high tones, or else in “curses not loud but <i>deep</i>.”
-Deep tones, too, are always used in uttering strong
-reproaches. Such an exclamation as “Beware!” if made
-dramatically—that is, if made with a show of feeling—must
-be many notes lower than ordinary. Further, we
-have groans of disapprobation, groans of horror, groans of
-remorse. And extreme joy and fear are alike accompanied
-by shrill outcries.</p>
-
-<p>Nearly allied to the subject of pitch, is that of <i>intervals</i>;
-and the explanation of them carries our argument a
-step <span class="xxpn" id="p407">{407}</span>
-further. While calm speech is comparatively monotonous,
-emotion makes use of fifths, octaves, and even wider
-intervals. Listen to any one narrating or repeating something
-in which he has no interest, and his voice will not
-wander more than two or three notes above or below
-his medium note, and that by small steps; but when he
-comes to some exciting event he will be heard not only
-to use the higher and lower notes of his register, but to go
-from one to the other by larger leaps. Being unable
-in print to imitate these traits of feeling, we feel some
-difficulty in fully conveying them to the reader. But we
-may suggest a few remembrances which will perhaps call
-to mind a sufficiency of others. If two men living in the
-same place, and frequently seeing one another, meet, say
-at a public assembly, any phrase with which one accosts
-the other—as “Hallo, are you here?”—will have an
-ordinary intonation. But if one of them, after a long
-absence, has unexpectedly returned, the expression of
-surprise with which his friend greets him—“Hallo! how
-came you here?”—will be uttered in much more strongly
-contrasted tones. The two syllables of the word “Hallo”
-will be, the one much higher and the other much lower
-than before; and the rest of the sentence will similarly
-ascend and descend by longer steps. Again, if, supposing
-her maid to be in an adjoining room, the mistress of the
-house calls “Mary,” the two syllables of the name will
-be spoken in an ascending interval of a third. If Mary
-does not reply, the call will be repeated probably in a
-descending fifth; implying the slightest shade of annoyance
-at Mary’s inattention. Should Mary still make no
-answer, the increasing annoyance will show itself by the
-use of a descending octave on the next repetition of the
-call. And supposing the silence to continue, the lady, if
-not of a very even temper, will show her irritation at
-Mary’s seemingly intentional negligence by finally calling
-her in tones still more widely contrasted—the first
-syllable <span class="xxpn" id="p408">{408}</span>
-being higher and the last lower than before. Now, these
-and analogous facts, which the reader will readily accumulate,
-clearly conform to the law laid down. For to make
-large intervals requires more muscular action than to make
-small ones. But not only is the <i>extent</i> of vocal intervals
-thus explicable as due to the relation between nervous
-and muscular excitement, but also, in some degree, their
-<i>direction</i>, as ascending or descending. The middle notes
-being those which demand no appreciable effort of muscular
-adjustment; and the effort becoming greater as we either
-ascend or descend; it follows that a departure from the
-middle notes in either direction will mark increasing
-emotion; while a return towards the middle notes will
-mark decreasing emotion. Hence it happens that an
-enthusiastic person, uttering such a sentence as—“It was
-the most splendid sight I ever saw!” will ascend to the
-first syllable of the word “splendid,” and thence will
-descend: the word “splendid” marking the climax of
-the feeling produced by the recollection. Hence, again, it
-happens that, under some extreme vexation produced by
-another’s stupidity, an irascible man, exclaiming—“What
-a confounded fool the fellow is!” will begin somewhat
-below his middle voice, and descending to the word “fool,”
-which he will utter in one of his deepest notes, will then
-ascend. And it may be remarked, that the word “fool”
-will not only be deeper and louder than the rest, but will
-also have more emphasis of articulation—another mode
-in which muscular excitement is shown. There is some
-danger, however, in giving instances like this; seeing that
-as the mode of rendering will vary according to the
-intensity of the feeling which the reader feigns to himself,
-the right cadence may not be hit upon. With single
-words there is less difficulty. Thus the “Indeed!” with
-which a surprising fact is received, mostly begins on the
-middle note of the voice, and rises with the second syllable;
-or, if disapprobation as well as astonishment is felt,
-the <span class="xxpn" id="p409">{409}</span>
-first syllable will be below the middle note, and the second
-lower still. Conversely, the word “Alas!” which marks
-not the rise of a paroxysm of grief, but its decline, is
-uttered in a cadence descending towards the middle note;
-or, if the first syllable is in the lower part of the register,
-the second ascends towards the middle note. In the
-“Heigh-ho!” expressive of mental or muscular prostration,
-we may see the same truth; and if the cadence appropriate
-to it be inverted, the absurdity of the effect clearly shows
-how the meaning of intervals is dependent on the principle
-we have been illustrating.</p>
-
-<p>The remaining characteristic of emotional speech which
-we have to notice, is that of <i>variability of pitch</i>. It is
-scarcely possible here to convey adequate ideas of this
-more complex manifestation. We must be content with
-simply indicating some occasions on which it may be
-observed. On a meeting of friends, for instance—as when
-there arrives a party of much-wished-for visitors—the
-voices of all will be heard to undergo changes of pitch not
-only greater but much more numerous than usual. If a
-speaker at a public meeting is interrupted by some squabble
-among those he is addressing, his comparatively level
-tones will be in marked contrast with the rapidly changing
-ones of the disputants. And among children, whose feelings
-are less under control than those of adults, this
-peculiarity is still more decided. During a scene of complaint
-and recrimination between two excitable little girls,
-the voices may be heard to run up and down the gamut
-several times in each sentence. In such cases we once
-more recognize the same law: for muscular excitement is
-shown not only in strength of contraction, but also in the
-rapidity with which different muscular adjustments succeed
-one another.</p>
-
-<p>Thus we find all the leading vocal phenomena to have a
-physiological basis. They are so many manifestations of
-the general law that feeling is a stimulus to
-muscular <span class="xxpn" id="p410">{410}</span>
-action—a law conformed to throughout the whole economy,
-not of man only, but of every sensitive creature—a law,
-therefore, which lies deep in the nature of animal organization.
-The expressiveness of these various modifications
-of voice is therefore innate. Each of us, from babyhood
-upwards, has been spontaneously making them, when
-under the various sensations and emotions by which they
-are produced. Having been conscious of each feeling at
-the same time that we heard ourselves make the consequent
-sound, we have acquired an established association of ideas
-between such sound and the feeling which caused it.
-When the like sound is made by another, we ascribe the
-like feeling to him; and by a further consequence we not
-only ascribe to him that feeling, but have a certain degree
-of it aroused in ourselves: for to become conscious of the
-feeling which another is experiencing, is to have that
-feeling awakened in our own con­scious­ness, which is the
-same thing as experiencing the feeling. Thus these
-various modifications of voice become not only a language
-through which we understand the emotions of
-others, but also the means of exciting our sympathy with
-such emotions.</p>
-
-<p class="padtopa">Have we
-not here, then, adequate data for a theory of
-music? These vocal peculiarities which indicate excited
-feeling, <i>are those which especially distinguish song from
-ordinary speech</i>. Every one of the alterations of voice
-which we have found to be a physiological result of pain
-or pleasure, <i>is carried to an extreme in vocal music</i>. For
-instance, we saw that, in virtue of the general relation
-between mental and muscular excitement, one characteristic
-of passionate utterance is <i>loudness</i>. Well, its comparative
-loudness is one of the distinctive marks of song as
-contrasted with the speech of daily life. Though there are
-<i>piano</i> passages in contrast with the <i>forte</i> passages, yet the
-average loudness of the singing voice is much greater
-than <span class="xxpn" id="p411">{411}</span>
-that of the speaking voice; and further, the <i>forte</i> passages
-of an air are those intended to represent the climax of its
-emotion. We next saw that the tones in which emotion
-expresses itself, are, in conformity with this same law, of
-a more sonorous <i>timbre</i> than those of calm conversation.
-Here, too, song displays a still higher degree of the
-peculiarity; for the singing tone is the most resonant we
-can make. Again, it was shown that, from a like cause,
-mental excitement vents itself in the higher and lower
-notes of the register; using the middle notes but seldom.
-And it scarcely needs saying that vocal music is still more
-distinguished by its comparative neglect of the notes in
-which we talk, and its habitual use of those above or
-below them; and, moreover, that its most passionate
-effects are commonly produced at the two extremities of
-its scale, but especially at the upper one. A yet further
-trait of strong feeling, similarly accounted for, was the
-habitual employment of larger intervals than are employed
-in common converse. This trait, also, every ballad and
-<i>aria</i> systematically elaborates: add to which, that the
-direction of these intervals, which, as diverging from or
-converging towards the medium tones, we found to be
-physiologically expressive of increasing or decreasing
-emotion, may be observed to have in music like meanings.
-Once more, it was pointed out that not only extreme but
-also rapid variations of pitch, are characteristic of mental
-excitement; and once more we see in the quick changes of
-every melody, that song carries the characteristic as far, if
-not farther. Thus, in respect alike of <i>loudness</i>, <i>timbre</i>,
-<i>pitch</i>, <i>intervals</i>, and <i>rate of variation</i>, song employs and
-exaggerates the natural language of the emotions;—it
-arises from a systematic combination of those vocal peculiarities
-which are the physiological effects of acute pleasure
-and pain.</p>
-
-<p>Besides these chief char­ac­ter­is­tics of song as distinguished
-from common speech, there are sundry minor
-ones <span class="xxpn" id="p412">{412}</span>
-similarly explicable as due to the relation between mental
-and muscular excitement; and before proceeding further,
-these should be briefly noticed. Thus, certain passions,
-and perhaps all passions when pushed to an extreme,
-produce (probably through their influence over the action
-of the heart) an effect the reverse of that which has been
-described: they cause a physical prostration, one symptom
-of which is a general relaxation of the muscles, and a consequent
-trembling. We have the trembling of anger, of fear,
-of hope, of joy; and the vocal muscles being implicated with
-the rest, the voice too becomes tremulous. Now, in singing,
-this tremulousness of voice is effectively used by some
-vocalists in pathetic passages; sometimes, indeed, because
-of its effectiveness, too much used by them—as by Tamberlik,
-for instance. Again, there is a mode of musical
-execution known as the <i>staccato</i>, appropriate to energetic
-passages—to passages expressive of exhilaration, of resolution,
-of confidence. The action of the vocal muscles
-which produces this staccato style, is analogous to the
-muscular action which produces the sharp, decisive, energetic
-movements of body indicating these states of mind;
-and therefore it is that the staccato style has the meaning
-we ascribe to it. Conversely, slurred intervals are expressive
-of gentler and less active feelings; and are so
-because they imply the smaller muscular vivacity due to a
-lower mental energy. The difference of effect resulting
-from difference of <i>time</i> in music, is also attributable to this
-same law. Already it has been pointed out that the more
-frequent changes of pitch which ordinarily result from
-passion, are imitated and developed in song; and here we
-have to add, that the various rates of such changes,
-appropriate to the different styles of music, are further
-traits having the same derivation. The slowest movements,
-<i>largo</i> and <i>adagio</i>, are used where such depressing emotions
-as grief, or such unexciting emotions as reverence, are to
-be portrayed; while the more rapid movements,
-<i>andante</i>, <span class="xxpn" id="p413">{413}</span>
-<i>allegro</i>, <i>presto</i>, represent successively increasing degrees of
-mental vivacity; and do this because they imply that
-muscular activity which flows from this mental vivacity.
-Even the <i>rhythm</i>, which forms a remaining distinction
-between song and speech, may not improbably have a
-kindred cause. Why the actions excited by strong feeling
-should tend to become rhythmical, is not obvious; but
-that they do so there are divers evidences. There is the
-swaying of the body to and fro under pain or grief, of the
-leg under impatience or agitation. Dancing, too, is a
-rhythmical action natural to elevated emotion. That
-under excitement speech acquires a certain rhythm, we
-may occasionally perceive in the highest efforts of an
-orator. In poetry, which is a form of speech used for the
-better expression of emotional ideas, we have this rhythmical
-tendency developed. And when we bear in mind
-that dancing, poetry, and music are connate—are originally
-constituent parts of the same thing, it becomes clear that
-the measured movement common to them all implies a
-rhythmical action of the whole system, the vocal apparatus
-included; and that so the rhythm of music is a more
-subtle and complex result of this relation between mental
-and muscular excitement.</p>
-
-<p>But it is time to end this analysis, which possibly we
-have already carried too far. It is not to be supposed that
-the more special peculiarities of musical expression are to
-be definitely explained. Though probably they may all in
-some way conform to the principle that has been worked
-out, it is impracticable to trace that principle in its more
-ramified applications. Nor is it needful to our argument
-that it should be so traced. The foregoing facts sufficiently
-prove that what we regard as the distinctive traits of song,
-are simply the traits of emotional speech intensified and
-systematized. In respect of its general char­ac­ter­is­tics,
-we think it has been made clear that vocal music, and
-by <span class="xxpn" id="p414">{414}</span>
-consequence all music, is an idealization of the natural
-language of passion.</p>
-
-<p class="padtopa">As far
-as it goes, the scanty evidence furnished by history
-confirms this conclusion. Note first the fact (not
-properly an historical one, but fitly grouped with such) that
-the dance-chants of savage tribes are very monotonous;
-and in virtue of their monotony are more nearly allied to
-ordinary speech than are the songs of civilized races.
-Joining with this the fact that there are still extant among
-boatmen and others in the East, ancient chants of a like
-monotonous character, we may infer that vocal music
-originally diverged from emotional speech in a gradual,
-unobtrusive manner; and this is the inference to which
-our argument points. From the characters of the intervals
-the same conclusion may be drawn.</p>
-
-<blockquote class="blktight">
-
-<p>“The songs of savages in the lowest scale of civilization are
-generally confined to the compass of few notes, seldom extending
-beyond the interval of the <i>fifth</i>. Sometimes, however, a sudden
-transition into the octave occurs, especially in sudden exclamations,
-or where a word naturally dictates an emphatic raising of the voice.
-The <i>fifth</i> especially plays a prominent part in primitive vocal
-music. .&#160;.&#160;. But it must not be supposed that each interval is distinctly
-intoned: on the contrary, in the transition from one interval to
-another, all the intermediate intervals are slightly touched in a way
-somewhat similar to a violinist drawing his finger rapidly over the
-string from one note to another to connect them; and as the intervals
-themselves are seldom clearly defined, it will easily be understood
-how nearly impossible it is to write down such songs in our notation
-so as to convey a correct idea of their natural effect.”<a class="afnanch" href="#fn57" id="fnanch57">57</a></p></blockquote>
-
-<p>Further evidence to the same effect is supplied by Greek history. The
-early poems of the Greeks—which, be it remembered, were sacred legends
-embodied in that rhythmical, metaphorical language which strong feeling
-excites—were not recited, but chanted: the tones
-and cadences <span class="xxpn" id="p415">{415}</span>
-were made musical by the same influences which made
-the speech poetical. By those who have investigated the
-matter, this chanting is believed to have been not what we
-call singing, but nearly allied to our recitative—nearly allied
-but simpler. Several facts conspire to show this. The
-earliest stringed instruments had sometimes four, sometimes
-five strings: Egyptian frescoes delineate some of the
-simpler harps as thus constituted, and there are kindred
-representations of the lyres and allied instruments of the
-Assyrians, Hebrews, Greeks and Romans. That the earliest
-Greek lyre had but four strings, and that the recitative
-of the poet was uttered in unison with its sounds, Neumann
-finds definite proof in a verse ascribed to Terpander, celebrating
-his introduction of the seven-stringed <span class="nowrap">lyre:―</span></p>
-
-<blockquote class="blkpoem"><div class="nowrap">
-<p class="pvsq">“The four-tonèd hymns now rejecting,</p>
-<p class="pvs1">And yearning for songs new and sweet,</p>
-<p class="pvs0">With seven strings softly vibrating,</p>
-<p class="pvs1">The lyre anon shall we greet.”</p>
-<p class="pvs1"></p>
-</div></blockquote>
-
-<p class="pcontinue">Hence it
-follows that the primitive recitative was simpler
-than our modern recitative, and, as such, much less remote
-from common speech than our own singing is. For recitative,
-or musical recitation, is in all respects intermediate
-between speech and song. Its average effects are not so
-<i>loud</i> as those of song. Its tones are less sonorous in
-<i>timbre</i> than those of song. Commonly it diverges to a
-smaller extent from the middle notes—uses notes neither
-so high nor so low in <i>pitch</i>. The <i>intervals</i> habitual to it
-are neither so wide nor so varied. Its <i>rate of variation</i> is
-not so rapid. And at the same time that its primary <i>rhythm</i>
-is less decided, it has none of that secondary rhythm produced
-by recurrence of the same or parallel musical phrases,
-which is one of the marked char­ac­ter­is­tics of song. Thus,
-then, we may not only infer, from the evidence furnished
-by existing barbarous tribes, that the vocal music of pre-historic
-times was emotional speech very slightly exalted;
-but we see that the earliest vocal music of which we
-have <span class="xxpn" id="p416">{416}</span>
-any account, differed much less from emotional speech than
-does the vocal music of our days.</p>
-
-<p>That recitative—beyond which, by the way, the Chinese
-and Hindoos seem never to have advanced—grew naturally
-out of the modulations and cadences of strong feeling, we
-have indeed current evidence. There are even now to be
-met with occasions on which strong feeling vents itself in
-this form. Whoever has been present when a meeting of
-Quakers was addressed by one of their number (whose
-practice it is to speak only under the influence of religious
-emotion), must have been struck by the quite unusual
-tones, like those of a subdued chant, in which the address
-was made. On passing a chapel in Wales during service,
-the raised and sing-song voice of the preacher draws the
-attention. It is clear, too, that the intoning used in
-churches is representative of this mental state; and has
-been adopted on account of the congruity between it and
-the contrition, supplication, or reverence, verbally expressed.</p>
-
-<p>And if, as we have good reason to believe, recitative
-arose by degrees out of emotional speech, it becomes manifest
-that by a continuance of the same process song has
-arisen out of recitative. Just as, from the orations and
-legends of savages, expressed in the metaphorical, allegorical
-style natural to them, there sprung epic poetry, out
-of which lyric poetry was afterwards developed; so, from
-the exalted tones and cadences in which such orations
-and legends were delivered, came the chant or recitative
-music, from which lyrical music has since grown up. And
-there has not only thus been a simultaneous and parallel
-genesis, but there has been reached a parallelism of results.
-For lyrical poetry differs from epic poetry, just as lyrical
-music differs from recitative: each still further intensifies
-the natural language of the emotions. Lyrical poetry is
-more metaphorical, more hyperbolic, more elliptical, and
-adds the rhythm of lines to the rhythm of feet; just as
-lyrical music is louder, more sonorous, more extreme in
-its <span class="xxpn" id="p417">{417}</span>
-intervals, and adds the rhythm of phrases to the rhythm of
-bars. And the known fact that out of epic poetry the
-stronger passions developed lyrical poetry as their appropriate
-vehicle, strengthens the inference that they similarly
-developed lyrical music out of recitative.</p>
-
-<p>Nor indeed are we without evidences of the transition.
-It needs but to listen to an opera to hear the leading
-gradations. Between the comparatively level recitative of
-ordinary dialogue, the more varied recitative with wider
-intervals and higher tones used in exciting scenes, the still
-more musical recitative which preludes an air, and the air
-itself, the successive steps are but small; and the fact that
-among airs themselves gradations of like nature may be
-traced, further confirms the conclusion that the highest
-form of vocal music was arrived at by degrees.</p>
-
-<p>We have some clue to the influences which have induced
-this development; and may roughly conceive the process
-of it. As the tones, intervals, and cadences of strong
-emotion were the elements out of which song was elaborated;
-so, we may expect to find that still stronger emotion
-produced the elaboration; and we have evidence implying
-this. Musical composers are men of acute sensibilities.
-The Life of Mozart depicts him as one of intensely active
-affections and highly impressionable temperament. Various
-anecdotes represent Beethoven as very susceptible and very
-passionate. Mendelssohn is described by those who knew
-him as having been full of fine feeling. And the almost
-incredible sensitiveness of Chopin has been illustrated in
-the memoirs of George Sand. An unusually emotional
-nature being thus the general characteristic of musical
-composers, we have in it just the agency required for the
-development of recitative and song. Any cause of excitement
-will generate just those exaggerations which we have
-found to distinguish the lower vocal music from emotional
-speech, and the higher vocal music from the lower. Thus
-it becomes credible that the four-toned recitative of
-the <span class="xxpn" id="p418">{418}</span>
-early Greek poets (like all poets, nearly allied to composers
-in the comparative intensity of their feelings), was really
-nothing more than the slightly exaggerated emotional
-speech natural to them, which grew by frequent use into
-an organized form. And we may infer that the accumulated
-agency of subsequent poet-musicians, inheriting and
-adding to the products of those who went before them,
-sufficed, in the course of many centuries, to develope this
-simple four-toned recitative into a vocal music having great
-complexity and range.</p>
-
-<p>Not only may we so understand how more sonorous tones,
-greater extremes of pitch, and wider intervals, were gradually
-introduced; but also how there arose a greater variety
-and complexity of musical expression. For this same
-passionate, enthusiastic temperament, which leads the
-musical composer to express the feelings possessed by others
-as well as himself, in more marked cadences than they would
-use, also leads him to give musical utterance to feelings
-which they either do not experience, or experience in but
-slight degrees. And thus we may in some measure understand
-how it happens that music not only so strongly excites
-our more familiar feelings, but also produces feelings we
-never had before—arouses dormant sentiments of which we
-do not know the meaning; or, as Richter says—tells us of
-things we have not seen and shall not see.</p>
-
-<p class="padtopa">Indirect evidences
-of several kinds remain to be briefly
-pointed out. One of them is the difficulty, not to say
-impossibility, of otherwise accounting for the expressiveness
-of music. Whence comes it that special combinations of
-notes should have special effects upon our emotions?—that
-one should give us a feeling of exhilaration, another of
-melancholy, another of affection, another of reverence? Is
-it that these special combinations have intrinsic meanings
-apart from the human constitution?—that a certain number
-of aërial waves per second, followed by a certain
-other <span class="xxpn" id="p419">{419}</span>
-number, in the nature of things signify grief, while in the
-reverse order they signify joy; and similarly with all other
-intervals, phrases, and cadences? Few will be so irrational
-as to think this. Is it, then, that the meanings of these
-special combinations are conventional only?—that we learn
-their implications, as we do those of words, by observing
-how others understand them? This is an hypothesis not
-only devoid of evidence, but directly opposed to the experience
-of every one; and it is excluded by the fact that
-children, un­con­ven­tion­al­ised though they are, show great
-susceptibility to music. How, then, are musical effects to
-be explained? If the theory above set forth be accepted,
-the difficulty disappears. If music, taking for its raw
-material the various modifications of voice which are the
-physiological results of excited feeling, intensifies, combines,
-and complicates them—if it exaggerates the loudness, the
-resonance, the pitch, the intervals, and the variability, which,
-in virtue of an organic law, are the char­ac­ter­is­tics of passionate
-speech—if, by carrying out these further, more
-consistently, more unitedly, and more sustainedly,it produces
-an idealized language of emotion; then its power over us
-becomes comprehensible. But in the absence of this theory
-the expressiveness of music appears inexplicable.</p>
-
-<p>Again, the preference we feel for certain qualities of sound
-presents a like difficulty, admitting only of a like solution.
-It is generally agreed that the tones of the human voice are
-more pleasing than any others. If music takes its rise from
-the modulations of the human voice under emotion, it is a
-natural consequence that the tones of that voice appeal to
-our feelings more than any others, and are considered more
-beautiful than any others. But deny that music has this
-origin, and the only alternative is the untenable one that
-the vibrations proceeding from a vocalist’s throat are,
-objectively considered, of a higher order than those from a
-horn or a violin.</p>
-
-<p>Once more, the question—How is the expressiveness
-of <span class="xxpn" id="p420">{420}</span>
-music to be otherwise accounted for? may be supplemented
-by the question—How is the genesis of music to be otherwise
-accounted for? That music is a product of civilization,
-is manifest; for though some of the lowest savages have
-their dance-chants, these are of a kind scarcely to be dignified
-by the title musical: at most, they supply but the vaguest
-rudiment of music, properly so called. And if music has
-been by slow steps developed in the course of civilization, it
-must have been developed out of something. If, then, its
-origin is not that above alleged, what is its origin?</p>
-
-<p>Thus we find that the negative evidence confirms the
-positive, and that, taken together, they furnish strong proof.
-We have seen that there is a physiological relation, common
-to man and all animals, between feeling and muscular action;
-that as vocal sounds are produced by muscular action, there
-is a consequent physiological relation between feeling and
-vocal sounds; that all the modifications of voice expressive
-of feeling are the direct results of this physiological relation;
-that music, adopting all these modifications, intensifies them
-more and more as it ascends to its higher and higher forms;
-that, from the ancient epic poet chanting his verses, down
-to the modern musical composer, men of unusually strong
-feelings prone to express them in extreme forms, have been
-naturally the agents of these successive in­ten­si­fi­ca­tions; and
-that so there has little by little arisen a wide divergence
-between this idealized language of emotion and its natural
-language: to which direct evidence we have just added the
-indirect—that on no other tenable hypothesis can either the
-expressiveness of music or the genesis of music be explained.</p>
-
-<p class="padtopa">And now, what
-is the <i>function</i> of music? Has music any
-effect beyond the immediate pleasure it produces? Analogy
-suggests that it has. The enjoyments of a good dinner do
-not end with themselves, but minister to bodily well-being.
-Though people do not marry with a view to maintain the
-race, yet the passions which impel them to marry secure
-its <span class="xxpn" id="p421">{421}</span>
-maintenance. Parental affection is a feeling which, while
-it conduces to parental happiness, ensures the nurture of
-offspring. Men love to accumulate property, often without
-thought of the benefits it produces; but in pursuing the
-pleasure of acquisition they indirectly open the way to other
-pleasures. The wish for public approval impels all of us
-to do many things which we should otherwise not do,—to
-undertake great labours, face great dangers, and habitually
-rule ourselves in ways that smooth social intercourse; so that,
-in gratifying our love of approbation we subserve divers
-ulterior purposes. And, generally, our nature is such that
-in fulfilling each desire, we in some way facilitate fulfilment
-of the rest. But the love of music seems to exist for its
-own sake. The delights of melody and harmony do not
-obviously minister to the welfare either of the individual or
-of society. May we not suspect, however, that this exception
-is apparent only? Is it not a rational inquiry—What are the
-indirect benefits which accrue from music, in addition to the
-direct pleasure it gives?</p>
-
-<p>But that it would take us too far out of our track, we
-should prelude this inquiry by illustrating at some length a
-certain general law of progress;—the law that alike in occupations,
-sciences, arts, the divisions which had a common
-root, but by gradual divergence have become distinct, and
-are now being separately developed, are not truly independent,
-but severally act and react on one another to their
-mutual advancement. Merely hinting thus much, however,
-by way of showing that there are many analogies to justify
-us, we go on to express the opinion that there exists a
-relationship of this kind between music and speech.</p>
-
-<p>All speech is compounded of two elements, the words
-and the tones in which they are uttered—the signs of ideas
-and the signs of feelings. While certain articulations
-express the thought, certain modulations express the
-more or less of pain or pleasure which the thought gives.
-Using the word <i>cadence</i> in an unusually extended sense,
-as <span class="xxpn" id="p422">{422}</span>
-comprehending all variations of voice, we may say that
-<i>cadence is the commentary of the emotions upon the propositions
-of the intellect</i>. This duality of spoken language,
-though not formally recognized, is recognized in practice
-by every one; and every one knows that very often more
-weight attaches to the tones than to the words. Daily
-experience supplies cases in which the same sentence of
-disapproval will be understood as meaning little or meaning
-much, according to the vocal inflections which accompany
-it; and daily experience supplies still more striking
-cases in which words and tones are in direct contradiction—the
-first expressing consent, while the last express reluctance;
-and the last being believed rather than the first.</p>
-
-<p>These two distinct but interwoven elements of speech
-have been undergoing a simultaneous development. We
-know that in the course of civilization words have been
-multiplied, new parts of speech have been introduced,
-sentences have grown more varied and complex; and we
-may fairly infer that during the same time new modifications
-of voice have come into use, fresh intervals have
-been adopted, and cadences have become more elaborate.
-For while, on the one hand, it is absurd to suppose that,
-along with the undeveloped verbal forms of barbarism,
-there existed developed vocal inflections; it is, on the other
-hand, necessary to suppose that, along with the higher
-and more numerous verbal forms needed to convey the
-multiplied and complicated ideas of civilized life, there
-have grown up those more involved changes of voice which
-express the feelings proper to such ideas. If intellectual
-language is a growth, so also, without doubt, is emotional
-language a growth.</p>
-
-<p>Now, the hypothesis which we have hinted above, is that,
-beyond the direct pleasure which it gives, music has the
-indirect effect of developing this language of the emotions.
-Having its root, as we have endeavoured to show, in those
-tones, intervals, and cadences of speech
-which express <span class="xxpn" id="p423">{423}</span>
-feeling—arising by the combination and intensifying of these,
-and coming finally to have an embodiment of its own;
-music has all along been reacting upon speech, and increasing
-its power of rendering emotion. The use in recitative
-and song of inflections more expressive than ordinary ones,
-must from the beginning have tended to develope the
-ordinary ones. The complex musical phrases by which
-composers have conveyed complex emotions, may rationally
-be supposed to influence us in making those involved
-cadences of conversation by which we convey our subtler
-thoughts and feelings. If the cultivation of music has any
-effect on the mind, what more natural effect is there than
-this of developing our perception of the meanings of
-qualities, and modulations of voice; and giving us a correspondingly
-increased power of using them? Just as
-chemistry, arising out of the processes of metallurgy and
-the industrial arts, and gradually growing into an independent
-study, has now become an aid to all kinds of production—just
-as physiology, originating from medicine and once
-subordinate to it, but latterly pursued for its own sake, is
-in our day coming to be the science on which the progress
-of medicine depends;—so, music, having its root in emotional
-language, and gradually evolved from it, has ever been
-reacting upon and further advancing it.</p>
-
-<p>It will scarcely be expected that much direct evidence
-in support of this conclusion can be given. The facts are
-of a kind which it is difficult to measure, and of which we
-have no records. Some suggestive traits, however, are to
-be noted. May we not say, for instance, that the Italians,
-among whom modern music was earliest cultivated, and who
-have more especially excelled in melody (the division of
-music with which our argument is chiefly concerned)—may
-we not say that these Italians speak in more varied and
-expressive inflections and cadences than any other people?
-On the other hand, may we not say that, confined almost
-exclusively as they have hitherto been to their
-national <span class="xxpn" id="p424">{424}</span>
-airs, and therefore accustomed to but a limited range of
-musical expression, the Scotch are unusually monotonous
-in the intervals and modulations of their speech? And
-again, do we not find among different classes of the same
-nation, differences that have like implications? The gentleman
-and the clown stand in decided contrast with respect
-to variety of intonation. Listen to the conversation of a
-servant-girl, and then to that of a refined lady, and the
-more delicate and complex changes of voice used by the latter
-will be conspicuous. Now, without going so far as to say
-that out of all the differences of culture to which the upper
-and lower classes are subjected, difference of musical culture
-is that to which alone this difference of speech is ascribable;
-yet we may fairly say that there seems a much more
-obvious connexion of cause and effect between these than
-between any others. Thus, while the inductive evidence
-to which we can appeal is but scanty and vague, yet what
-there is favours our position.</p>
-
-<p class="padtopa">Probably most
-will think that the function here assigned
-to music is one of very little moment. But reflection may
-lead them to a contrary conviction. In its bearings upon
-human happiness, this emotional language which musical
-culture develops and refines, is only second in importance
-to the language of the intellect; perhaps not even second
-to it. For these modifications of voice produced by feelings,
-are the means of exciting like feelings in others. Joined
-with gestures and expressions of face, they give life to the
-otherwise dead words in which the intellect utters its ideas;
-and so enable the hearer not only to <i>understand</i> the state
-of mind they accompany, but to <i>partake</i> of that state. In
-short, they are the chief media of <i>sympathy</i>. And if we
-consider how much both our general welfare and our immediate
-pleasures depend on sympathy, we shall recognize
-the importance of whatever makes this sympathy greater.
-If we bear in mind that by their fellow-feeling men are
-led <span class="xxpn" id="p425">{425}</span>
-to behave justly and kindly to one another—that the difference
-between the cruelty of the barbarous and the humanity
-of the civilized, results from the increase of fellow-feeling;
-if we bear in mind that this faculty which makes
-us sharers in the joys and sorrows of others, is the basis of
-all the higher affections; if we bear in mind how much our
-direct gratifications are intensified by sympathy,—how, at
-the theatre, the concert, the picture gallery, we lose half
-our enjoyment if we have no one to enjoy with us;—we
-shall see that the agencies which communicate it can
-scarcely be overrated in value. The tendency of civilization
-is to repress the antagonistic elements of our characters
-and to develope the social ones—to curb our purely selfish
-desires and exercise our unselfish ones—to replace private
-gratifications by gratifications resulting from, or involving,
-the pleasures of others. And while, by this adaptation to
-the social state, the sympathetic side of our nature is being
-unfolded, there is simultaneously growing up a language of
-sympathetic intercourse—a language through which we
-communicate to others the happiness we feel, and are made
-sharers in their happiness. This double process, of which
-the effects are already appreciable, must go on to an extent
-of which we can as yet have no adequate conception. The
-habitual concealment of our feelings diminishing, as it must,
-in proportion as our feelings become such as do not demand
-concealment, the exhibition of them will become more vivid
-than we now dare allow it to be; and this implies a more
-expressive emotional language. At the same time, feelings
-of higher and more complex kinds, as yet experienced only
-by the cultivated few, will become general; and there will
-be a corresponding development of the emotional language
-into more involved forms. Just as there has silently grown
-up a language of ideas, which, rude as it at first was, now
-enables us to convey with precision the most subtle and
-complicated thoughts; so, there is still silently growing up
-a language of feelings, which, notwithstanding its
-present <span class="xxpn" id="p426">{426}</span>
-imperfection, we may expect will ultimately enable men
-vividly and completely to impress on each other the emotions
-which they experience from moment to moment.</p>
-
-<p>Thus if, as we have endeavoured to show, it is the
-function of music to facilitate the development of this
-emotional language, we may regard music as an aid to the
-achievement of that higher happiness which it indistinctly
-shadows forth. Those vague feelings of unexperienced
-felicity which music arouses—those indefinite impressions of
-an unknown ideal life which it calls up, may be considered
-as a prophecy, the fulfilment of which music itself aids.
-The strange capacity which we have for being affected by
-melody and harmony, may be taken to imply both that it
-is within the possibilities of our nature to realize those
-intenser delights they dimly suggest, and that they are
-in some way concerned in the realization of them. If so
-the power and the meaning of music become comprehensible;
-but otherwise they are a mystery.</p>
-
-<p>We will only add that, if the probability of these corollaries
-be admitted, then music must take rank as the
-highest of the fine arts—as the one which, more than any
-other, ministers to human welfare. And thus, even leaving
-out of view the immediate gratifications it is hourly giving,
-we cannot too much applaud that musical culture which
-is becoming one of the char­ac­ter­is­tics of our age.</p>
-
-<div class="chapter">
-<h3><span class="smcap">P<b>OSTSCRIPT.</b></span></h3>
-
-<p>An opponent, or partial opponent, of high authority,
-whose views were published some fourteen years after the
-above essay, must here be answered: I mean Mr. Darwin.
-Diligent and careful as an observer beyond naturalists in
-general, and still more beyond those who are untrained in
-research, his judgment on a question which must
-be <span class="xxpn" id="p427">{427}</span>
-decided by induction is one to be received with great
-respect. I think, however, examination will show that in
-this instance Mr. Darwin’s observations are inadequate,
-and his reasonings upon them inconclusive. Swayed by
-his doctrine of sexual selection, he has leaned towards the
-view that music had its origin in the expression of
-amatory feeling, and has been led to over-estimate such
-evidence as he thinks favours that view, while ignoring the
-difficulties in its way, and the large amount of evidence
-supporting another view. Before considering the special
-reasons for dissenting from his hypothesis, let us look at
-the most general reasons.</p></div>
-
-<p>The interpretation of music which Mr. Darwin gives,
-agrees with my own in supposing music to be developed
-from vocal noises; but differs in supposing a particular
-class of vocal noises to have originated it—the amatory
-class. I have aimed to show that music has its germs in the
-sounds which the voice emits under excitement, and eventually
-gains this or that character according to the kind
-of excitement; whereas Mr. Darwin argues that music
-arises from those sounds which the male makes during
-the excitements of courtship, that they are consciously
-made to charm the female, and that from the resulting
-combinations of sounds arise not love-music only but music
-in general. That certain tones of voice and cadences having
-some likeness of nature are spontaneously used to express
-grief, others to express joy, others to express affection, and
-others to express triumph or martial ardour, is undeniable.
-According to the view I have set forth, the whole body of
-these vocal manifestations of emotion form the root of music.
-According to Mr. Darwin’s view, the sounds which are
-prompted by the amatory feeling only, having originated
-musical utterance, there are derived from these all the other
-varieties of musical utterance which aim to express other
-kinds of feeling. This roundabout derivation has, I think,
-less probability than the direct
-derivation. <span class="xxpn" id="p428">{428}</span></p>
-
-<p>This antithesis and its implications will perhaps be more
-clearly understood on looking at the facts under their nervo-muscular
-aspect. Mr. Darwin recognizes the truth of the
-doctrine with which the foregoing essay sets out, that feeling
-discharges itself in action: saying of the air-breathing vertebrata
-that―</p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“When the primeval members of this class
-were strongly excited and their muscles violently contracted,
-purposeless sounds would almost certainly have been produced;
-and these, if they proved in any way serviceable, might readily
-have been modified or intensified by the preservation of
-properly adapted variations.” (<i>The Descent of Man</i>, vol. ii.,
-p. 331.)</p></blockquote>
-
-<p class="pcontinue">But
-though this passage recognizes the general relation
-between feelings and those muscular contractions which
-cause sounds, it does so inadequately; since it ignores, on
-the one hand, those loudest sounds which accompany intense
-sensations—the shrieks and groans of bodily agony;
-while, on the other hand, it ignores those multitudinous
-sounds not produced “under the excitement of love, rage,
-and jealousy,” but which accompany ordinary amounts of
-feelings, various in their kinds. And it is because he does
-not bear in mind how large a proportion of vocal noises are
-caused by other excitements, that Mr. Darwin thinks “a
-strong case can be made out, that the vocal organs were
-primarily used and perfected in relation to the propagation
-of the species” (p. 330).</p>
-
-<p>Certainly the animals around us yield but few facts
-countenancing his view. The cooing of pigeons may,
-indeed, be named in its support; and it may be contended
-that caterwauling furnishes evidence; though I doubt
-whether the sounds are made by the male to charm the
-female. But the howling of dogs has no relation to sexual
-excitements; nor has their barking, which is used to express
-emotion of almost any kind. Pigs grunt sometimes through
-pleasurable expectation, sometimes during the gratifications
-of eating, sometimes from a general content while seeking
-about for food. The bleatings of sheep, again, occur under
-the promptings of various feelings, usually of no
-great <span class="xxpn" id="p429">{429}</span>
-intensity: social and maternal rather than sexual. The
-like holds with the lowing of cattle. Nor is it otherwise
-with poultry. The quacking of ducks indicates general
-satisfaction, and the screams occasionally vented by a
-flock of geese seem rather to express a wave of social
-excitement than anything else. Save after laying an
-egg, when the sounds have the character of triumph, the
-cluckings of a hen show content; and on various occasions
-cock-crowing apparently implies good spirits only.
-In all cases an overflow of nervous energy has to find
-vent; and while in some cases it leads to wagging of
-the tail, in others it leads to contraction of the vocal
-muscles. That this relation holds, not of one kind of
-feeling, but of many kinds, is a truth which seems to
-me at variance with the view “that the vocal organs
-were primarily used and perfected in relation to the propagation
-of the species.”</p>
-
-<p>The hypothesis that music had its origin in the amatory
-sounds made by the male to charm the female, has the
-support of the popular idea that the singing of birds constitutes
-a kind of courtship—an idea adopted by Mr. Darwin
-when he says that “the male pours forth his full volume of
-song, in rivalry with other males, for the sake of captivating
-the female.” Usually, Mr. Darwin does not accept without
-criticism and verification, the beliefs he finds current;
-but in this case he seems to have done so. Even cursory
-observation suffices to dissipate this belief, initiated, I
-suppose, by poets. In preparation for dealing with the
-matter I have made memoranda concerning various songbirds,
-dating back to 1883. On the 7th of February of
-that year I heard a lark singing several times; and, still
-more remarkably, during the mild winter of 1884 I saw one
-soar, and heard it sing, on the 10th January. Yet the lark
-does not pair till March. Having heard the redbreast near
-the close of August, 1888, I noted the continuance of its
-song all through the autumn and winter, up to
-Christmas <span class="xxpn" id="p430">{430}</span>
-eve, Christmas day, the 29th of December, and again on
-the 18th January, 1889. How common is the singing of
-the thrush during mild weather in winter, everyone must
-have observed. The presence of thrushes behind my
-house has led to the making of notes on this point. The
-male sang in November, 1889; I noted the song again on
-Christmas eve, again on the 13th January, 1890, and from
-time to time all through the rest of that month. I heard
-little of his song in February, which is the pairing season;
-and none at all, save a few notes early in the morning,
-during the period of rearing the young. But now that, in the
-middle of May, the young, reared in a nest in my garden,
-have sometime since flown, he has recommenced singing
-vociferously at intervals throughout the day; and doubtless,
-in conformity with what I have observed elsewhere,
-will go on singing till July. How marked is the direct
-relation between singing and the conditions which cause
-high spirits, is perhaps best shown by a fact I noted on the
-4th December, 1888, when, the day being not only mild
-but bright, the copses on Holmwood Common, Dorking,
-were vocal just as on a spring day, with a chorus of birds
-of various kinds—robins, thrushes, chaffinches, linnets, and
-sundry others of which I did not know the names. Ornithological
-works furnish verifying statements. Wood
-states that the hedge-sparrow continues “to sing throughout
-a large portion of the year, and only ceasing during the
-time of the ordinary moult.” The song of the blackcap,
-he says, “is hardly suspended throughout the year;” and of
-caged birds which sing continuously, save when moulting,
-he names the grosbeak, the linnet, the goldfinch, and
-the siskin.</p>
-
-<p>I think these facts show that the popular idea adopted
-by Mr. Darwin is untenable. What then is the true
-interpretation? Simply that like the whistling and humming
-of tunes by boys and men, the singing of birds results
-from overflow of energy—an overflow which in both
-cases <span class="xxpn" id="p431">{431}</span>
-ceases under depressing conditions. The relation between
-courtship and singing, so far as it can be shown to hold, is
-not a relation of cause and effect, but a relation of concomitance:
-the two are simultaneous results of the same
-cause. Throughout the animal kingdom at large, the
-commencement of reproduction is associated with an excess
-of those absorbed materials needful for self-maintenance;
-and with a consequent ability to devote a part to the maintenance
-of the species. This constitutional state is one
-with which there goes a tendency to superfluous expenditure
-in various forms of action—unusual vivacity of every
-kind, including vocal vivacity. While we thus see why
-pairing and singing come to be associated, we also see why
-there is singing at other times when the feeding and
-weather are favourable; and why, in some cases, as in those
-of the thrush and the robin, there is more singing after the
-breeding season than before or during the breeding season.
-We are shown, too, why these birds, and especially the
-thrush, so often sing in the winter: the supply of worms
-on lawns and in gardens being habitually utilized by both,
-and thrushes having the further advantage that they are
-strong enough to break the shells of the hybernating
-snails: this last ability being connected with the fact that
-thrushes and blackbirds are the first among the singing
-birds to build. It remains only to add that the alleged
-singing of males against one another with the view of
-charming the females is open to parallel criticisms. How
-far this competition happens during the pairing season I
-have not observed, but it certainly happens out of the
-pairing season. I have several times heard blackbirds
-singing alternately in June. But the most conspicuous
-instance is supplied by the redbreasts. These habitually
-sing against one another during the autumn months:
-reply and rejoinder being commonly continued for five
-minutes at a time.</p>
-
-<p>Even did the evidence support the popular view,
-adopted <span class="xxpn" id="p432">{432}</span>
-by Mr. Darwin, that the singing of birds is a kind of
-courtship—even were there good proof, instead of much
-disproof, that a bird’s song is a developed form of the
-sexual sounds made by the male to charm the female; the
-conclusion would, I think, do little towards justifying the
-belief that human music has had a kindred origin. For,
-in the first place, the bird-type in general, developed as it
-is out of the reptilian type, is very remotely related to that
-type of the <i>Vertebrata</i> which ascends to Man as its highest
-exemplar; and, in the second place, song-birds belong,
-with but few exceptions, to the single order of <i>Insessores</i>—one
-order only, of the many orders constituting the class.
-So that, if the <i>Vertebrata</i> at large be represented by a tree,
-of which Man is the topmost twig, then it is at a considerable
-distance down the trunk that there diverges the
-branch from which the bird-type is derived; and the group
-of singing-birds forms but a terminal sub-division of this
-branch—lies far out of the ascending line which ends in
-Man. To give appreciable support to Mr. Darwin’s view,
-we ought to find vocal manifestations of the amatory
-feeling becoming more pronounced as we ascend along that
-particular line of inferior <i>Vertebrata</i> out of which Man has
-arisen. Just as we find other traits which pre-figure human
-traits (instance arms and hands adapted for grasping)
-becoming more marked as we approach Man; so should we
-find, becoming more marked, this sexual use of the voice,
-which is supposed to end in human song. But we do not find
-this. The South-American monkeys (“the Howlers,” as
-they are sometimes called), which, in chorus, make the woods
-resound for hours together with their “dreadful concert,”
-appear, according to Rengger, to be prompted by no other
-desire than that of making a noise. Mr. Darwin admits,
-too, that this is generally the case with the gibbons: the
-only exception he is inclined to make being in the case of
-<i>Hylobates agilis</i>, which, on the testimony of Mr. Waterhouse,
-he says ascends and descends
-the scale by <span class="xxpn" id="p433">{433}</span>
-half-tones.<a class="afnanch" href="#fn58" id="fnanch58">58</a>
-This comparatively musical set of sounds, he
-thinks, may be used to charm the female; though there is
-no evidence forthcoming that this is the case. When we
-remember that in the forms nearest to the human—the
-chimpanzees and the gorilla—there is nothing which
-approaches even thus far towards musical utterance, we see
-that the hypothesis has next to none of that support
-which ought to be forthcoming. Indeed in his <i>Descent of
-Man</i>, vol. ii., p. 332, Mr. Darwin himself says:—“It is a
-surprising fact that we have not as yet any good evidence
-that these organs are used by male mammals to charm
-the females:” an admission which amounts to something
-like a surrender.</p>
-
-<p>Even more marked is the absence of proof when we come
-to the human race itself—or rather, not absence of proof
-but presence of disproof. Here, from the <i>Descriptive
-Sociology</i>, where the authorities will be found under the
-respective heads, I quote a number of testimonies of
-travellers concerning primitive music: commencing with
-those referring to the lowest races.</p>
-
-<p>“The songs of the natives [of Australia] .&#160;.&#160;. are chiefly made on
-the spur of the moment, and refer to something that has struck the
-attention at the time.” “The Watchandies seeing me much interested
-in the genus Eucalyptus soon composed a song on this subject.” The
-Fuegians are fond of music and generally sing in their boats, doubtless
-keeping time, as many primitive peoples do. “The principal subject of
-the songs of the Araucanians is the exploits of their heroes:” when
-at work their “song was simple, referring mostly to their labour,”
-and was the same “for every <span class="xxpn" id="p434">{434}</span> occasion, whether the burden of
-the song be joy or sorrow.” The Greenlanders sing of “their exploits
-in the chase” and “chant the deeds of their ancestors.” “The Indians
-of the Upper Mississippi vocalize an incident, as—‘They have brought
-us a fat dog,’:” then the chorus goes on for a minute. Of other
-North-American Indians we read—“the air which the women sang was
-pleasing .&#160;.&#160;. the men first gave out the words, which formed a consummate
-glorification of themselves.” Among the Carriers (of North America)
-there are professed composers, who “turn their talent to good account
-on the occasion of a feast, when new airs are in great request.”
-Of the New Zealanders we read:—“The singing of such compositions
-[laments] resembles cathedral chanting.” “Passing events are described
-by extemporaneous songs, which are preserved when good.” “When men
-worked together appropriate airs were sung.” When presenting a meal
-to travellers, women would chant—“What shall be our food? shell fish
-and fern-root, that is the root of the earth.” Among the Sandwich
-Islanders “most of the traditions of remarkable events in their history
-are preserved in songs.” When taught reading they could not “recite a
-lesson without chanting or singing it.” Cook found the Tahitians had
-itinerant musicians who gave narrative chants quite unpremeditated. “A
-Samoan can hardly put his paddle in the water without striking up some
-chant.” A chief of the Kyans, “Tamawan, jumped up and while standing
-burst out into an extempore song, in which Sir James Brooke and myself,
-and last not least the wonderful steamer, was mentioned with warm
-eulogies.” In East Africa “the fisherman will accompany his paddle,
-the porter his trudge, and the housewife her task of rubbing down
-grain, with song.” In singing, the East African “contents himself with
-improvising a few words without sense or rhyme and repeats them till
-they nauseate,” Among the Dahomans any incident “from the arrival of a
-stranger to an <span class="xxpn" id="p435">{435}</span> earthquake” is turned into a song. When rowing,
-the Coast-negroes sing “either a description of some love intrigue or
-the praise of some woman celebrated for her beauty.” In Loango “the
-women as they till the field make it echo with their rustic songs.”
-Park says of the Bambarran—“they lightened their labours by songs,
-one of which was composed extempore; for I was myself the subject of
-it.” “In some parts of Africa nothing is done except to the sound of
-music.” “They are very expert in adapting the subjects of these songs
-to current events.” The Malays “amuse all their leisure hours .&#160;.&#160;.
-with the repetition of songs, which are for the most part proverbs
-illustrated. .&#160;.&#160;. Some that they rehearse in a kind of recitative
-at their <i>bimbangs</i> or feasts are historical love-tales.” A Sumatran
-maiden will sometimes begin a tender song and be answered by one of the
-young men. The ballads of the Kamtschadales are “inspired apparently by
-grief, love, or domestic feeling;” and their music conveys “a sensation
-of sorrow and vague, unavailing regret.” Of their love-songs it is said
-“the women generally compose them.” A Kirghiz “singer sits on one knee
-and sings in an unnatural tone of voice, his lay being usually of an
-amorous character.” Of the Yakuts we are told “their style of singing
-is monotonous .&#160;.&#160;. their songs described the beauty of the landscape
-in terms which appeared to me exaggerated.”</p>
-
-<p>In these statements, which, omitting repetitions, are all
-which the <i>Descriptive Sociology</i> contains relevant to the
-issue, several striking facts are manifest. Among the lowest
-races the only musical utterances named are those which
-refer to the incidents of the moment, and seem prompted by
-feelings which those incidents produce. The derivation of
-song or chant from emotional speech in general, thus suggested,
-is similarly suggested by the habits of many higher
-races; for they, too, show us that the mus­i­cal­ly-ex­pressed
-feelings relevant to the immediate occasion, or to past
-occasions, are feelings of various kinds: now of simple
-good <span class="xxpn" id="p436">{436}</span>
-spirits and now of joy or triumph—now of surprise, praise,
-admiration, and now of sorrow, melancholy, regret. Only
-among certain of the more advanced races, as the semi-civilized
-Malays and peoples of Northern Asia, do we read
-of love-songs; and then, strange to say, these are mentioned
-as mostly coming, not from men, but from women. Out of
-all the testimonies there is not one which tells of a love-song
-spontaneously commenced by a man to charm a woman.
-Entirely absent among the rudest types and many of the
-more developed types, amatory musical utterance, where first
-found, is found under a form opposite to that which Mr.
-Darwin’s hypothesis implies; and we have to seek among
-civilized peoples before we meet, in serenades and the
-like, music of the kind which, according to his view, should
-be the earliest.<a class="afnanch" href="#fn59" id="fnanch59">59</a></p>
-
-<p>Even were his view countenanced by the facts, there
-would remain unexplained the process by which sexually-excited
-sounds have been evolved into music. In the foregoing
-essay I have indicated the various qualities, relations,
-and combinations of tones, spontaneously prompted by
-emotions of all kinds, which exhibit, in undeveloped forms,
-the traits of recitative and melody. To have reduced his
-hypothesis to a shape admitting of comparison, Mr. Darwin
-should have shown that the sounds excited by sexual
-emotions possess these same traits; and, to have proved that
-his hypothesis is the more tenable, should have shown that
-they possess these same traits in a greater degree. But he
-has not attempted to do this. He has simply suggested
-that instead of having its roots in the vocal sounds caused
-by feelings of all kinds, music has its roots
-in the vocal <span class="xxpn" id="p437">{437}</span>
-sounds caused by the amatory feeling only: giving no reason
-why the effects of the feelings at large should be ignored,
-and the effects of one particular feeling alone recognized.</p>
-
-<p class="padtopa">Nineteen years after my essay on “The Origin and
-Function of Music” was published, Mr. Edmund Gurney
-criticized it in an article which made its appearance
-in the <i>Fortnightly Review</i> for July 1876. Absorption
-in more important work prevented me from replying.
-Though, some ten years ago, I thought of defending
-my views against those of Mr. Darwin and Mr. Gurney,
-the occurrence of Mr. Darwin’s death obliged me to
-postpone for a time any discussion of his views; and then,
-the more recent unfortunate death of Mr. Gurney caused
-a further postponement. I must now, however, say that
-which seems needful, though there is no longer any
-possibility of a rejoinder from him.</p>
-
-<p>Some parts of Mr. Gurney’s criticism I have already
-answered by implication; for he adopts the hypothesis
-that music originated in the vocal utterances prompted by
-sexual feeling. To the reasons above given for rejecting
-this hypothesis, I will add here, what I might have added
-above, that it is at variance with one of the fundamental
-laws of evolution. All development proceeds from the
-general to the special. First there appear those traits
-which a thing has in common with many other things; then
-those traits which it has in common with a smaller class of
-things; and so on until there eventually arise those traits
-which distinguish it from everything else. The genesis
-which I have described conforms to this fundamental law.
-It posits the antecedent fact that feeling in general produces
-muscular contraction in general; and the less general
-fact that feeling in general produces, among other muscular
-contractions, those which move the respiratory and
-vocal apparatus. With these it joins the still less general
-fact that sounds indicative of feelings vary in
-sundry <span class="xxpn" id="p438">{438}</span>
-respects according to the intensity of the feelings; and
-then enumerates the still less general facts which show
-us the kinship between the vocal manifestations of feeling
-and the characters of vocal music: the implication being
-that there has gone on a progressive specialization. But
-the view which Mr. Gurney adopts from Mr. Darwin is
-that from the special actions producing the special
-sounds accompanying sexual excitement, were evolved
-those various actions producing the various sounds which
-accompany all other feelings. Vocal expression of a
-particular emotion came first, and from this proceeded
-vocal expressions of emotions in general: the order of
-evolution was reversed.</p>
-
-<p>To deficient knowledge of the laws of evolution are due
-sundry of Mr. Gurney’s objections. He makes a cardinal
-error in assuming that a more evolved thing is distinguished
-from less evolved things in respect of <i>all</i> the various traits
-of evolution; whereas, very generally, a higher degree of
-evolution in some or most respects, is accompanied by an
-equal or lower degree of evolution in other respects. On
-the average, increase of locomotive power goes along with
-advance of evolution; and yet numerous mammals are more
-fleet than man. The stage of development is largely
-indicated by degree of intelligence; and yet the more
-intelligent parrot is inferior in vision, in speed, and in
-destructive appliances, to the less-intelligent hawk. The
-contrast between birds and mammals well illustrates the
-general truth. A bird’s skeleton diverges more widely from
-the skeleton of the lower vertebrates in respect of heterogeneity
-than does the skeleton of a mammal; and the bird
-has a more developed respiratory system, as well as a higher
-temperature of blood, and a superior power of locomotion.
-Nevertheless, many mammals in respect of bulk, in respect
-of various appliances (especially for prehension), and in
-respect of intelligence, are more evolved than birds. Thus
-it is obviously a mistake to assume that whatever is
-more <span class="xxpn" id="p439">{439}</span>
-highly evolved in general character is more highly evolved
-in every trait.</p>
-
-<p>Of Mr. Gurney’s several objections which are based on
-this mistake here is an example. He says—“Loudness
-though a frequent is by no means a universal or essential
-element, either of song or of emotional speech” (p. 107).
-Under one of its aspects this criticism is self-destructive;
-for if, though both relatively loud in most cases, song and
-emotional speech are both characterized by the occasional
-use of subdued tones, then this is a further point of kinship
-between them—a kinship which Mr. Gurney seeks to
-disprove. Under its other aspect this criticism implies the
-above-described misconception. If in a song, or rather in
-some part or parts of a song, the trait of loudness is
-absent, while the other traits of developed emotional
-utterance are present, it simply illustrates the truth that
-the traits of a highly-evolved product are frequently not
-all present together.</p>
-
-<p>A like answer is at hand to the next objection he makes.
-It runs <span class="nowrap">thus:―</span></p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“In the recitative which he [Mr. Spencer] himself considers naturally and
-historically a step between speech and song, the rapid variation of pitch is
-impossible, and such recitative is distinguished from the tones even of
-common speech precisely by being more monotonous” (p. 108).</p></blockquote>
-
-<p class="pcontinue">But Mr. Gurney overlooks the fact that while, in recitative,
-some traits of developed emotional utterance are not
-present, two of its traits are present. One is that greater
-resonance of tone, caused by greater contraction of the
-vocal chords, which distinguishes it from ordinary speech.
-The other is the relative elevation of pitch, or divergence
-from the medium tones of voice: a trait similarly implying
-greater strain of certain vocal muscles, resulting from
-stronger feeling.</p>
-
-<p>Another difficulty raised by Mr. Gurney he would
-probably not have set down had he been aware that one
-character of musical utterance which
-he thinks <span class="xxpn" id="p440">{440}</span>
-distinctive, is a character of all phenomena into which motion
-enters as a factor. He says:—“Now no one can suppose
-that the sense of rhythm can be derived from emotional
-speech” (p. 110). Had he referred to the chapter on “The
-Rhythm of Motion” in <i>First Principles</i>, he would have seen
-that, in common with inorganic actions, all organic actions
-are completely or partially rhythmical—from appetite and
-sleep to inspirations and heart-beats; from the winking of
-the eyes to the contractions of the intestines; from the
-motions of the legs to discharges through the nerves.
-Having contemplated such facts he would have seen that
-the rhythmical tendency which is perfectly displayed in
-musical utterance, is imperfectly displayed in emotional
-speech. Just as under emotion we see swayings of the body
-and wringings of the hands, so do we see contractions
-of the vocal organs which are now stronger and now weaker.
-Surely it is manifest that the utterances of passion, far
-from being monotonous, are characterized by rapidly-recurring
-ascents and descents of tone and by rapidly-recurring
-emphases: there is rhythm, though it is an
-irregular rhythm.</p>
-
-<p>Want of knowledge of the principles of evolution has, in
-another place, led Mr. Gurney to represent as an objection
-what is in reality a verification. He <span class="nowrap">says:―</span></p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“Music is distinguished from emotional speech in that it proceeds not
-only by fixed degrees in time, but by fixed degrees in the scale. This is a
-constant quality through all the immense quantity of embryo and developed
-scale-systems that have been used; whereas the transitions of pitch which
-mark emotional affections of voice are, as Helmholtz has pointed out, of a
-gliding character” (p. 113).</p></blockquote>
-
-<p class="pcontinue">Had Mr. Gurney known that evolution in all cases is from
-the indefinite to the definite, he would have seen that as a
-matter of course the gradations of emotional speech must be
-indefinite in comparison with the gradations of developed
-music. Progress from the one to the other is in part
-<i>constituted</i> by increasing definiteness in the time-intervals
-and increasing definiteness in the tone-intervals. Were
-it <span class="xxpn" id="p441">{441}</span>
-otherwise, the hypothesis I have set forth would lack one of
-its evidences. To his allegation that not only the “developed
-scale-systems” but also the “embryo” scale-systems are
-definite, it may obviously be replied that the mere existence
-of any scale-system capable of being written down, implies
-that the earlier stage of the progress has already been
-passed through. To have risen to a scale-system is to have
-become definite; and until a scale-system has been reached
-vocal phrases cannot have been recorded. Moreover had
-Mr. Gurney remembered that there are many people with
-musical perceptions so imperfect that when making their
-merely recognizable, and sometimes hardly recognizable,
-attempts to whistle or hum melodies, they show how vague
-are their appreciations of musical intervals, he would have
-seen reason for doubting his assumption that definite scales
-were reached all at once. The fact that in what we call
-bad ears there are all degrees of imperfection, joined with
-the fact that where the imperfection is not great practice
-may remedy it, suffice of themselves to show that definite
-perceptions of musical intervals were reached by degrees.</p>
-
-<p>Some of Mr. Gurney’s objections are strangely insubstantial.
-Here is an <span class="nowrap">example:―</span></p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“The fact is that song, which moreover in our time is but a limited branch
-of music, is perpetually making conscious efforts; for instance, the most
-peaceful melody may be a considerable strain to a soprano voice, if sung in a
-very high register: while speech continues to obey in a natural way the
-physiological laws of emotion” (p. 117).</p></blockquote>
-
-<p class="pcontinue">That in exaggerating and emphasizing the traits of emotional
-speech, the singer should be led to make “conscious
-efforts” is surely natural enough. What would Mr. Gurney
-have said of dancing? He would scarcely have denied
-that saltatory movements often result spontaneously from
-excited feeling; and he could hardly have doubted that
-primitive dancing arose as a systematized form of such
-movements. Would he have considered the belief that
-stage-dancing is evolved from these spontaneous
-movements <span class="xxpn" id="p442">{442}</span>
-to be negatived by the fact that a stage-dancer’s bounds and
-gyrations are made with “conscious efforts”?</p>
-
-<p>In his elaborate work on <i>The Power of Sound</i>, Mr. Gurney,
-repeating in other forms the objections I have above dealt
-with, adds to them some others. One of these, which
-appears at first sight to have much weight, I must not pass
-by. He thus expresses it.</p>
-
-<blockquote class="blktight">
-
-<p>“Any one may convince himself that not only are the intervals used in
-emotional speech very large, twelve diatonic notes being quite an ordinary
-skip, but that he uses extremes of both high and low pitch with his speaking
-voice, which, if he tries to dwell on them and make them resonant, will be
-found to lie beyond the compass of his singing voice” (p. 479).</p></blockquote>
-
-<p class="pcontinue">Now the part of my hypothesis which Mr. Gurney here
-combats is that, as in emotional speech so in song, feeling,
-by causing muscular contractions, causes divergencies from
-the middle tones of the voice, which become wider as it
-increases; and that this fact supports the belief that song
-is developed from emotional speech. To this Mr. Gurney
-thinks it a conclusive answer that higher notes are used by
-the speaking voice than by the singing voice. But if, as
-his words imply, there is a physical impediment to the
-production of notes in the one voice as high as those in the
-other, then my argument is justified if, in either voice,
-extremes of feeling are shown by extremes of pitch. If,
-for example, the celebrated <i>ut de poitrine</i> with which
-Tamberlik brought down the house in one of the scenes
-of William Tell, was recognized as expressing the greatest
-intensity of martial patriotism, my position is warranted,
-even though in his speaking voice he could have produced
-a still higher note.</p>
-
-<p>Of answers to Mr. Gurney’s objections the two most
-effective are suggested by the passage in which he sums up
-his conclusions. Here are his words.</p>
-
-<blockquote class="blktight">
-
-<p>“It is enough to recall how every consideration tended to the same result;
-that the oak grew from the acorn; that the musical faculty and pleasure,
-which have to do with music and nothing else,
-are the representatives and <span class="xxpn" id="p443">{443}</span>
-linear descendants of a faculty and pleasure which were musical and nothing
-else; and that, however rudely and tentatively applied to speech, Music was
-a <i>separate order</i>” (p. 492).</p></blockquote>
-
-<p class="pcontinue">Thus, then, it is implied that the true germs of music stand
-towards developed music as the acorn to the oak. Now
-suppose we ask—How many traits of the oak are to be
-found in the acorn? Next to none. And then suppose we
-ask—How many traits of music are to be found in the tones
-of emotional speech? Very many. Yet while Mr. Gurney
-thinks that music had its origin in something which might
-have been as unlike it as the acorn is unlike the oak, he
-rejects the theory that it had its origin in something as much
-like it as the cadences of emotional speech; and he does this
-because there are sundry differences between the characters
-of speech-cadences and the characters of music. In the
-one case he tacitly assumes a great unlikeness between
-germ and product; while in the other case he objects
-because germ and product are not in all respects similar!</p>
-
-<p>I may end by pointing out how extremely improbable,
-<i>a priori</i>, is Mr. Gurney’s conception. He admits, as perforce
-he must, that emotional speech has various traits in common
-with recitative and song—relatively greater resonance, relatively
-greater loudness, more marked divergences from
-medium tones, the use of the extremes of pitch in signifying
-the extremes of feeling, and so on. But, denying that the
-one is derived from the others, he implies that these kindred
-groups of traits have had independent origins. Two
-sets of peculiarities in the use of the voice which show
-various kinships, have nothing to do with one another! I
-think it merely requires to put the proposition in this shape
-to see how incredible it is.</p>
-
-<p class="padtopa">Sundry
-objections to the views contained in the essay
-on “The Origin and Function of Music,” have arisen
-from misconception of its scope. An endeavour to
-explain the <i>origin</i> of music, has been dealt with as though
-it were a theory of music in its entirety. An
-hypothesis <span class="xxpn" id="p444">{444}</span>
-concerning the rudiments has been rejected because it did
-not account for everything contained in the developed
-product. To preclude this mis­app­re­hen­sion for the future,
-and to show how much more is comprehended in a theory
-of music than I professed to deal with, let me enumerate the
-several components of musical effect. They may properly
-be divided into <i>sensational</i>, <i>perceptional</i>, and <i>emotional</i>.</p>
-
-<p>That the sensational pleasure is dis­tin­guish­able from the
-other pleasures which music yields, will not be questioned.
-A sweet sound is agreeable in itself, when heard out of
-relation to other sounds. Tones of various <i>timbres</i>, too,
-are severally appreciated as having their special beauties.
-Of further elements in the sensational pleasure have to be
-named those which result from certain congruities between
-notes and immediately succeeding notes. This pleasure,
-like the primary pleasure which fine quality yields, appears
-to have a purely physical basis. We know that the agreeableness
-of simultaneous tones depends partly on the relative
-frequency of recurring correspondences of the vibrations
-producing them, and partly on the relative infrequency of
-beats, and we may suspect that there is a kindred cause for
-the agreeableness of successive tones; since the auditory
-apparatus which has been at one instant vibrating in a
-particular manner, will take up certain succeeding vibrations
-more readily than others. Evidently it is a question of the
-<i>degree</i> of congruity; for the most congruous vibrations,
-those of the octaves, yield less pleasure when heard in
-succession than those of which the congruity is not so
-great. To obtain the greatest pleasure in this and other
-things, there requires both likeness and difference. Recognition
-of this fact introduces us to the next element of
-sensational pleasure—that due to contrast; including contrast
-of pitch, of loudness, and of <i>timbre</i>. In this case, as
-in other cases, the dis­agree­able­ness caused by frequent repetition
-of the same sensation (here literally called “monotony”)
-results from the exhaustion which any
-single <span class="xxpn" id="p445">{445}</span>
-nervous agent undergoes from perpetual stimulation; and
-contrast gives pleasure because it implies action of an
-agent which has had rest. It follows that much of the
-sensational pleasure to be obtained from music depends on
-such adjustments of sounds as bring into play, without conflict,
-many nervous elements: exercising all and not overexerting
-any. We must not overlook a concomitant effect.
-With the agreeable sensation is joined a faint emotion of
-an agreeable kind. Beyond the simple definite pleasure
-yielded by a sweet tone, there is a vague, diffused pleasure.
-As indicated in the <i>Principles of Psychology</i> (§ 537), each
-nervous excitation produces reverberation throughout the
-nervous system at large; and probably this indefinite
-emotional pleasure is a consequence. Doubtless some
-shape is given to it by association. But after observing
-how much there is in common between the diffused feeling
-aroused by smelling at a deliciously scented flower and that
-aroused by listening to a sweet tone, it will, I think, be
-perceived that the more general cause predominates.</p>
-
-<p>The division between the sensational effects and the perceptional
-effects is of course indefinite. As above implied,
-part of the sensational pleasure depends on the relation
-between each tone and the succeeding tone; and hence
-this pleasure gradually merges into that which arises from
-perceiving the structural connexions between the phrases
-and between the larger parts of musical compositions.
-Much of the gratification given by a melody consists in
-the con­scious­ness of the relations between each group of
-sounds heard and the groups of sounds held in memory as
-having just passed, as well as those represented as about
-to come. In many cases the passage listened to would not
-be regarded as having any beauty were it not for its
-remembered connexions with passages in the immediate
-past and the immediate future. If, for example, from the
-first movement of Beethoven’s Funeral-March sonata the
-first five notes are detached, they appear to be
-meaningless; <span class="xxpn" id="p446">{446}</span>
-but if, the movement being known, they are joined with
-imaginations of the anticipated phrases, they immediately
-acquire meaning and beauty. Indefinable as are the causes
-of this perceptional pleasure in many cases, some causes
-of it are definable. Symmetry is one. A chief element in
-melodic effect results from repetitions of phrases which are
-either identical, or differ only in pitch, or differ only in
-minor variations: there being in the first case the pleasure
-derived from perception of complete likeness, and in the
-other cases the greater pleasure derived from perception
-of likeness with difference—a perception which is more
-involved, and therefore exercises a greater number of
-nervous agents. Next comes, as a source of gratification,
-the con­scious­ness of pronounced unlikeness or contrast;
-such as that between passages above the middle tones and
-passages below, or as that between ascending phrases and
-descending phrases. And then we rise to larger contrasts;
-as when, the first theme in a melody having been elaborated,
-there is introduced another having a certain kinship though
-in many respects different, after which there is a return
-to the first theme: a structure which yields more extensive
-and more complex perceptions of both differences and
-likenesses. But while perceptional pleasures include much
-that is of the highest, they also include much that is of the
-lowest. A certain kind of interest, if not of beauty, is
-producible by the likenesses and contrasts of musical
-phrases which are intrinsically meaningless or even ugly.
-A familiar experience exemplifies this. If a piece of paper
-is folded and on one side of the crease there is drawn
-an irregular line in ink, which, by closing the paper, is
-blotted on the opposite side of the crease, there results a
-figure which, in virtue of its symmetry, has some beauty;
-no matter how entirely without beauty the two lines themselves
-may be. Similarly, some interest results from the
-parallelism of musical phrases, notwithstanding utter lack
-of interest in the phrases themselves. The kind of
-interest <span class="xxpn" id="p447">{447}</span>
-resulting from such parallelisms, and from many contrasts,
-irrespective of any intrinsic worth in their components, is
-that which is most appreciated by the mus­i­cal­ly-un­cul­tured,
-and gives popularity to miserable drawing-room ballads
-and vulgar music-hall songs.</p>
-
-<p>The remaining element of musical effect consists in the
-idealized rendering of emotion. This, as I have sought to
-show, is the primitive element, and will ever continue to be
-the vital element; for if “melody is the soul of music,”
-then expression is the soul of melody—the soul without
-which it is mechanical and meaningless, whatever may be
-the merit of its form. This primitive element may with
-tolerable clearness be distinguished from the other
-elements, and may coexist with them in various degrees:
-in some cases being the predominant element. Anyone
-who, in analytical mood, listens to such a song as
-<i>Robert, toi que j’aime</i>, cannot, I think, fail to perceive that
-its effectiveness depends on the way in which it exalts and
-intensifies the traits of passionate utterance. No doubt as
-music develops, the emotional element (which affects structure
-chiefly through the forms of phrases) is increasingly
-complicated with, and obscured by, the perceptional element;
-which both modifies these phrases and unites them into
-symmetrical and contrasted combinations. But though the
-groups of notes which emotion prompts admit of elaboration
-into structures that have additional charms due to
-artfully-arranged contrasts and repetitions, the essential
-element is liable to be thus submerged in the non-essential.
-Only in melodies of high types, such as the <i>Addio</i> of Mozart
-and <i>Adelaide</i> of Beethoven, do we see the two requirements
-simultaneously fulfilled. Musical genius is shown in achieving
-the decorative beauty without losing the beauty of
-emotional meaning.</p>
-
-<p>It goes without saying that there must be otherwise
-accounted for that relatively modern element in musical
-effect which has now almost outgrown in importance
-the <span class="xxpn" id="p448">{448}</span>
-other elements—I mean harmony. This cannot be affiliated
-on the natural language of emotion; since, in such language,
-limited to successive tones, there cannot originate the effects
-wrought by simultaneous tones. Dependent as harmony is
-on relations among rates of aerial pulses, its primary basis
-is purely mechanical; and its secondary basis lies in the
-compound vibrations which certain combinations of mechanical
-rhythms cause in the auditory apparatus. The resulting
-pleasure must, therefore, be due to nervous excitations of
-kinds which, by their congruity, exalt one another; and
-thus generate a larger volume of agreeable sensation. A
-further pleasure of sensational origin which harmony yields
-is due to contrapuntal effects. Skilful counterpoint has the
-general character that it does not repeat in immediate succession
-similar combinations of tones and similar directions
-of change; and by thus avoiding temporary over-tax of the
-nervous structures brought into action, keeps them in better
-condition for subsequent action. Absence of regard for
-this requirement characterizes the music of Gluck, of whom
-Handel said—“He knows no more counterpoint than my
-cook;” and it is this disregard which produces its cloying
-character. Respecting the effects of harmony I will add
-only that the vague emotional accompaniment to the sensation
-produced by a single sweet tone, is paralleled by the
-stronger emotional accompaniment to the more voluminous
-and complex sensation produced by a fine chord. Clearly
-this vague emotion forms a large component in the pleasure
-which harmony gives.</p>
-
-<p>While thus recognizing, and indeed emphasizing, the
-fact that of many traits of developed music my hypothesis
-respecting the origin of music yields no explanation, let
-me point out that this hypothesis gains a further general
-support from its conformity to the law of evolution. Progressive
-integration is seen in the immense contrast between
-the small combinations of tones constituting a cadence of
-grief, or anger, or triumph, and the vast combinations
-of <span class="xxpn" id="p449">{449}</span>
-tones, simultaneous and successive, constituting an oratorio.
-Great advance in coherence becomes manifest when, from the
-lax unions among the sounds in which feeling spontaneously
-expresses itself, or even from those few musical phrases
-which constitute a simple air, we pass to those elaborate
-compositions in which portions small and large are tied
-together into extended organic wholes. On comparing the
-unpremeditated inflexions of the voice in emotional speech,
-vague in tones and times, with those premeditated ones which
-the musician arranges for stage or concert room, in which
-the divisions of time are exactly measured, the successive
-intervals precise, and the harmonies adjusted to a nicety, we
-observe in the last a far higher definiteness. And immense
-progress in heterogeneity is seen on putting side by side the
-monotonous chants of savages with the musical compositions
-familiar to us; each of which is relatively heterogeneous
-within itself, and the assemblage of which forms an immeasurably
-heterogeneous aggregate.</p>
-
-<p class="padtopa">Strong support for the theory enunciated in this essay, and defended
-in the foregoing paragraphs, is furnished by the testimonies of two
-travellers in Hungary, given in works published in 1878 and 1888
-respectively. Here is an extract from the first of the two.</p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“Music is an instinct with these Hungarian gipsies. They play by
-ear, and with a marvellous precision, not surpassed by musicians
-who have been subject to the most careful training. .&#160;.&#160;. The airs
-they play are most frequently compositions of their own, and are in
-character quite peculiar.&#160;.&#160;. I heard on this occasion one of the
-gipsy airs which made an indelible impression on my mind; it seemed
-to me the thrilling utterance of a people’s history. There was the
-low wail of sorrow, of troubled passionate grief, stirring the heart
-to restlessness, then the sense of turmoil and defeat; but upon this
-breaks suddenly a wild burst of exultation, of rapturous joy—a
-triumph achieved, which hurries you along with it in resistless
-sympathy. The excitable Hungarians can literally become intoxicated
-with this music—and no wonder. You cannot reason upon it, or explain
-it, but its strains compel you to sensations of despair and joy, of
-exultation and excitement, as though under the influence of some
-potent charm.”—<i>Round about the Carpathians</i>, by Andrew F. Crosse,
-pp. 11, 12. <span class="xxpn" id="p450">{450}</span></p></blockquote>
-
-<p>Still more graphic and startling is the description given by a more
-recent traveller, E. Gerard.</p>
-
-<blockquote class="blktight">
-
-<p class="pcontinue">“Devoid of printed notes, the Tzigane is not forced to divide his attention
-between a sheet of paper and his instrument, and there is consequently
-nothing to detract from the utter abandonment with which he absorbs himself
-in his playing. He seems to be sunk in an inner world of his own; the
-instrument sobs and moans in his hands, and is pressed tight against his
-heart as though it had grown and taken root there. This is the true moment
-of inspiration, to which he rarely gives way, and then only in the privacy of
-an intimate circle, never before a numerous and unsympathetic audience.
-Himself spell-bound by the power of the tones he evokes, his head gradually
-sinking lower and lower over the instrument, the body bent forward in an
-attitude of rapt attention, and his ear seeming to hearken to far-off ghostly
-strains audible to himself alone, the untaught Tzigane achieves a perfection
-of expression unattainable by mere professional training.</p>
-
-<p>This power of identification with his music is the real secret of the
-Tzigane’s influence over his audience. Inspired and carried away by his
-own strains, he must perforce carry his hearers with him as well; and the
-Hungarian listener throws himself heart and soul into this species of musical
-intoxication, which to him is the greatest delight on earth. There is a proverb
-which says, ‘The Hungarian only requires a gipsy fiddler and a glass of
-water in order to make him quite drunk;’ and, indeed, intoxication is the
-only word fittingly to describe the state of exaltation into which I have
-seen a Hungarian audience thrown by a gipsy band.</p>
-
-<p>Sometimes, under the combined influence of music and wine, the Tziganes
-become like creatures possessed; the wild cries and stamps of an equally
-excited audience only stimulate them to greater exertions. The whole
-atmosphere seems tossed by billows of passionate harmony; we seem to
-catch sight of the electric sparks of inspiration flying through the air. It is
-then that the Tzigane player gives forth everything that is secretly lurking
-within him—fierce anger, childish wailings, presumptuous exaltation, brooding
-melancholy, and passionate despair; and at such moments, as a Hungarian
-writer has said, one could readily believe in his power of drawing down the
-angels from heaven into hell!</p>
-
-<p>Listen how another Hungarian has here described the effect of their
-music:—‘How it rushes through the veins like electric fire! How it
-penetrates straight to the soul! In soft plaintive minor tones the <i>adagio</i>
-opens with a slow rhythmical movement: it is a sighing and longing of
-unsatisfied aspirations; a craving for undiscovered happiness; the lover’s
-yearning for the object of his affection; the expression of mourning for lost
-joys, for happy days gone for ever; then abruptly changing to a major key,
-the tones get faster and more agitated; and from the whirlpool of harmony
-the melody gradually detaches itself, alternately drowned in the foam of
-overbreaking waves, to reappear floating on the surface with undulating
-motion—collecting as it were fresh power for a renewed burst
-of fury. But <span class="xxpn" id="p451">{451}</span>
-quickly as the storm came it is gone again, and the music relapses into the
-melancholy yearnings of heretofore.’” <i>The Land beyond the Forest</i>, vol. II,
-pp. 122–4. Lond. 1888.</p></blockquote>
-
-<p>After the evidence thus furnished, argument is almost
-superfluous. The origin of music as the developed language
-of emotion seems to be no longer an inference but simply a
-description of the fact.</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTES TO <i>THE ORIGIN
- AND FUNCTION OF MUSIC</i>.</h3>
-</div>
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch56" id="fn56">56</a>
-Those who seek information on this point may find it in
-an interesting tract by Mr. Alexander Bain, on <i>Animal Instinct and
-Intelligence</i>.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch57" id="fn57">57</a>
-<i>The Music of the Most Ancient Nations, &amp;c.</i>, by Carl
-Engel. This quotation is not contained in my essay as originally
-published, nor in the version of it first reproduced in 1858. Herr
-Engel’s work was issued in 1864, seven years after the date of the
-essay.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch58" id="fn58">58</a>
-It is far more probable that the ascents and descents made
-by this gibbon consisted of in­def­i­nite­ly-slurred tones. To suppose
-that each was a series of definite semi-tones strains belief to
-breaking point; considering that among human beings the great majority,
-even of those who have good ears, are unable to go up or down the
-chromatic scale without being taught to do so. The achievement is one
-requiring considerable practice; and that such an achievement should be
-spontaneous on the part of a monkey is incredible.</p></div>
-
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch59" id="fn59">59</a>
-After the above paragraphs had been sent to the printers
-I received from an American anthropologist, the Rev. Owen Dorsey, some
-essays containing kindred evidence. Of over three dozen songs and
-chants of the Omaha, Ponka, and other Indians, in some cases given
-with music and in other cases without, there are but five which have
-any reference to amatory feeling; and while in these the expression of
-amatory feeling comes from women, nothing more than derision of them
-comes from men.</p></div>
-
-<div class="chapter">
-<h2 class="h2nobreak" id="p452">THE PHYSIOLOGY OF LAUGHTER.</h2>
-
-<p class="pchappre">[<i>First
-published in</i> Macmillan’s Magazine <i>for March 1860.</i>]</p>
-</div>
-
-<p>Why do we smile when a child puts on a man’s hat? or
-what induces us to laugh on reading that the corpulent
-Gibbon was unable to rise from his knees after making a
-tender declaration? The usual reply to such questions is,
-that laughter results from a perception of incongruity.
-Even were there not, on this reply, the obvious criticism
-that laughter often occurs from extreme pleasure or from
-mere vivacity, there would still remain the real problem—How
-comes a sense of the incongruous to be followed by
-these peculiar bodily actions? Some have alleged that
-laughter is due to the pleasure of a relative self-elevation,
-which we feel on seeing the humiliation of others. But
-this theory, whatever portion of truth it may contain, is,
-in the first place, open to the fatal objection that there are
-various humiliations to others which produce in us anything
-but laughter; and, in the second place, it does not apply
-to the many instances in which no one’s dignity is implicated:
-as when we laugh at a good pun. Moreover, like
-the other, it is merely a generalization of certain conditions
-to laughter; and not an explanation of the odd movements
-which occur under these conditions. Why, when greatly
-delighted, or impressed with certain unexpected
-contrasts <span class="xxpn" id="p453">{453}</span>
-of ideas, should there be a contraction of particular facial
-muscles and particular muscles of the chest and abdomen?
-Such answer to this question as may be possible, can be
-rendered only by physiology.</p>
-
-<p class="padtopa">Every
-child has made the attempt to hold the foot still
-while it is tickled, and has failed; and there is scarcely
-any one who has not vainly tried to avoid winking when
-a hand has been suddenly passed before the eyes. These
-examples of muscular movements which occur independently
-of the will, or in spite of it, illustrate what physiologists
-call reflex-action; as likewise do sneezing and coughing.
-To this class of cases, in which involuntary motions are
-accompanied by sensations, has to be added another class
-of cases, in which involuntary motions are unaccompanied
-by sensations:—instance the pulsations of the heart; the
-contractions of the stomach during digestion. Further,
-the majority of seem­ing­ly-vol­un­tary acts in such creatures
-as insects, worms, molluscs, are considered by physiologists
-to be as purely automatic as is the dilatation or closure
-of the iris under variations in the quantity of light; and
-similarly exemplify the law, that an impression on the end
-of an afferent nerve is conveyed to some ganglionic centre,
-and is thence usually reflected along an efferent nerve to
-one or more muscles which it causes to contract.</p>
-
-<p>In a modified form this principle holds with voluntary
-acts. Nervous excitation always <i>tends</i> to beget muscular
-motion; and when it rises to a certain intensity always
-does beget it. Not only in reflex actions, whether with
-or without sensation, do we see that special nerves, when
-raised to states of tension, discharge themselves on special
-muscles with which they are indirectly connected; but
-those external actions through which we read the feelings
-of others, show us that, under any considerable tension,
-the nervous system in general discharges itself on the
-muscular system in general: either with or without
-the <span class="xxpn" id="p454">{454}</span>
-guidance of the will. The shivering produced by cold
-implies irregular muscular contractions, which, though at
-first only partly involuntary, become, when the cold is
-extreme, almost wholly involuntary. When you have
-severely burnt your finger it is very difficult to preserve
-a dignified composure: contortion of face, or movement of
-limb, is pretty sure to follow. If a man receives good
-news with neither facial change nor bodily motion, it is
-inferred that he is not much pleased, or that he has
-extraordinary self-control: either inference implying that
-joy almost universally produces contraction of the muscles,
-and so, alters the expression, or attitude, or both. And when
-we hear of the feats of strength which men have performed
-when their lives were at stake—when we read how, in the
-energy of despair, even paralyzed patients have regained for
-a time the use of their limbs; we see still more clearly
-the relation between nervous and muscular excitements. It
-becomes manifest both that emotions and sensations tend to
-generate bodily movements, and that the movements are
-violent in proportion as the emotions or sensations are intense.<a class="afnanch" href="#fn60" id="fnanch60">60</a></p>
-
-<p>This, however, is not the sole direction in which nervous
-excitement expends itself. Viscera as well as muscles may
-receive the discharge. That the heart and blood-vessels
-(which, indeed, being all contractile, may in a restricted
-sense be classed with the muscular system) are quickly
-affected by pleasures and pains, we have daily proved to
-us. Every sensation of any acuteness accelerates the
-pulse; and how sensitive the heart is to emotions, is
-testified by the familiar expressions which use heart and
-feeling as convertible terms. Similarly with the digestive
-organs. Without detailing the various ways in which
-these may be influenced by our mental states, it suffices to
-mention the marked benefits derived by dyspeptics, as well
-as other invalids, from cheerful society,
-welcome news, <span class="xxpn" id="p455">{455}</span>
-change of scene, to show how pleasurable feeling stimulates
-the viscera in general into greater activity.</p>
-
-<p>There is still another direction in which any excited
-portion of the nervous system may discharge itself; and a
-direction in which it usually does discharge itself when the
-excitement is not strong. It may pass on the stimulus to
-some other portion of the nervous system. This is what
-occurs in quiet thinking and feeling. The successive
-states which constitute con­scious­ness, result from this.
-Sensations excite ideas and emotions; these in their turns
-arouse other ideas and emotions; and so on continuously.
-That is to say, the tension existing in particular nerve-centres,
-or groups of nerve-centres, when they yield us
-certain sensations, ideas, or emotions, generates an equivalent
-tension in some other nervous structures, with which
-there is a connexion: the flow of energy passing on, the
-one idea or feeling dies in producing the next.</p>
-
-<p>Thus, then, while we are totally unable to comprehend
-how the excitement of certain nerve-centres should generate
-feeling—while, in the production of con­scious­ness by
-physical agents acting on physical structures, we come to
-a mystery never to be solved; it is yet quite possible for us
-to know by observation what are the successive forms
-which this mystery may take. We see that there are three
-channels along which nerve-centres in a state of tension
-may discharge themselves; or rather, I should say, three
-classes of channels. They may pass on the excitement to
-other nerve-centres that have no direct connexions with
-the bodily members, and may so cause other feelings and
-ideas; or they may pass on the excitement to one or more
-motor nerves, and so cause muscular contractions; or they
-may pass on the excitement to nerves which supply the
-viscera, and may so stimulate one or more of these.</p>
-
-<p>For simplicity’s sake I have described these as alternative
-routes, one or other of which any current of nerve-force
-must take; thereby, as it may be thought, implying
-that <span class="xxpn" id="p456">{456}</span>
-such current will be exclusively confined to some one of
-them. But this is by no means the case. Rarely, if ever,
-does it happen that a state of nervous tension, present to
-con­scious­ness as a feeling, expends itself in one direction
-only. Very generally it may be observed to expend itself
-in two; and it is probable that the discharge is never
-absolutely absent from any one of the three. There is,
-however, variety in the <i>proportions</i> in which the discharge
-is divided among these different channels under different
-circumstances. In a man whose fear impels him to run,
-the mental tension generated is only in part transformed
-into a muscular stimulus: there is a surplus which causes
-a rapid current of ideas. An agreeable state of feeling
-produced, say by praise, is not wholly used up in arousing
-the succeeding phase of the feeling and the new ideas
-appropriate to it; but a certain portion overflows into the
-visceral nervous system, increasing the action of the heart
-and facilitating digestion. And here we come upon a class
-of considerations and facts which open the way to a solution
-of our special problem.</p>
-
-<p>For, starting with the truth that at any moment the
-existing quantity of liberated nerve-force which in an
-inscrutable way produces in us the state we call feeling,
-<i>must</i> expend itself in some direction, it follows that, if of
-the several channels it may take, one is wholly or partially
-closed, more must be taken by the others; or that if two
-are closed, the discharge along the remaining one must
-be more intense; and that, conversely, should anything
-determine an unusual efflux in one direction, there will be
-a diminished efflux in other directions.</p>
-
-<p>Daily experience illustrates these conclusions. It is commonly
-remarked that the suppression of external signs of
-feeling, makes feeling more intense. The deepest grief is
-silent grief. Why? Because the nervous excitement not
-discharged in muscular action, discharges itself in other
-nervous excitements—arouses more numerous and
-more <span class="xxpn" id="p457">{457}</span>
-remote associations of melancholy ideas, and so increases
-the mass of feelings. People who conceal their anger are
-habitually found to be more revengeful than those who
-explode in loud speech and vehement action. Why?
-Because, as before, the emotion is reflected back, accumulates,
-and intensifies. Similarly, men who, as proved by
-their powers of rep­re­sen­ta­tion, have the keenest appreciation
-of the comic, are usually able to do and say the most
-ludicrous things with perfect gravity.</p>
-
-<p>On the other hand, all are familiar with the truth that
-bodily activity deadens emotion. Under great irritation
-we get relief by walking about rapidly. Extreme effort in
-the bootless attempt to achieve a desired end, greatly
-diminishes the intensity of the desire. Those who are
-forced to exert themselves after misfortunes, do not suffer
-nearly so much as those who remain quiescent. If any
-one wishes to check intellectual excitement, he cannot
-choose a more efficient method than running till he is
-exhausted. Moreover, these cases, in which the production
-of feeling and thought is hindered by determining the
-nervous energy towards bodily movements, have their
-counterparts in the cases in which bodily movements are
-hindered by extra absorption of nervous energy in sudden
-thoughts and feelings. If, when walking, there flashes on
-you an idea that creates great surprise, hope, or alarm,
-you stop; or if sitting cross-legged, swinging your pendent
-foot, the movement is at once arrested. From the viscera,
-too, intense mental action abstracts energy. Joy, disappointment,
-anxiety, or any moral perturbation rising to a
-great height, destroys appetite; or, if food has been
-taken, arrests digestion; and even a purely intellectual
-activity, when extreme, does the like.</p>
-
-<p>Facts, then, bear out these <i>a priori</i> inferences, that the
-nervous excitement at any moment present to con­scious­ness
-as feeling, must expend itself in some way or other;
-that of the three classes of channels open to it, it
-must <span class="xxpn" id="p458">{458}</span>
-take one, two, or more, according to circumstances; that
-the closure or obstruction of one, must increase the discharge
-through the others; and, conversely, that if, to
-answer some demand, the efflux of nervous energy in one
-direction is unusually great, there must be a corresponding
-decrease of the efflux in other directions. Setting out
-from these premises, let us now see what interpretation is
-to be put on the phenomena of laughter.</p>
-
-<p class="padtopa">That laughter is a form of muscular excitement, and so
-illustrates the general law that feeling passing a certain
-pitch habitually vents itself in bodily action, scarcely needs
-pointing out. It perhaps needs pointing out, however,
-that strong feeling of almost any kind produces this
-result. It is not a sense of the ludicrous, only, which does
-it; nor are the various forms of joyous emotion the sole
-additional causes. We have, besides, the sardonic laughter
-and the hysterical laughter which result from mental
-distress; to which must be added certain sensations, as
-tickling, and, according to Mr. Bain, cold, and some kinds
-of acute pain.</p>
-
-<p>Strong feeling, mental or physical, being, then, the
-general cause of laughter, we have to note that the muscular
-actions constituting it are distinguished from most
-others by this, that they are purposeless. In general,
-bodily motions that are prompted by feelings are directed
-to special ends; as when we try to escape a danger, or
-struggle to secure a gratification. But the movements of
-chest and limbs which we make when laughing have no
-object. And now remark that these quasi-convulsive
-contractions of the muscles, having no object, but being
-results of an uncontrolled discharge of energy, we may see
-whence arise their special characters—how it happens
-that certain classes of muscles are affected first, and then
-certain other classes. For an overflow of nerve-force
-undirected by any motive, will manifestly take first
-the <span class="xxpn" id="p459">{459}</span>
-most habitual routes; and if these do not suffice, will next
-overflow into the less habitual ones. Well, it is through
-the organs of speech that feeling passes into movement
-with the greatest frequency. The jaws, tongue, and lips
-are used not only to express strong irritation or gratification,
-but that very moderate flow of mental energy
-which accompanies ordinary conversation, finds its chief
-vent through this channel. Hence it happens that certain
-muscles round the mouth, small and easy to move, are the
-first to contract under pleasurable emotion. The class of
-muscles which, next after those of articulation, are most
-constantly set in action (or extra action, let us say) by
-feelings of all kinds, are those of respiration. Under
-pleasurable or painful sensations we breathe more rapidly:
-possibly as a consequence of the increased demand for
-oxygenated blood. The sensations that accompany exertion
-also bring on hard breathing; which here more
-evidently responds to the physiological needs. And emotions,
-too, agreeable and disagreeable, both, at first, excite
-respiration; though the last subsequently depress it.
-That is to say, of the bodily muscles, the respiratory are
-more constantly implicated than any others in those various
-acts which our feelings impel us to; and, hence, when
-there occurs an undirected discharge of nervous energy
-into the muscular system, it happens that, if the quantity
-be considerable, it convulses not only certain of the articulatory
-and vocal muscles, but also those which expel air
-from the lungs. Should the feeling to be expended be still
-greater in amount—too great to find vent in these classes
-of muscles—another class comes into play. The upper
-limbs are set in motion. Children frequently clap their
-hands in glee; by some adults the hands are rubbed
-together; and others, under still greater intensity of
-delight, slap their knees and sway their bodies backwards
-and forwards. Last of all, when the other channels for
-the escape of the surplus nerve-force have been filled
-to <span class="xxpn" id="p460">{460}</span>
-overflowing, a yet further and less-used group of muscles
-is spasmodically affected: the head is thrown back and
-the spine bent inwards—there is a slight degree of what
-medical men call opisthotonos. Thus, then, without contending
-that the phenomena of laughter in all their details
-are to be so accounted for, we see that in their <i>ensemble</i>
-they conform to these general principles:—that feeling
-excites to muscular action; that when the muscular action
-is unguided by a purpose the muscles first affected are
-those which feeling most habitually stimulates; and that
-as the feeling to be expended increases in quantity it
-excites an increasing number of muscles, in a succession
-determined by the relative frequency with which they
-respond to the regulated dictates of feeling. To which as
-a qualifying and complicating factor must be added the
-relative sizes of the muscles; since, other things equal, the
-smaller muscles will be moved more readily than the larger.</p>
-
-<p>There still, however, remains the question with which
-we set out. The explanation here given applies only to
-the laughter produced by acute pleasure or pain: it does
-not apply to the laughter which follows certain perceptions
-of incongruity. It is an insufficient explanation that
-in these cases, laughter is a result of the pleasure we take
-in escaping from the restraint of grave feelings. That this
-is a part-cause is true. Doubtless very often, as Mr. Bain
-says, “it is the coerced form of seriousness and solemnity
-without the reality that gives us that stiff position from
-which a contact with triviality or vulgarity relieves us, to
-our uproarious delight,” And in so far as mirth is caused
-by the gush of agreeable feeling which follows the cessation
-of unpleasant mental strain, it further illustrates the general
-principle above set forth. But no explanation is thus
-afforded of the mirth which ensues when the short silence
-between the <i>andante</i> and <i>allegro</i> in one of Beethoven’s
-symphonies, is broken by a loud sneeze. In this, and hosts
-of like cases, the mental tension is not
-coerced but <span class="xxpn" id="p461">{461}</span>
-spontaneous—not disagreeable but agreeable; and the coming
-impressions to which attention is directed, promise a gratification
-which few, if any, desire to escape. Hence, when
-the unlucky sneeze occurs, it cannot be that the laughter
-of the audience is due simply to the release from an irksome
-attitude of mind: some other cause must be sought.</p>
-
-<p>This cause we shall arrive at by carrying our analysis a
-step further. We have but to consider the quantity of
-feeling which exists under such circumstances, and then to
-ask what are the conditions determining the direction of
-its discharge, to reach a solution. Take a case. You are
-sitting in a theatre, absorbed in the progress of an interesting
-drama. Some climax has been reached which has
-aroused your sympathies—say, a reconciliation between the
-hero and heroine, after long and painful mis­un­der­stand­ing.
-The feelings excited by this scene are not of a kind from
-which you seek relief; but are, on the contrary, a grateful
-relief from the painful feelings with which you have witnessed
-the previous estrangement. Moreover, the sentiments
-these fictitious personages have for the moment
-inspired you with, are not such as would lead you to rejoice
-in any indignity offered to them; but rather, such as would
-make you resent the indignity. And now, while you are
-contemplating the reconciliation with a pleasurable sympathy,
-there appears from behind the scenes a tame kid,
-which, having stared round at the audience, walks up to
-the lovers and sniffs at them. You cannot help joining in
-the roar which greets this <i>contretemps</i>. Inexplicable as is
-this irresistible burst on the hypothesis of a pleasure in
-escaping from mental restraint; or on the hypothesis of a
-pleasure from relative increase of self-importance, when
-witnessing the humiliation of others; it is readily explicable
-if we consider what, in such a case, must become of the
-feeling that existed at the moment the incongruity arose.
-A large mass of emotion had been produced; or, to speak
-in physiological language, a large portion of the
-nervous <span class="xxpn" id="p462">{462}</span>
-system was in a state of tension. There was also great expectation
-with respect to the further evolution of the scene—a
-quantity of vague, nascent thought and emotion, into
-which the existing quantity of thought and emotion was
-about to pass. Had there been no interruption, the body
-of new ideas and feelings next excited, would have sufficed
-to absorb the whole of the liberated nervous energy. But
-now, this large amount of nervous energy, instead of being
-allowed to expend itself in producing an equivalent amount
-of the new thoughts and emotions which were nascent, is
-suddenly checked in its flow. The channels along which
-the discharge was about to take place, are closed. The
-new channel opened—that afforded by the appearance and
-proceedings of the kid—is a small one; the ideas and feelings
-suggested are not numerous and massive enough to
-carry off the nervous energy to be expended. The excess
-must therefore discharge itself in some other direction; and
-in the way already explained, there results an efflux through
-the motor nerves to various classes of the muscles, producing
-the half-convulsive actions we term laughter.</p>
-
-<p>This explanation is in harmony with the fact that when,
-among several persons who witness the same ludicrous
-occurrence, there are some who do not laugh, it is because
-there has arisen in them an emotion not participated in by
-the rest, and which is sufficiently massive to absorb all the
-nascent excitement. Among the spectators of an awkward
-tumble, those who preserve their gravity are those in whom
-there is excited a degree of sympathy with the sufferer,
-sufficiently great to serve as an outlet for the feeling which
-the occurrence had turned out of its previous course. Sometimes
-anger carries off the arrested current; and so prevents
-laughter. An instance of this was lately furnished me by a
-friend who had been witnessing the feats at Franconi’s. A
-tremendous leap had just been made by an acrobat over a
-number of horses. The clown, seemingly envious of this
-success, made ostentatious preparation for doing the
-like; <span class="xxpn" id="p463">{463}</span>
-and then, taking the preliminary run with immense energy,
-stopped short on reaching the first horse, and pretended to
-wipe some dust from its haunches. In most of the spectators,
-merriment was excited; but in my friend, wound up
-by the expectation of the coming leap to a state of great
-nervous tension, the effect of the baulk was to produce indignation.
-Experience thus proves what the theory implies;
-namely, that the discharge of arrested feelings into the
-muscular system, takes place only in the absence of other
-adequate channels—does not take place if there arise other
-feelings equal in amount to those arrested.</p>
-
-<p>Evidence still more conclusive is at hand. If we contrast
-the incongruities which produce laughter with those
-which do not, we see that in the non-ludicrous ones the
-unexpected feeling aroused, though wholly different in kind,
-is not less in quantity or intensity. Among incongruities
-which may excite anything but a laugh, Mr. Bain instances—“A
-decrepit man under a heavy burden, five loaves and
-two fishes among a multitude, and all unfitness and gross
-disproportion; an instrument out of tune, a fly in ointment,
-snow in May, Archimedes studying geometry in a siege,
-and all discordant things; a wolf in sheep’s clothing, a
-breach of bargain, and falsehood in general; the multitude
-taking the law in their own hands, and everything of the
-nature of disorder; a corpse at a feast, parental cruelty,
-filial ingratitude, and whatever is unnatural; the entire
-catalogue of the vanities given by Solomon, are all incongruous,
-but they cause feelings of pain, anger, sadness,
-loathing, rather than mirth.” Now in these cases, where
-the totally unlike state of con­scious­ness suddenly produced,
-is not inferior in mass to the preceding one, the conditions
-to laughter are not fulfilled. As above shown, laughter
-naturally results only when con­scious­ness is unawares transferred
-from great things to small—only when there is what
-we may call a <i>descending</i> incongruity.</p>
-
-<p>And now observe, finally, the fact, alike inferable <i>a
-priori</i> <span class="xxpn" id="p464">{464}</span>
-and illustrated in experience, that an <i>ascending</i> incongruity
-not only fails to cause laughter, but works on the muscular
-system an effect of the reverse kind. When after something
-very insignificant there arises without anticipation
-something very great, the emotion we call wonder results;
-and this emotion is accompanied not by contraction of the
-muscles, but by relaxation of them. In children and country
-people, that falling of the jaw which occurs on witnessing
-an imposing and unexpected change, exemplifies this effect.
-Persons wonder-struck at the production of a striking
-result by a seem­ing­ly-in­ad­e­quate cause, are frequently
-described as un­con­scious­ly dropping the things they held
-in their hands. Such are just the effects to be anticipated.
-After an average state of con­scious­ness, absorbing but a
-small quantity of nervous energy, is aroused without notice,
-a strong emotion of awe, terror, or admiration; joined with
-the astonishment due to an apparent want of adequate
-causation. This new state of con­scious­ness demands far
-more nervous energy than that which it has suddenly
-replaced; and this increased absorption of nervous energy
-in mental changes, involves a temporary diminution of the
-outflow in other directions: whence the pendent jaw and
-the relaxing grasp.</p>
-
-<p>One further observation is worth making. Among the
-several sets of channels into which surplus feeling might be
-discharged, was named the nervous system of the viscera.
-The sudden overflow of an arrested mental excitement,
-which, as we have seen, results from a descending incongruity,
-must doubtless stimulate not only the muscular
-system, as we see it does, but also the internal organs: the
-heart and stomach must come in for a share of the discharge.
-And thus there seems to be a good physiological basis for
-the popular notion that mirth-creating excitement facilitates
-digestion.</p>
-
-<p class="padtopa">Though, in doing so, I go beyond the boundaries of
-the <span class="xxpn" id="p465">{465}</span>
-immediate topic, I may fitly point out that the method of
-inquiry here followed, opens the way to interpretation of
-various phenomena besides those of laughter. To show the
-importance of pursuing it, I will indicate the explanation it
-furnishes of another familiar class of facts.</p>
-
-<p>All know how generally a large amount of emotion disturbs
-the action of the intellect, and interferes with the
-power of expression. A speech delivered with great facility
-to tables and chairs, is by no means so easily delivered to an
-audience. Every schoolboy can testify that his trepidation,
-when standing before a master, has often disabled him from
-repeating a lesson which he had duly learnt. In explanation
-of this we commonly say that the attention is distracted—that
-the proper train of ideas is broken by the intrusion
-of ideas that are irrelevant. But the question is, in what
-manner does unusual emotion produce this effect; and we
-are here supplied with a tolerably obvious answer. The
-repetition of a lesson, or set speech previously thought out,
-implies the flow of a very moderate amount of nervous
-excitement through a comparatively narrow channel. The
-thing to be done is simply to call up in succession certain
-pre­vi­ous­ly-ar­ranged ideas—a process in which no great
-amount of mental energy is expended. Hence, when there
-is a large quantity of emotion, which must be discharged in
-some direction or other; and when, as usually happens, the
-restricted series of intellectual actions to be gone through,
-does not suffice to carry it off; there result discharges along
-other channels besides the one prescribed: there are aroused
-various ideas foreign to the train of thought to be pursued;
-and these tend to exclude from con­scious­ness those which
-should occupy it.</p>
-
-<p>And now observe the meaning of those bodily actions
-spontaneously set up under these circumstances. The schoolboy
-saying his lesson, commonly has his fingers actively
-engaged—perhaps in twisting about a broken pen, or perhaps
-in squeezing the angle of his jacket; and if told to keep
-his <span class="xxpn" id="p466">{466}</span>
-hands still, he soon again falls into the same or a similar
-trick. Many anecdotes are current of public speakers having
-incurable automatic actions of this class: barristers who
-perpetually wound and unwound pieces of tape; members
-of parliament ever putting on and taking off their spectacles.
-So long as such movements are unconscious, they facilitate
-the mental actions. At least this seems a fair inference
-from the fact that confusion frequently results from putting
-a stop to them: witness the case narrated by Sir Walter
-Scott of his school-fellow, who became unable to say his
-lesson after the removal of the waistcoat button which he
-habitually fingered while in class. But why do they facilitate
-the mental actions? Clearly because they draw off a
-portion of the surplus nervous excitement. If, as above
-explained, the quantity of mental energy generated is
-greater than can find vent along the narrow channel of
-thought that is open to it; and if, in consequence, it is apt to
-produce confusion by rushing into other channels of thought;
-then, by allowing it an exit through the motor nerves
-into the muscular system, the pressure is diminished, and
-irrelevant ideas are less likely to intrude on con­scious­ness.</p>
-
-<p>This further illustration will, I think, justify the position
-that something may be achieved by pursuing in other cases
-this kind of psychological inquiry. A complete explanation
-of the phenomena, requires us to trace out <i>all</i> the
-consequences of any given state of con­scious­ness; and we
-cannot do this without studying the effects, bodily and
-mental, as varying in quantity at one another’s expense.
-We should probably learn much if in every case we asked—Where
-is all the nervous energy gone?</p>
-
-<div class="section">
-<h3 class="h3en">ENDNOTE TO <i>THE PHYSIOLOGY OF LAUGHTER</i>.</h3>
-</div>
-<div class="dfootnote">
-
-<p><a class="afnlabel" href="#fnanch60" id="fn60">60</a>
-For numerous illustrations see essay on “The Origin and Function
-of Music.”</p></div>
-
-<div class="fsz5 padtopa">END OF VOL. II.</div>
-
-<div class="chapter">
-<hr id="hrend" />
-<h2 class="h2nobreak" id="idads"
-title="Advertisements: MR. HERBERT SPENCER’S WORKS.">MR.
-HERBERT SPENCER’S WORKS.</h2></div>
-
-<div class="fszc"><i>A SYSTEM OF SYNTHETIC PHILOSOPHY.</i></div>
-
-<div class="fszb padtopa"><i>8th Thousand.</i></div>
-<div class="fsza">(WITH AN APPENDIX DEALING WITH CRITICISMS.)</div>
-<div class="fszb">In one vol. 8vo, cloth, price 16s.,</div>
-<div class="fszd">FIRST PRINCIPLES.</div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
-I.—<span class="smcap">T<b>HE</b></span> <span
-class="smcap">U<b>NKNOWABLE.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Religion and Science.</li>
-<li class="liad2">2. Ultimate Religious Ideas.</li>
-<li class="liad2">3. Ultimate Scientific Ideas.</li>
-<li class="liad2">4. The Relativity of All Knowledge.</li>
-<li class="liad2">5. The Reconciliation.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
-II.—<span class="smcap">T<b>HE</b></span> <span
-class="smcap">K<b>NOWABLE.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Philosophy Defined</li>
-<li class="liad2">2. The Data of Philosophy.</li>
-<li class="liad2">3. Space, Time, Matter, Motion, and Force.</li>
-<li class="liad2">4. The In­de­struc­ti­bil­ity of Matter.</li>
-<li class="liad2">5. The Continuity of Motion.</li>
-<li class="liad2">6. The Persistence of Force.</li>
-<li class="liad2">7. The Persistence of Relations among Forces.</li>
-<li class="liad2">8. The Transformation and Equivalence of Forces.</li>
-<li class="liad2">9. The Direction of Motion.</li>
-<li class="liad2">10. The Rhythm of Motion.</li>
-<li class="liad2">11. Recapitulation, Criticism, and Recommencement.</li>
-<li class="liad2">12. Evolution and Dissolution.</li>
-<li class="liad2">13. Simple and Compound Evolution.</li>
-<li class="liad2">14. The Law of Evolution.</li>
-<li class="liad2">15. The Law of Evolution, continued.</li>
-<li class="liad2">16. The Law of Evolution, continued.</li>
-<li class="liad2">17. The Law of Evolution, concluded.</li>
-<li class="liad2">18. The Interpretation of Evolution.</li>
-<li class="liad2">19. The Instability of the Homogeneous.</li>
-<li class="liad2">20. The Multiplication of Effects.</li>
-<li class="liad2">21. Segregation.</li>
-<li class="liad2">22. Equilibration.</li>
-<li class="liad2">23. Dissolution.</li>
-<li class="liad2">24. Summary and Conclusion.</li>
-</ul></li></ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>4th Thousand.</i></div>
-<div class="fszb">In two vols. 8vo, cloth, price 34s.</div>
-<div class="fszd">THE PRINCIPLES OF BIOLOGY.</div></div>
-
-<div class="fszc">CONTENTS OF VOL. I.</div>
-
-<ul class="ulad">
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
-I.—<span class="smcap">T<b>HE</b></span>
-<span class="smcap">D<b>ATA</b></span>
-<span class="smmaj">OF</span>
-<span class="smcap">B<b>IOLOGY.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Organic Matter.</li>
-<li class="liad2">2. The Actions of Forces on Organic Matter.</li>
-<li class="liad2">3. The Re-actions of Organic Matter on Forces.</li>
-<li class="liad2">4. Proximate Definition of Life.</li>
-<li class="liad2">5. The Correspondence between Life and its Circumstances.</li>
-<li class="liad2">6. The Degree of Life varies as the Degree of Correspondence.</li>
-<li class="liad2">7. The Scope of Biology.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- II.—<span class="smcap">T<b>HE</b></span> <span
- class="smcap">I<b>NDUCTIONS</b></span> <span class="smmaj">OF</span>
- <span class="smcap">B<b>IOLOGY.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Growth.</li>
-<li class="liad2">2. Development.</li>
-<li class="liad2">3. Function.</li>
-<li class="liad2">4. Waste and Repair.</li>
-<li class="liad2">5. Adaptation.</li>
-<li class="liad2">6. Individuality.</li>
-<li class="liad2">7. Genesis.</li>
-<li class="liad2">8. Heredity.</li>
-<li class="liad2">9. Variation.</li>
-<li class="liad2">10. Genesis, Heredity, and Variation.</li>
-<li class="liad2">11. Classification.</li>
-<li class="liad2">12. Distribution.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- III.—<span class="smcap">T<b>HE</b></span> <span
- class="smcap">E<b>VOLUTION</b></span> <span class="smmaj">OF</span>
- <span class="smcap">L<b>IFE.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Preliminary.</li>
-<li class="liad2">2. General Aspects of the Special-Creation-Hypothesis.</li>
-<li class="liad2">3. General Aspects of the Evolution-Hypothesis.</li>
-<li class="liad2">4. The Arguments from Classification.</li>
-<li class="liad2">5. The Arguments from Embryology.</li>
-<li class="liad2">6. The Arguments from Morphology.</li>
-<li class="liad2">7. The Arguments from Distribution.</li>
-<li class="liad2">8. How is Organic Evolution caused?</li>
-<li class="liad2">9. External Factors.</li>
-<li class="liad2">10. Internal Factors.</li>
-<li class="liad2">11. Direct Equilibration.</li>
-<li class="liad2">12. Indirect Equilibration.</li>
-<li class="liad2">13. The Co-operation of the Factors.</li>
-<li class="liad2">14. The Convergence of the Evidences.</li></ul></li>
-
-<li class="liad1"><span class="smcap">A<b>PPENDIX.</b></span>
-<ul class="ulad">
-<li class="liad2">The Spontaneous-Generation Question.</li>
-</ul></li></ul>
-
-
-
-<div class="fszc padtopa">CONTENTS OF VOL. II.</div>
-
-<ul class="ulad">
-<li class="liad1"><span class="smcap">P<b>ART</b></span> IV.—<span
- class="smcap">M<b>ORPHOLOGICAL</b></span> <span
- class="smcap">D<b>EVELOPMENT.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Problems of Morphology.</li>
-<li class="liad2">2. The Morphological Composition of Plants.</li>
-<li class="liad2">3. The Morphological Composition of Plants, continued.</li>
-<li class="liad2">4. The Morphological Composition of Animals.</li>
-<li class="liad2">5. The Morphological Composition of Animals, continued.</li>
-<li class="liad2">6. Morphological Dif­fer­en­ti­a­tion in Plants.</li>
-<li class="liad2">7. The General Shapes of Plants.</li>
-<li class="liad2">8. The Shapes of Branches.</li>
-<li class="liad2">9. The Shapes of Leaves.</li>
-<li class="liad2">10. The Shapes of Flowers.</li>
-<li class="liad2">11. The Shapes of Vegetal Cells.</li>
-<li class="liad2">12. Changes of Shape otherwise caused.</li>
-<li class="liad2">13. Morphological Dif­fer­en­ti­a­tion in Animals.</li>
-<li class="liad2">14. The General Shapes of Animals.</li>
-<li class="liad2">15. The Shapes of Vertebrate Skeletons.</li>
-<li class="liad2">16. The Shapes of Animal Cells.</li>
-<li class="liad2">17. Summary of Morphological Development.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span> V.—<span class="smcap">P<b>HYSIOLOGICAL</b></span>
- <span class="smcap">D<b>EVELOPMENT.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Problems of Physiology.</li>
-
-<li class="liad2">2. Dif­fer­en­ti­a­tions between the
-Outer and Inner Tissues of
-Plants.</li>
-
-<li class="liad2">3. Dif­fer­en­ti­a­tions among the
-Outer Tissues of Plants.</li>
-
-<li class="liad2">4. Dif­fer­en­ti­a­tions among the
-Inner Tissues of Plants.</li>
-
-<li class="liad2">5. Physiological Integration in
-Plants.</li>
-
-<li class="liad2">6. Dif­fer­en­ti­a­tions between the
-Outer and Inner Tissues of
-Animals.</li>
-
-<li class="liad2">7. Dif­fer­en­ti­a­tions among the
-Outer Tissues of Animals.</li>
-
-<li class="liad2">8. Dif­fer­en­ti­a­tions among the
-Inner Tissues of Animals.</li>
-
-<li class="liad2">9. Physiological Integration in
-Animals.</li>
-
-<li class="liad2">10. Summary of Physiological Development.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span> VI.—<span
- class="smcap">L<b>AWS</b></span> <span class="smmaj">OF</span> <span
- class="smcap">M<b>ULTIPLICATION.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Factors.</li>
-
-<li class="liad2">2. <i>À Priori</i> Principle.</li>
-
-<li class="liad2">3. Obverse <i>à priori</i> Principle.</li>
-
-<li class="liad2">4. Difficulties of Inductive Verification.</li>
-
-<li class="liad2">5. Antagonism between Growth
-and Asexual Genesis.</li>
-
-<li class="liad2">6. Antagonism between Growth
-and Sexual Genesis.</li>
-
-<li class="liad2">7. Antagonism between Development
-and Genesis, Asexual
-and Sexual.</li>
-
-<li class="liad2">8. Antagonism between Expenditure
-and Genesis.</li>
-
-<li class="liad2">9. Coincidence between high
-Nutrition and Genesis.</li>
-
-<li class="liad2">10. Specialities of these Relations.</li>
-
-<li class="liad2">11. Interpretation and Qualification.</li>
-
-<li class="liad2">12. Multiplication of the Human Race.</li>
-
-<li class="liad2">13. Human Evolution in the Future.</li></ul></li>
-
-<li class="liad1"><span class="smcap">A<b>PPENDIX.</b></span>
-<ul class="ulad">
-<li class="liad2">A Criticism on Professor Owen’s
-Theory of the Vertebrate Skeleton.</li>
-
-<li class="liad2">On Circulation and the Formation
-of Wood in Plants.</li></ul></li></ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>5th Thousand.</i></div>
-<div class="fsza">(WITH AN ADDITIONAL PART.)</div>
-<div class="fszb">In two vols. 8vo, cloth, price 36s.,</div>
-<div class="fszd">THE PRINCIPLES OF PSYCHOLOGY.</div></div>
-
-<div class="fszc">CONTENTS OF VOL. I.</div>
-
-<ul class="ulad">
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- I.—<span class="smcap">T<b>HE</b></span> <span
- class="smcap">D<b>ATA</b></span> <span class="smmaj">OF</span> <span
- class="smcap">P<b>SYCHOLOGY.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Nervous System.</li>
-<li class="liad2">2. The Structure of the Nervous System.</li>
-<li class="liad2">3. The Functions of the Nervous System.</li>
-<li class="liad2">4. The Conditions essential to Nervous Action.</li>
-<li class="liad2">5. Nervous Stimulation and Nervous Discharge.</li>
-<li class="liad2">6. Æstho-Physiology.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- II.—<span class="smcap">T<b>HE</b></span> <span
- class="smcap">I<b>NDUCTIONS</b></span> <span class="smmaj">OF</span>
- <span class="smcap">P<b>SYCHOLOGY.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Substance of Mind.</li>
-<li class="liad2">2. The Composition of Mind.</li>
-<li class="liad2">3. The Relativity of Feelings.</li>
-<li class="liad2">4. The Relativity of Relations between Feelings.</li>
-<li class="liad2">5. The Revivability of Feelings.</li>
-<li class="liad2">6. The Revivability of Relations between Feelings.</li>
-<li class="liad2">7. The Associability of Feelings.</li>
-<li class="liad2">8. The Associability of Relations between Feelings.</li>
-<li class="liad2">9. Pleasures and Pains.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span> III.—<span class="smcap">G<b>ENERAL</b></span>
- <span class="smcap">S<b>YNTHESIS.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Life and Mind as Correspondence.</li>
-<li class="liad2">2. The Correspondence as Direct and Homogeneous.</li>
-<li class="liad2">3. The Correspondence as Direct but Heterogeneous.</li>
-<li class="liad2">4. The Correspondence as extending in Space.</li>
-<li class="liad2">5. The Correspondence as extending in Time.</li>
-<li class="liad2">6. The Correspondence as increasing in Speciality.</li>
-<li class="liad2">7. The Correspondence as increasing in Generality.</li>
-<li class="liad2">8. The Correspondence as increasing in Complexity.</li>
-<li class="liad2">9. The Co-ordination of Correspondences.</li>
-<li class="liad2">10. The Integration of Correspondences.</li>
-<li class="liad2">11. The Correspondences in their
- Totality.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span> IV.—<span class="smcap">S<b>PECIAL</b></span>
- <span class="smcap">S<b>YNTHESIS.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Nature of Intelligence.</li>
-<li class="liad2">2. The Law of Intelligence.</li>
-<li class="liad2">3. The Growth of Intelligence.</li>
-<li class="liad2">4. Reflex Action.</li>
-<li class="liad2">5. Instinct.</li>
-<li class="liad2">6. Memory.</li>
-<li class="liad2">7. Reason.</li>
-<li class="liad2">8. The Feelings.</li>
-<li class="liad2">9. The Will.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span> V.—<span class="smcap">P<b>HYSICAL</b></span>
- <span class="smcap">S<b>YNTHESIS.</b></span>
-<ul class="ulad">
-<li class="liad2">1. A Further Interpretation Needed.</li>
-<li class="liad2">2. The Genesis of Nerves.</li>
-<li class="liad2">3. The Genesis of Simple Nervous Systems.</li>
-
-<li class="liad2">4. The Genesis of Compound Nervous Systems.</li>
-<li class="liad2">5. The Genesis of Doubly-Compound Nervous Systems.</li>
-<li class="liad2">6. Functions as Related to these Structures.</li>
-<li class="liad2">7. Psychical Laws as thus Interpreted.</li>
-<li class="liad2">8. Evidence from Normal Variations.</li>
-<li class="liad2">9. Evidence from Abnormal Variations.</li>
-<li class="liad2">10. Results.</li></ul></li>
-
-<li class="liad1"><span class="smcap">A<b>PPENDIX.</b></span>
-<ul class="ulad">
-<li class="liad2">On the Action of Anæsthetics
- and Narcotics.</li></ul></li></ul>
-
-<div class="fszc">CONTENTS OF VOL. II.</div>
-
-<ul class="ulad">
-<li class="liad1"><span class="smcap">P<b>ART</b></span> VI.—<span class="smcap">S<b>PECIAL</b></span>
- <span class="smcap">A<b>NALYSIS.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Limitation of the Subject.</li>
-
-<li class="liad2">2. Compound Quantitative Reasoning.</li>
-
-<li class="liad2">3. Compound Quantitative Reasoning,
-continued.</li>
-
-<li class="liad2">4. Imperfect and Simple Quantitative Reasoning.</li>
-
-<li class="liad2">5. Quantitative Reasoning in General.</li>
-
-<li class="liad2">6. Perfect Qualitative Reasoning.</li>
-
-<li class="liad2">7. Imperfect Qualitative Reasoning.</li>
-
-<li class="liad2">8. Reasoning in General.</li>
-
-<li class="liad2">9. Classification, Naming, and
-Recognition.</li>
-
-<li class="liad2">10. The Perception of Special Objects.</li>
-
-<li class="liad2">11. The Perception of Body as
-presenting Dynamical, Statico-Dynamical,
-and Statical Attributes.</li>
-
-<li class="liad2">12. The Perception of Body as
-presenting Statico-Dynamical
-and Statical Attributes.</li>
-
-<li class="liad2">13. The Perception of Body as presenting
-Statical Attributes.</li>
-
-<li class="liad2">14. The Perception of Space.</li>
-
-<li class="liad2">15. The Perception of Time.</li>
-
-<li class="liad2">16. The Perception of Motion.</li>
-
-<li class="liad2">17. The Perception of Resistance.</li>
-
-<li class="liad2">18. Perception in General.</li>
-
-<li class="liad2">19. The Relations of Similarity
-and Dissimilarity.</li>
-
-<li class="liad2">20. The Relations of Cointension
-and Non-Cointension.</li>
-
-<li class="liad2">21. The Relations of Coextension
-and Non-Coextension.</li>
-
-<li class="liad2">22. The Relations of Coexistence
-and Non-Coexistence.</li>
-
-<li class="liad2">23. The Relations of Connature
-and Non-Connature.</li>
-
-<li class="liad2">24. The Relations of Likeness and
-Unlikeness.</li>
-
-<li class="liad2">25. The Relation of Sequence.</li>
-
-<li class="liad2">26. Consciousness in General.</li>
-
-<li class="liad2">27. Results.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- VII.—<span class="smcap">G<b>ENERAL</b></span>
- <span class="smcap">A<b>NALYSIS.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Final Question.</li>
-<li class="liad2">2. The Assumption of Metaphysicians.</li>
-<li class="liad2">3. The Words of Metaphysicians.</li>
-<li class="liad2">4. The Reasonings of Metaphysicians.</li>
-<li class="liad2">5. Negative Justification of Realism.</li>
-<li class="liad2">6. Argument from Priority.</li>
-<li class="liad2">7. The Argument from Simplicity.</li>
-<li class="liad2">8. The Argument from Distinctness.</li>
-<li class="liad2">9. A Criterion Wanted.</li>
-<li class="liad2">10. Propositions qualitatively distinguished.</li>
-<li class="liad2">11. The Universal Postulate.</li>
-<li class="liad2">12. The test of Relative Validity.</li>
-<li class="liad2">13. Its Corollaries.</li>
-<li class="liad2">14. Positive Justification of Realism.</li>
-<li class="liad2">15. The Dynamics of Consciousness.</li>
-<li class="liad2">16. Partial Dif­fer­en­ti­a­tion of Subject and Object.</li>
-<li class="liad2">17. Completed Dif­fer­en­ti­a­tion of Subject and Object.</li>
-<li class="liad2">18. Developed Conception of the Object.</li>
-<li class="liad2">19. Transfigured Realism.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- VIII.—<span class="smcap">C<b>ONGRUITIES.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Preliminary.</li>
-<li class="liad2">2. Co-ordination of Data and Inductions.</li>
-<li class="liad2">3. Co-ordination of Syntheses.</li>
-<li class="liad2">4. Co-ordination of Special Analyses.</li>
-<li class="liad2">5. Co-ordination of General Analyses.</li>
-<li class="liad2">6. Final Comparison.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- IX.—<span class="smcap">C<b>OROLLARIES.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Special Psychology.</li>
-<li class="liad2">2. Classification.</li>
-<li class="liad2">3. Development of Conceptions.</li>
-<li class="liad2">4. Language of the Emotions.</li>
-<li class="liad2">5. Sociality and Sympathy.</li>
-<li class="liad2">6. Egoistic Sentiments.</li>
-<li class="liad2">7. Ego-Altruistic Sentiments.</li>
-<li class="liad2">8. Altruistic Sentiments.</li>
-<li class="liad2">9. Æsthetic Sentiments.</li>
-</ul></li></ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>3rd Edition, revised and enlarged.</i></div>
-<div class="fszb">In 8vo., cloth, price 21s., Vol. I. of</div>
-<div class="fszd">THE PRINCIPLES OF SOCIOLOGY.</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad1"><span class="smcap">P<b>ART</b></span>
- I.—<span class="smcap">T<b>HE</b></span> <span
- class="smcap">D<b>ATA</b></span> <span class="smmaj">OF</span> <span
- class="smcap">S<b>OCIOLOGY.</b></span>
-<ul class="ulad">
-<li class="liad2">1. Super-Organic Evolution.</li>
-
-<li class="liad2">2. The Factors of Social Phenomena.</li>
-
-<li class="liad2">3. Original External Factors.</li>
-
-<li class="liad2">4. Original Internal Factors.</li>
-
-<li class="liad2">5. The Primitive Man—Physical.</li>
-
-<li class="liad2">6. The Primitive Man—Emotional.</li>
-
-<li class="liad2">7. The Primitive Man—Intellectual.</li>
-
-<li class="liad2">8. Primitive Ideas.</li>
-
-<li class="liad2">9. The Ideas of the Animate and
-the Inanimate.</li>
-
-<li class="liad2">10. The Ideas of Sleep and Dreams.</li>
-
-<li class="liad2">11. The Ideas of Swoon, Apoplexy,
-Catelepsy, Ecstacy,
-and other forms of Insensibility.</li>
-
-<li class="liad2">12. The Ideas of Death and
-Resurrection.</li>
-
-<li class="liad2">13. The Ideas of Souls, Ghosts,
-Spirits, Demons.</li>
-
-<li class="liad2">14. The Ideas of Another Life.</li>
-
-<li class="liad2">15. The Ideas of Another World.</li>
-
-<li class="liad2">16. The Ideas of Supernatural
-Agents.</li>
-
-<li class="liad2">17. Supernatural Agents as causing
-Epilepsy and Convulsive
-Actions, Delirium and
-Insanity, Disease and Death.</li>
-
-<li class="liad2">18. Inspiration, Divination, Exorcism,
-and Sorcery.</li>
-
-<li class="liad2">19. Sacred Places, Temples, and
-Altars; Sacrifice, Fasting,
-and Propitiation; Praise
-and Prayer.</li>
-
-<li class="liad2">20. Ancestor-Worship in General.</li>
-
-<li class="liad2">21. Idol-Worship and Fetich-Worship.</li>
-
-<li class="liad2">22. Animal-Worship.</li>
-
-<li class="liad2">23. Plant-Worship.</li>
-
-<li class="liad2">24. Nature-Worship.</li>
-
-<li class="liad2">25. Deities.</li>
-
-<li class="liad2">26. The Primitive Theory of
-Things.</li>
-
-<li class="liad2">27. The Scope of Sociology.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span> II.—<span class="smcap">T<b>HE</b></span>
- <span class="smcap">I<b>NDUCTIONS</b></span>
- <span class="smmaj">OF</span>
- <span class="smcap">S<b>OCIOLOGY.</b></span>
-<ul class="ulad">
-<li class="liad2">1. What is a Society?</li>
-<li class="liad2">2. A Society is an Organism.</li>
-<li class="liad2">3. Social Growth.</li>
-<li class="liad2">4. Social Structures.</li>
-<li class="liad2">5. Social Functions.</li>
-<li class="liad2">6. Systems of Organs.</li>
-<li class="liad2">7. The Sustaining System.</li>
-<li class="liad2">8. The Distributing System.</li>
-<li class="liad2">9. The Regulating System.</li>
-<li class="liad2">10. Social Types and Constitutions.</li>
-<li class="liad2">11. Social Metamorphoses.</li>
-<li class="liad2">12. Qualifications and Summary.</li></ul></li>
-
-<li class="liad1"><span class="smcap">P<b>ART</b></span> III.—<span class="smcap">T<b>HE</b></span>
- <span class="smcap">D<b>OMESTIC</b></span>
- <span class="smcap">R<b>ELATIONS.</b></span>
-<ul class="ulad">
-<li class="liad2">1. The Maintenance of Species.</li>
-
-<li class="liad2">2. The Diverse Interests of the Species, of
- the Parents, and of the Offspring.</li>
-
-<li class="liad2">3. Primitive Relations of the Sexes.</li>
-
-<li class="liad2">4. Exogamy and Endogamy.</li>
-
-<li class="liad2">5. Promiscuity.</li>
-
-<li class="liad2">6. Polyandry.</li>
-
-<li class="liad2">7. Polygyny.</li>
-
-<li class="liad2">8. Monogamy.</li>
-
-<li class="liad2">9. The Family.</li>
-
-<li class="liad2">10. The <i>Status</i> of Women.</li>
-
-<li class="liad2">11. The <i>Status</i> of Children.</li>
-
-<li class="liad2">12. Domestic Retrospect and Prospect.</li>
-</ul></li></ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>2nd Thousand.</i></div>
-<div class="fszb">In 8vo, cloth, price 18s. Vol. II of</div>
-<div class="fszd">THE PRINCIPLES OF SOCIOLOGY.</div>
-
-<div class="fszb">(<i>Containing the two following divisions, which may still
-be had separately.</i>)</div></div>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa">In one vol. 8vo, cloth, price 7s.,</div>
-<div class="fszd">CEREMONIAL INSTITUTIONS.</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. Ceremony in General.</li>
-<li class="liad2">2. Trophies.</li>
-<li class="liad2">3. Mutilations.</li>
-<li class="liad2">4. Presents.</li>
-<li class="liad2">5. Visits.</li>
-<li class="liad2">6. Obeisances.</li>
-<li class="liad2">7. Forms of Address.</li>
-<li class="liad2">8. Titles.</li>
-<li class="liad2">9. Badges and Costumes.</li>
-<li class="liad2">10. Further Class-Distinctions.</li>
-<li class="liad2">11. Fashion.</li>
-<li class="liad2">12. Ceremonial Retrospect and Prospect.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa">In one vol. 8vo, cloth, price 12s.</div>
-<div class="fszd">POLITICAL INSTITUTIONS.</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. Preliminary.</li>
-<li class="liad2">2. Political Organization in General.</li>
-<li class="liad2">3. Political Integration.</li>
-<li class="liad2">4. Political Dif­fer­en­ti­a­tion.</li>
-<li class="liad2">5. Political Forms and Forces.</li>
-<li class="liad2">6. Political Heads—Chiefs, Kings, etc.</li>
-<li class="liad2">7. Compound Political Heads.</li>
-<li class="liad2">8. Consultative Bodies.</li>
-<li class="liad2">9. Representative Bodies.</li>
-<li class="liad2">10. Ministries.</li>
-<li class="liad2">11. Local Governing Agencies.</li>
-<li class="liad2">12. Military Systems.</li>
-<li class="liad2">13. Judicial Systems.</li>
-<li class="liad2">14. Laws.</li>
-<li class="liad2">15. Property.</li>
-<li class="liad2">16. Revenue.</li>
-<li class="liad2">17. The Militant Type of Society.</li>
-<li class="liad2">18. The Industrial Type of Society.</li>
-<li class="liad2">19. Political Retrospect and Prospect.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>2nd Thousand.</i></div>
-<div class="fszb">In one vol. 8vo., cloth, price 5<i>s.</i></div>
-<div class="fszd">ECCLESIASTICAL INSTITUTIONS.</div>
-
-<div class="fszb">(<i>Being Part VI. of the
- PRINCIPLES OF SOCIOLOGY.</i>)</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. The Religious Idea.</li>
-<li class="liad2">2. Medicine-men and Priests.</li>
-<li class="liad2">3. Priestly Duties of Descendants.</li>
-<li class="liad2">4. Eldest Male Descendants as Quasi-Priests.</li>
-<li class="liad2">5. The Ruler as Priest.</li>
-<li class="liad2">6. The Rise of a Priesthood.</li>
-<li class="liad2">7. Polytheistic and Monotheistic Priesthoods.</li>
-<li class="liad2">8. Ecclesiastical Hierarchies.</li>
-<li class="liad2">9. An Ecclesiastical System as a Social Bond.</li>
-<li class="liad2">10. The Military Functions of Priests.</li>
-<li class="liad2">11. The Civil Functions of Priests.</li>
-<li class="liad2">12. Church and State.</li>
-<li class="liad2">13. Nonconformity.</li>
-<li class="liad2">14. The Moral Influences of Priesthoods.</li>
-<li class="liad2">15. Ecclesiastical Retrospect and Prospect.</li>
-<li class="liad2">16. Religious Retrospect and Prospect.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>5th Thousand.</i></div>
-<div class="fsza">WITH AN APPENDIX, CONTAINING AN ADDITIONAL CHAPTER, AND REPLIES TO CRITICISMS.</div>
-<div class="fszb">In one vol. 8vo, cloth, price 8s.,</div>
-<div class="fszd">THE DATA OF ETHICS.</div>
-<div class="fszb">(<i>Being Part I. of the
- PRINCIPLES OF ETHICS.</i>)</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. Conduct in General.</li>
-<li class="liad2">2. The Evolution of Conduct.</li>
-<li class="liad2">3. Good and Bad Conduct.</li>
-<li class="liad2">4. Ways of Judging Conduct.</li>
-<li class="liad2">5. The Physical View.</li>
-<li class="liad2">6. The Biological View.</li>
-<li class="liad2">7. The Psychological View.</li>
-<li class="liad2">8. The Sociological View.</li>
-<li class="liad2">9. Criticisms and Explanations.</li>
-<li class="liad2">10. The Relativity of Pains and Pleasures.</li>
-<li class="liad2">11. Egoism <i>versus</i> Altruism.</li>
-<li class="liad2">12. Altruism <i>versus</i> Egoism.</li>
-<li class="liad2">13. Trial and Compromise.</li>
-<li class="liad2">14. Conciliation.</li>
-<li class="liad2">15. Absolute Ethics and Relative Ethics.</li>
-<li class="liad2">16. The Scope of Ethics.</li>
-</ul>
-
-<div class="chapter">
-<div class="fszc"><i>OTHER WORKS.</i></div>
-</div><!--chapter-->
-
-<div class="fszb padtopa"><i>5th Thousand.</i></div>
-<div class="fszb">In one vol. 8vo, cloth, price 6s.,</div>
-<div class="fszd">EDUCATION:</div>
-<div class="fszc">INTELLECTUAL, MORAL, AND PHYSICAL.</div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. What Knowledge is of most Worth?</li>
-<li class="liad2">2. Intellectual Education.</li>
-<li class="liad2">3. Moral Education.</li>
-<li class="liad2">4. Physical Education.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>Also, 20th and 21st Thousand,</i></div>
-<div class="fszc"><i>A CHEAP EDITION OF THE FOREGOING WORK.</i></div></div>
-
-<div class="pkeeptogether">
-<div class="fszb">In one vol. crown 8vo, price 2s. 6d.</div>
-
-<div class="fszb padtopa"><i>Library Edition (the 9th), with a Postscript.</i></div>
-<div class="fszb">In one vol., price 10s. 6d.,</div>
-<div class="fszd">THE STUDY OF SOCIOLOGY.</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. Our Need of it.</li>
-<li class="liad2">2. Is there a Social Science?</li>
-<li class="liad2">3. Nature of the Social Science.</li>
-<li class="liad2">4. Difficulties of the Social Science.</li>
-<li class="liad2">5. Objective Difficulties.</li>
-<li class="liad2">6. Subjective Difficulties—Intellectual.</li>
-<li class="liad2">7. Subjective Difficulties—Emotional.</li>
-<li class="liad2">8. The Educational Bias.</li>
-<li class="liad2">9. The Bias of Patriotism.</li>
-<li class="liad2">10. The Class-Bias.</li>
-<li class="liad2">11. The Political Bias.</li>
-<li class="liad2">12. The Theological Bias.</li>
-<li class="liad2">13. Discipline.</li>
-<li class="liad2">14. Preparation in Biology.</li>
-<li class="liad2">15. Preparation in Psychology.</li>
-<li class="liad2">16. Conclusion.</li>
-<li class="liad2">&#x2007;&#x2007;&#x2008;&#160;Postscript.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>10th Thousand.</i></div>
-<div class="fszb">In wrapper, 1s., in cloth, better paper, 2s. 6d.</div>
-<div class="fszd">THE MAN
- <i><span class="smmaj">VERSUS</span></i> THE STATE.</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. The New Toryism.</li>
-<li class="liad2">2. The Coming Slavery.</li>
-<li class="liad2">3. The Sins of Legislators.</li>
-<li class="liad2">4. The Great Political Superstition.</li>
-<li class="liad2">&#x2007;&#x2007;&#x2008;&#160;Postscript.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>4th Thousand.</i></div>
-<div class="fszb">In two vols. 8vo, cloth, price 16s.,</div>
-<div class="fszd">ESSAYS:</div>
-<div class="fszc">SCIENTIFIC, POLITICAL, AND
-SPECULATIVE.</div></div>
-
-<div class="fszc padtopc">CONTENTS OF VOL. I.</div>
-
-<ul class="ulad">
-<li class="liad2">1. Progress: its Law and Cause.</li>
-<li class="liad2">2. Manners and Fashion.</li>
-<li class="liad2">3. The Genesis of Science.</li>
-<li class="liad2">4. The Physiology of Laughter.</li>
-<li class="liad2">5. The Origin and Function of Music.</li>
-<li class="liad2">6. The Nebular Hypothesis.</li>
-<li class="liad2">7. Bain on the Emotions and the Will.</li>
-<li class="liad2">8. Illogical Geology.</li>
-<li class="liad2">9. The Development Hypothesis.</li>
-<li class="liad2">10. The Social Organism.</li>
-<li class="liad2">11. Use and Beauty.</li>
-<li class="liad2">12. The Sources of Architectural Types.</li>
-<li class="liad2">13. The Use of Anth­ro­po­morphism.</li>
-</ul>
-
-<div class="fszc padtopc">CONTENTS OF VOL. II.</div>
-
-<ul class="ulad">
-<li class="liad2">1. The Philosophy of Style.</li>
-<li class="liad2">2. Over-Legislation.</li>
-<li class="liad2">3. The Morals of Trade.</li>
-<li class="liad2">4. Personal Beauty.</li>
-<li class="liad2">5. Representative Government.</li>
-<li class="liad2">6. Prison Ethics.</li>
-<li class="liad2">7. Railway Morals and Railway Policy.</li>
-<li class="liad2">8. Gracefulness.</li>
-<li class="liad2">9. State-Tamperings with Money and Banks.</li>
-<li class="liad2">10. Parliamentary Reform: the Dangers and the Safeguards.</li>
-<li class="liad2">11. Mill <i>versus</i> Hamilton—the Test of
- Truth.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>3rd Edition.</i></div>
-<div class="fszb">In one vol. 8vo., price 8s.,</div>
-<div class="fszc">THIRD SERIES OF</div>
-<div class="fszd">ESSAYS:</div></div>
-
-<div class="fszc padtopc">CONTENTS.</div>
-
-<ul class="ulad">
-<li class="liad2">1. The Classification of the Sciences (with a Postscript, replying to Criticisms).</li>
-
-<li class="liad2">2. Reasons for Dissenting from the Philosophy of M. Comte.</li>
-
-<li class="liad2">3. Laws in General.</li>
-
-<li class="liad2">4. The Origin of Animal-Worship.</li>
-
-<li class="liad2">5. Specialized Administration.</li>
-
-<li class="liad2">6. “The Collective Wisdom.”</li>
-
-<li class="liad2">7. Political Fetichism.</li>
-
-<li class="liad2">8. What is Electricity?</li>
-
-<li class="liad2">9. The Constitution of the Sun.</li>
-
-<li class="liad2">10. Mr. Martineau on Evolution.</li>
-
-<li class="liad2">11. Replies to Criticisms.</li>
-
-<li class="liad2">12. Transcendental Physiology.</li>
-
-<li class="liad2">13. The Comparative Psychology of Man.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa">Price 2s. 6d.,</div>
-<div class="fszd">THE FACTORS OF ORGANIC EVOLUTION.</div></div>
-
-<div class="chapter">
-<div class="fszd padtopa">DESCRIPTIVE SOCIOLOGY;</div>
-<div class="fsza padtopc">OR GROUPS OF</div>
-<div class="fszc padtopc">SOCIOLOGICAL FACTS,</div>
-<div class="fsza padtopc">CLASSIFIED AND ARRANGED BY</div>
-<div class="fszc padtopc">HERBERT SPENCER,</div>
-
-<div class="fsza padtopc">COMPILED AND ABSTRACTED BY</div>
-
-<p class="fszb phanga padtopc">DAVID DUNCAN, M.A., Professor of Logic, &amp;c., in the Presidency College,
-Madras; RICHARD SCHEPPIG, Ph.D.; and JAMES COLLIER.</p>
-</div><!--chapter-->
-
-<div class="fsza padtopc">EXTRACT FROM THE PROVISIONAL PREFACE.</div>
-
-<p class="fsza padtopc">Something to introduce the work of which an instalment is annexed, seems needful, in
-anticipation of the time when completion of a volume will give occasion for a Permanent
-Preface.</p>
-
-<p class="fsza">In preparation for <i>The Principles of Sociology</i>, requiring as bases of induction large accumulations
-of data, fitly arranged for comparison, I, some twelve years ago, commenced, by
-proxy, the collection and organization of facts presented by societies of different types, past
-and present; being fortunate enough to secure the services of gentlemen competent to
-carry on the process in the way I wished. Though this classified compilation of materials
-was entered upon solely to facilitate my own work; yet, after having brought the mode of
-clas­si­fi­ca­tion to a satisfactory form, and after having had some of the Tables filled up, I
-decided to have the undertaking executed with a view to publication; the facts collected
-and arranged for easy reference and convenient study of their relations, being so presented,
-apart from hypothesis, as to aid all students of Social Science in testing such conclusions as
-they have drawn and in drawing others.</p>
-
-<p class="fsza">The Work consists of three large Divisions. Each comprises a set of Tables exhibiting
-the facts as abstracted and classified, and a mass of quotations and abridged abstracts otherwise
-classified, on which the statements contained in the Tables are based. The condensed
-statements, arranged after a uniform manner, give, in each Table or succession of Tables,
-the phenomena of all orders which each society presents—constitute an account of its morphology,
-its physiology, and (if a society having a known history) its development. On the
-other hand, the collected Extracts, serving as authorities for the statements in the Tables, are
-(or, rather will be, when the Work is complete) classified primarily according to the kinds of
-phenomena to which they refer, and secondarily according to the societies exhibiting these
-phenomena; so that each kind of phenomenon as it is displayed in all societies, may be
-separately studied with convenience.</p>
-
-<p class="fsza">In further explanation I may say that the classified compilations and digests of materials
-to be thus brought together under the title of <i>Descriptive Sociology</i>, are intended to supply the
-student of Social Science with data, standing towards his conclusions in a relation like that
-in which accounts of the structures and functions of different types of animals stand to the
-conclusions of the biologist. Until there had been such systematic descriptions of different
-kinds of organisms, as made it possible to compare the connexions, and forms, and actions,
-and modes of origin, of their parts, the Science of Life could make no progress. And in
-like manner, before there can be reached in Sociology, gen­er­al­i­za­tions having a certainty
-making them worthy to be called scientific, there must be definite accounts of the institutions
-and actions of societies of various types, and in various stages of evolution, so arranged
-as to furnish the means of readily ascertaining what social phenomena are habitually
-associated.</p>
-
-<p class="fsza">Respecting the tabulation, devised for the purpose of exhibiting social phenomena in a
-convenient way, I may explain that the primary aim has been so to present them that their
-relations of simultaneity and succession may be seen at one view. As used for delineating
-uncivilized societies, concerning which we have no records, the tabular form serves only to
-display the various social traits as they are found to co-exist. But as used for delineating
-societies having known histories, the tabular form is so employed as to exhibit not only the
-connexions of phenomena existing at the same time, but also the connexions of phenomena
-that succeed one another. By reading horizontally across a Table at any period, there may
-be gained a knowledge of the traits of all orders displayed by the society at that period; while
-by reading down each column, there may be gained a knowledge of the modifications which
-each trait, structural or functional, underwent during successive periods.</p>
-
-<p class="fsza">Of course, the tabular form fulfils these purposes but approximately. To preserve complete
-simultaneity in the statements of facts, as read from side to side of the Tables, has proved
-impracticable; here much had to be inserted, and there little; so that complete correspondence
-in time could not be maintained. Moreover, it has not been possible to carry out the
-mode of clas­si­fi­ca­tion in a the­oret­i­cal­ly-com­plete man­ner, by increasing the number of
-columns as the classes of facts multiply in the course of Civilization. To represent truly the
-progress of things, each column should divide and sub-divide in successive ages, so as to
-indicate the successive dif­fer­entia­tions of the phenomena. But typographical difficulties have
-negatived this: a great deal has had to be left in a form which must be accepted simply as the
-least unsatisfactory.</p>
-
-<p class="fsza">The three Divisions constituting the entire work, comprehend three groups of societies:—(1)
-<i>Uncivilized Societies</i>; (2) <i>Civilized Societies—Extinct or Decayed</i>; (3) <i>Civilized Societies—Recent
-or Still Flourishing</i>. These divisions have at present reached the following <span class="nowrap">stages:―</span></p>
-
-<p class="fsza"><span class="smcap">D<b>IVISION</b></span> I.—<i>Uncivilized Societies.</i> Commenced in 1867 by
-the gentleman I first engaged, Mr. <span class="smcap">D<b>AVID</b></span> <span class="smcap">D<b>UNCAN</b></span>,
-M.A. (now Professor of Logic, &amp;c., in the Presidency College, Madras),
-and continued by him since he left England, this part of the work is
-complete. It contains four parts, including “Types of Lowest Races,”
-the “Negrito Races,” the “Malayo-Polynesian Races,” the “African
-Races,” the “Asiatic Races,” and the “American Races.”</p>
-
-<p class="fsza"><span class="smcap">D<b>IVISION</b></span> II.—<i>Civilized
- Societies—Extinct or Decayed.</i> On this part of the work Dr. <span class="smcap">R<b>ICHARD</b></span>
-<span class="smcap">S<b>CHEPPIG</b></span> has been engaged since January, 1872. The first instalment, including the four
-Ancient American Civilizations, was issued in March, 1874. A second instalment, containing
-“Hebrews and Phœnicians,” will shortly be issued.</p>
-
-<p class="fsza"><span class="smcap">D<b>IVISION</b></span> III.—<i>Civilized Societies—Recent or Still Flourishing.</i> Of this Division the first
-instalment, prepared by Mr. <span class="smcap">J<b>AMES</b></span> <span class="smcap">C<b>OLLIER</b></span>, of St. Andrew’s and Edinburgh Universities, was
-issued in August, 1873. This presents the English Civilization. It covers seven consecutive
-Tables; and the Extracts occupy seventy pages folio. The next part, presenting in a still
-more extensive form the French Civilization, is now in the press.</p>
-
-<p class="fsza">The successive parts belonging to these several Divisions, issued at intervals, are composed
-of different numbers of Tables and different numbers of Pages. The Uncivilized Societies
-occupy four parts, each containing a dozen or more Tables, with their accompanying Extracts.
-Of the Division comprising Extinct Civilized Societies, the first part contains four, and the
-second contains two. While of Existing Civilized Societies, the records of which are so much
-more extensive, each occupies a single part.</p>
-
-<p class="fsza psignature">H. S.</p>
-<p class="fsza"><i>March, 1880.</i></p>
-
-<div class="chapter">
-<div class="fszb"><i>In Royal Folio, Price 18s.</i>,</div>
-<div class="fszc">No. I.</div>
-<div class="fszd"><em class="emoe">English</em>.</div>
-
-<div class="fsza">COMPILED AND ABSTRACTED</div>
-
-<div class="fsza">BY</div>
-
-<div class="fszc">JAMES COLLIER.</div>
-</div><!--chapter-->
-
-
-<div class="padtopa pkeeptogether">
-<div class="fszb"><i>In Royal Folio, Price 16s.</i>,</div>
-<div class="fszc">No. II.</div>
-<div class="fszd"><em class="emoe">Mexicans, Central Americans,
- Chibchas, and Peruvians</em>.</div>
-
-<div class="fsza">COMPILED AND ABSTRACTED</div>
-
-<div class="fsza">BY</div>
-
-<div class="fszc">RICHARD SCHEPPIG, <span class="smcap">P<b>H.</b></span>D.</div>
-</div><!--padtopa pkeeptogether-->
-
-<div class="padtopa pkeeptogether">
-<div class="fszb"><i>In Royal Folio, Price 18s.</i>,</div>
-<div class="fszc">No. III.</div>
-<div class="fszd"><em class="emoe">Lowest Races, Negrito Races, and
- Malayo-Polynesian Races.</em></div>
-
-<div class="fsza">COMPILED AND ABSTRACTED</div>
-
-<div class="fsza">BY</div>
-
-<div class="fszc">PROF. DUNCAN, M.A.</div>
-</div><!--padtopa pkeeptogether-->
-
-<ul class="ulad">
-<li class="liad1"><span class="smcap">T<b>YPES</b></span> <span
- class="smmaj">OF</span> <span class="smcap">L<b>OWEST</b></span> <span
- class="smcap">R<b>ACES.</b></span>
-<ul class="ulad">
-<li class="liad2">Fuegians.</li>
-<li class="liad2">Andamanese.</li>
-<li class="liad2">Veddahs.</li>
-<li class="liad2">Australians.</li></ul></li>
-
-<li class="liad1"><span class="smcap">N<b>EGRITO</b></span>
-<span class="smcap">R<b>ACES.</b></span>
-<ul class="ulad">
-<li class="liad2">Tasmanians.</li>
-<li class="liad2">New Caledonians, etc.</li>
-<li class="liad2">New Guinea People.</li>
-<li class="liad2">Fijians.</li></ul></li>
-
-<li class="liad1"><span class="smcap">M<b>ALAYO</b>-P<b>OLYNESIAN</b></span>
-<span class="smcap">R<b>ACES.</b></span>
-<ul class="ulad">
-<li class="liad2">Sandwich Islanders.</li>
-<li class="liad2">Tahitians.</li>
-<li class="liad2">Tongans.</li>
-<li class="liad2">Samoans.</li>
-<li class="liad2">New Zealanders.</li>
-<li class="liad2">Dyaks.</li>
-<li class="liad2">Javans.</li>
-<li class="liad2">Sumatrans.</li>
-<li class="liad2">Malagasy.</li></ul></li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>In Royal Folio, Price 16s.</i>,</div>
-<div class="fszc">No. IV.</div>
-<div class="fszd"><em class="emoe">African Races</em>.</div>
-
-<div class="fszb">COMPILED AND ABSTRACTED</div>
-
-<div class="fszb">BY</div>
-
-<div class="fszc">PROF. DUNCAN, M.A.</div></div>
-
-<ul class="ulad">
-<li class="liad2">Bushmen.</li>
-<li class="liad2">Hottentots.</li>
-<li class="liad2">Damaras.</li>
-<li class="liad2">Bechuanas.</li>
-<li class="liad2">Kaffirs.</li>
-<li class="liad2">East Africans.</li>
-<li class="liad2">Congo People.</li>
-<li class="liad2">Coast Negroes.</li>
-<li class="liad2">Inland Negroes.</li>
-<li class="liad2">Dahomans.</li>
-<li class="liad2">Ashantis.</li>
-<li class="liad2">Fulahs.</li>
-<li class="liad2">Abyssinians.</li>
-</ul>
-
-<div class="padtopa pkeeptogether">
-<div class="fszb"><i>In Royal Folio, Price 18s.</i>,</div>
-<div class="fszc">No. V.</div>
-<div class="fszd"><em class="emoe">Asiatic Races</em>.</div>
-
-<div class="fszb">COMPILED AND ABSTRACTED</div>
-
-<div class="fszb">BY</div>
-
-<div class="fszc">PROF. DUNCAN, M.A.</div>
-</div><!--padtopa pkeeptogether-->
-
-<ul class="ulad">
-<li class="liad2">Arabs.</li>
-<li class="liad2">Todas.</li>
-<li class="liad2">Khonds.</li>
-<li class="liad2">Gonds.</li>
-<li class="liad2">Bhils.</li>
-<li class="liad2">Santals.</li>
-<li class="liad2">Karens.</li>
-<li class="liad2">Kukis.</li>
-<li class="liad2">Nagas.</li>
-<li class="liad2">Bodo and Dhimals.</li>
-<li class="liad2">Mishmis.</li>
-<li class="liad2">Kirghiz.</li>
-<li class="liad2">Kalmucks.</li>
-<li class="liad2">Ostyaks.</li>
-<li class="liad2">Kamtschadales.</li>
-</ul>
-
-<div class="padtopa pkeeptogether">
-<div class="fszb"><i>In Royal Folio, Price 18s.</i>,</div>
-<div class="fszc">No. VI.</div>
-<div class="fszd"><em class="emoe">American Races</em>.</div>
-
-<div class="fszb">COMPILED AND ABSTRACTED</div>
-
-<div class="fszb">BY</div>
-
-<div class="fszc">PROF. DUNCAN, M.A.</div>
-</div><!--padtopa pkeeptogether-->
-
-<ul class="ulad">
-<li class="liad2">Esquimaux.</li>
-<li class="liad2">Chinooks.</li>
-<li class="liad2">Snakes.</li>
-<li class="liad2">Comanches.</li>
-<li class="liad2">Iroquois.</li>
-<li class="liad2">Chippewayans.</li>
-<li class="liad2">Chippewas.</li>
-<li class="liad2">Dakotas.</li>
-<li class="liad2">Mandans.</li>
-<li class="liad2">Creeks.</li>
-<li class="liad2">Guiana Tribes.</li>
-<li class="liad2">Caribs.</li>
-<li class="liad2">Brazilians.</li>
-<li class="liad2">Uaupés.</li>
-<li class="liad2">Abipones.</li>
-<li class="liad2">Patagonians.</li>
-<li class="liad2">Araucanians.</li>
-</ul>
-
-<div class="pkeeptogether">
-<div class="fszb padtopa"><i>In Royal Folio, Price 21s.</i>,</div>
-<div class="fszc">No. VII.</div>
-<div class="fszd"><em class="emoe">Hebrews and Phœnicians</em>.</div>
-
-<div class="fszb">COMPILED AND ABSTRACTED</div>
-
-<div class="fszb">BY</div>
-
-<div class="fszc">RICHARD SCHEPPIG,
- <span class="smcap">P<b>H.</b></span>D.</div></div>
-
-<div class="padtopa pkeeptogether">
-<div class="fszb"><i>In Royal Folio, Price 30s.</i>,</div>
-<div class="fszc">No. VIII.</div>
-<div class="fszd"><em class="emoe">French</em>.</div>
-
-<div class="fszb">COMPILED AND ABSTRACTED</div>
-
-<div class="fszb">BY</div>
-
-<div class="fszc">JAMES COLLIER.</div>
-</div><!--padtopa pkeeptogether-->
-
-<hr class="hr33" />
-
-<div class="chapter">
-<table class="tabw100" summary="">
-<caption class="fszc"><i>A SYSTEM OF SYNTHETIC PHILOSOPHY.</i></caption>
-<tr>
-<td class="tdb15l"><span class="smcap">F<b>IRST</b></span>
- <span class="smcap">P<b>RINCIPLES</b></span></td>
- <td class="tdb15r">16<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">P<b>RINCIPLES</b></span>
- <span class="smmaj">OF</span> <span class="smcap">B<b>IOLOGY.</b></span> 2 vols.</td>
- <td class="tdb15r">34<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">P<b>RINCIPLES</b></span>
- <span class="smmaj">OF</span>
- <span class="smcap">P<b>SYCHOLOGY.</b></span> 2 vols.</td>
- <td class="tdb15r">36<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">P<b>RINCIPLES</b></span> <span class="smmaj">OF</span>
- <span class="smcap">S<b>OCIOLOGY</b></span>, Vol. I.</td>
- <td class="tdb15r">21<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">D<b>ITTO</b></span> Vol. II.</td>
- <td class="tdb15r">18<i>s.</i></td></tr>
-<tr><td colspan="2">
-<div class="fsza">(<i>This Volume includes the two
- following Works, which are
- at present published separately.</i>)</div></td></tr>
-<tr><td class="tdb15l">
-<span class="smcap">C<b>EREMONIAL</b></span> <span class="smcap">I<b>NSTITUTIONS</b></span></td>
- <td class="tdb15r">7<i>s.</i></td></tr>
-<tr><td class="tdb15l">
-<span class="smcap">P<b>OLITICAL</b></span> <span class="smcap">I<b>NSTITUTIONS</b></span></td>
- <td class="tdb15r">12<i>s.</i></td></tr>
-<tr><td class="tdb15l">
-<span class="smcap">E<b>CCLESIASTICAL</b></span> <span class="smcap">I<b>NSTITUTIONS</b></span></td>
- <td class="tdb15r">5<i>s.</i></td></tr>
-<tr><td class="tdb15l">
-<span class="smcap">T<b>HE</b></span> <span class="smcap">D<b>ATA</b></span> <span class="smmaj">OF</span> <span class="smcap">E<b>THICS</b></span></td>
- <td class="tdb15r">8<i>s.</i></td></tr>
-</table></div><!--chapter-->
-
-<table class="tabw100" summary="">
-<caption class="fszc"><i>OTHER WORKS.</i></caption>
-<tr>
- <td class="tdb15l"><span class="smcap">T<b>HE</b></span> <span class="smcap">S<b>TUDY</b></span> <span class="smmaj">OF</span> <span class="smcap">S<b>OCIOLOGY</b></span></td>
- <td class="tdb15r">10<i>s.</i>&#160;6<i>d.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">E<b>DUCATION</b></span></td>
- <td class="tdb15r">6<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"> <span class="smcap">D<b>ITTO</b></span>      <i>Cheap Edition</i></td>
- <td class="tdb15r">2<i>s.</i>&#160;6<i>d.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">E<b>SSAYS.</b></span> 2 vols.</td>
- <td class="tdb15r">16<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">E<b>SSAYS</b></span> (Third Series)</td>
- <td class="tdb15r">8<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">T<b>HE</b></span> <span class="smcap">M<b>AN</b></span> <i>versus</i>
- <span class="smcap">T<b>HE</b></span> <span class="smcap">S<b>TATE</b></span></td>
- <td class="tdb15r">2<i>s.</i>&#160;6<i>d.</i></td></tr>
-<tr>
- <td class="tdb15l"> <span class="smcap">D<b>ITTO</b></span>       <i>Cheap Edition</i></td>
- <td class="tdb15r">1<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">R<b>EASONS</b></span> <span class="smmaj">FOR</span> <span class="smcap">D<b>ISSENTING</b></span> <span class="smmaj">FROM</span> <span class="smcap">T<b>HE</b></span>
- <span class="smcap">P<b>HILOSOPHY</b></span> <span class="smmaj">OF</span> M. <span class="smcap">C<b>OMTE</b></span></td>
- <td class="tdb15r">6<i>d.</i></td></tr>
-<tr>
- <td class="tdb15l"><span class="smcap">T<b>HE</b></span> <span
- class="smcap">F<b>ACTORS</b></span> <span class="smmaj">OF</span>
- <span class="smcap">O<b>RGANIC</b></span> <span
- class="smcap">E<b>VOLUTION</b></span></td>
- <td class="tdb15r">2<i>s.</i>&#160;6<i>d.</i>
-</td></tr></table>
-
-<div class="fszb">[For particulars see end of the volume.]</div>
-
-<div class="fszc padtopb">WILLIAMS AND NORGATE,</div>
-
-<div class="fszb">14, HENRIETTA STREET, COVENT GARDEN, LONDON.</div>
-
-<div class="fszb padtopa">ALSO MR. SPENCER’S</div>
-<div class="fszd"><i>DESCRIPTIVE SOCIOLOGY</i>,</div>
-
-<div class="fsza padtopc">COMPILED AND ABSTRACTED BY</div>
-
-<div class="fszc padtopc"><span class="smcap">P<b>ROF.</b></span>
-<span class="smcap">D<b>UNCAN</b></span>,
-<span class="smcap">D<b>R.</b></span> <span
-class="smcap">S<b>CHEPPIG</b></span>, &amp;
-<span class="smcap">M<b>R.</b></span> <span
-class="smcap">C<b>OLLIER</b></span>.</div>
-
-<div class="fsza padtopc"><span class="smcap">F<b>OLIO,</b></span> <span
-class="smcap">B<b>OARDS.</b></span></div>
-
-<table class="tabw100" summary="">
-<tr>
- <td class="tdb15l">1. <span class="smcap">E<b>NGLISH</b></span></td>
- <td class="tdb15r">18<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l">2. <span class="smcap">A<b>NCIENT</b></span> <span class="smcap">A<b>MERICAN</b></span> <span class="smcap">R<b>ACES</b></span></td>
- <td class="tdb15r">16<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l">3. <span class="smcap">L<b>OWEST</b></span> <span class="smcap">R<b>ACES,</b></span> <span class="smcap">N<b>EGRITOS,</b></span> <span class="smcap">P<b>OLYNESIANS</b></span></td>
- <td class="tdb15r">18<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l">4. <span class="smcap">A<b>FRICAN</b></span> <span
- class="smcap">R<b>ACES</b></span></td>
- <td class="tdb15r">16<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l">5. <span class="smcap">A<b>SIATIC</b></span> <span
- class="smcap">R<b>ACES</b></span></td>
- <td class="tdb15r">18<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l">6. <span class="smcap">A<b>MERICAN</b></span> <span class="smcap">R<b>ACES</b></span></td>
- <td class="tdb15r">18<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l">7. <span class="smcap">H<b>EBREWS</b></span> <span class="smmaj">AND</span> <span class="smcap">P<b>HŒNICIANS</b></span></td>
- <td class="tdb15r">21<i>s.</i></td></tr>
-<tr>
- <td class="tdb15l">8. <span class="smcap">F<b>RENCH</b></span></td>
- <td class="tdb15r">30<i>s.</i></td></tr>
-</table>
-
-<div class="fszb">[For particulars see end of the volume.]</div>
-
-<div class="fszc padtopc">WILLIAMS AND NORGATE,</div>
-
-<div class="fszb">14, HENRIETTA STREET, COVENT GARDEN, LONDON.</div>
-
-<p class="fsza padtopc">Harrison &amp; Sons, Printers, St. Martin’s Lane.</p>
-
-<div class="transnote">TRANSCRIBER’S NOTE
-
-<p>This is Volume II (1891) of Spencer’s three volume series
-of Essays. Volume I (1891) has been published by Project
-Gutenberg as ebook 29869. Volume III (1904) is
-<span class="fsz6">(ca 2016 October)</span>
-in preparation at Project Gutenberg Distributed Proofreaders.
-Volume III contains an index for all three volumes. Original
-page images are available from archive.org.</p>
-
-<p>Original spelling and grammar are generally retained, with a few
-exceptions noted below. Footnotes
-were renumbered 1–60, changed to endnotes, and moved to the ends of the
-appropriate essays. Original printed page numbers look like
-this: {35}.</p>
-
-<p>Page <a href="#p084" class="atoc">84</a>. Table I, originally printed on an unnumbered page between
-pages 84 and 85, has been moved to page 85, and recast as a nested list
-so as to function well in ebook format. In particular, large curly
-brackets “{” intended to combine information on more than one line have
-been eliminated. Table II, printed between pages 88 and 89 has been
-treated similarly, and moved to page
-<a href="#p088" class="atoc">88</a>. Table III, printed between
-pages 92 and 93 has been moved to page
-<a href="#p092" class="atoc">92</a> and treated similarly.</p>
-
-<p>Pages <a href="#p125" class="atoc">125</a>–130. In the
-comparison of Comte’s and Spencer’s propositions, the
-paragraphs are rewrapped to fit the chosen column widths.
-Any line-for-line correspondence between paragraphs in the
-first and second columns that might conceivably have been
-suggested by the original printed book is thereby negated. The
-original arrangement of the paragraphs is retained. The table
-of paragraphs on pp. <a href="#p131" class="atoc">131</a>–132
-was treated in the same way. On page <a href="#p126"
-class="atoc">126</a>, the phrase “est essentiellement différent
-même radicalement opposé”, clearly missing something in the
-original printed book, was changed to “est essentiellement
-différent et même radicalement opposé”.</p>
-
-<p>Page <a href="#p192" class="atoc">192</a>. The large white spaces in the clause “Space is
-either&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;or
-is&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;;”
-are retained from the printed book.</p>
-
-</div>
-
-
-
-
-
-
-
-
-<pre>
-
-
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