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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #60631 (https://www.gutenberg.org/ebooks/60631)
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-The Project Gutenberg EBook of A Modern Zoroastrian, by S. Laing
-
-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: A Modern Zoroastrian
-
-Author: S. Laing
-
-Release Date: November 4, 2019 [EBook #60631]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK A MODERN ZOROASTRIAN ***
-
-
-
-
-Produced by Louise Davies, Marilynda Fraser-Cunliffe and
-the Online Distributed Proofreading Team at
-http://www.pgdp.net (This book was produced from scanned
-images of public domain material from the Google Books
-project.)
-
-
-
-
-
-
-
-
-
-
-A MODERN ZOROASTRIAN.
-
-
-
-
-A MODERN ZOROASTRIAN.
-
-
-    _1000 copies printed, February, 1888._
-    _1000   ”       ”     March, 1889._
-    _1000   ”       ”     March, 1890._
-    _1000   ”       ”     June, 1890._
-    _1000   ”       ”     March, 1891._
-    _1000   ”       ”     June, 1892._
-    _1000   ”       ”     February, 1893._
-    _1000   ”       ”     November, 1893._
-
-
-
-
-                          A MODERN ZOROASTRIAN
-
-                                   BY
-                                S. LAING,
-
-                                AUTHOR OF
-     “MODERN SCIENCE AND MODERN THOUGHT,” “PROBLEMS OF THE FUTURE,”
-                            “HUMAN ORIGINS.”
-
-                            Eighth Thousand.
-
-                      LONDON: CHAPMAN AND HALL, LD.
-                                  1893.
-
-                       CHARLES DICKENS AND EVANS,
-                          CRYSTAL PALACE PRESS.
-
-
-
-
-PREFACE TO NEW EDITION.
-
-
-From some of the criticisms on the First Edition of this work I fear
-that the distinction I endeavoured to draw between the use of the term
-“polarity” in the inorganic and in the spiritual worlds has not been
-made sufficiently clear. I stated in the Introduction “That while the
-principle of polarity pervades both worlds, I am far from assuming that
-the laws under which it acts are identical; and that virtue and vice,
-pain and pleasure, are products of the same mathematical laws as regulate
-the attractions and repulsions of molecules and atoms.” But this warning
-has been apparently overlooked by some readers who have assumed that
-instead of analogy I meant identity, and that it was a mistake to use the
-same word “polarity” for phenomena so essentially distinct as those of
-the material and the spiritual worlds.
-
-Thus my “guide, philosopher, and friend,” Professor Huxley, for whose
-authority I have the highest respect, observed in a recent article, that
-he had long ago acquired a habit, if he came across the word polarity
-applied to anything but magnetism and electricity, of throwing down
-the book and reading no farther. I must confess that I felt a little
-disconcerted when I read this passage; but I was soon consoled, for, in a
-month or two afterwards, I came across another passage in the same Review
-which said, “However revolting may be the accumulation of misery at the
-negative pole of Society, in contrast with that of monstrous wealth at
-the positive pole, this state of things must abide and grow continuously
-worse, as long as Istar (the dual Goddess of the Babylonians) holds her
-way unchecked.”
-
-Surely, I thought, here is a case in which the Professor must have thrown
-down the Review when he came to these words: but when I came to the
-end, I found that it was not the Review, but the pen, which must have
-been thrown down, for the article is signed “T. Huxley.” Can there be
-a more conclusive proof that there are a vast variety of facts outside
-of magnetism and electricity, connected by an underlying idea, which
-inevitably suggests analogy to them, and which can be most conveniently
-expressed by the word “polarity”? Words after all are only coins to
-facilitate the interchange of ideas, and the best word is that which
-serves the purpose most clearly and concisely. Thus instead of using
-a waggon load of copper, or the verbiage of a conveyancer’s deed, to
-express the ideas comprised in such words as “theism,” “pantheism,” or
-“agnosticism,” we coin them for general use, as Huxley did the word
-“agnosticism,” in order to convey our meaning.
-
-Polarity is such a word. It sums up what Emerson says in his Essay on
-Compensation: “Polarity, or action and reaction, we meet in every part of
-Nature; in darkness and light; in the ebb and flow of waters; in male and
-female; in the inspiration and expiration of plants and animals; in the
-undulations of fluids and of sound; in the centripetal and centrifugal
-gravity; in electricity, galvanism, and chemical affinity. Superinduce
-Magnetism at one end of a needle, the opposite Magnetism takes place at
-the other end. If the South attracts, the North repels. An inevitable
-dualism besets nature, so that each thing is a half, and suggests another
-to make it whole: as spirit, matter; man, woman; odd, even; subjective,
-objective; in, out; upper, under; motion, rest; yea, nay.”
-
-These, by whatever name we like to call them, are facts and not fancies,
-and facts which enter largely into all questions, whether of science,
-philosophy, religion, or practical policy. Every one who wishes to keep
-at all abreast with modern culture, ought to have some general knowledge
-of the ideas and principles which underlie them and which are embraced
-in the comprehensive word “polarity.” My object in this book has been
-to assist the reader, who is not a specialist, in arriving at some
-general understanding of the subjects treated of, and I may hope, in
-awakening such an interest in them as may induce him to prosecute further
-researches. If I succeed in this, my object will have been attained.
-
-
-
-
-PREFACE.
-
-
-The reception given to my former work, on ‘Modern Science and Modern
-Thought,’ has induced me to write this further one. I refer not so much
-to the reviews of professional critics, though as a rule nothing could be
-more courteous and candid, but rather to the letters I have received from
-readers of various age, sex, and condition, saying that I had assisted
-them in understanding much interesting matter which had previously been a
-sealed book to them.
-
-If I am good for anything, it is for a certain faculty of lucid
-condensation, and I have thought that I might apply this to some of the
-less-known branches of modern science, such as the new chemistry and
-physiology, as well as, in my first work, to the more familiar subjects
-of astronomy and geology; while at the same time I might extend it to
-some of the more obvious problems of religion, morals, metaphysics, and
-practical life, which force themselves, more and more every day, on the
-attention of intelligent thinkers.
-
-As in the former work the scientific speculations were linked together by
-the leading idea of the universality of law, so, in this, unity is given
-to them by the all-pervading principle of polarity, which manifests
-itself everywhere as the fundamental condition of the material and
-spiritual universe.
-
-For the scientific portion of the work I am indebted to the most
-approved authorities, such as Darwin, Huxley, Haeckel, and Professor
-Cooke’s volume on the New Chemistry in the International Scientific
-Series. For the religious and philosophical speculations I am myself
-responsible; for, although I have derived the greatest possible pleasure
-and profit from Herbert Spencer’s writings, I had arrived at my principal
-conclusions independently before I had read any of his works. I can
-only hope that I may have succeeded in presenting a good many abstruse
-questions in a popular form, intelligible to the average mind of ordinary
-readers, and calculated, if it teaches nothing else, to teach them a
-practical philosophy which inculcates tolerance and charity, and assists
-them in finding
-
-    Sermons in stones and good in everything.
-
-
-
-
-CONTENTS.
-
-
-
-                                                                      PAGE
-
-                               CHAPTER I.
-
-                              INTRODUCTORY.
-
-    Experiment with magnet—Principle of polarity—Applies
-    universally—Analogies in spiritual world—Zoroastrian
-    religion—Changes in modern environment—Require corresponding
-    changes in religions and philosophies                                1
-
-                               CHAPTER II.
-
-                 POLARITY IN MATTER—MOLECULES AND ATOMS.
-
-    Matter consists of molecules—Nature of molecules—Laws of
-    their action in gases—Law of Avogadro—Molecules composed
-    of atoms—Proved by composition of water—Combinations of
-    atoms—Elementary substances—Qualities of matter depend on
-    atoms—Dimensions and velocities of molecules and atoms—These
-    are ascertained _facts_, not theories                                9
-
-                              CHAPTER III.
-
-                                 ETHER.
-
-    Ether proved by light—Light-waves—Elasticity of ether—Its
-    universal diffusion—Influences molecules and atoms—Is
-    influenced by them—Successive orders of the infinitely
-    small—Illustrated by the differential and integral
-    calculus—Explanation of this calculus—Theory of vortex rings        21
-
-                               CHAPTER IV.
-
-                                 ENERGY.
-
-    Energy of motion and of position—Energy can be
-    transformed, not created or destroyed—Not created by
-    free-will—Conservation of mechanical power—Convertibility
-    of heat and work—Nature of heat—The steam-engine—Different
-    forms of energy—Gravity—Molecular energy—Chemical
-    energy—Dynamite—Chemical affinities—Electricity—Produced
-    by friction—By the voltaic battery—Electric currents—Arc
-    light—Induction—Magnetism—The magnetic needle—The electric
-    telegraph—The telephone—Dynamo-electric engine—Accumulator          36
-
-                               CHAPTER V.
-
-                           POLARITY IN MATTER.
-
-    Ultimate elements of universe—Built up by polarity—Experiment
-    with magnet—Chemical affinity—Atomic poles—Alkalies
-    and acids—Quantivalence—Atomicity—Isomerism—Chemical
-    stability—Thermochemistry—Definition of atoms—All matter built
-    up by polar forces                                                  65
-
-                               CHAPTER VI.
-
-                            POLARITY IN LIFE.
-
-    Contrast of living and dead—Eating and
-    being eaten—Trace matter upwards and life
-    downwards—Colloids—Cells—Protoplasm—Monera—Composition
-    of protoplasm—Essential qualities of life—Nutrition and
-    sensation—Motion—Reproduction—Spontaneous generation—Organic
-    compounds—Polar conditions of life                                  76
-
-                              CHAPTER VII.
-
-                 PRIMITIVE POLARITIES—PLANT AND ANIMAL.
-
-    Contrast in developed life—Plants producers, animals
-    consumers—Differences disappear in simple forms—Zoophytes—
-    Protista—Nummulites—Corals—Fungi—Lichens—Insectivorous
-    plants—Geological succession—Primary period, Algæ and
-    Ferns—Secondary period, Gymnosperms—Tertiary and recent,
-    Angiosperms—Monocotyledons and Dicotyledons—Parallel evolution
-    of animal life—Primary, protista, mollusca, and fish—Secondary,
-    reptiles—Tertiary and recent, mammals                               92
-
-                              CHAPTER VIII.
-
-                  PRIMITIVE POLARITIES—POLARITY OF SEX.
-
-    Sexual generation—Base of ancient cosmogonies—Propagation
-    non-sexual in simpler forms—Amœba and cells—Germs and
-    buds—Anemones—Worms—Spores—Origin of sex—Ovary and male
-    organ—Hermaphrodites—Parthenogenesis—Bees and insects—Man and
-    woman—Characters of each sex—Woman’s position—Improved by
-    civilisation—Christianity the feminine pole—Monogamy the law
-    of nature—Tone respecting women test of character—Women in
-    literature—In society—Attraction and repulsion of sexes—Like
-    attracts unlike—Ideal marriage—Woman’s rights and modern
-    legislation                                                        102
-
-                               CHAPTER IX.
-
-              PRIMITIVE POLARITIES—HEREDITY AND VARIATION.
-
-    Heredity in simple forms of life—In more complex
-    organisms—Pangenesis—Varieties how produced—Fixed by law of
-    survival of the fittest—Dr. Temple’s view—Examples: triton,
-    axolotl—Variations in individuals and species—Lizards into
-    birds—Ringed snakes—Echidna                                        117
-
-                               CHAPTER X.
-
-             THE KNOWABLE AND UNKNOWABLE—BRAIN AND THOUGHT.
-
-    Basis of knowledge—Perception—Constitution of
-    brain—White and grey matter—Average size and weight
-    of brains—European, negro, and ape—Mechanism of
-    perception—Sensory and motor nerves—Separate areas of
-    brain—Sensory and motor centres—Abnormal states of
-    brain—Hypnotism—Somnambulism—Trance—Thought-reading—
-    Spiritualism—Reflex action—Ideas how formed—Number
-    and space—Creation unknowable—Conceptions based on
-    perceptions—Metaphysics—Descartes, Kant,
-    Berkeley—Anthropomorphism—Laws of nature                           125
-
-                               CHAPTER XI.
-
-                       RELIGIONS AND PHILOSOPHIES.
-
-    Religions, ‘working hypotheses’—Newman’s illative sense—Origins
-    of religions—Ghosts and spirits—Fetishes—Nature-worship—Solar
-    myths—Planets—Evolution of nature-worship—Polytheism,
-    pantheism, and theism—Evolution of monotheism in the
-    Old Testament—Evolution of morality—Natural law and
-    miracle—Evidence for miracles—Insufficiency of evidence—Absence
-    of intelligent design—Agnosticism—Origin of evil—Can only
-    be explained by polarity—Optimism and pessimism—Jesus, the
-    Christian Ormuzd—Christianity without miracles                     146
-
-                              CHAPTER XII.
-
-                        CHRISTIANITY AND MORALS.
-
-    Christianity based on morals—Origin of morality—Traced
-    in Judaism—Originates in evolution—Instance of
-    murder—Freedom of will—Will suspended in certain states of
-    brain—Hypnotism—Mechanical theory—Pre-established harmony—Human
-    and animal conscience—Analysis of will—Explained by
-    polarity—Practical conclusion                                      184
-
-                              CHAPTER XIII.
-
-                             ZOROASTRIANISM.
-
-    Zoroaster an historical person—The Parsees—Iranian branch
-    of Aryan family—Zoroaster a religious reformer—Scene at
-    Balkh—Conversion of Gushtasp—Doctrines of the ‘excellent
-    religion’—Monotheism—Polarity—Dr. Haug’s description—Ormuzd
-    and Ahriman—Anquetil du Perron—Approximation
-    to modern thought—Absence of miracles—Code of
-    morals—Its comprehensiveness—And liberality—Special
-    rites—Fire-worship—Disposal of dead—Practical results—The
-    Parsees of Bombay—Their probity, enterprise, respect
-    for women—Zeal for education—Philanthropy and public
-    spirit—Statistics—Death and birth rates                            197
-
-                              CHAPTER XIV.
-
-                            FORMS OF WORSHIP.
-
-    Byron’s lines—Carnegie’s description—Parsee
-    nature-worship—English Sunday—The sermon—Appeals to reason
-    misplaced—Music better than words—The Mass—Zoroastrianism
-    brings religion into daily life—Sanitation—Zoroastrian
-    prayer—Religion of the future—Sermons in stones and good in
-    everything                                                         219
-
-                               CHAPTER XV.
-
-                          PRACTICAL POLARITIES.
-
-    Fable of the shield—Progress and conservatism—English and
-    French colonisation—Law-abidingness—Irish land question—True
-    conservative legislation—Ultra-conservatism—Law and
-    education—Patriotism—Jingoism and parochialism—True
-    statesmanship—Free trade and protection—Capital
-    and labour—Egoism and altruism—Socialism and
-    _laissez faire_—Contracts—Rights and duties of
-    landlords—George’s theory—State interference—Railways—Post
-    Office—Telegraphs—National defence—Concluding remarks              227
-
-
-
-
-A MODERN ZOROASTRIAN.
-
-
-
-
-CHAPTER I.
-
-INTRODUCTORY.
-
-    Experiment with magnet—Principle of polarity—Applies
-    universally—Analogies in spiritual world—Zoroastrian
-    religion—Changes in modern environment—Require
-    corresponding changes in religions and philosophies.
-
-
-Scatter a heap of iron filings on a plate of glass; bring near it a
-magnet, and tap the glass gently, and you will see the filings arrange
-themselves in regular forms.
-
-If one pole only of the magnet is brought near the glass the filings
-arrange themselves in lines radiating from that pole.
-
-Next lay the bar-magnet on the glass so that the filings are influenced
-by both poles; they will arrange themselves into a series of regular
-curves.
-
-In other words, the Chaos of a confused heap of inert matter has become a
-Cosmos of harmonious arrangement assuming definite form in obedience to
-law.
-
-As the old saying has it, that ‘every road leads to Rome,’ so this
-simple experiment leads up to a principle which underlies all existence
-knowable to human faculty—that of Polarity. Why do the iron filings
-arrange themselves in regular curves? Because they are magnetised by
-the influence of the larger magnet, and each little particle of iron is
-converted into a little magnet with two opposite poles attracting and
-repelling.
-
-[Illustration]
-
-What is a magnet? It is a special manifestation of the more general
-principle of polarity, by which energy, when it passes from the passive
-or neutralised into the active state, does so under the condition of
-developing opposite and conflicting energies: no action without reaction,
-no positive without a negative, and, as we see it in the simplest form in
-our magnets, no North Pole without a South Pole—like ever repelling like
-and attracting unlike. The magnet, again, may be considered as a special
-form of electricity, for if we send an electric current through a coil of
-copper wire encircling a bar of soft iron, the bar is at once converted
-into a magnet; so that a magnet may be considered as the summing up,
-at two opposite extremities or poles, of the attractive and repulsive
-effects of electric currents circulating round it. But this electricity
-is itself subject to the law of polarity, whether developed by chemical
-action in the form of a current or electricity in motion, or by friction
-in the form of statical electricity of small quantity but high tension.
-In all cases a positive implies a negative; in all, like repels like and
-attracts unlike. Conversely, as polarity produces definite structure, so
-definite structure everywhere implies polarity.
-
-The same principle prevails not only throughout the inorganic or world
-of matter, but throughout the organic or world of life, and specially
-throughout its highest manifestations in human life and character, and
-in the highest products of its evolution, in societies, religions, and
-philosophies. To show this by some familiar and striking examples is the
-main object of this book.
-
-But here let me interpose a word of caution. I must avoid the error
-which vitiates Professor Drummond’s interesting work on ‘Natural Law in
-the Spiritual World,’ of confounding analogy and identity. Because the
-principle of polarity pervades alike the natural and spiritual worlds,
-I am far from assuming that the laws under which it acts are identical;
-and that virtue and vice, pain and pleasure, ugliness and beauty, are
-products of the same mathematical changes of sign and inverse squares
-or cubes of distances, as regulate the attractions and repulsions of
-molecules and atoms. All I say is, that the same pervading principle may
-be traced wherever human thought and human knowledge extend; that it is
-apparently, for some reason unknown to us, the essential condition of all
-existence within the sphere of that thought and that knowledge; and that
-what lies beyond it is the great unknown, behind the impenetrable veil
-which it is not given to mortals to uplift. In like manner, if I call
-myself ‘a modern Zoroastrian,’ it is not that I wish or expect to teach
-a new religion or revive an old one, to see Christian churches dedicated
-to Ormuzd, or right reverend bishops exchanging the apron and shovel-hat
-for the mitre and flowing robes of the ancient Magi; but simply this.
-All religions I take to be ‘working hypotheses,’ by which successive
-ages and races of men try to satisfy the aspirations and harmonise the
-knowledge which in the course of evolution have come to be, for the
-time, their spiritual equipment. The best proof of any religion is, that
-it exists—i.e. that it is part of the same evolution, and that on the
-whole it works well, i.e. is in tolerable harmony with its environment.
-When that environment changes, when loftier views of morality prevail,
-when knowledge is increased and the domain of science everywhere extends
-its frontier, religions must change with it if they are to remain good
-working, and not become unworkable and unbelievable hypotheses.
-
-Now of all the religious hypotheses which remain workable in the present
-state of human knowledge, that seems to me the best which frankly
-recognises the existence of this dual law, or law of polarity, as the
-fundamental condition of the universe, and, personifying the good
-principle under the name of Ormuzd, and the evil one under that of
-Ahriman, looks with earnest but silent and unspoken reverence on the
-great unknown beyond, which may, in some way incomprehensible to mortals,
-reconcile the two opposites, and give the final victory to the good.
-
-    Oh! yet we hope that somehow good
-    Will be the final goal of ill.
-
-So sings the poet of the nineteenth century: so, if we understand his
-doctrine rightly, taught the Bactrian sage, Zoroaster, some forty
-centuries earlier.
-
-This, and this alone, seems to me to afford a working hypothesis
-which is based on fact, can be brought into harmony with the existing
-environment, and embraces, in a wider synthesis, all that is good in
-other philosophies and religions.
-
-When I talk of our new environment, it requires one who, like the author,
-has lived more than the Scriptural threescore and ten years, and has, so
-to speak, one foot on the past and one on the present, to realise how
-enormous is the change which a single generation has made in the whole
-spiritual surroundings of a civilised man of the nineteenth century.
-When I was a student at Cambridge, little more than fifty years ago,
-Astronomy was the only branch of natural science which could be said to
-be definitely brought within the domain of natural law. And that only
-as regards the law of gravity, and the motions of the heavenly bodies,
-for little or nothing was known as to their constitution. Geology was
-just beginning the series of conquests by which time and the order
-and succession of life on the earth have been annexed by science as
-completely as space by astronomy; and theories of cataclysms, universal
-deluges, and special recent creations of animals and man, still held
-their ground, and were quoted as proofs of a universe maintained by
-constant supernatural interference.
-
-And when I say that space had been annexed to science by astronomy, it
-was really only that half of space which extends from the standpoint of
-the human senses in the direction of the infinitely great. The other
-equally important half which extends downwards to the infinitely small
-was unknown, or the subject only of the vaguest conjectures.
-
-Chemistry was, to a great extent, an empirical science, and molecules and
-atoms were at best guesses at truth, or rather convenient mathematical
-abstractions with no more actual reality than the symbols of the
-differential calculus. The real causes and laws of heat, light, and
-electricity, were as little known as those of molecular action and of
-chemical affinity. The great laws of the indestructibility of matter, the
-correlation of forces, and the conservation of energy, were unknown, or
-only just beginning to be foreshadowed. As regards life, protoplasm was
-a word unheard of; scientific biology, zoology, and botany were in their
-infancy; and the gradual building up of all living matter from a speck of
-protoplasm, through a primitive cell, was not even suspected. Above all,
-the works of Darwin had not been published, and evolution had not become
-the general law of modern thought; nor had the discovery of the antiquity
-of man, and of his slow development upwards from the rudest origins,
-shattered into fragments established beliefs as to his recent miraculous
-creation.
-
-Science and miracle have been fighting out their battle during the last
-fifty years along the whole line, and science has been at every point
-victorious. Miracle, in the sense in which our fathers believed in it,
-has been not only repulsed, but annihilated so completely, that really
-little remains but to bury the dead.
-
-The result of these discoveries has been to make a greater change in the
-spiritual environment of a single generation than would be made in their
-physical environment if the glacial period suddenly returned and buried
-Northern Europe under polar ice. The change is certainly greater in the
-last fifty years than it had been in the previous five hundred, and in
-many respects greater than in the previous five thousand.
-
-It may be sufficient to glance shortly at the equally great
-corresponding changes which this period has witnessed in the practical
-conditions of life and of society. If astronomy and geology have extended
-the dominion of the mind over space and time, steamers, railways, and
-the electric telegraph have gained the mastery over them for practical
-purposes. Commerce and emigration have assumed international proportions,
-and India, Australia, and America are nearer to us, and connected with
-us by closer ties, than Scotland was to England in my schoolboy days.
-Education and a cheap press have even in a greater degree revolutionised
-society, and knowledge, reaching the masses, has carried with it power,
-so that democracy and free-thought are, whether for good or evil,
-everywhere in the ascendant, and old privileges and traditions are
-everywhere decaying.
-
-With such a great change of environment it is evident that many of the
-old creeds, institutions, and other organisms, adapted to old conditions,
-must have become as obsolete as a schoolboy’s jacket would be as the
-comfortable habiliment of a grown-up man. But as a lobster which has cast
-its shell does not feel at ease until it has grown a new one, so thinking
-men of the present day are driven to devise, to a great extent each
-for themselves, some larger theory which may serve them as a ‘working
-hypothesis’ with which to go through life, and bring the ineradicable
-aspirations and emotions of their nature into some tolerable harmony with
-existing facts.
-
-To me, as one of those thinking units, this theory, of what for want
-of a better name I call ‘Zoroastrianism,’ has approved itself as a
-good working theory, which reconciles more intellectual and moral
-difficulties, and affords a better guide in conduct and practical life
-than any other; and, in a word, enables me to reduce my own individual
-Chaos into some sort of an intelligible and ordered Cosmos. I feel moved,
-therefore, to preach through the press my little sermon upon it, for the
-benefit of those whom it may concern, feeling assured that the process of
-evolution, by which
-
-    The old order changes, giving place to new,
-
-can best be assisted by the honest and unbiassed expression of the
-results of individual thought and experience on the part of any one of
-those units whose aggregates form the complicated organisms of religions
-and philosophies, of societies and of humanity.
-
-
-
-
-CHAPTER II.
-
-POLARITY IN MATTER—MOLECULES AND ATOMS.
-
-    Matter consists of molecules—Nature of molecules—Laws of
-    their action in gases—Law of Avogadro—Molecules composed
-    of atoms—Proved by composition of water—Combinations of
-    atoms—Elementary substances—Qualities of matter depend on
-    atoms—Dimensions and velocities of molecules and atoms—These
-    are ascertained _facts_, not theories.
-
-
-If in building a house that is to stand when the rains fall and the winds
-blow, it is requisite to go down to the solid rock for a foundation, so
-much the more is it necessary in building up a theory to begin at the
-beginning and give it a solid groundwork. Nine-tenths of the fallacies
-current in the world arise from the haste with which people rush to
-conclusions on insufficient premises. Take, for instance, any of the
-political questions of the day, such as the Irish question: how many
-of those who express confident opinions, and get angry and excited on
-one side or the other, could answer any of the preliminary questions
-which are the indispensable conditions of any rational judgment? How
-many marks would they get for an examination paper which asked what
-was the population of Ireland; what proportion of that population was
-agricultural; what proportion of that agricultural population consisted
-of holders of small tenements; what was the scale of rents compared with
-that for small holdings in other countries; how much of that rent was
-levied on them for their own improvements; and other similar questions
-which lie at the root of the matter? In how many cases would it be found
-that the whole superstructure of their confident and passionate theories
-about the Irish difficulty was based on no more solid foundation than
-their like or dislike of a particular statesman or of a particular party?
-
-I propose therefore to begin at the beginning, and, taking the simplest
-case, that of dead or inorganic matter, show how the material universe is
-built up by the operation of the all-pervading law of polarity. What does
-matter consist of? Of molecules, and molecules are made up of atoms, and
-these are held together or parted, and built up into the various forms of
-the material universe, primarily by polar forces.
-
-Let me endeavour to make this intelligible to the intelligent but
-unscientific reader. Suppose the Pyramid of Cheops shown for the first
-time to a giant whose eye was on such a scale that he could just
-discern it as a separate object. He might make all sorts of ingenious
-conjectures as to its nature, but if microscopes had been invented in
-Giant-land and he looked through one, he would find that it was built
-up, layer by layer, on a regular plan and in determinate lines and
-angles, by molecules, or what seemed to him almost infinitely small
-masses, of squared stone. For pyramid write crystal, and we may see by
-the human sense, aided by human instruments and human reason, a similar
-structure built up in the same way by minute particles. Or again, divide
-and subdivide our iron filings until we reach the limit of possible
-mechanical division discernible by the microscope; each one remains
-essentially a bar of iron, as capable of being magnetised, and showing
-the same qualities and behaviour under chemical tests as the original
-bar of iron from which the filings were taken. This carries us a long
-way down towards the infinitely small, for mechanical division and
-microscopic visibility can be carried down to magnitudes which are of the
-order of 1/100000th of an inch.
-
-But this is only the first step; to understand our molecules we must
-ascertain whether they are infinitely divisible, and whether they are
-continuous, expanding by being spread out thinner and thinner like
-gold-beater’s skin: or are they separate bodies with intervals between
-them, like little planets forming one solar system and revolving in
-space by fixed laws. Ancient science guessed at the former solution and
-embodied it in the maxim ‘that nature abhors a vacuum’: modern science
-proves the latter.
-
-In the first place bodies combine only in fixed proportions, which is a
-necessary consequence if they consist of definite indivisible particles,
-but inconceivable if the substance of each is indefinitely divisible.
-Thus water is formed in one way and one only: by uniting one volume or
-molecule of oxygen with two of hydrogen, and any excess of one or the
-other is left out and remains uncombined. But if the molecules could be
-divided into halves, quarters, and so on indefinitely, there can be no
-reason why their union should take place always in this one proportion
-and this only.
-
-A still more conclusive proof is furnished by the behaviour of substances
-which exist in the form of gases. If a jar is filled with one gas, a
-second and third gas can be poured into it as readily as into a vacuum,
-the result being that the pressure on the sides of the jar is exactly
-equal to the sum of the separate pressures of each separate gas. This
-evidently means that the first gas does not occupy the whole space, but
-that its particles are like a battalion of soldiers in loose skirmishing
-order, with such intervals between each unit that a second and third
-battalion can be marched in and placed on the same ground, without
-disturbing the formation, and with the result only of increasing the
-intensity of the fire.
-
-Now gas is matter as much as solids or liquids, and in the familiar
-instance of water we see that it is merely a question of more or less
-heat whether the same matter exists as ice, water, or steam. The number
-and nature of the molecules is not changed, only in the one case they are
-close to one another and solidly linked together; in the other, further
-removed and free to move about one another, though still held together
-as a mass by their mutual attractions; and in the third, still further
-apart, so that their mutual attraction is lost and they dart about, each
-with its own proper motion, bombarding the surface which contains them,
-and by the resultant of their impacts producing pressure.
-
-In this latter and simpler form of gas the following laws are found to
-prevail universally for all substances. Under like conditions volumes
-vary directly as the temperature and inversely as the pressure. That
-is to say, the pressure which contains them remaining the same, equal
-volumes of air, steam, or any other substance in the state of gas, expand
-into twice the volume if the temperature is doubled, three times if it
-is tripled, and so on; contracting in the same way if the temperature
-is lowered. If on the other hand the temperature remains constant, the
-volume is reduced to one half or one third, if the pressure is doubled
-or tripled. From these laws the further grand generalisation has been
-arrived at, that all substances existing in the form of gas contain the
-same number of molecules in the same volume.
-
-This, which is known as the Law of Avogadro, from the Italian chemist by
-whom it was first discovered, is the fundamental law of modern chemistry,
-and the key to all certain and scientific knowledge of the constitution
-of matter and of the domain of the infinitely small, just as much as the
-law of gravity is to action of matter in the mass, and the resulting
-conditions and motions of mechanics and astronomy.
-
-This conclusion obviously follows from it, that difference of weight
-in different substances arises not from one having more molecules in
-the same volume than another, but from the molecules themselves being
-heavier. If we weigh a gallon or litre of hydrogen gas, which is the
-lightest known substance, and then weighing an equal volume of oxygen
-gas find that it is sixteen times heavier, we know for certain that the
-molecule or ultimate particle of oxygen is sixteen times heavier than
-that of hydrogen.
-
-It is evident that in this way the molecules of all simple substances
-which can exist in the form of pure gas can be weighed, and their weight
-expressed in terms of the unit which is generally adopted, that of the
-molecule of the lightest known substance, hydrogen. But science, not
-content with this achievement, wants to know not the relative weight
-only, but the absolute dimensions, qualities, and motions of these
-little bodies; and whether, although they cannot be divided further by
-mechanical means, and while retaining the qualities of the substances
-they build up, they are really ultimate and indivisible particles or
-themselves composites.
-
-Chemistry and electricity give a ready answer to this latter question.
-Molecules are composites of still smaller bodies, and to get back to
-the ultimate particle we must go to atoms. All chemical changes resolve
-themselves into the breaking up of molecules and rearrangement of their
-constituent atoms. If the opposite poles of a voltaic battery are
-inserted in a vessel containing water, molecules of water are broken up,
-bubbles of gas rise at each pole, and if these are collected, the gas at
-the positive pole is found to be oxygen, and that at the negative pole
-hydrogen. Nothing has been added or taken away, for the weight of the two
-gases evolved exactly equals that of the water which has disappeared. But
-the molecules of the water have been broken up, and their constituents
-reappear in totally different forms, for nothing can well be more unlike
-water than each of the two gases of which it is composed. That it is
-composed of them can be verified by the reverse experiment of mixing the
-two gases together in the same proportion of two volumes of hydrogen to
-one of oxygen as was produced by the decomposition of water, passing an
-electric spark through the vessel containing the mixture, when with a
-loud explosion the gases reunite, and water is formed in precisely the
-same quantity as produced the volumes of gas by its decomposition. Can
-the ultimate particles of these gases be further subdivided; can they,
-like those of water, be broken up and reappear in new forms? No; there
-is no known process by which an atom of oxygen can be made anything but
-oxygen, or an atom of hydrogen anything but hydrogen.
-
-The only thing which is compound in the composition of oxygen is that
-its molecules consist of two atoms linked together. This appears from
-the fact that while the weight of oxygen, and therefore that of its
-molecules, is sixteen times greater than that of an equal volume of
-hydrogen, and therefore of hydrogen molecules, it combines with it in
-the proportion not of sixteen, but of eight to one. If, therefore, the
-molecule were identical with the atom of oxygen, we must admit that the
-atom could be halved, which is contrary to its definition as the ultimate
-indivisible particle of the substance oxygen. But if the oxygen molecule
-consists of two linked atoms, O—O, and the hydrogen molecule equally
-of two, H—H, as can be proved by other considerations, everything is
-explained by assuming that the molecule of water consists of two atoms of
-hydrogen linked to one of oxygen, or H₂O, and that when this molecule is
-broken up by electricity, its constituents resolve themselves into atoms,
-which recombine so as to form twice as many molecules of hydrogen, H—H,
-as of oxygen, O,—i.e. into two volumes of hydrogen gas to one of oxygen.
-
-Taking the single hydrogen atom as the unit of weight as being the
-lightest known ponderable body, and calling this weight a microcrith,
-or standard of the smallest of this order of excessively small weights,
-this is equivalent to saying that the weight of an oxygen atom is equal
-to 16 microcriths, and as water is composed of one such atom plus two of
-hydrogen, the weight of its molecule ought to be 16 + 2 = 18, which is in
-fact the exact ratio in which the weight of a volume of steam, or water
-in the form of gas, is heavier than an equal volume of hydrogen.
-
-This key unlocks the whole secret of the chemical changes and
-combinations by which matter assumes all the various forms known to us in
-the universe.
-
-Thus oxygen enters into a great variety of combinations forming different
-substances, but always in the proportion which is either 16, or some
-multiple of 16, such as 32, 48, 64. That is, either 1, 2, 3, or 4 atoms
-of oxygen unite with other atoms to form the molecules from which these
-other substances are made.
-
-One atom of oxygen weighing 16 microcriths combines, as we have seen,
-with two atoms of hydrogen weighing 2, to form a molecule of water
-weighing 18 mc. In like manner one atom of oxygen, 16 mc., combines with
-one of carbon, which weighs 12 mc., to form a molecule of carbonic oxide
-weighing 28 mc.; and two of oxygen, 32 mc., with one of carbon, 12 mc.,
-to form a molecule of carbonic dioxide weighing 44 mc.
-
-The same applies to all elementary substances. Thus hydrogen, two atoms
-of which combine with one of oxygen to form water, combines one atom to
-one with chlorine to form the molecule of hydrochloric acid, which weighs
-36·5 mc., being the united weights of one atom of chlorine, 35·5 mc.,
-and one of hydrogen, 1 mc. These, with hundreds of similar instances,
-are the results not of theories as to molecules and atoms, but of actual
-facts, ascertained by innumerable experiments made independently by
-careful observers over long periods of years, many of them dating back
-to the labours of the alchemists of the middle ages in pursuit of gold.
-The atomic theory is the child and not the parent of the facts, and is
-indeed nothing but the summary of the vast variety of experiments which
-led up to it, as Newton’s law of gravity is of the facts known to us
-with regard to the attractions and motions of matter in the mass. But as
-Newton’s law enables us to predict new facts, to calculate eclipses and
-the return of comets beforehand, and to compile nautical almanacs; so the
-new chemistry, based on the atomic theory, affords the same conclusive
-proof of its truth by enabling us in many cases to predict phenomena
-which are subsequently verified by experiment, and to infer beforehand
-what combinations are possible, and what will be their nature.
-
-The actual existence, therefore, of molecules and atoms is as
-well-ascertained a fact, as that of cwts. and lbs., or of planets and
-stars, of solar systems and nebulæ.
-
-The researches of chemists have succeeded in discovering about 70
-substances, of which the same may be said as of the oxygen and hydrogen
-into which water is decomposed, viz. that they cannot be decomposed
-by any known process, and must therefore be considered as ultimate
-and elementary. Their atoms differ widely in size and weight: that of
-mercury, for instance, being 200 times heavier than that of hydrogen, and
-the weights varying from 1 mc. for the hydrogen atom, up to 240 for that
-of uranium. When we call them elementary substances, we merely mean that
-we know no means of decomposing them. It is possible that all of them may
-be compounds which we cannot take to pieces of some substratum of uniform
-matter, and it is remarkable that the weight of nearly all of these
-elementary atoms is some simple multiple of that of hydrogen, pointing to
-their being all combinations of one common substratum of matter; but this
-is merely conjecture, and in the present state of our knowledge we must
-assume these 66 or 71 ultimate particles or atoms to be the indivisible
-units out of which all the complicated puzzle of the material universe
-is put together. They are not all equally important to us. Of the 71
-elementary substances enumerated in chemical treatises, 5 are doubtful,
-and 30 to 35 of the remainder are either known only to chemists in minute
-quantities, or exist in nature in small quantities, having no very
-material bearing upon man’s relation to matter. The most important are
-oxygen, hydrogen, nitrogen, and carbon. Oxygen diluted by nitrogen gives
-us the air we breathe, combined with hydrogen the water we drink, and
-with metals and other primitive bases the solid earth on which we tread.
-Carbon again is the great basis of organised matter and life, to which it
-leads up by a variety of complex combinations with oxygen, hydrogen, and
-nitrogen.
-
-The qualities and relations of elementary atoms afford a subject of great
-interest, but of such vast extent that those who wish to understand it
-must be referred to professed works on modern chemistry. For the present
-purpose it is sufficient to say that the following conclusions are firmly
-established.
-
-All the various forms of matter are composed of combinations of primitive
-atoms which form molecules, the molecules being neither more nor less
-than very small pieces of ordinary matter.
-
-The qualities of this matter, or, what is the same thing, of its
-molecules, depend partly on the qualities of the atoms, which are
-something quite distinct from those of the molecules, and partly on their
-mode of aggregation into molecules, affecting the form, size, stability,
-and other attributes of the molecule.
-
-All matter, down to the smallest atom, has definite weight and is
-indestructible. No man by taking thought can add the millionth of a
-milligramme to the weight of any substance, or make it either more or
-less than the sum of the weights of its component factors, any more than
-he can add a cubit to his stature. When Shelley sang of the cloud,
-
-    I change, but I cannot die,
-
-he enunciated a scientific axiom of the first importance. Creation, in
-the sense of making something out of nothing, is a thing absolutely
-unknown and unknowable to us. If we say we _make_ a ship or a
-steam-engine, we simply mean that we transform existing matter and
-existing energies into new combinations, which give results convenient
-for our purpose. So if we talk of making a world, our idea really is
-that if our powers and knowledge were indefinitely increased we might be
-able, given the atoms and energies with their laws of existence, to put
-them together so as to produce the desired results. But how the atoms and
-their inherent laws got there is a question as to which knowledge, or
-even conceivability, is impossible, for it altogether transcends human
-experience.
-
-Before finally taking leave of atoms it may be well to state shortly
-that science, not content with having proved their existence and weighed
-them in terms of the lightest element, the hydrogen atom, has attempted,
-not without success, to solve the more difficult problem of their real
-dimensions, intervals, and velocities. This problem has been attacked by
-Clausius, Sir W. Thomson, Clerk Maxwell, and others, from various sides:
-from a comparison with the wave-lengths of light; with the tenuity of
-the thinnest films of soap-bubbles just before they burst, and when
-they are presumably reduced to a single layer of molecules; and from the
-kinetic theory of gases, involving the dimensions, paths, and velocities
-of elastic bodies, constantly colliding, and by their impacts producing
-the resulting pressure on the confining surface. All these methods
-involve such refined mathematical calculations that it is impossible to
-explain them popularly, but they all lead to nearly identical results,
-which involve figures so marvellous as to be almost incomprehensible.
-For instance, a cubic centimetre of air is calculated to contain 21
-trillions of molecules—i.e. 21 times the cube of a million, or 21
-followed by 18 ciphers; the average distance between each molecule equals
-95 millionths of a millimetre, which is about 25 times smaller than the
-smallest magnitude visible under a microscope; the average velocity of
-each molecule is 447 metres per second; and the average number of impacts
-received by each molecule in a second is 4,700 millions.
-
-
-
-
-CHAPTER III.
-
-ETHER.
-
-    Ether proved by light—Light-waves—Elasticity of ether—Its
-    universal diffusion—Influences molecules and atoms—Is influenced
-    by them—Successive orders of the infinitely small—Illustrated
-    by the differential and integral calculus—Explanation of this
-    calculus—Theory of vortex rings.
-
-
-Perhaps the best way to convey some idea of this order of magnitudes
-to the ordinary reader is to quote Sir W. Thomson’s illustration, that
-if we could suppose a cubic inch of water magnified to the size of the
-earth—i.e. to a sphere 24,000 miles in circumference—the dimensions of
-its ultimate particles, magnified on the same scale, or, as he expresses
-it, its degree of coarse-grainedness, would be something between the size
-of rifle-bullets and cricket-balls.
-
-Extraordinary as these dimensions are, they are not more so than those
-at the opposite extremity of the scale, where the distance of stars
-and nebulæ has to be measured by the number of thousand years their
-light, travelling at the rate of 192,000 miles per second, takes to
-reach us. Infinitely small, however, as those dimensions appear to our
-original conceptions derived from our natural senses, they are certain
-and ascertained facts, if not as to the precise figures, yet beyond all
-doubt as to the orders of magnitude. In dealing with them also we are to
-a great extent on familiar ground. Molecules are nothing more nor less
-than small pieces of ordinary matter; and atoms are also matter, for they
-obey the law of gravity, have definite weights, and build up molecules as
-surely as molecules build up ordinary matter, and as squared stones build
-up pyramids.
-
-But to understand the constitution of the material universe we must
-go a step further, part from the familiar world of sense, and deal
-with an all-pervading medium, which is at the same time matter and not
-matter, which lies outside the laws of gravity, and yet obeys other laws
-intelligible and calculable by us; of which it may be said we know it and
-we know it not. We call it Ether.
-
-Ether is a medium assumed as a necessary consequence from the phenomena
-of light, heat, and electricity—primarily from those of light. Respecting
-light two facts are known to us with absolute certainty.
-
-1st. It traverses space at the rate of 192,000 miles per second.
-
-2nd. It is propagated not by particles actually travelling at this rate,
-but, like sound through air, by the transmission of waves.
-
-The first fact is known from the difference of time at which eclipses of
-Jupiter’s satellites are seen according as the earth is at the point of
-its orbit nearest to or farthest from Jupiter—i.e. from the time light
-takes to traverse the diameter of the earth’s orbit, which is about 180
-millions of miles; and this velocity of light is confirmed by direct
-experiments, as by noting the difference of time between seeing the
-flash and hearing the sound of a gun, which gives the velocity of light
-compared with the known velocity of sound.
-
-The second fact is equally certain from the phenomena of what are called
-interferences, when the crest of one wave just overtakes the hollow of
-a preceding one, so that, if the two waves are of equal magnitude, the
-oscillations exactly neutralise one another, and two lights produce
-darkness. This is shown in a thousand different ways, and for all the
-different colours depending on different waves into which white light
-is analysed when passed through a prism. It is a certain result of
-wave-motion, and of wave-motion only, and therefore we know without a
-doubt that light is propagated by waves.
-
-But waves imply a medium through which waveforms are transmitted, for
-waves are nothing but the rhythmic motion of something which rises and
-falls, or oscillates symmetrically about a mean position of rest, slowly
-or quickly according to the less or greater elasticity of the medium.
-The waves which run along a large and slack wire are large and slow,
-those along a small and tightly stretched wire are small and quick; and
-from the data we possess as to light, its velocity of transmission,
-its refraction when its waves pass from one medium into another of
-different density, and from the distance between the waves as shown by
-interference, it is easy to calculate the lengths and vibratory periods
-of the waves, and the elasticity of the medium through which such waves
-are transmitted.
-
-The figures at which we arrive are truly extraordinary. The dimensions
-and rates of oscillations of the waves which produce the different
-colours of visible light have been measured and calculated with the
-greatest accuracy, and they are as follows:
-
-DIMENSIONS OF LIGHT-WAVES.
-
-    +---------------+---------------+-----------------------+
-    |   Colours     |No. of waves in|No. of oscillations in |
-    |               |    one inch   |     one second        |
-    +---------------+---------------+-----------------------+
-    |Red            |    39,000     | 477,000,000,000,000   |
-    |Orange         |    42,000     | 506,000,000,000,000   |
-    |Yellow         |    44,000     | 535,000,000,000,000   |
-    |Green          |    47,000     | 577,000,000,000,000   |
-    |Blue           |    51,000     | 622,000,000,000,000   |
-    |Indigo         |    54,000     | 658,000,000,000,000   |
-    |Violet         |    57,000     | 699,000,000,000,000   |
-    +---------------+---------------+-----------------------+
-
-The elasticity of this wonderful medium is even more extraordinary.
-
-The rapidity with which wave-motion is transmitted depends, other things
-being equal, on the elasticity of the medium, which is proportional to
-the square of the velocity with which a wave travels through it. As the
-velocity of the sound-wave in air is about 1,100 feet in a second, and
-that of the light-wave about 192,000 miles in the same time, it follows
-that the velocity of the latter is about a million times greater than
-that of the former, and if the density of ether were the same as that of
-air, its elasticity must be about a million million times greater. But
-the elasticity is the same thing as the power of resisting compression,
-which in the case of air we know to be about 15 pounds to the square
-inch; so that the ether, if equally dense, would balance a pressure of
-15 million million pounds to the square inch—that is, it would require
-a pressure of about 750 millions of tons to the square inch to condense
-ether to the density of air. On the other hand, its density, if any,
-must be so infinitesimally small that the earth moving through it in its
-orbit with a velocity of 1,100 miles a minute suffers no perceptible
-retardation.
-
-Consider what this means. Air blowing at the rate of 100 miles an hour
-is a hurricane uprooting trees and levelling houses. If ether were as
-dense as air the resistance to the earth in passing through it would
-be 600 times that of going dead to windward in a tropical hurricane.
-But in point of fact there is no sensible resistance, for the earth and
-heavenly bodies move in their calculated paths according to the law of
-gravity exactly as they would do if they were moving in a vacuum. Even
-the comets, which consist of such excessively rare matter that when one
-of them got entangled among the satellites of Jupiter it did not affect
-their movements, are not retarded by the ether, or so slightly, that any
-retardation in the case of one or two of them is suspected rather than
-proved. But, if the ether has no weight, how can we call it material,
-weight being, as we have seen, the invariable test and measure of all
-matter down to the minutest atom? And yet how can we deny its existence
-when it is demonstrably necessary to account for undoubted facts revealed
-to us every day by the prism, the spectroscope, electricity, and chemical
-action, and deductions from these facts based on the strict laws of
-mathematical calculation? For the existence of the ether is not based
-only on the phenomena of light: it is an equally necessary postulate to
-explain those of heat, electricity, and chemical action. We must conceive
-of our atoms and molecules as forming systems and performing their
-movements, not in vacuo, but in an all-pervading medium of this ether, to
-which they impart, and from which they receive, impulses.
-
-These impulses are excessively minute, and when they occur in irregular
-order they produce no appreciable effect; but when the vibrations of
-the ether keep time with those of the atoms, the multitude of small
-effects becomes summed up into one considerable enough to produce great
-changes. Just so a rhythmic succession of tiny ripples may set a heavy
-buoy oscillating, and the footfalls of a regiment of soldiers marching
-over a suspension-bridge may make it swing until it breaks down, while
-a confused mob could traverse it in safety. The latter affords a good
-illustration of the way in which molecular structures may be broken down,
-and their atoms set free to enter into other combinations, by the action
-of heat, light, or chemical rays beyond the visible end of the spectrum.
-
-Conversely the phenomena of the spectroscope all depend on the fact that
-the vibrations of atoms and molecules can propagate waves through the
-ether, as well as absorb ether-waves into their own motions, and thus
-give spectra distinguished by bright or dark lines peculiar to each
-substance, by which it can be identified. Whatever ether may be, this
-much is certain about it: it pervades all space. That it extends to the
-boundaries of the infinitely great we know from the fact that light
-reaches us from the remotest stars and nebulæ, and that in this light
-the spectroscope enables us to detect waves propagated and absorbed by
-the very same vibrations of the same familiar atoms at these enormous
-distances as at the earth’s surface. Glowing hydrogen, for instance, is a
-principal ingredient of the sun’s atmosphere and of those distant suns we
-call stars, and it affects the ether and is affected by it exactly in the
-same manner as the hydrogen burning in an ordinary gas-lamp.
-
-In the direction also of the infinitely small, ether permeates the
-apparently solid structure of crystals, whose molecules perform their
-limited and rigidly definite movements in an atmosphere of it, as is
-shown by the fact that in so many cases light and heat penetrate through
-them. A whole series of remarkable phenomena arise from the manner in
-which the vibrations of ether which cause light are affected by the
-structure of the molecules of crystals through which they pass. In
-certain cases they are what is called polarised, or so affected that
-while they pass freely if the crystal is held in one direction, they
-are stopped if it is turned round through an angle of 90° to its former
-position, so that one and the same crystal may be alternately transparent
-and non-transparent. It would seem as if its structure were like that
-of wood, grained, and more easy to penetrate if cut with the grain
-than against it, so that when a ray of light attempted to penetrate,
-its vibrations were resolved into two, one with the grain which got
-through, the other against it which was suppressed; so that the emerging
-ray, which entered with a circular vibration, got out with only one
-rectilinear vibration parallel to the diameter which coincided with the
-grain.
-
-Other crystals of more complicated structure affect transmitted light in
-a more complex way, developing a double polarity very similar to that
-induced in the iron filings when brought under the influence of the
-two poles of the magnet. With this polarised light the most beautiful
-coloured rings can be produced from the waves of the different colours
-into which the white light has been analysed in passing through the
-crystal, which alternately flash out and disappear as the crystal is
-turned round its axis, and which present a remarkable analogy to the
-curves into which the iron filings form themselves under the single or
-double poles of the magnet.
-
-The importance of this will appear afterwards, but for the present it
-is sufficient to show that the waves of ether which cause light really
-penetrate through the molecules of crystals, but in doing so may be
-affected by them.
-
-[Illustration: RINGS OF POLARISED LIGHT, UNIAXIAL CRYSTALS. RINGS OF
-POLARISED LIGHT, BIAXIAL CRYSTALS.]
-
-In dealing with these excessively small magnitudes it may assist the
-reader who has some acquaintance with mathematics in forming some
-conception of them, to refer to that refinement of calculation, the
-differential and integral calculus. And even the non-mathematical reader
-may find it worth while to give a little attention in order to gain
-some idea of this celebrated calculus which was the key by which Newton
-and his successors unlocked the mysteries of the heavens. The first
-rough idea of it is gained by considering what would happen if, in a
-calculation involving hundreds of miles, we neglected inches. Suppose we
-had a block of land to measure, 300 miles long and 200 wide; as there
-are, say, 5,000 feet in a mile, and the error from omitting inches could
-not exceed a foot, the utmost error in the measurement of length could
-not exceed 1/1500000th, and in width 1/1000000th part of the correct
-amount. In the area of 300 × 200 = 60,000 square miles, the limit of
-error would, by adding or omitting the rectangle formed by multiplying
-together these two small errors, not exceed 1/1500000 × 1/1000000 =
-1/1500000000000th part. It is evident that the first error is an
-excessively small part of the true figure, and the second error a still
-more excessively small part of the first error. But, as we are dealing
-with abstract numbers, we can just as readily conceive our initial error
-to be the 1/100th or 1/1000th of an inch, as one inch; and, in fact,
-diminish it until it becomes an infinitesimally small or evanescent
-quantity. In doing so, however, it is evident that we shall make the
-second error such a still more infinitesimally small fraction of the
-first that it may be considered as altogether disappearing.
-
-The first error is called a differential of the first order and denoted
-by _d_, the second a differential of the second order denoted by d₂.
-Thus if we call the base of our rectangle _x_ and its height _y_, the
-area will be _xy_. Let us suppose _x_ to receive the addition of a very
-small increment _dx_, and _y_ the corresponding increment _dy_, what
-will be the corresponding increment of the area, or _d.xy_? Clearly
-the difference between the old area _xy_ and the new area (_x_ + _dx_)
-multiplied by (_y_ + _dy_). This multiplication gives
-
-     _x_ + _dx_
-     _y_ + _dy_
-    ------------
-    _xy_ + _ydx_
-           _xdy_ + dx.dy
-    ------------------------------
-    _xy_ + _xdy_ + _ydx_ + _dx.dy_
-
-The difference between this and _xy_ is _xdy_ + _ydx_ + _dx.dy_. But
-_dx.dy_ is, as we have seen, a differential of the second order and may
-be neglected. Therefore _dxy_ = _xdy_ + _ydx_. In like manner _dx_² =
-(_x_ + _dx_)²-_x_² = 2_xdx_ + _dx_², which last term may be neglected,
-and _dx_² = 2_xdx_. In this way the differentials of all manner of
-functions and equations of symbols representing dimensions and motions
-may be found. Conversely the wholes may be considered as made up of an
-infinite number of these infinitely small parts, and found from them by
-summing up or integrating the differentials. Thus if we had the equation
-
-    _xdy_ + _ydx_ = 2_zdz_
-
-we know that the left-hand side is the differential of _xy_, and
-therefore that by integrating it we shall get _xy_; while the right side
-is the differential of _z_² which we shall get by integrating it. The
-relation expressed therefore is that _xy_ = _z_², or, in other words,
-that a rectangle whose sides are _x_ and _y_ exactly equals a square
-whose side is _z_.
-
-[Illustration: FIG. 1. FIG. 2. FIG. 3.]
-
-The use of this device in assisting calculation will be apparent if we
-take the case of an area bounded by a curved line. We cannot directly
-calculate this area, but we can easily tell that of a rectangle. Now it
-is evident that if we inscribe rectangles in this area ABC, the more
-rectangles we inscribe the less will be the error in taking their sum
-as equal to the curved area. This is apparent if we compare fig. 2 with
-fig. 3. Suppose we take a point P on the curve, call BN = _x_ and PN =
-_y_, and suppose N_n_ to be _dx_, the differentially small increment of
-_x_, and _pq_ = _dy_ the corresponding small increment of _y_. The area
-of the rectangle P_qn_N = PN × N_n_ = _ydx_, and differs from the true
-curvilinear area P_pn_N by less than the little rectangle of P_q_ × _pq_
-or of _dx_._dy_. But, as we have seen, if we push our division to the
-first infinitesimal order, or make N_n_ and _pq_ differentials of _x_ and
-_y_, _dx_._dy_ may be neglected—i.e. multiply the number of rectangles
-indefinitely, and the sum of their areas will differ from the true area
-inclosed by the curve by an error which is evanescent.
-
-If then _x_ and _y_ are connected by some fixed law, as must be the case
-if the extremity of _y_ traces out some regular curve, the relation
-between them may be expressed by an equation, which will remain one
-however often it may be differentiated or again integrated, and whatever
-modifications or transformations it may receive by mathematical processes
-which do not alter the essential equality of the two sides connected by
-the symbol of equality =. Thus by differentiating and casting off as
-evanescent all differentials of a lower order than that which we are
-working with, we may arrive at forms of which we know the integrals, and
-by integrating get back to the results in ordinary numbers, which we were
-in search of but could not attain directly.
-
-The same thing will apply if our symbols are more numerous, and if
-they express relations of motion as well as of space, or, in fact, any
-relations which are governed by fixed laws expressible by equations. If
-I have succeeded in conveying to the readers any idea of this celebrated
-calculus, they will perceive what an analogy it presents to the idea
-of modern physical and chemical science, that of molecules, atoms, and
-ether, forming differentials of successive orders of the infinitely
-small. It is certainly most remarkable that while the former was a
-purely intellectual idea based on mathematical abstractions, and which
-was invented and worked as an instrument for solving the most intricate
-astronomical problems for nearly two centuries, without a suspicion
-that it represented any objective reality: the latter idea, based on
-actual experiment, seems to show that differentials and integrals have
-their real counterpart in nature and represent fundamental facts in the
-constitution of the universe.
-
-Those who are of a mystic or metaphysical turn of mind may discern in
-this, arguments for matter and laws of matter being after all only
-manifestations of one universal, all-pervading mind; but in following
-such speculations we should be deserting the solid earth for cloudland,
-and passing the limit of positive knowledge into the region where
-reflections of our own hopes, fears, religious feelings, and poetical
-sentiments form and dissolve themselves against the background of the
-great unknown. For the present, therefore, I confine myself to pointing
-out how these undoubted truths of mathematical science, which have
-verified themselves in the practical form of enabling us to predict
-eclipses and construct nautical almanacs, correspond with and throw light
-upon the equally certain facts of this succession of infinitely small
-quantities of successive orders in the constitution of matter.
-
-An attempt has recently been made, based on abstruse mathematical
-calculations, to carry our knowledge of the constitution of matter one
-step further back, and identify atoms with ether. This is attempted by
-the vortex theory of Helmholz, Sir W. Thomson, and Professor Tait. It is
-singular how some of the ultimate facts discovered by the refinements
-of science correspond with some of the most trivial amusements. Thus
-the blowing of soap-bubbles gives the best clue to the movement of waves
-of light, and through them to the dimensions of molecules and atoms;
-and the collision of billiard-balls, knocked about at random, to the
-movements of those minute bodies, and the kinetic theory of gases. In the
-case of the vortex theory the idea is given by the rings of smoke which
-certain adroit smokers amuse themselves by puffing into the air. These
-rings float for a considerable time, retaining their circular form, and
-showing their elasticity by oscillating about it and returning to it if
-their form is altered, and by rebounding and vibrating energetically,
-just as two solid elastic bodies would do, if two rings come into
-collision. If we try to cut them in two, they recede before the knife, or
-bend round it, returning, when the external force is removed, to their
-original form without the loss of a single particle, and preserving
-their own individuality through every change of form and of velocity.
-This persistence of form they owe to the fact that their particles are
-revolving in small circles at right angles to the axis or circumference
-of the larger circle which forms the ring; motion thus giving them
-stability, very much as in the familiar instance of the bicycle. They
-burst at last because they are formed and rotate in the air, which is a
-resisting medium; but mathematical calculation shows that in a perfect
-fluid free from all friction these vortex rings would be indivisible and
-indestructible: in other words, they would be atoms.
-
-The vortex theory assumes, therefore, that the universe consists of one
-uniform primary substance, a fluid which fills all space, and that what
-we call matter consists of portions of this fluid which have become
-animated with vortex motion. The innumerable atoms which form molecules,
-and through molecules all the diversified forms of matter of the material
-universe, are therefore simply so many vortex rings, each perfectly
-limited, distinct, and indestructible, both as to its form, mass, and
-mode of motion. They cannot change or disappear, nor can they be formed
-spontaneously. Those of the same kind are constituted after the same
-fashion, and therefore are endowed with the same properties.
-
-The theory is a plausible one, and the reputation of its authors must
-command for it respectful consideration; but it is as yet a long way
-from being an established theory which can be accepted as a true
-representation of facts. In the first place it is based solely on
-mathematical theory, and not, as in the case of atoms and light-waves,
-upon actual facts of weight and measurement tested by experiment, and to
-which mathematical reasoning affords only an aid and supplement. No one
-has proved the existence of such a medium or of such vortex rings, much
-less weighed or measured them.
-
-Moreover the theory is open to some very obvious objections. How can
-aggregations of imponderable matter acquire weight, and become subject
-to the law of gravity, which, as we have seen, is one of the essential
-and permanent qualities of atoms? If a cubic millionth of a millimetre of
-ether formed into a big vortex ring of, say, an atom of mercury, has a
-weight equal to 200 times that of an atom of hydrogen, which itself has
-a definite weight, why has it no weight in its original form? And if it
-had weight, however small, how could the enormous mass of ether filling
-all space produce no perceptible effect on bodies, even of attenuated
-cometic vapour, revolving through it with immense velocities? Again,
-how could these innumerable vortex rings be formed out of the ether
-without disturbing the uniformity and continuity of the medium, which
-are essential for the propagation of the light-waves through it? And how
-could the motions requisite to form the vortex rings be impressed on them
-_de novo_ consistently with the principle of the conservation of energy?
-Energy can no more be created out of nothing than matter, by any process
-known in nature or conceivable by the human intellect; and to assume it
-is simply a more refined manner of falling back on the supernatural,
-which is itself only a more refined manner of saying that we know nothing.
-
-For the present, therefore, we must be content with atoms and ether as
-the ultimate terms of our knowledge of the material or quasi-material
-components of the universe.
-
-
-
-
-CHAPTER IV.
-
-ENERGY.
-
-    Energy of motion and of position—Energy can be
-    transformed, not created or destroyed—Not created by free
-    will—Conservation of mechanical power—Convertibility of
-    heat and work—Nature of heat—The steam-engine—Different
-    forms of energy—Gravity—Molecular energy—Chemical
-    energy—Dynamite—Chemical affinities—Electricity—Produced
-    by friction—By the voltaic battery—Electric currents—Arc
-    light—Induction—Magnetism—The magnetic needle—The electric
-    telegraph—The telephone—Dynamo-electric engine—Accumulator.
-
-
-Those ultimate elements, however, atoms and ether, only give us what may
-be called the dead half of the universe, which could not exist without
-the constant presence of the animating principle of force or energy.
-Energy is the term generally adopted in the language of science, for
-force is apt to be associated with human effort and with actual motion
-produced, while energy is a comprehensive term, embracing whatever
-produces or is capable of producing motion. Thus, if we bend a cross-bow,
-the force with which it is bent may either reappear at once in the flight
-of the arrow, if we let go the string; or it may remain stored up, if we
-fix the string in the notch, ready to reappear when we pull the trigger.
-In the former case it is called energy of motion, in the latter energy of
-position. It is important to realise this distinction clearly, for many
-of the ordered and harmonious arrangements of the universe depend on the
-polarity, or conflict with alternate victories and defeats, between those
-two forms of energy.
-
-[Illustration]
-
-Thus if A B is a pendulum suspended at the point A, if we move it from
-its position of rest A C to A B and hold it there, its whole energy
-is that of position. If we let it go it swings backwards and forwards
-between the positions _A B_ and _A D_, and but for the resistance of the
-air and the friction at the point of suspension, it would so swing for
-ever. But in thus swinging what happens? From A B to A C energy of motion
-keeps gaining on energy of position, until when the pendulum reaches C,
-it has annihilated it. Energy of position has entirely disappeared, and
-the whole original force expended in raising the pendulum to A B exactly
-reappears in the force or momentum of the pendulum at its lowest point.
-But is this victory final? By no means; energy of position having touched
-bottom, gathers, like Antæus, fresh vigour for the contest, and from the
-position A C upwards it gains ground on its adversary until when the
-pendulum reaches A D it is in its turn completely victorious.
-
-The same alternation between energy of motion and of position takes place
-in all rhythmical movements such as waves, which, whether in water, air,
-or ether, are propagated, as in the case of the pendulum, by particles
-forced out of their position of rest and oscillating between the two
-energies.
-
-[Illustration]
-
-Thus if waves run along an elastic wire A B, the particle P, which has
-been forced into the position _p_, oscillates backwards and forwards
-between _p_ and _q_, beginning with nothing but energy of position
-at _p_, losing it all for energy of motion at P, and regaining it at
-_q_. All wave-motions therefore—that is to say, all sound, light, and
-heat—depend on this primitive polarity.
-
-If we have got this definition of the two forms of energy clearly
-into our heads, we shall be the better prepared for this further
-generalisation—the grandest, perhaps, in the whole range of modern
-science—that energy, like matter, is indestructible, and can only be
-transformed, but never created or annihilated.
-
-This is at first sight a more difficult proposition to establish in
-the case of energy than in that of matter. In the latter case we have
-nothing in our experience that can lead us to suppose that we have ever
-created something out of nothing; but in the former, our first impression
-undoubtedly is that we do create force. If I throw a stone at a bird I
-have an instinctive impression that the force which projects the stone
-is the creation of my own conscious will; that I had the choice either
-to throw or not to throw; and that if I had decided not to throw, the
-impelling force would never have existed. But, if we look more closely at
-the matter, it is not really so. The chain of events is this: the first
-impulse proceeds from the visual rays, which, concentrated by the lens of
-the eye on the retina, give an image of the bird; this sends vibrations
-along the optic nerve to the brain, setting in motion certain molecules
-of that organ; these again send vibrations along other nerves to certain
-muscles of the arm and hand, which contract, and by doing so give out the
-energy of movement which throws the stone. All this process is strictly
-mechanical; the eye acts precisely like a camera obscura in forming the
-image; the nerve-vibrations, though not identical with those of the wires
-of an electric telegraph, are of the same nature, their velocity can be
-measured, and their presence detected by the galvanometer; the energy of
-the muscle is stored there by the slow combustion of the food we have
-eaten, in the oxygen of the air we have breathed. Take any of these
-conditions away, and no effort of the will can produce the result. If
-the nerve is paralysed, or the muscle, from prolonged starvation, has no
-energy left, the stone will not be thrown, however much we may desire to
-kill the bird.
-
-Again, precisely the same circle of events takes place in numerous
-instances without any intervention of this additional factor of conscious
-will. We breathe mechanically, the muscles of the chest causing it
-to rise and fall like the waves of the ocean, without any deliberate
-intention of taking air into the lungs and exhaling it. Nay more, there
-are instances of what was at first accompanied by the sensation of
-conscious will, ceasing to be so when the molecular movements had made
-channels for themselves, as when a piano-player, who had learned his
-notes with difficulty, ends by playing a complicated piece automatically.
-The case of animals also raises another difficulty. Suppose a retriever
-dog sees his master shoot at and miss a hare: shall he obey the
-promptings of his animal instinct and give chase, or those of his higher
-moral nature which tell him that it is wrong to do so without the word
-of command? It is hard to see how this differs from the case of a man
-resisting or yielding to temptation; and how, if we assign conscious will
-to the man, we can deny it to the dog.
-
-Reasoning from these premises, some philosophers have come to the
-conclusion that man and all animals are but mechanical automata, cleverly
-constructed to work in a certain way fitting in with the equally
-preordained course of outward phenomena; and that the sensation of will
-is merely an illusion arising as a last refinement in the adjustment
-of the machinery. But here comes in that principle of duality or
-polarity, by which a proposition may be at once true and untrue, and
-two contradictory opposites exist together. No amount of philosophical
-reasoning can make us believe that we are altogether machines and not
-free agents; it runs off us like water from a duck’s back, and leaves us
-in presence of the intuitive conviction that to a great extent
-
-    Man is man and master of his fate.
-
-If this be an illusion, why not everything—evidence of the senses,
-experiment, natural law, science, as well as morality and religion?
-
-To pursue this farther would lead us far astray into the misty realm of
-metaphysics, and I refer to it only as showing that the principle of the
-conservation of energy, standing as it does in apparent contradiction to
-our natural impressions, requires a fuller demonstration than the kindred
-principle of the indestructibility of matter.
-
-[Illustration]
-
-In the case of ordinary mechanical power it had been long known that the
-intervention of machinery did not create force, but only transformed it.
-If a weight of 1 lb., A, just balances a weight of 2 lb., B, by aid of a
-pulley, and by the addition of a minute fraction, such as a grain, raises
-it 1 foot, it will be invariably found that A has descended 2 feet. In
-other words, 1 lb. working through 2 feet does exactly the same work
-as 2 lbs. working through 1 foot. And whatever may be the intervening
-machinery the same thing holds good, and the work put in at one end comes
-out, neither more nor less, at the other, except for a minute loss due
-to friction and resistance of air. If a force equal to 1 lb. is made, by
-multiplying the intermediate machinery, to raise a ton a foot from the
-ground, exactly as much force must have been exerted as if the ton had
-been divided into 2,240 parts of 1 lb. each, and each part separately
-lifted.
-
-But although energy cannot be created, at first sight it seems as if it
-might be destroyed, as when the ton falls to the ground and seems to have
-lost all its energy, whether of motion or of position. But here science
-steps in and shows us that it is not destroyed, but simply transformed
-into another sort of motion, which we call heat.
-
-Some connection between mechanical work and heat had long been known, as
-in the familiar experiment of rubbing our hands together to warm them;
-and the practice known to most primitive races of obtaining fire by
-twirling a stick rapidly in a hole drilled in a block of wood; a practice
-described by the old Sanskrit word ‘pramantha,’ which means an instrument
-for obtaining fire by pressure or friction, and which, translated into
-Greek, has been immortalised by the legend of Prometheus. But it was
-reserved for recent years, and for an English philosopher, Dr. Joule,
-to give scientific precision and generality to this idea, by actually
-measuring the amount of heat produced by a given amount of work, and
-showing that they were in all cases convertible terms, so much heat for
-so much work, and so much work for so much heat. He did this by measuring
-accurately by a thermometer the heat added to a given amount of water by
-the work done by a set of paddles revolving in it, set in rapid motion by
-a known weight descending through a known space. The unit of work being
-taken as that sufficient to raise 1 kilogramme through 1 metre, and that
-of heat as that required to raise the temperature of one kilogramme of
-water by 1° Centigrade, the relation between them, as found by a vast
-number of careful experiments, is that of 424 to 1. That is, one unit of
-heat is equal to 424 units of work.
-
-In this, and all cases requiring scientific precision, it is better to
-use the units of the metrical system than our clumsy English standards;
-but it may be sufficient for the ordinary reader to take the metre,
-which is about 39·37 inches, as practically a yard, and the kilogramme,
-which is 15,432 English grains, as practically equal to 2 lbs. This is
-sufficient to show the much greater energy of the invisible forces which
-act at minute distances, than that of gravity and other forces which do
-appreciable mechanical work, the energy of a weight falling from a height
-of more than 1,300 feet being only sufficient to heat its own weight by
-1°.
-
-This proof of the convertibility of work into heat gives much greater
-precision to our ideas respecting the real nature of heat and its kindred
-molecular and atomic energies. Heat is clearly not a material substance,
-for a body does not gain weight by becoming hotter. In the case of all
-ponderable matter down to the atoms, which are only of the size of
-cricket-balls compared to that of the earth, any combination which adds
-matter adds weight, and the weight of the product exactly equals the
-sum of the weights of the separate factors which have united to form
-it. Thus, if iron is burnt in oxygen gas, the product, oxide of iron or
-rust, weighs more than the original iron by just as much as the weight
-of the oxygen which has been consumed. But heat, light, and electricity
-add nothing to the weight of a body when they are added to it, and take
-nothing away when they are subtracted. The inference is unavoidable that
-heat, like light, is not ponderable matter, but an energy transmitted
-by waves of the imponderable medium known as ether. This is confirmed
-by finding that when a ray from the sun is analysed by passing through
-a refracting prism, one part of the spectrum shows light of various
-colours, while another gives heat. The hottest part of the spectrum lies
-in the red and beyond it, showing that the heat-waves are longer, and
-their oscillations slower, than those of light. Heat-waves also may be
-made to interfere, and to become polarised, in a manner analogous to the
-phenomena exhibited by those of light.
-
-There can be no doubt, therefore, that heat, like light, is an energy
-or mode of motion, transmitted by waves of an imponderable ether, and
-that it acts on the molecules and atoms of matter by the accumulated
-successive impulses of those waves on the molecules and atoms which are
-floating in it, or rather which are revolving in it, in definite groups
-and fixed orbits, like miniature solar systems or starry universes. We
-can now see how heat performs work, and why work can be transformed into
-it.
-
-Heat performs work in two ways. First, it expands bodies—that is, it
-draws their molecules farther apart against the force of cohesion which
-binds them together or keeps them moving in definite orbits at definite
-distances. It is as if it increased the velocity, and therefore the
-centrifugal force of a system of planets, and so caused them to revolve
-in wider orbits. The expansion of mercury in a thermometer affords a
-familiar instance of this effect of heat and the readiest measure of its
-amount. Secondly, it increases the energy of the molecular motions, so
-that they dart about, collide, and vibrate with greater force. Thus, as
-heat increases, evaporation increases, for molecules on the surface are
-projected with so much force as to get beyond the sphere of the cohesive
-attraction which binds them to the system, and they dart off like comets
-into space. Finally, as heat increases, and more and more work is done,
-against the centripetal force of cohesion, most substances, and doubtless
-all if we could get heat enough, are converted from solids into fluids,
-and ultimately into gases, in which latter state the molecules have got
-altogether beyond the sphere of their mutual attraction, and tend to
-dart off indefinitely in the direction of their own proper centrifugal
-motions, unless confined, in which case they dart about, collide,
-rebound, and exercise pressure on the containing surface.
-
-Conversely, if heat expands bodies, it is given out when they contract.
-Thus the enormous quantity of heat poured out for millions of years by
-the sun, is probably owing mainly to the mechanical force of contraction
-of the original cosmic matter condensing about the solar nucleus.
-
-Again, when gases suddenly expand, their temperature falls, which is
-the principle by which artificial ice is procured, and frozen beef and
-mutton are brought from America and Australia, producing, such are the
-complicated relations of modern society, agricultural depression, fall of
-rents, and a serious aggravation of the Irish question.
-
-As an example of the converse proposition of the transformation of heat
-into mechanical work, the steam-engine affords the aptest illustration.
-The original power came from the sun millions of years ago, and did work
-by enabling the leaves of plants to overcome the strong mutual affinity
-of carbon and oxygen in the carbonic dioxide in the air, and store up the
-carbon in the plant, where it remained since the coal era in the form of
-energy of position. By lighting the coal, or in other words separating
-its molecules more widely by heat, we enable them to exert once more
-their natural affinity for oxygen, and burn, that is recombine into
-carbonic dioxide. The heat thus produced turns water into steam, which
-passes through a cylinder, either into a condenser if the steam is at low
-pressure, or into the outer air if it has been superheated and brought
-to a higher pressure than that of the atmosphere. The difference of the
-pressure or elasticity of the steam in the boiler, and of the same steam
-when it is condensed or liberated, is available for doing work, and,
-being admitted and released alternately at the two ends of the cylinder,
-drives a piston up and down, which, by means of cranks and shafts,
-turns a wheel or does whatever work is required of it. In doing this,
-heat disappears, being converted into work, and the amount of heat would
-exactly equal that into which the work would be converted according to
-Joule’s law, if it could all be utilised without the loss necessarily
-incurred by friction, radiation, and the still more important absorption
-of latent heat required to convert water at boiling-point into vapour
-of the same temperature. This latter is not really an annihilation of
-the heat, but its conversion into work done in separating the molecules
-against the force of cohesion. The whole heat, therefore, is transformed
-into work, mainly molecular work in tearing molecules asunder, and the
-residue into mechanical work turning spindles and driving locomotives and
-steamboats.
-
-The intermediate machinery here, including the water in the boiler, is
-merely the means of applying the original energy in the particular way
-we desire. The essential thing is the transformation of a certain amount
-of heat into work by passing, in accordance with the laws of heat, from
-a hotter to a colder body. The last condition is indispensable, for the
-nature of heat is to seek an equilibrium by passing from hot to cold, and
-no work can be got out of it in the reverse way. On the contrary, work
-must be expended and turned into heat to restore the temperature which
-has run down. The case is analogous to that of water, which, if raised by
-evaporation or stored up in reservoirs at a level above the sea, can be
-made to turn a wheel while it is running down; but when it has all run
-down to the sea level, can do no more work, and can only be pumped up
-again to a higher level by the expenditure of fresh work. Owing to this
-tendency of heat we can see that, although matter and energy are to all
-appearance indestructible, the present constitution of the universe is
-not eternal. The animating energy of heat is always tending to obliterate
-differences of temperature, and bring all energy down to one uniform dead
-level of a common average, in which no further life, work, or motion are
-possible. Fortunately this consummation is far off, and for many tens
-or hundreds of millions of years the inhabitants of this tiny planet
-may feel fairly secure, and need not, like the late Dr. Cumming, of
-millenarian celebrity, introduce breaks in the leases of their houses to
-provide against the contingency of the world coming to an end at an early
-date.
-
-Dismissing, then, to the remote future any speculations as to the failure
-of this essential element of active energy, let us rather consider the
-various protean forms in which it shows itself.
-
-1. The energy of visible motion, which, as we have seen, may be
-transformed into an equivalent amount of energy of position.
-
-2. Molecular energy, which causes the cohesive attraction, repulsion, and
-other proper motions of these minute and invisible particles of matter.
-
-3. Energy of heat and light, which are transmitted by waves of the
-assumed imponderable medium called ether.
-
-4. Energy of chemical action, by which the small ultimate particles of
-ponderable matter, called atoms, separate and combine into the various
-combinations of molecules constituting visible matter, in obedience to
-certain affinities, or inherent attractions and repulsions.
-
-5. Electrical energy, which includes magnetism as a special instance.
-
-All these forms of energy may exist, as in the case of visible energy,
-either as energies of motion or of position, and the actual constitution
-of the universe is due in a great measure to the alternation of these
-two energies. Thus all wave-motion, whether it be of the waves of the
-sea grinding down a rocky coast, of the air transmitting sound, or of
-ether transmitting light and heat, are instances of energies of motion
-and of position, conflicting with one another and alternately gaining
-the victory. So also a pound of gunpowder or dynamite has an immense
-energy of position, which, when its atoms are let loose from their
-mutual unstable connection by heat or percussion, manifests itself in an
-enormous energy of motion, which is more or less destructive according to
-the rapidity with which the atoms rush into new combinations.
-
-Let us consider these different energies a little more in detail. The
-energy of visible motion is manifested principally by the law of gravity,
-under which all matter attracts other matter directly as the mass and
-inversely as the square of the distance. It is a universal and uniform
-law of matter, and can be traced without change or variation from the
-minutest atom up to the remotest double star. The energy of living force
-might, at first sight, be considered as another of the commonest causes
-of visible motion; but, when closely analysed, it will be found that what
-appears as such is only the result of molecular energy of position stored
-up in the living body by chemical changes during the slow combustion of
-food, and that nothing has been added by any hypothetical vital force.
-The conscious will seems to act in those cases simply as the signalman
-who shows a white flag may act on a train which has been standing on the
-line waiting for it. The energy which moves the train is due entirely
-to the difference of heat, which has been developed by the combustion
-of coal, between the steam in the boiler and the steam when allowed to
-escape into the air; and this energy came originally from the sun, whose
-rays enabled the leaves of growing plants to decompose carbonic dioxide
-and store up the carbon in the coal. Of this force of gravity causing
-visible motion we may say that it is comparatively a very weak force,
-which acts uniformly over all distances great or small.
-
-Molecular energies, on the other hand, act with vastly greater force, but
-at very small distances, and appear sometimes as attractive and sometimes
-as repulsive forces. Thus solid bodies are held together by a force of
-cohesion which is very powerful, but acts only at very small distances,
-as we may see if we break a piece of glass and try to mend it by pressing
-the broken edges together. We cannot bring them near enough to bring the
-molecular attraction again into play and make the broken glass solid.
-But the same glass acts with repellent energy if another solid tries
-to penetrate it, so that we can walk on a glass floor without sinking
-into it. Heat also, by increasing the distance between the molecules,
-first weakens the cohesive force so that the solid becomes fluid, and
-finally overcomes it altogether, so that it passes into the state of gas
-in which the centripetal attraction of the molecules is extinguished,
-and they tend to recede further and further from each other under the
-centrifugal force of their own proper velocities. The great energy of
-molecular forces will be apparent from the fact that a bar of iron, in
-cooling 10° Centigrade, contracts with a force equal to a ton for each
-square inch of section, as exemplified in the tubular bridge across the
-Menai Straits, where space has to be allowed for the free contraction and
-expansion of the iron under changes of temperature.
-
-Chemical energy, or the mutual attractions and repulsions of atoms, is
-even more powerful than that of molecules. It displays itself in their
-elective affinities, or what may be called the likes and dislikes,
-or loves and hatreds, of these ultimate particles. Perhaps the best
-illustration will be afforded by that ‘latest resource of civilisation,’
-dynamite. This substance, or to give it its scientific name,
-nitro-glycerine, is composed of molecules each of which is a complex
-combination of nine atoms of oxygen, five of hydrogen, three of nitrogen,
-and three of carbon. Of these, oxygen and hydrogen have a strong affinity
-for one another, as is seen by their rushing together whenever they get
-the chance, and by their union forming the very stable compound, water.
-Oxygen and carbon have also a very strong affinity, and readily form
-the stable product carbonic dioxide gas. Nitrogen, on the other hand,
-is a very inert substance; its molecule consists of two atoms of itself
-which are bound together by a strong affinity, and can only be coaxed
-with difficulty into combinations with other elements, forming compounds
-which are, as it were, artificial structures, and very unstable. We
-see this in the air, which consists mainly of oxygen and nitrogen, but
-not in chemical combination, the oxygen being simply diluted by the
-nitrogen, as whisky is with water, with the same object of diluting the
-too powerful oxygen or too potent alcohol, and enabling the air-breather
-or whisky-drinker to take them into the system without burning up the
-tissues too rapidly. If nitrogen had more affinity for oxygen it would
-combine chemically with it, and we should live in an atmosphere of
-nitrous oxide, or laughing gas.
-
-The molecule, therefore, of nitro-glycerine resembles a house of cards,
-so nicely balanced that it will just stand, but will fall to pieces at
-the slightest touch. When this is supplied by a slight percussion the
-molecule falls to pieces and is resolved into its constituent atoms,
-which rush together in accordance with their natural affinities, forming
-an immense volume of gas, partly of water in the form of steam where
-oxygen has combined with hydrogen, and partly of carbonic dioxide where
-it has combined with carbon, leaving the nitrogen atoms to pair off, and
-revert to their original form of two-atom molecules of nitrogen gas.
-It is as if ill-assorted couples, who had been united by matrimonial
-bonds tied by the manœuvres of Belgravian mothers, found themselves
-suddenly freed by a decree of divorce _a vinculo matrimonii_, and rushed
-impetuously into each other’s arms, according to the laws of their
-respective affinities. So striking is the similitude that one of Goethe’s
-best-known novels, the ‘Wahlverwandschaften,’ takes its title from the
-human play of these chemical reactions. The enormous energy developed
-when these atomic forces are let loose and a vast volume of gas almost
-instantaneously created, is attested by the destructive force by which
-the hardest rocks are shattered to pieces and the strongest buildings
-overthrown.
-
-These loves and hatreds, or, as they are termed, chemical affinities and
-repulsions of the atoms, are the principal means by which the material
-structure of the universe is built up from the original elements.
-The earth, or solid crust of the planet we inhabit, consists mainly
-of oxidised bases, and is due to the affinity of oxygen for silicon,
-calcium, aluminium, iron, and other primary elements of what are called
-metals. This affinity enables them to make stable compounds, which, under
-the existing conditions of temperature and otherwise, hold together and
-are not readily decomposed. Water in like manner, in all its forms of
-waves, seas, lakes, rivers, clouds, and invisible vapour, is due to the
-affinity between oxygen and hydrogen forming a stable compound. Salt
-again is owing to the affinity of chlorine for sodium, and so for nearly
-all the various products with which we are familiar, oxygen and nitrogen
-in the air we breathe being almost the only elements which exist in their
-primary and uncombined state in any considerable quantities, and form
-an essential part of the conditions which render our planet a habitable
-abode for man and other forms of life.
-
-We shall see presently something more of the nature of these affinities,
-and the laws by which they act; but before entering on this branch
-of the subject we must consider the remaining form in which the one
-indestructible energy of the universe manifests itself, viz. that of
-electricity.
-
-Electricity is the most subtle and the least understood of these forms.
-In its simplest form it appears as the result of friction between
-dissimilar substances. Thus if we rub a glass rod with a piece of silk,
-taking care that both are warm and dry, we find that the glass has
-acquired the property of attracting light bodies, such as little bits
-of paper, or balls of elder-pith. Other substances, such as sealing-wax
-and amber, have the same property. Pursuing our research further we find
-that this influence is not, like that of gravity, uniform and always
-acting in the same direction, but of two kinds, equal and opposite. If we
-touch the pith-ball by the excited glass rod, it will after contact be
-repelled; but if we bring the ball which has been excited by contact with
-the glass within the influence of a stick of sealing-wax which has been
-excited by rubbing it with warm dry flannel, the ball instead of being
-repelled is attracted.
-
-Conversely, if the pith-ball has been first touched by excited
-sealing-wax, it will afterwards be repelled by excited sealing-wax
-and attracted by excited glass. It is clear, therefore, that there
-are two opposite electricities, and that bodies charged with similar
-electricities repel, and with unlike electricities attract, one another.
-For convenience, one of these electricities, that developed in glass,
-is called positive, and the other negative; and it has been clearly
-proved that one cannot exist without the other, and that whenever
-one electricity is produced, just as much is produced of an opposite
-description. If positive electricity is produced in glass by rubbing it
-with silk, just as much negative electricity is produced upon the silk.
-
-Another primary fact is that some substances are able to carry away
-and diffuse or neutralise this peculiar influence called electricity,
-while others are unable to do so and retain it. The former are called
-conductors, the latter non-conductors. Thus, glass is an insulator or
-non-conductor, while metal is a conductor of electricity; and the reason
-why the substances rubbed together, as glass and silk, must be dry is
-that water, in all its forms, is a conductor which carries away the
-electricity as fast as it is produced.
-
-These facts have given rise to a theory—which is after all not so
-much an explanation as a convenient mode of expressing the facts—of
-the existence of two opposite electric fluids, which, in the ordinary
-or unexcited body, are combined and neutralise one another, but are
-separated by friction, and flow in opposite directions, accumulating at
-opposite poles, or, it may be, one being accumulated at one pole, while
-the other is diffused through some conducting medium and lost sight of.
-The active electricity, be it positive or negative, thus accumulated at
-one pole, and retained there by the substance in contact with it being a
-non-conductor, disturbs by its influence the electrical equilibrium of
-any body brought near to it, separates its two fluids, and attracts the
-one opposite to itself. This attraction draws the light body towards it
-until contact ensues, when the electric fluid of the excited body flows
-into the smaller one, so that its opposite electricity is expelled, and
-it is in the same condition as its exciter, and therefore liable to be
-repelled by a similar exciter, or attracted by an opposite one which
-formerly repelled it.
-
-It is evident, without going further, that there is a great analogy
-between electrical energy and those of heat and of chemical affinity.
-The same mechanical work—viz. friction—which generates heat, generates
-electricity. The chief difference seems to be that friction may be
-transformed into heat when the same substances are rubbed together, as
-in the case of obtaining fire by the friction of wood; but electricity
-can only be obtained by friction between dissimilar substances. Thus
-no electricity is obtained by rubbing glass upon glass, or silk upon
-silk, or upon glass covered with silk, though a slight difference of
-texture is sometimes sufficient to separate the electric fluids. Thus
-if two pieces of the same silk ribbon are rubbed together, lengthways,
-no electricity is produced, but if crossways, one is positively, and the
-other negatively, electrified. In this respect the analogy is evident to
-chemical affinity, which, in like manner, only acts between dissimilar
-bodies.
-
-In order, however, to carry the proof of the identity of these forms of
-energy beyond the sphere of vague analogy, we must follow up electricity
-far beyond the simple manifestations of the glass rod and sealing-wax,
-and pursue it to its origin, in the transformations of chemical action
-and mechanical work, in the voltaic battery, the electric telegraph, the
-telephone, and the dynamo.
-
-The voltaic battery, in its simplest form, is a trough containing an acid
-liquid in which pairs of plates of different metals are immersed. It is
-evident that if the action of the acid on each metal were precisely the
-same, equal quantities of each would be dissolved in the acid, and the
-equilibrium of chemical energies would not be affected. But, the action
-being different, this equilibrium is disturbed, and if the sum of these
-disturbances for a number of separate pairs of plates can be accumulated,
-it will become considerable. This is done by connecting the plates of the
-same metal in each cell by a metallic wire covered by some non-conducting
-substance. There are, therefore, two wires, one to the right hand, the
-other to the left, the loose extremities of which are called the poles
-of the battery. If we test these poles as we did the glass rod and stick
-of sealing-wax, we find that one pole is charged with positive and the
-other with negative electricity. In other words, the chemical energy,
-whose equilibrium was disturbed by the unequal action of the acid on the
-plates of different metals, has been transformed into electrical energy
-manifesting itself, as it always does, under the condition of two equal
-and opposite polarities. If we connect these two poles with one another
-the two electricities rush together and unite, and there is established
-what is called an electrical current circulating round the battery.
-As the chemical action of the acid on the metals is not momentary but
-continuous, the acid taking up molecule after molecule of the metal,
-so also the current is continuous. When we call it a current, the term
-is used for the sake of convenience, for as the current, as we shall
-presently see, will flow along the wire or other conducting substance
-for immense distances, as across the Atlantic, with a velocity of many
-thousands of miles per second, we can, no more than in the case of light,
-figure it to ourselves as an actual transfer of material particles swept
-along as by a river running with this enormous velocity, but necessarily
-as a transmission of some form of motion travelling by waves or tremors
-through the all-pervading ether in which the atoms of the conducting
-wire are floating. Be this as it may, the effect of these electric
-currents is very varied and very energetic. It can produce intense heat,
-for if, instead of uniting the two poles, we connect them by a thin
-platinum wire, it will, in a few seconds, become heated to redness. If
-the connecting wire is thicker, heat will equally be generated but less
-intense, thus maintaining the analogy to the current which rushes with
-more impetuosity through a narrow than through a wide channel. If the
-poles are tipped with a solid substance like carbon, whose particles
-remain solid under great heat, when they are brought nearly together
-intense light is produced and the carbon slowly burns away. This produces
-what is called the arc light, which gives such a strong illuminating
-power and is coming into general use for lighting up large spaces.
-
-Another transformation is back again into chemical energy, which is shown
-by the power of the electric current to decompose compound substances.
-If, for instance, the poles of a battery are plunged into a vessel
-containing water, the molecules of the water will be decomposed and
-bubbles of oxygen gas will rise from the positive, and of hydrogen from
-the negative, pole.
-
-Another effect of electrical currents is that of attraction and repulsion
-on one another. If two parallel wires, free to move, carry currents
-flowing in the same direction as from positive to negative, or _vice
-versâ_, they will attract one another; if in opposite directions, they
-will repel. Electrical currents also work by way of induction, that is,
-they disturb the electrical equilibrium of bodies brought within their
-influence and induce currents in them. Thus, if we have two circular
-coils of insulated wire placed near each other, one on the right hand,
-the other on the left, and connect the extremities of the right-hand coil
-with the poles of a battery, when the connection is first made and the
-current begins to flow, a momentary current in the opposite direction
-will pass through the left-hand coil. This will cease, and as long as
-the current continues to flow through the right-hand coil there will be
-no current through the other; but if we break the contact between the
-right-hand coil and the battery, there will be again a momentary current
-through the left-hand coil, but this time in the same direction as the
-other. The same effect will be produced if, instead of making and
-breaking contact in the right-hand coil, we keep the current constantly
-flowing through it, and make the right-hand coil alternately approach
-and recede from the other coil. In this case, when the right-hand coil
-approaches, it induces an opposite current in the left-hand one; and when
-it recedes, one in the same direction as that of the primary.
-
-These phenomena of induction prepare us to understand the nature of
-magnets, and the magnetic effects produced by electrical currents. If
-an insulated wire is wrapped round a cylinder of soft or unmagnetic
-iron, and a current passed through the wire, the cylinder is converted
-into a magnet and becomes able to sustain weights. If the current
-ceases, the cylinder is no longer a magnet, and drops the weight. A
-magnet is therefore evidently a substance in which electric currents are
-circulating at right angles to its axis, and a permanent magnet is one in
-which such currents permanently circulate from the constitution of the
-body without being supplied from without. The earth is such a magnet, and
-also iron and other substances, under certain conditions.
-
-This being established, it is easy to see why an electrical current
-deflects the magnetic needle. If such a needle is suspended freely near
-a wire parallel with it, on a current being passed through the wire it
-must attract if similar, or repel if dissimilar, the currents which are
-circulating at right angles to the axis of the needle, and thus tend to
-make the needle swing into a position at right angles with the wire so
-that its currents may be parallel to that of the needle. This is the
-reason why the needle in its ordinary condition points to the north
-and south, or rather to the magnetic poles of the earth, because its
-currents are influenced by the earth currents which circulate parallel to
-the magnetic equator. The deviation of the needle from this direction,
-caused by any other current, like that passed along the wire, will depend
-on the strength of the current, which may be measured by the amount of
-deflection of the needle. The direction in which the needle deflects,
-viz. whether the north pole swings to the right or to the left, will
-depend on the direction of the current through the wire. The direction
-of the circular currents which form a magnet is such that if you look
-towards the north pole of a freely suspended cylindrical magnet—i.e. if
-you stand on the north of it and look southwards—the positive current
-will ascend on your right hand, or on the west side, and descend on the
-east. It follows that unlike poles must necessarily attract, and like
-poles repel one another, for in the former case the circular currents
-which face each other are going in the same, and in the latter in
-opposite directions.
-
-The reader is now in a position to understand the principle of the
-electric telegraph, that wonderful invention which has revolutionised
-human intercourse and, to a great extent, annihilated space and time. It
-originated in the discovery made by Oersted, a Danish _savant_, that the
-effect of an electric current was to make a magnet swing round, in the
-endeavour to place itself at right angles to it. The conducting power of
-insulated copper wire is such that it practically makes no difference
-whether one of the wires connected with the pole of a battery is two
-feet or 2,000 miles in length, and the earth, being a conducting medium,
-supplies an equal extension from the other pole, so that a closed
-electric circuit may be established across the Atlantic as easily as
-within the walls of a laboratory.
-
-If, therefore, a magnetic needle is suspended at the American end, it
-will respond to every electrical current, and to any interruption,
-renewal, or reversal of that current established in England. The needle
-may thus be made to swing to the right or left, by forming or reversing a
-current through the wire; and it will return to its position whenever the
-current is interrupted, and repeat its movement whenever the current is
-renewed. In fact it may be made to move like the arm of the old-fashioned
-telegraph, or of a railway signal. It only remains to have a machine by
-which the operator can form and interrupt currents rapidly, and a code by
-which certain movements of the needle stand for certain letters of the
-alphabet, and you have the electric telegraph.
-
-There are many ingenious applications of the machinery, but in principle
-they all resolve themselves into transformations of energy. Chemical
-energy is transformed into electric energy, and that again into
-mechanical work in moving the needle.
-
-The telephone is another instance of similar transformations. Here spoken
-words create vibrations of the air, which cause corresponding vibrations
-in a thin plate or disc of metal at one end, which are conveyed by
-intermediate machinery to a similar disc at the other end, whose
-vibrations cause similar vibrations in the air, reproducing the spoken
-words at a distance which may be a great many miles from the speaker.
-
-The great inventions of modern science which have so revolutionised
-society are all instances of the laws of the conservation of energy. Man
-makes the powers of nature available for his purposes by transforming
-them backwards and forwards, now into one, now into another form of
-energy, as required for the result he wishes to attain. He wants
-mechanical power to pump water or drive a locomotive or steamboat: he
-gets it from the steam-engine, by transforming the energy of heat in
-coal, which came ages ago from the energy of chemical action produced
-by the sun’s rays in the green leaves of growing plants. He wants to
-send messages in a few seconds across the Atlantic: he does it by
-transforming chemical energy into electricity in a voltaic battery,
-sending its vibrations along a conducting wire, and converting it at
-the far end into mechanical power, making a magnetic needle turn on its
-axis and give signals. If, instead of sending a message, he wants to
-hold a conversation at a distance, he invents the telephone, by which
-sound-vibrations of air are transformed into vibrations of a disc, then
-into electric currents, then into vibrations of a distant disc, and
-finally back again to spoken words. Or, if he wants light, he turns
-electricity into it by tipping the poles of his battery with carbon and
-bringing them close together.
-
-The latest inventions of electrical science—the dynamo and the
-accumulator—afford remarkable instances of this convertibility of one
-primitive energy into different forms. In the instance just quoted of
-obtaining light from electricity by the voltaic battery, the cost has
-hitherto proved an obstacle to its adoption. The electrical energy is
-all obtained from the transformation of the heat produced in the cells
-by the chemical action on the metal used, which is commonly zinc. Now,
-the heat of combination of zinc with oxygen is only about one-sixth of
-that of coal, while the cost of zinc is about twenty times as great.
-Theoretically, therefore, energy got by burning zinc costs 120 times
-as much as that got by burning coal. Practically the difference is not
-nearly so great, for there is very little loss of energy in the battery
-by the process of conversion, while the best steam-engine cannot convert
-into work as much as twenty per cent, of the heat energy in the coal
-consumed. Still, after making every allowance, the cost of energy from
-zinc remains some twenty times as great as from coal, so that unless some
-process is found for obtaining back the zinc as a residual product, there
-is no prospect of this form of electricity being generally available for
-light or for mechanical power.
-
-The dynamo is an instrument invented for the mechanical generation of
-electricity by taking advantage of the principle that electrical energy
-is produced by moving magnets near coils of wire, or coils of wire near
-magnets. A current is thus started by induction, and, once started,
-the mechanical power exerted in making the magnet or coils revolve is
-continually converted into electricity until the accumulated electrical
-energy becomes very powerful. The original energy comes of course from
-the coal burned in the steam-engine which makes the magnet or coils
-revolve.
-
-The principle of the conservation of energy is well illustrated by the
-fact that as the dynamo generates an electric current if made to revolve,
-conversely it may be made to revolve itself if an electric current is
-sent through it from an exterior source. It is, therefore, available not
-only as a source of light in the former case, but as a direct source of
-mechanical power in the latter. It is on this principle that electric
-engines are constructed and electric railways are worked. Here also it
-is a question of cost and convenience, for you can only get electricity
-enough either to light a street or to drive an engine, by an original
-steam-engine or other motive power to work the dynamo, and a system of
-conducting wires to convey the electricity to the place where the light
-or power is wanted. Where the motive power is supplied by nature, as in
-the case of tidal or river currents or waterfalls, it is quite possible
-that power may be obtained in this way to compete with that obtained
-directly from the steam-engine; but there are as yet considerable
-practical difficulties to be overcome in the transmission of any large
-amount of energy for long distances.
-
-To overcome some of these difficulties the accumulator has been invented,
-which affords yet another remarkable instance of the transformation of
-energy. It consists of two lead plates immersed in acidulated water. When
-a strong electrical current is sent through the water, it decomposes it,
-the oxygen going to one lead plate and the hydrogen to the other. The
-oxygen attacks the lead plate to which it goes, forming peroxide of lead;
-while the hydrogen reduces any oxide in the other plate, producing pure
-lead, and leaving a film of surplus hydrogen on the surface. The charging
-current is then reversed, so that the latter plate is now attacked and
-the former one reduced, when the current is again reversed. By continuing
-this process the surfaces of both lead plates become porous, so that they
-present a large surface, and can therefore hold a great deal of peroxide
-of lead. The charging current being now broken, the oxygen which has been
-forcibly separated from the liquid seeks to recombine with hydrogen;
-and if the two lead plates are joined by a wire, this effort of the
-oxygen generates an electrical current in the opposite direction to the
-original one, which is the current utilised. Electricity is thus stored
-up in a portable box, where it can be kept till wanted, when it is drawn
-out by connecting the plates, and as a large amount of energy has been
-accumulated the current which is produced lasts for a considerable time.
-
-Unfortunately accumulators are bulky, heavy, and expensive, and nearly
-half the energy of the original charging current is lost in obtaining the
-reversed or working current. They are therefore not as yet adapted for
-general use, though perfectly capable of supplying either light or motive
-power, for both which purposes they have been successfully applied in
-special cases. The future both of electric power and electric lighting
-is now reduced entirely to a question of cost; and though it is hard to
-beat gas and the steam-engine, with cheap coal, and air and water for
-nothing, it is possible that by using natural sources of power to move
-dynamos, and by obtaining zinc back as a residual product in batteries,
-electricity may in certain cases carry the day.
-
-
-
-
-CHAPTER V.
-
-POLARITY IN MATTER.
-
-    Ultimate elements of universe—Built up by polarity—Experiment
-    with magnet—Chemical affinity—Atomic poles—Alkalies
-    and acids—Quantivalence—Atomicity—Isomerism—Chemical
-    stability—Thermochemistry—Definition of atoms—All matter built
-    up by polar forces.
-
-
-I almost fear that by this time some of my readers may think that I have
-seduced them under false pretences to read long chapters of dry science,
-when they had been led from the introduction to anticipate discussions
-on the more immediately interesting topics of morals, religions, and
-philosophies. My excuse must be that these scientific subjects are really
-of extreme interest in themselves and indispensable as a solid basis for
-the superstructure to be raised on them. How can I attempt to show that
-the law of polarity extends to the more complex problems of human thought
-and life, if I fail in establishing its application to the simpler case
-of inorganic force and matter? It must be recollected also that among
-the primitive polarities is that of author and reader. It is my part to
-endeavour to present the leading facts and laws of the material universe
-in such plain and popular language that the ordinary reader who has
-neither time nor faculty for special studies may apprehend them clearly
-without excessive effort, or extraordinary intelligence. But it is the
-reader’s part to supply a fair average amount of attention, and above
-all to feel an interest in interesting matters. Cleverness and curiosity
-are very much convertible terms, and the clearest exposition is thrown
-away on the torpid mind which views the marvellous universe in which he
-has the privilege to live, with the stupid apathy of the savage, taking
-things as they come without caring to know anything about them.
-
-For the reader’s part of the work I am not responsible; but for my own
-I am, and I proceed therefore to give in my own way, and with the best
-faculty that is in me, a clear summary of such of the fundamental facts
-and laws of nature as seem necessary for the work I have undertaken.
-
-From the preceding chapters we are now able to realise what are the
-ultimate elements of the material universe, and it remains to show how
-they are put together. The elements are ether, energy, and matter.
-
-First, ether: a universal, all-pervading medium, imponderable or
-infinitely light, and almost infinitely elastic, in which all matter,
-from suns and planets down to molecules and atoms, float as in a
-boundless ocean, and whose tremors or vibrations, propagated as waves,
-transport the different forms of energy, light, heat, and electricity,
-across space.
-
-Secondly, energy: a primitive, indestructible something, which causes
-motion and manifests itself under its many diversified forms, such
-as gravity, mechanical work, molecular and atomic forces, light,
-heat, electricity, and magnetism, all of which are merely Protean
-transformations of the one fundamental energy, and convertible into each
-other.
-
-Thirdly, matter: the ultimate elements of this are atoms, which
-combined form molecules, or little pieces of ordinary matter with all
-its qualities, which are the bricks used in building all the varied
-structures of the organic and inorganic worlds. Of these atoms some
-seventy have never yet been divided, and therefore, although we may
-suspect that they are merely combinations or transformations of one
-original matter, we must be content for the present to consider them
-as elementary. In like manner we may suspect that matter is in reality
-only another form of energy, and that the impression of solidity is
-given by the action of a repellent force which is very energetic at
-short distances. If this were established we might look forward to the
-generalisation that energy was the one reality of nature; but for the
-present it is a mere speculation, and we must be content with over
-seventy elementary atoms as ultimate facts. In any case this much is
-certain, that matter, like energy, is indestructible. We have absolutely
-no experience of either of them being created or annihilated. Nay, more,
-we have no faculties to enable us even to conceive how something can
-be made out of nothing, and all we know, or can ever know, about these
-primitive constituents of the universe is of their laws of existence,
-their evolutions and their transformations.
-
-Minute as the atoms and molecules are, we must conceive of them not as
-stationary and indissolubly connected, but rather as little solar systems
-in which revolving atoms form the molecule, and revolving molecules form
-the matter, held together as separate systems by their proper energies
-and motions, until some superior force intruding breaks up the system and
-sets its components free to form new combinations.
-
-What is the principle which thus forms, un-forms, and re-forms the
-various combinations of atomic and molecular systems by which the world
-is built up from its constituent elements? It is polarity.
-
-As I began with the illustration of the magnet introducing order and
-harmony into the confused mass of iron filings, let me take this other
-illustration from the same source. If we place an iron bar in contact
-with the pole of a magnet, the bar becomes itself a magnet with opposite
-poles to the original one, so that as opposite poles attract, the iron
-bar adheres to it. Bring a lump of nickel in contact with the further end
-or free pole of the iron bar, and the nickel also will be magnetised and
-adhere. Let the lump of nickel be as large as the pole of the iron bar
-is able to support, and now bring a lump of soft iron near this pole. It
-will drop the nickel and take the iron. This is exactly similar to those
-cases of chemical affinity in which a molecule drops one of its factors
-and takes on another to which its attraction is stronger. If iron rusts
-in water it is because the oxygen atom drops hydrogen to take iron just
-as the magnet dropped nickel.
-
-The polarity of chemical elements is attested by the fact that when
-compounds are decomposed by the electric current, the different
-elementary substances appear at different poles of the battery. Thus,
-oxygen, chlorine, and non-metallic substances appear at the positive
-pole; while hydrogen, potassium, and metals generally, appear at the
-negative one. The inference is irresistible that the atoms had in each
-case an opposite polarity to that of the poles to which they were
-attracted. This is confirmed by the fact that the radicals, i.e. the
-elementary atoms or groups of atoms which have opposite polarities,
-combine readily; while those which have the same polarity, as two
-metals, have but slight affinity for each other. Like therefore attracts
-unlike, as in all cases of polarity, and the greater the degree of
-unlikeness the stronger is the attraction. Thus, the radicals of all
-alkalies are electro-positive, and appear at the negative pole of a
-battery; while those of acids are all electro-negative, and the higher
-each stands in its respective scale of polarity the more strongly does it
-show the peculiar qualities of acid or alkali and the more eagerly does
-it combine with its opposite.
-
-Acids and alkalies are, in fact, all members of the same class of
-compounds called _hydrates_, because a single atom of hydrogen is a
-common feature in their composition. This atom is coupled with a single
-atom of oxygen, which may be conceived of as the central magnet holding
-the hydrogen atom at one pole, while at the other it holds either a
-single atom of some metallic element, such as potassium or sodium, or a
-group consisting of such an element together with atoms of oxygen, so
-constituted as to present a single pole to the attraction of the central
-oxygen atom. Thus, if K stands for kali or potassium, N for nitrogen, O
-for oxygen, and H for hydrogen, we may have the compounds
-
-    H—O—K
-
-and
-
-        {  O}
-        { / }
-    H—O—{N  }.
-        { \ }
-        {  O}
-
-The former is the molecule of potassic hydrate, which is the most
-caustic or strongest of alkalies; the latter, that of nitric acid, the
-most corrosive or powerful of acids. These are the extremes of the
-series, of which there are many intermediate members, all being more
-or less alkaline, that is caustic and turning litmus-paper blue, when
-the third element is a simple metallic atom; and acid, corrosive, and
-turning litmus-paper red, when it is a compound radical of a group of
-metallic and oxygen atoms. This shows to what an extent whole classes of
-substances may have a general resemblance in their constitution, and yet
-differ most widely in their qualities by the substitution of one element
-for another.
-
-These special qualities may be made to diminish and finally disappear by
-mixing the two opposite substances, or, as it is called, neutralising an
-acid by an alkali or an alkali by an acid. Thus, if hydrochloric acid,
-HCl, be poured into a solution of sodic-hydrate, Na—O—H, the alkaline
-qualities of the latter diminish and finally disappear, the result of the
-neutral solution being water, H—O—H, and sodic-chloride, or common salt,
-Na—Cl. It is evident that this result has been produced by the hydrogen
-atom in H—Cl and the sodium atom in Na—O—H changing places, the former
-preferring to unite with oxygen to form water, while the displaced sodium
-atom finds a refuge with chlorine. The oxygen atom has dropped sodium and
-taken hydrogen, just as the magnet dropped nickel and took iron.
-
-This polarity of chemical elements manifests itself in different ways.
-In some cases it appears like that of a magnet, in which there are
-two opposite poles, and two only, one at each end. Thus oxygen (O) is
-bipolar, and its atom holds together two atoms of hydrogen (H) in forming
-the molecule of water, which may be represented as H+-O+-H, which is
-equivalent to [Illustration]. Others again, like hydrogen and chlorine,
-seem to have only a single pole, as in the case of electricity in an
-excited glass rod, and have to create for themselves the opposite pole,
-which is the indispensable condition of all polarity, by induction in
-another body. Thus, muriatic or hydrochloric acid is formed by the union
-of a single atom of chlorine, which is strongly negative, with a single
-atom of hydrogen, in which it appears to have induced a positive pole:
-though the combination is not a very stable one, for if an element with
-a stronger positive pole of its own is presented to the chlorine, it
-drops the hydrogen, just as the magnet drops the nickel. Other atoms are
-multipolar, and seem as if made up of more than one magnet, or rather as
-if the atom had regular shape like a triangle, square, or pentagon, and
-each angle was a pole, thus enabling it to unite with three, four, five,
-or more atoms of other substances. Thus, one atom of nitrogen unites with
-three of hydrogen, one of carbon with four of hydrogen, and so on. Every
-substance has, therefore, what is called its ‘quantivalence,’ or power of
-uniting with it a greater or less quantity of other atoms, and conversely
-that of replacing in combinations other atoms, or groups of atoms, the
-sum of whose quantivalence equals its own. Thus, one atom of carbon,
-which has four poles, combines with four atoms of hydrogen or chlorine,
-which is unipolar, but with only two of oxygen, which are bipolar; while
-the oxygen atom combines with two of hydrogen, and that of chlorine with
-one atom only of hydrogen. The analogy between the single atomic and
-electrical poles on the one hand, and the dual and magnetic poles on
-the other, will be evident if we consider what occurs if a pith-ball,
-electrified positively, is brought near a similar ball electrified
-negatively. They attract each other, and the one becomes the pole of
-the other; but if separated, each carries with it its own electrical
-charge. But the separate balls or poles, though no longer influencing
-each other, are not isolated, for each draws by induction an electrical
-charge opposite to its own to the extremity of the nearest conductor, and
-thus creates for itself a new or second pole. Polarity, in fact, involves
-opposition of relations, or two poles, and electrical only differs from
-magnetic polarity in the fact that in the latter the two poles are in the
-same body, while in the former they are in separate bodies.
-
-For pith-balls read atoms, and we have an explanation of the univalent
-atoms like those of chlorine and sodium which act as single poles; and
-this is confirmed by the fact that such atoms are never found isolated,
-but are always associated in a molecule with at least one other atom
-which forms the opposite pole of the molecular system. Bivalent or
-magnetic atoms, on the other hand, which have two poles, like those of
-mercury and zinc, may constitute a complete polar system and be found
-isolated, and form the class of molecules which consist of single atoms.
-
-This conception of the polarity of atoms enables us to understand the way
-in which the almost infinite variety of substances existing in the world
-is built up from a comparatively few simple elements. Atoms and radicals,
-which are multipolar, can attract and form molecules with as many other
-atoms or radicals as they have poles. This is called their degree of
-atomicity, which is the same as their quantivalence; and each of these
-atoms or radicals may be replaced by some other atom or radical, which
-presents to any pole a more powerful polarity. Thus, compounds may be
-built up of great and varied complexity, for the quality of any compound
-may be greatly altered by any one of the substitutions at any one of
-the poles. And the molecules, or small specimens of matter, may be thus
-built up into very complex aggregations of atoms, some single molecules
-containing more than a hundred atoms. Thus, carbon has four poles, or
-is quadrivalent, and its atoms possess the power of combining among
-themselves to an almost indefinite extent and forming groups of great
-stability. Thus, carbon radicals may be formed in very great number, each
-affording a nucleus upon which compound radicals may be built up, so
-that carbon has been aptly called the skeleton of almost all the varied
-compounds of the more complex forms of inorganic matter as well as the
-principal foundation of organic life.
-
-Nor is this all, for the qualities of substances depend not only on
-the qualities of their constituent elements, but also on the manner in
-which these elements are grouped. Two substances may have exactly the
-same chemical composition and yet be very different. We may suppose that
-the same elements affect us differently according as they are grouped.
-Thus, the same bricks may be built up either into a cube or pyramid,
-which forms are extremely stable and can only be taken in pieces brick
-by brick; or into a Gothic arch, which all tumbles to pieces if a
-single brick forming the keystone is displaced. As an instance of this,
-butyric acid, which gives the offensive odour to rancid butter, has
-exactly the same composition as acetic ether, which gives the flavour
-to a ripe apple. They consist of the same number of atoms of the same
-elements—carbon, hydrogen, and oxygen—united in the same proportions.
-This applies to a number of substances, and is called Isomerism, or
-formation of different wholes from the same parts.
-
-The principle of polarity, therefore, aided by the subsidiary conditions
-of quantivalence, atomicity, and isomerism, gives the clue to the
-construction of the inorganic world out of some seventy elementary
-substances. Of the substances thus formed, whether of molecules or
-of combinations of molecules, some are stable and some unstable. As
-a rule the simpler combinations are the most stable, and instability
-increases with complexity. Thus the diamond, which is merely a crystal
-of pure carbon, is very hard and indestructible; while dynamite, or
-nitro-glycerine, which is a very complex compound, explodes at a touch.
-
-The stability of a substance depends partly on the stable structure of
-its component elements, and partly on their mutual affinity being strong
-enough to keep them together in presence of the attractions of other
-outside elements, which, in the case of most natural substances at the
-surface of the earth, consist principally of air and water. Thus, the
-rocks, earths, metallic oxides, water, carbonic dioxide, and nitrogen
-are extremely stable, and resist decomposition, or chemical union with
-other substances, with great energy. With regard to all substances this
-law holds good, that the tendency is to fall back from a less stable to
-a more stable condition, and that such a falling back is always attended
-with an evolution of heat; while, on the other hand, heat is always
-absorbed and disappears whenever the elements of a more stable substance
-are made to enter into a less stable condition. Thus, when wood burns,
-there is a falling back from a substance unstable, on account of its
-affinity for the oxygen in the air, into the stable products, carbonic
-dioxide and water, and the heat evolved is the effect of this fall.
-
-As the tendency of all changes is towards stability we arrive at the
-following law, which is one of the most recent generalisations of modern
-chemistry: In all cases of chemical change the tendency is to those
-products whose formation will determine the greatest evolution of heat.
-
-This, however, does not imply that the tendency may not be overcome and
-unstable products formed, for just as a weight may be lifted against
-the force of gravity, so may the chemical tendency be overcome by a
-sufficient energy acting against it. Heat is the principal means of
-supplying this energy, and by increasing it sufficiently not only
-are molecules drawn apart and most solids converted into fluids and
-finally into gases, but there is reason to believe that at extremely
-high temperatures, such as may prevail in the sun, all matter would be
-resolved into isolated or dissociated atoms. Thus, water at a temperature
-of 1,200° is resolved into a mixture of oxygen and hydrogen atoms no
-longer chemically united into water-molecules; and iodine-vapour, which
-below 700° degrees consists of molecules of two atoms, above that
-temperature consists of single atoms only.
-
-The subject might be pursued further, but enough has been said for the
-present purpose to show that the universe consists of atoms which are
-endowed with polarity, and that as diminished temperature allows these
-atoms to come closer together and form compounds, matter in all its forms
-is built up by the action of polar forces.
-
-
-
-
-CHAPTER VI.
-
-POLARITY IN LIFE.
-
-    Contrast of living and dead—Eating and
-    being eaten—Trace matter upwards and life
-    downwards—Colloids—Cells—Protoplasm—Monera—Composition
-    of protoplasm—Essential qualities of life—Nutrition and
-    sensation—Motion—Reproduction—Spontaneous generation—Organic
-    compounds—Polar conditions of life.
-
-
-Polarity having been established as the universal law of the inorganic
-world, we have now to pass to the organic, or world of life. At first
-sight there seems to be a great gulf fixed between the living and the
-dead which no bridge can span. But first impressions are very apt to
-deceive us, and when things are traced up to their origins we often
-find them getting nearer and nearer until it is difficult to say where
-one begins and the other ends. Take for instance such an antithesis as
-‘eating or being eaten.’ If a hunter meets a grizzly bear in the Rocky
-Mountains, one would say that no distinction can be sharper than whether
-the bear eats the man, or the man the bear. In the one case there is
-a man, and in the other a bear, less in the world. But look through a
-microscope at a glass of water, and you may see two specks of jelly-like
-substance swimming in it. They are living creatures, for they eat and
-grow, and thrust out and retract processes of their formless mass, which
-serve as temporary legs and arms for seizing food and for voluntary
-motion. In short, they are each what may be called strictly individual
-amœbæ, forming separate units of the animated creation as much as the man
-and the bear. But if the two happen to come in contact, what happens?
-The two slimy masses involve one another and coalesce, and the resulting
-amœba swims away merrily as two gentlemen rolled into one.
-
-Now in his case what became of their individualities: did amœba A eat
-amœba B, or _vice versâ_, and is the resulting amœba a survival of A or
-of B, or of both or neither of them? And what becomes of the antithesis
-of ‘eating or being eaten’ which was so clear and distinct in the highly
-specialised forms of life, and is so evanescent in the simpler forms?
-This illustration may serve to teach us how necessary it is to trace
-things up to their origins, before expressing too trenchant and confident
-opinions as to their nature and relations.
-
-In the case of the organic and inorganic worlds the proper course
-obviously is, not to draw conclusions from extreme and highly specialised
-instances, but to follow life downwards to its simplest and most
-primitive form, and matter upwards to the form which approaches most
-nearly to this form of life. Following matter upwards, we find a regular
-progression from the simple to the complex. Take the diamond, which is
-one of the simplest of substances, being merely the crystallised form of
-a single ultimate element, carbon. It is extremely hard and extremely
-stable. Ascending to compounds of two, three, or more elements, we
-get substances which are more complex and less stable; and at last we
-arrive at combinations which involve many elements and are extremely
-complex. Among these latter substances are some, called colloids, which
-are neither solid, like crystals, nor fluid, like liquids, but in an
-intermediate state, like jelly or the white of an egg, in which the
-molecules have great mobility and are at a considerable distance apart,
-so that water can penetrate their mass. These colloids are for the most
-part very complicated compounds of various elements based on a nucleus
-of carbon, which, from its atom having four poles with strong mutual
-attractions, is eminently qualified for forming what may be called
-the inner skeleton of these complex combinations. Colloids of this
-description form the last stage of the ascending line from inorganic
-matter to organic life.
-
-Next let us trace life downwards towards matter. There is a constant
-succession from the more to the less complex and differentiated: from
-man, through mammals, reptiles, fishes, and a long chain of more simple
-forms, until at its end we come to the two last links, which are the same
-for all animals, all plants, and all forms of animated existence. The
-last link but one is the cell, the last of all is protoplasm.
-
-Protoplasm, or, as Huxley calls it, ‘the physical basis of life,’ is a
-colourless jelly-like substance, absolutely homogeneous, without parts or
-structure, in fact a mere microscopic speck of jelly.
-
-The cell is the first step in the specialisation of protoplasm, the
-outer layer of which, in contact with the surrounding environment,
-becoming hardened so as to form an enclosing cell-wall, while a portion
-of the enclosed protoplasm condenses into a nucleus, in which a further
-condensation makes what is called the nucleolus or second smaller
-nucleus. This constitutes the nucleated cell, whose repeated subdivision
-into other similar cells in geometrical progression furnishes the raw
-material out of which all the varied structures of the world of life
-are built up. Plants and animals, bones, muscles, and organs of sense,
-are all composed of modified cells, hardened, flattened, or otherwise
-altered, as the case may require. If we trace life up to its origin in
-the individual instead of in the species, we arrive at the same result.
-All plants and animals, whether of the lowest or highest forms, fish,
-reptile, bird, mammal, man, begin their individual existence as a speck
-of protoplasm, passing into a nucleated cell, which contains in it the
-whole principle of its subsequent evolution into the mature and completed
-form.
-
-Protoplasm is, therefore, evidently the nearest approach of life
-to matter; and if life ever originated from atomic and molecular
-combinations, it was in this form. To suppose that any more complex form
-of life, however humble, could originate from chemical combinations,
-would be a violation of the law of evolution, which shows a uniform
-development from the simple to the complex, and never a sudden jump
-passing at a bound over intermediate grades. To understand life,
-therefore, we must understand protoplasm; for protoplasm, closely as it
-approximates to colloid matter, is thoroughly alive. A whole family,
-the Monera, consist simply of a living globule of jelly, which has not
-even begun to be differentiated. Every molecule, as in a crystal, is
-of homogeneous chemical composition and an epitome of the whole mass.
-There are no special parts, no organs told off for particular functions,
-and yet all life-functions—nutrition, reproduction, sensation, and
-movement—are performed, but each by the whole body. The jelly-speck
-becomes a mouth to swallow, and turning inside out, a stomach to digest.
-It shoots out tongues of jelly to move and feel with, and presently
-withdraws them.
-
-With these attributes it is impossible to deny to protoplasm the full
-attributes of life, or to doubt that, like the atom in the material
-world, it is the primary element of organic or living existence. Given
-the atom, we can trace up, step by step, the whole evolution of matter;
-so given the protoplasm, we can trace up the evolution of life by
-progressive stages to its highest development—man. To understand life,
-therefore, we must begin by trying to understand protoplasm.
-
-What is protoplasm? In its substance it is a nitrogenous carbon compound,
-differing only from other similar compounds of the albuminous family of
-colloid by the extremely complex composition of its atoms. It consists
-of five elements, and its average composition is said by chemists to be
-52·55 per cent. carbon, 21·23 oxygen, 15·17 nitrogen, 6·7 hydrogen, 1·2
-sulphur. Its peculiar qualities, therefore, including life, are not the
-result of any new and peculiar atom added to the known chemical compounds
-of the same family, but of the manner of grouping and motions of these
-well-known material elements. It has in a remarkable degree the faculty
-of absorbing water, so that its molecules seem to float in it in a
-condition of semi-fluid aggregation, which seems to be necessary for the
-complex molecular movements which are the cause or accompaniment of life.
-Thus, many seeds and animalculæ, if perfectly dry, may remain apparently
-as dead and as unchanging as crystals, for years, or even, as in the case
-of the mummy wheat, for centuries, to revive into life when moistened.
-
-But in addition to those material qualities in which protoplasm seems
-to differ only from a whole group of similar compounds of the type of
-glycerine, by the greater complexity and mobility of its molecules, it
-has developed the new and peculiar element which is called life. Life
-in its essence is manifested by the faculties of nutrition, sensation,
-movement, and reproduction.
-
-As regards nutrition there is this essential difference between living
-and non-living matter. The latter, if it feeds and grows at all, does
-so only by taking on fresh molecules of its own substance on its outer
-surface, as in the case of a small nucleus-crystal of ice in freezing
-water. If it feeds on foreign matter and throughout its mass, it does
-so only in the way of chemical combination, forming a new product.
-Living matter, on the other hand, feeds internally, and works up
-foreign substances, by the process we call digestion, into molecules
-like its own, which it assimilates, rejecting as waste any surplus or
-foreign matter which it cannot incorporate. It thus grows and decays
-as assimilation or waste preponderates, remaining always itself. The
-distinction will be clear if we consider what happens when water rusts
-iron. In a certain sense the iron may be said to eat the oxygen, reject
-the hydrogen, and grow, or increase in weight by what it feeds on; but
-the result is not a bigger piece of iron, but a new substance, rust,
-or oxide of iron. That living matter should feed internally is not
-so wonderful, for its semi-fluid condition may well enable foreign
-molecules to penetrate its mass and come in contact with its own interior
-molecules; but it is an experience different from anything known in
-the inorganic world that it should be able to manufacture molecules
-of protoplasm like its own out of these foreign molecules, and thus
-grow by assimilation. For instance, when amœbæ, bacteria, and other
-low organisms live and multiply in chemical solutions which contain no
-protoplasm, but only inorganic compounds containing the requisite atoms
-for making protoplasm, or when a plant not only chemically decomposes
-carbonic dioxide, exhaling the oxygen and depositing the carbon in its
-stem and leaves, but also from this and other elements drawn from the
-soil or air manufactures the living protoplasm which courses through its
-channels, the result is that life has manufactured life out of non-living
-materials.
-
-If we take sensation, this, in its last analysis, is change, or molecular
-motion, induced in a body by the action of its environment. Here there
-is a certain analogy between living and non-living matter, for the
-latter does respond to changes in the surrounding environment, as in
-the case of heat, electricity, and otherwise; but living matter is far
-more sensitive, the changes are far more frequent and complex, and in
-certain cases they are accompanied by a sensation of what is called
-consciousness, which in the higher organisms rises into a perception
-of voluntary effort or free-will as a factor in the transformation of
-energies. Thus it happens that in the case of dead matter the changes
-produced by a change of conditions follow fixed laws and can be predicted
-and calculated, while those of living matter are apparently uncertain
-and capricious. We can tell how much an iron bar will expand with heat;
-but we cannot say whether, if a particle of food is brought within reach
-of an amœba, it will or will not shoot out a finger to seize it. If the
-amœba is hungry it probably will; if it is enjoying a siesta after a full
-meal, it probably will not.
-
-The case of sensation includes that of motion, which is after all only
-sensation applied in the liberation of energy of position which has by
-some chemical process become stored up, either in the living mass, or
-in some special organ of it, such as muscle. Iron, for instance, moves
-when it expands by heat or is attracted by a magnet; but it moves, like
-the planets, by fixed and calculable laws: while living matter moves,
-as might be expected from the variable character of its sensation, in
-a manner which often cannot be calculated. There are cases, however,
-of reflex or involuntary motion, where, even in the highest living
-organisms, sensation and motion seem to follow change of environment, in
-a fixed and invariable sequence, as in shrinking from pain, touching or
-galvanising a nerve; and it may be that the apparent spontaneousness and
-variability of living motion is only the result of the almost infinitely
-greater complexity and mobility of the elements of living matter.
-
-Reproduction remains, which is the faculty most characteristic of life,
-and which distinguishes most sharply the organic from the inorganic
-world. In the inorganic there is no known process by which dead matter
-reproduces itself, as the cell does when it contracts in the middle
-and splits up into two cells, which in their turn propagate an endless
-number of similar cells, increasing in geometrical progression until
-they supply the raw material from which all the countless varieties of
-living organisms are built up, which, in their turn, repeat the process
-and reproduce themselves in offspring. This is the real mystery of life;
-we can partly see or suspect how its other faculties might arise from an
-extension of the known qualities and laws of matter and of energy; but
-we can discern no analogy between the non-reproductive nitrogenous carbon
-compound, which makes so near an approach to protoplasm in its chemical
-composition, and the reproductive protoplasm, which is fertile, increases
-and multiplies, and replenishes the earth. Can the gap be bridged over:
-can protoplasm be manufactured out of chemical elements? It is done every
-day by plants which make protoplasm out of inorganic elements, and by
-the lowest forms of life which live and multiply in chemical solutions.
-It is done also in the life-history of all individuals whose primitive
-cell or ovum makes thousands or millions of other cells, each containing
-within its enclosing membrane as much protoplasm as there was in the unit
-from which they started. But in all these instances there was the living
-principle to start with, existing in the primitive speck of protoplasm,
-from which the rest were developed. Can this primitive speck be created;
-or, in other words, can protoplasm be artificially manufactured by
-chemical processes?
-
-The answer must be, No; not by any process now known. The similarity of
-chemical composition, and the increasing conviction of the universality
-of natural law and of evolution, have led to a very general belief that
-such a spontaneous generation of life must be possible, and numerous
-experiments have been made to produce it. For a time the balance
-seemed to be very evenly held between the supporters and opponents of
-spontaneous generation. In fact, starting from the assumption, which at
-first was common to both sides, that heat equal to the boiling point
-of water destroyed all life organisms, spontaneous generation had the
-best of it: for it was clearly proved that living organisms did appear
-in infusions contained in vessels which had been hermetically sealed,
-after being subjected to this, or even a higher degree of heat. But
-subsequent and more careful experiments have shown that the germs or
-spores of bacteria and other animalculæ, which are generally floating
-in the air, can, when dry, withstand a greater degree of heat, and that
-when the experiments are made in optically pure air no life ever appears
-and the infusions never putrefy. On questions of this sort all who are
-not themselves expert experimentalists must be guided by authority, and
-we may be content to accept the dictum of Huxley that biogenesis, or all
-life from previous life, was ‘victorious along the whole line.’ But in
-doing so we must accept Huxley’s caution, ‘that with organic chemistry,
-molecular physics, and physiology yet in their infancy, and every day
-making prodigious strides, it would be the height of presumption for any
-man to say that the conditions under which matter assumes the qualities
-called vital, may not some day be artificially brought together.’
-
-And further, ‘that as a matter not of proof but of probability, if it
-were given me to look beyond the abyss of geologically recorded time, to
-the still more remote period when the earth was passing through chemical
-and physical conditions which it can never see again, I should expect
-to be a witness of the evolution of living protoplasms from non-living
-matter.’ Such is the cautious candour with which scientific men approach
-problems upon which theologians dogmatise with the unerring intrepidity
-of ignorance.
-
-In the meantime what may be said as to Huxley’s reservations is this:
-A considerable step has been made in the direction indicated, by the
-success of recent chemistry in forming artificially what are called
-organic compounds, that is, substances which were previously known only
-as products of animal or vegetable secretions. Urea, for instance, the
-base of uric acid, with which so many are unfortunately familiar in the
-form of gout; indigotine, the principle of the blue colouring matter of
-the indigo plant; and alizarine, that of madder; are all now produced
-artificially, and have even become important articles of commerce. If
-chemists can make the indigotine, which the growing plant elaborates at
-the same time as it elaborates protoplasm, may we not hope some day to
-make the latter as well as the former product? Now organic compounds
-of this class are being formed artificially every day, and it is said
-that chemists have already succeeded in producing several hundreds.
-But even if this expectation is never fulfilled, we may fall back on
-Huxley’s second reservation of the enormous difference of chemical and
-physical conditions in the early stages of the earth’s life from anything
-now known. It has been calculated that the earth’s temperature when
-it first started on its career as an independent planet was something
-like 3,000,000° Fahrenheit. At this heat probably all atoms would be
-dissociated; but as the temperature diminished they would come closer
-together, but still with a great deal of motion, and making wide
-excursions, which might bring many different atoms together in complex
-though unstable combinations. Moreover, carbon, which is the basis of all
-such combinations of the class of protoplasm, was far more abundant in
-those early days in the form of carbonic dioxide gas, before the enormous
-amount of vegetable matter in the form of coal and otherwise, had been
-subtracted from it. In any case the first protoplasm must be extremely
-ancient, for the remains of sea-weeds are found in the oldest strata,
-and vegetation of any sort implies the manufacture of protoplasm from
-inorganic matter.
-
-The passage from the organic into the inorganic world is best traced by
-following the line of Pasteur’s researches on ferments. How does the
-world escape being choked up by the accumulation of dead organic matter
-throughout innumerable ages? By what are called ferments, inducing
-processes of fermentation and putrefaction, by which the course of life
-is reversed, and the organic elements are taken to pieces and restored
-to the inorganic world. Pasteur proved, in opposition to the theories
-of Liebig and other older chemists, that this was not done directly by
-the oxygen of the air, but through the intermediate agency of living
-microbes, whose spores, floating in the air, took up their abode and
-multiplied wherever they found an appropriate habitation. Given an air
-purified from germs, or a temperature low enough to prevent them from
-germinating, and putrescible substances would keep sweet for ever. The
-practical realisation of this is seen in the enormous commerce in canned
-meats and fruits, and in the imports of frozen beef and mutton, causing a
-fall of rents and much lamentation among British landlords and farmers.
-
-But then the question was asked, How are your microscopic organisms
-disposed of? What are the ferments of your ferments? For even microscopic
-bacteria and vibrios would, in time, choke up the world by their residue
-if not got rid of. Pasteur answered that the ferments are destroyed by
-a new series of organisms—aerobes—living in the air, and these by other
-aerobes in succession until the ultimate products are oxidised. ‘Thus,
-in the destruction of what has lived, all is reduced to the simultaneous
-action of the three great natural phenomena—fermentation, putrefaction,
-and slow combustion. A living being, animal or vegetable, or the _débris_
-of either, having just died, is exposed to the air. The life that has
-abandoned it is succeeded by life under other forms. In the superficial
-parts, accessible to the air, the germs of the infinitely little aerobes
-flourish and multiply. The carbon, hydrogen, and nitrogen of the organic
-matter are transformed by the oxygen of the air, and under the vital
-activity of the aerobes, into carbonic acid, the vapour of water, and
-ammonia. The combustion continues as long as organic matter and air are
-present together. At the same time the superficial combustion is going
-on, fermentation and putrefaction are performing their work in the midst
-of the mass by means of the developed germs of the original microbes,
-which, note, do not need oxygen to live, but which oxygen causes to
-perish. Gradually the phenomena of destruction are at last accomplished
-through the work of latent fermentation and slow combustion.’
-
-This seems a complete demonstration of the passage of the organic into
-the inorganic world in the way of analysis, or taking the puzzle to
-pieces. In the opposite way of synthesis, or putting it together, the
-nearest approach yet made has been in the manufacture of those organic
-compounds already referred to, such as urea, alizarine, indigotine and
-other products which had hitherto only been known as products of animal
-or vegetable life. Of these a vast number have been already formed from
-inorganic elements by chemical processes, and almost every day announces
-some fresh discovery.
-
-Under these circumstances it is unsafe to affirm either, on the one
-hand, that the problem has been solved and that life has ever been made
-in a laboratory; or, on the other hand, that there is any such great gulf
-fixed between the organic and the inorganic, that we can assume a break
-requiring secondary supernatural interference to surmount it, and ignore
-the good old maxim that ‘Natura nihil facit per saltum.’ Positive proof
-is wanting, but the probabilities point here, as they do everywhere else
-throughout the universe, to the truth of the theory of ‘original impress’
-as opposed to that of ‘secondary interference.’
-
-It remains to show how the fundamental law of polarity affects the more
-complex relations of life and of its various combinations. And here
-it is important to bear in mind that as the factors of the problem
-become more intricate and complex, so also do the laws which regulate
-their existence and action. Polarity is no longer a simple question of
-attraction and repulsion at the two ends of a magnet or at the opposite
-poles of an atom. It appears rather as a general law under which as the
-simple and absolute becomes differentiated by evolution into the complex
-and manifold, it does so under the condition of developing contrasts.
-For every _plus_ there is a _minus_, for every like an unlike; one
-cannot exist without the other; and, although apparently antagonistic,
-harmonious order is only possible by their co-existence and mutual
-balance.
-
-This is so important that it may be well to make the idea clearer by an
-illustration. The earth revolves round the sun in its annual orbit under
-the influence of two forces: the centripetal, or force of gravity tending
-to draw it towards the sun; and the centrifugal, tending to make it dart
-away into infinite space. During half the orbit the centripetal seems to
-be gaining ground on the centrifugal, and the earth is approaching nearer
-to the sun. If this continued it would revolve ever nearer and soon fall
-into it; but the centrifugal force is gradually recruiting its strength
-from the increased velocity of the earth, until it first equals the
-centripetal, and finally outstrips it, and for the remaining half of the
-orbit it is constantly gaining ground. If this went on, the earth would
-fly off into the chilly regions of outer space; but the centripetal force
-in its turn regains the ascendency; and thus by the balance of the two
-forces our planet describes the beautiful ellipse, its harmonious orbit
-as a habitable globe; while comets in which one or the other force unduly
-preponderates for long periods are alternately drawn into fiery proximity
-to the sun, and sent careering through regions void of heat.
-
-Compare this passage from Herbert Spencer: ‘As from antagonist physical
-forces, as from antagonist emotions in each man, so from the antagonist
-social tendencies man’s emotions create, there always results not a
-medium state, but a rhythm between opposite states. The one force or
-tendency is not continuously counterbalanced by the other force or
-tendency; but now the one greatly preponderates, and presently by
-reaction there comes a preponderance of the other.’
-
-And again: ‘There is nowhere a balanced judgment and a balanced action,
-but always a cancelling of one another by opposite errors. Men pair off
-in insane parties, as Emerson puts it.’
-
-The reader will now begin to understand the sense in which polarity
-applies to these complex conditions of an advanced evolution.
-
-To return, however, from this digression to the point at which it began,
-viz. the origin of life, we have to show how the law of polarity prevails
-in the organic as well as in the inorganic world. In the first place the
-material to which all life is attached, from the speck of protoplasm to
-the brain of man, is strictly a chemical product of atoms and molecules
-bound together by the same polar laws as those of inorganic matter.
-
-In like manner all the essential processes by which life lives, moves,
-and has its being, are equally mechanical and chemical. If the brain,
-receiving a telegram from without through the optic nerve, sends a reply
-along another nerve which liberates energy stored up in a muscle and
-produces motion, the messages are received and transmitted like those
-sent by a voltaic battery along the wires of a telegraph, and the energy
-is stored up by the slow combustion of food in oxygen, just as that of
-the steam-engine is produced by the combustion of coal. All this is
-mechanical, inorganic, and therefore polar.
-
-But when we come to the conditions of life proper, we find the influence
-of polarity mainly in this: that as it develops from simpler into more
-complex forms, it does so under the law of developing contrasts or
-opposite polarities, which are necessary complements of each other’s
-existence. Thus, as we ascend in the scale of life, we find two primitive
-polarities developed: that of plant and animal, and that of male and
-female.
-
-
-
-
-CHAPTER VII.
-
-PRIMITIVE POLARITIES—PLANT AND ANIMAL.
-
-    Contrast in developed life—Plants producers,
-    animals consumers—Differences disappear in simple
-    forms—Zoophytes—Protista—Nummulites—Corals—Fungi—Lichens—Insectivorous
-    plants—Geological succession—Primary period, Algæ and
-    Ferns—Secondary period, Gymnosperms—Tertiary and recent,
-    Angiosperms—Monocotyledons and Dicotyledons—Parallel evolution
-    of animal life—Primary, protista, mollusca, and fish—Secondary,
-    reptiles—Tertiary and recent, mammals.
-
-
-Animals or plants? Judging by first impressions, nothing can be more
-distinct. No one, whether scientific or unscientific, could mistake
-an oak tree for an ox. To the unscientific observer the tree differs
-in having no power of free movement, and apparently no sensation or
-consciousness; in fact, hardly any of the attributes of life. The
-scientific observer sees still more fundamental differences, in the
-fact that the plant feeds on inorganic ingredients, out of which it
-manufactures living matter, or protoplasm; while the animal can only
-provide itself with protoplasm from that already manufactured by the
-plant. The ox, who lives on grass, could not live on what the grass
-thrives on, viz. carbon, oxygen, hydrogen, and nitrogen. The contrast is
-so striking that the vegetable world has been called the producer, and
-the animal world the consumer, of nature.
-
-Again, the plant derives the material framework of its structure from
-the air, by breathing in through its leaves the carbonic dioxide present
-in the atmosphere, decomposing it, fixing the carbon in its roots, stem,
-and branches, and exhaling the oxygen. The animal exactly reverses the
-process, inhaling the oxygen of the air, combining it with the carbon
-of its food, and exhaling carbonic dioxide. Thus, a complete polarity
-is established, as we see in the aquarium, where plant and animal
-life balance each other, and the opposites live and thrive, where the
-existence of either would be impossible without the other.
-
-Sharp, however, as the contrast appears to be in the more specialised and
-developed specimens of the two worlds, we have here another instance of
-the difficulty of trusting to first impressions, and have to modify our
-conceptions greatly, if we trace animal and vegetable life up to their
-simplest forms and earliest origins. In the first place, each individual
-vegetable or animal begins its existence from a simple piece of pure
-protoplasm. This develops in the same way into a nucleated cell, by whose
-repeated subdivision the raw material is provided for both structures
-alike. The chief difference at this early stage is that the animal cells
-remain soft and naked, while those of vegetables secrete a comparatively
-solid cell-wall, which makes them less mobile and plastic. This gives
-greater rigidity to the frame and tissues of the plant, and prevents the
-development of the finer organs of sensation and other vital processes,
-which characterise the animal. But this is a difference of development
-only, and the origination of the future life from the speck of protoplasm
-is the same in both worlds.
-
-If, instead of looking at the origin of individuals, we trace back the
-various forms of animal and vegetable life from the more complex to the
-simpler forms, we find the distinctions between the two disappearing,
-until at last we arrive at a vanishing point where it is impossible to
-say whether the organism is an animal or a plant.
-
-A whole family, comprising sponges, corals, and jelly-fish, are called
-Zoophytes, or plant-animals, from the difficulty of assigning them to one
-kingdom or the other. On the whole they rather more resemble animals,
-and are generally classed with them, though they lack many of their
-most essential qualities, and in form often bear a close resemblance to
-plants. But when we descend a step lower in the scale of existence we
-come to a large family—the Protista—of which it is impossible to say
-that they are either plants or animals. In fact, scientific observers
-have classed them sometimes as belonging to one and sometimes to the
-other kingdom; and it was an organism of this class, looking at which
-through a microscope Huxley pronounced it to be probably a plant, while
-Tyndall exclaimed that he would as soon call a sheep a vegetable. They
-are mostly microscopic, and are the first step in organised development
-from the Monera, which are mere specks of homogeneous protoplasm. Small
-as they are they have played an important part in the formation of the
-earth’s crust, for the little slimy mass of aggregated cells has in
-many instances the power of secreting a solid skeleton, or a minute and
-delicate envelope or shell, the petrified remains of which form entire
-mountains. Thus the nummulitic limestone, which forms high ranges on the
-Alps and Himalayas, and of which the Pyramids are built, consists of
-the petrified skeletons of a species of Radiolaria, or many-chambered
-shells, forming the complicated and elegant mansion with many rooms
-and passages, of the formless, slimy mass which constitutes the living
-organism. Chalk also, and the chalk-like formation which is accumulating
-at the bottom of deep oceans, are the results of the long-continued fall
-of the microscopic snowdrift of shells of the Globigenera and other
-protistic forms swimming in the sea; and in a higher stage of development
-the skeletons of corals, one of the family of Zoophytes or plant-animals,
-form the coral reefs and islands so numerous in the Pacific and Indian
-Oceans, and are the basis of the vast masses of coralline limestone
-deposited in the coal era and other past geological periods.
-
-As development proceeds the distinction between plants and animals
-becomes more apparent, though even here the simplest and earliest
-forms often show signs of a common origin by interchanging some of the
-fundamental attributes of the two kingdoms. Thus, the essential condition
-of plant existence is to live on inorganic food, which they manufacture
-into protoplasm, by working up simple combinations into others more
-complicated. Their diet consists of water, carbonic dioxide, and ammonia;
-they take in carbonic dioxide and give out oxygen, while animals do
-exactly the reverse. But the fungi live, like animals, upon organic food
-consisting of complicated combinations of carbon, which they assimilate;
-and, like animals, they inhale oxygen and give out carbonic dioxide.
-
-Lichens afford a very curious instance of the association of vegetable
-and animal functions in the same plant. They are really formed of two
-distinct organisms: a body which is a low form of Alga or sea-weed,
-and a parasitic form of fungus, which lives upon it. The former has a
-plant life, living on inorganic matter and forming the green cells, or
-chlorophyll, which are the essential property of plants, enabling them
-under the action of the sun’s rays to decompose carbonic dioxide; while
-the parasite lives like an animal on the formed protoplasm of the parent
-stem, forming threads of colourless cells which envelop and interlace
-with the original lichen of which they constitute the principal mass, as
-in a tree overgrown with ivy.
-
-Even in existing and highly developed plants we find some curious
-instances of reversion towards animal life. Certain plants, for instance,
-like the Dionæa or Venus’ fly-trap, finding it difficult to obtain the
-requisite supply of nitrogenous food in a fluid state from the arid or
-marshy soil in which they grow, have acquired a habit of supplying the
-deficiency by taking to an animal diet and eating flies. Conjoined with
-this is a more highly developed sensitiveness, and power of what appears
-to be voluntary motion, and a faculty of secreting a sort of gastric
-juice in which the flies are digested. The fundamental property also
-of decomposing carbonic dioxide and exhaling oxygen depends on light
-stimulating a peculiar chemical action of the chlorophyll, and at night
-leaves breathe like lungs, exhaling not oxygen, but the carbonic dioxide.
-
-The records of geology, imperfect as they are, show a continued
-progression from these simple and neutral organisms to higher and more
-differentiated forms, both in the animal and vegetable worlds. These
-records are imperfect because the soft bodies of the simpler and for the
-most part microscopic forms of protoplasm and cell life are not capable
-of being preserved in petrifactions, and it is only when they happen to
-have secreted shells or skeletons that we have a chance of identifying
-them. Still we have a sufficient number of remains in the different
-geological strata to enable us to trace development. Thus, in the
-vegetable world, in the earliest strata, the Laurentian, Cambrian, and
-Silurian, forming the primordial period, which forms a thickness of some
-70,000 feet of the earth’s crust—or more than that of the whole of the
-subsequent strata, Primary, Secondary, Tertiary, and Quaternary, taken
-together—we find only vegetable remains of the lowest group of plants,
-that of the Tangles or Algæ, which live in water. Forests of these
-sea-weeds, like those of the Aleutian Islands, in some of which single
-tangles stream to the length of sixty feet, and floating masses, like
-those of the Sargasso Sea, appear to have constituted the sole vegetation
-of these primæval periods.
-
-The Primary epoch, which comes next, comprises the Devonian or Old Red
-Sandstone, the Carboniferous or Coal system, and the Permian, the average
-thickness of the three together amounting to about 42,000 feet. In these
-the family of Ferns predominates, the remains of which constitute the
-bulk of the large strata of coal, forming in modern times our great
-resource for obtaining the energy which, in a transformed shape, does so
-much of our work. Pines begin to appear, though sparingly, in this epoch.
-
-The Secondary epoch comprises the Triassic, the Jurassic, and the
-Cretaceous or Chalk formation, the average thickness of the three
-amounting to about 15,000 feet. In this era a higher species of
-vegetation predominates, that of the Gymnosperms, or plants having naked
-seeds, of which the pines, or Coniferæ, and the palm-ferns, or Cycadeæ,
-are the two principal classes. As in the case of the former epoch, traces
-of the approaching higher organisation in the form of leaf-bearing trees
-began to appear towards its close.
-
-The Tertiary period extends from the end of the Chalk to the commencement
-of the Quaternary or modern period. It is divided into the Eocene or
-older, the Miocene or middle, and the Pliocene or newest Tertiary system;
-though the division is somewhat arbitrary, depending on the number of
-existing species, mostly of shellfish, which have been found in each.
-The average thickness of the three together is about 3,000 feet. In this
-formation a still higher class of vegetation of the same order as that
-now existing, which made its first appearance in the Chalk period, has
-become predominant. It is that of Angiosperms, or plants with covered
-seeds, forming leafy forests of true trees. This group is divided
-into the two classes of monocotyledons or single-seed-lobed plants,
-and dicotyledons or plants with double seed-lobes. The monocotyledons
-spring from a single germ leaf, and are of simpler organisation than the
-other class. They comprise the grasses, rushes, lilies, irids, orchids,
-sea-grasses, and a number of aquatic plants, and in their highest form
-develop into the tree-like families of the palms and bananas.
-
-The dicotyledons include all forms of leaf-bearing forest trees, almost
-all fruits and flowers, in fact by far the greater part of the vegetable
-world familiar to man, as coming into immediate relation with it, except
-in the case of the cultivated plants, which are developments of the
-monocotyledon grasses.
-
-We see, therefore, in the geological record a confirmation of the
-evolution over immense periods of time of the more complex and perfect
-from the simple and primitive.
-
-If we turn to the same geological record to trace the development of
-animal life, we find it running a parallel course with that of plants.
-The earliest known fossil, the Eozoon Canadiense, from the Lower
-Laurentian, is that of the chambered shell of a protista of the class
-of Rhizopods, whose soft body consists of mere protoplasm which has not
-yet differentiated into cells. As we ascend the scale of the primordial
-era, traces of marine life of the lower organisms begin to appear, until
-in the Silurian they become very abundant, consisting however mainly
-of mollusca and crustacea, and in the Upper Silurian we find the first
-traces of fishes.
-
-In the Primary era the Devonian and Permian formations are characterised
-by a great abundance of fishes, of the antique type, which has no true
-bony skeleton, but is clothed in an armour of enamelled scales, and whose
-tail, instead of being bi-lobed or forked, has one lobe only—a type of
-which the sturgeon and garpike are the nearest surviving representatives.
-In the Coal formation are found the first remains of land animals in the
-form of insects and a scorpion, and a few traces of vertebrate amphibious
-animals and reptiles; while higher up in the Permian are found a few more
-highly developed reptiles, some of which approximate to the existing
-crocodile. Still fishes greatly predominate, so that the whole Primary
-period may be called the age of fishes, as truly as, looking at its
-flora, it may be called the age of ferns.
-
-In the Secondary period reptiles predominate, and are developed into a
-great variety of strange and colossal forms. The first birds appear,
-being obviously developed from some of the forms of flying lizards, and
-having many reptilian characters. Mammals also put in a first feeble
-appearance, in the form of small, marsupial, insectivorous creatures.
-
-In the Tertiary period the class of mammals greatly predominates over
-all other vertebrate animals, and we can see the principal types slowly
-developing and differentiating into those at present existing. The
-human type appears plainly in the middle Miocene, in the form of a
-large anthropoid ape, the Dryopithecus, and undoubted human remains are
-found in the beginning of the Quaternary, if not, as many distinguished
-geologists believe, in the Pliocene and even in the Miocene ages.
-
-So far, therefore, there seems to be a complete parallelism between the
-evolution of animal and vegetable life from the earliest to the latest,
-and from the simplest to the most complex forms. These facts point
-strongly to a process of evolution by which the animal and vegetable
-worlds, starting from a common origin in protoplasm, the lowest and
-simplest form of living matter, have gradually advanced step by step,
-along diverging lines, until we have at last arrived at the sharp
-antithesis of the ox and the oak tree. It is clear, however, that this
-evolution has gone on under what I have called the generalised law of
-polarity, by which contrasts are produced of apparently opposite and
-antagonistic qualities, which however are indispensable for each other’s
-existence. Thus animals could not exist without plants to work up the
-crude inorganic materials into the complex and mobile molecules of
-protoplasm, which are alone suited for assimilation by the more delicate
-and complex organisation of animal life. Plants, on the other hand,
-could not exist without a supply of the carbonic dioxide, which is their
-principal food, and which animals are continually pouring into the air
-from the combustion of their carbonised food in oxygen, which supplies
-them with heat and energy. Thus nature is one huge aquarium, in which
-animal and vegetable life balance each other by their contrasted and
-supplemental action, and, as in the inorganic world, harmonious existence
-becomes possible by this due balance of opposing factors.
-
-
-
-
-CHAPTER VIII.
-
-PRIMITIVE POLARITIES—POLARITY OF SEX.
-
-    Sexual generation—Base of ancient cosmogonies—Propagation
-    non-sexual in simpler forms—Amœba and cells—Germs and
-    buds—Anemones—Worms—Spores—Origin of sex—Ovary and male
-    organ—Hermaphrodites—Parthenogenesis—Bees and insects—Man and
-    woman—Characters of each sex—Woman’s position—Improved by
-    civilisation—Christianity the feminine pole—Monogamy the law
-    of nature—Tone respecting women test of character—Women in
-    literature—In society—Attraction and repulsion of sexes—Like
-    attracts unlike—Ideal marriage—Woman’s rights and modern
-    legislation.
-
-
-‘Male and female created He them.’ At first sight this distinction of sex
-appears as fundamental as that of plant and animal. Mankind, and all the
-higher forms of life with which mankind has relations, can only propagate
-their species in one way: by the co-operation of two individuals of the
-species, who are essentially like and yet unlike, possessing attributes
-which are complementary of one another, and whose union is requisite to
-originate a new living unit—in other words, by sexual propagation. So
-certain does this appear that all ancient religions and philosophies
-begin by assuming a male and female principle for their gods, or first
-guesses at the unknown first causes of the phenomena of nature. Thus
-Ouranos and Gaia, Heaven and Earth; Phœbus and Artemis, the Sun and
-Moon: are all figured by the primitive imagination as male and female;
-and the Spirit of God brooding over Chaos and producing the world, is
-only a later edition, revised according to monotheistic ideas, of the
-far older Chaldean legend which describes the creation of Cosmos out of
-Chaos by the co-operation of great gods, male and female. Even in later
-and more advanced religions, traces of this ineradicable tendency to
-assume difference of sex as the indispensable condition of the creation
-of new existence are found to linger and crop up in cases where they
-are altogether inapplicable. Thus, in the orthodox Christian creed we
-are taught to repeat ‘begotten, not made,’ a phrase which is absolute
-nonsense, or _non-sense_—that is, an instance of using words like
-counterfeit notes, which have no solid value of an idea behind them. For
-‘begotten’ is a very definite term, which implies the conjunction of
-two opposite sexes to produce a new individual. Unless two deities are
-assumed of different sexes the statement has no possible meaning. It is a
-curious instance of atavism, or the way in which the qualities and ideas
-of remote ancestors sometimes crop up in their posterity.
-
-Science, however, makes sad havoc with this impression of sexual
-generation being the original and only mode of reproduction, and the
-microscope and dissecting knife of the naturalist introduce us to new
-and altogether unsuspected worlds of life. By far the larger proportion
-of living forms, in number at any rate, if not in size, have come into
-existence without the aid of sexual propagation. When we begin at the
-beginning, or with those Monera which are simple specks of homogeneous
-protoplasm, we find them multiplying by self-division. Amœba A, when it
-outgrows its natural size, contracts in the middle and splits into two
-Amœbæ, B and C, which are exactly like one another and like the original
-A. In fact B contains one half of its parent A, and C the other half.
-They each grow to the size of the original A, and then repeat the process
-of splitting and duplicating themselves.
-
-The next earliest stage in the evolution of living matter, the nucleated
-cell, does exactly the same thing. The nucleus splits into two, each of
-which becomes a new nucleus for the protoplasmic matter of the original
-cell, and either multiply within it, or burst the old cell-wall and
-become two new cells resembling the first.
-
-The next stage in advance is that of propagation by germs or buds, in
-which the organism does not divide into two equal parts, but a small
-portion of it swells out at its surface, and finally parts company and
-starts on a separate existence which grows to the size of the parent by
-its inherent faculty of manufacturing fresh protoplasm from surrounding
-inorganic materials. This process may be witnessed any day in an aquarium
-containing specimens of the sea-anemone, where the minute new anemones
-may be seen in every form, both before and after they have parted from
-the parent body. It remains one of the principal modes of propagation of
-the vegetable world, where plants are multiplied from buds even after
-they have developed the higher mode of sexual propagation by seeds.
-In some of the lowest animals, such as worms, the buds are reduced
-to a small aggregation of cells, which form themselves into distinct
-individuals inside the body of the parent, and separate from it when they
-have attained a certain stage of development.
-
-Advancing still further on the road towards sexual reproduction, we find
-these germ-buds reduced to spores, or single cells, which are emitted
-from the parent, and afterwards multiply by division until they form a
-many-celled organism, which has the hereditary qualities of the original
-one. This is the general form of propagation of the lower plants, such
-as algæ, mosses, and ferns, and also of a number of the lower forms
-of animal-like microscopic organisms, such as bacteria, whose spores,
-floating in the air in enormous quantities, and multiplying when they
-find a fit soil with astonishing rapidity, in a few days devastate
-the potato crop of a whole district or bring about an epidemic of
-scarlet-fever or cholera. They have their use however in creation, and
-their action is beneficent as well as the reverse, for they are the
-principal cause of putrefaction, the process by which the dead organic
-matter, which, if not removed, would choke up the world, is resolved into
-the inorganic elements from which it sprang, and rendered available for
-fresh combinations.
-
-We are now at the threshold of that system of sexual propagation which
-has become the rule in all the higher families of animals and in many
-plants. It may be conceived as originating in the amalgamation of some
-germ-cell or spore with the original cell which was about to develop into
-a germ-bud within the body of some individual, and by the union of the
-two producing a new and more vigorous originating cell which modified the
-course of development of the germ-bud and of its resulting organism. This
-organism, having advantages in the struggle for life, established itself
-permanently with ever new developments in the same direction, which would
-be fixed and extended in its descendants by heredity, and special organs
-developed to meet the altered conditions. Thus at length the distinction
-would be firmly established of a female organ or ovary containing the
-egg or primitive cell from which the new being was to be developed, and a
-male organ supplying the fertilising spore or cell, which was necessary
-to start the egg in the evolutionary process by which it developed into
-the germ of an offspring combining qualities of the two parents. This is
-confirmed by a study of embryology, which shows that in the human and
-higher animal species the distinction of sex is not developed until a
-considerable progress has been made in the growth of the embryo. It is
-only however in the higher and more specialised families that we find
-this mode of propagation by two distinct individuals of different sexes
-firmly established. In the great majority of plants, and in some of the
-lower families of animals—for instance, snails and earth-worms—the male
-and female organs are developed within the same being, and they are what
-is called hermaphrodites. Thus, in most of the flowering plants the same
-blossom contains both the stamens and anther, which are the male organ,
-and the style and germ, which are the female.
-
-Another transition form is Parthenogenesis, or virginal reproduction,
-in which germ-cells, apparently similar in all respects to egg-cells,
-develop themselves into new individuals without any fructifying element.
-This is found to be the case with many species of insects, and with this
-curious result, that those same germ-cells are often capable of being
-fructified, and in that case produce very different individuals. Thus,
-among the common bees, male bees or drones arise from the non-fructified
-eggs of the queen bee, while females are produced if the egg has been
-fructified.
-
-In the higher families however of animal life the distinction of sex in
-different individuals has become the universal rule, and it produces a
-polarity or contrast which becomes ever more conspicuous as we rise in
-the scale of creation, until it attains its highest development in the
-highest stage hitherto reached, that of civilised man and woman. Both
-physical and mental characteristics depend mainly on the fact that the
-ovary or egg-producing organ is developed in the female, and thus the
-whole work of reproduction is thrown on her. To perform this a large
-portion of the vital energy is required, which in the male is available
-for larger and more prolonged growth of organs, such as the brain,
-stature, and limbs, by which a more powerful grasp is attained of the
-outward environment. In other words, the female comes sooner to maturity
-and is weaker than the male. She is also animated by a much stronger
-love for the offspring, which is part of her own body, during the period
-of infancy; and thus, in addition to the physical attributes, such as
-lacteal glands and larger breasts, she inherits qualities of softness,
-amiability, and devotion, which fit her for the office of nurse. Her
-physical weakness, again, has made her, for untold ages, and even now
-in all the less advanced communities, and too often even in the most
-advanced, the slave of the stronger male. She has thus inherited many of
-the mental qualities which are essential to such a state: the desire to
-propitiate by pleasing and making herself attractive; the gentleness and
-submissiveness which shrink from a contest of brute force in which she
-is sure to be defeated; the clinging to a stronger nature for support,
-which in extreme cases leads to blind admiration of power and the
-spaniel-like attachment to a master whether deserving of it or not. As
-civilisation however advances, and as intellectual and moral qualities
-gain ascendency over brute strength and animal instincts, the condition
-of woman improves, and it comes more and more to be recognised that she
-is not made to be man’s slave or plaything, but has her own personality
-and character, which, if in some respects inferior, are in others better
-than those of the male half of creation. Tennyson, the great poet of
-modern thought, who sums up so many of the ideas and tendencies of the
-age in concise and vigorous verse, writes:—
-
-    For woman is not undeveloped man,
-    Nor yet man’s opposite.
-
-Not opposite, yet different, so that the one supplements what is wanting
-to the other, and the harmonious union of the two makes ideal perfection.
-It is the glory of European civilisation to have done so much to develop
-this idea of the equality of the sexes, and to have gone so far towards
-emancipating the weaker half of the human species from the tyranny of the
-stronger half.
-
-It would be unfair to omit mention of the great part which Christianity
-has had in this good work; not only by direct precept and recognition of
-religious equality, but even more by the embodiment, as its ideal, of the
-feminine virtues of gentleness, humility, resignation, self-devotion,
-and charity. Ideal Christianity is, in fact, what may be called the
-feminine pole of conduct and morality, as opposed to the masculine one of
-courage, hardihood, energy, and self-reliance. Many of the precepts of
-Christianity are unworkable, and have to be silently dropped in practice.
-It would not answer either for individuals or nations ‘when smitten
-on one cheek to turn the other.’ When an appeal is made to _fact_ to
-decide whether it is a right rule to live as the sparrows do, taking no
-thought for the morrow, the verdict of _fact_ is in favour of foresight
-and frugality. Herbert Spencer has stated this polarity very strongly as
-that of the religion of amity and the religion of enmity; but I think he
-states the case too adversely for the latter, for the qualities which
-make men and nations good fighters and victorious in the struggle for
-existence, are in their way just as essential as the gentler virtues, and
-both alike become defects when pushed to the ‘falsehood of extremes.’
-Christianity, therefore, whatever may become of its dogmas, ought always
-to be regarded with affection and respect for the humanising effect it
-has produced, especially in improving the condition of the female half of
-creation.
-
-This improvement in the condition of women has brought about a
-corresponding improvement in the male sex, for the polarity between the
-two has come to be the most intimate and far-reaching influence of modern
-life. Take the literature of the novel and play, which aim at holding up
-the mirror to human nature and contemporary manners, and you will find
-that they nearly all turn upon love. The word ‘immorality’ has come to
-signify the one particular breach of the laws of morality which arises
-from the relations of the sexes.
-
-In providing for the birth of nearly equal numbers of each sex, nature
-clearly establishes monogamy, or union of single pairs, as the condition
-of things most in accordance with natural laws. The family also, the
-first germ of civilisation, is impossible, or can only exist in a very
-imperfect and half-developed state, without this permanent union of a
-single husband and wife. Violations of this law lead to such disastrous
-consequences to individuals, and are so deteriorating to nations, that
-they are properly considered as the ‘immorality’ _par excellence_, and
-condemned by all right-minded opinion. And yet to observe this law is a
-constant lesson in self-control for a great part of the life: a lesson of
-the utmost value, for it is a virtue which is at the root of all other
-virtues. And it is formed and becomes habitual and easy by practice,
-for just as the muscles of the ballet-dancer’s leg or blacksmith’s arm
-acquire strength and elasticity by use, so do the finer fibres of the
-brain improve by exercise and become soft and flabby by disuse, so that
-effort in the former case is a pleasure and in the latter a pain. For
-this reason chaste nations are generally strong and conquering nations;
-dissolute Imperial Rome went down before the Goths and Germans, and
-polygamous Turkey perishes of dry rot in the midst of the progress of
-the nineteenth century. Indeed, there is no better test of the position
-which either an individual, a class, or a nation hold in the scale of
-civilisation, than the tone which prevails among the men with regard to
-women. Wherever Turkish ideas prevail, we may be sure that whatever may
-be the outward varnish of manner there is essential snobbishness.
-
-                        Up and down
-    Along the scale of life, through all,
-    To him who wears the golden ball,
-    By birth a king, at heart a clown
-
-On the other hand, wherever women are regarded with a chivalrous respect
-and reverence, the heart of a true gentleman beats, though it be under
-the rough exterior of one of Bret Harte’s cow-boys or Californian miners.
-
-Nothing in fact gives one more hope in the progress of human society than
-to find that in the freest countries, and those farthest advanced towards
-modern ideas and democratic institutions, the tone with regard to women
-shows the greatest improvement. There is a regular _crescendo_ scale of
-progress from Turkey to America. I do not refer so much to the fact that
-in the newer colonies and countries women can travel unprotected without
-fear of insult or injury, as to the almost instinctive recognition of
-their equal rights as intelligent and moral beings who have a personality
-and character of their own, which places them on the same platform as men
-though on opposite sides of it.
-
-To understand rightly the real spirit of an age or country, it is not
-enough to study dry statistics or history in the form of records of
-wars and political changes. We must study the works of the best poets,
-novelists, and dramatists, who seek to embody types and to hold up the
-mirror to contemporary ideas and manners. A careful perusal of such works
-as those of Dickens, Thackeray, Trollope, and George Eliot at home, and
-of Bret Harte, Howells, James, and Mrs. Burnett in the United States,
-will give a truer insight into the inner life of the country and period
-than any number of blue-books or consular returns. They show what the
-writers of the greatest genius, that is, of the greatest insight, see as
-types of the actual ideas and characters surrounding them; and the fact
-of their works being popular shows that the types are recognised as true.
-Now it is certain that the English literature of fiction and its latest
-development, that of the American novelists, show an ever-increasing
-recognition of the female individual as an equal unit with the male in
-the constitution of modern society. Those dear ‘school marms’ of Bret
-Harte’s and Wendell Holmes’, who career so joyously through mining camps,
-receiving courtesy and radiating civilising influences among the rough
-inhabitants; or touch the hearts and throw a mellow light over the autumn
-days of middle-aged professors and philosophers, are far removed from
-the slaves of prehistoric savages or the inmates of a Turkish harem. So
-also in the more complex relations of a more crowded civilisation, in the
-circles of Washington, New York, and Boston, the ideal American woman is
-always depicted as bright, intelligent, and independent, with a character
-and personality of her own, and the suspicion never seems to enter the
-author’s head that she is in any respect inferior to the male characters
-with whom she is associated.
-
-The same may be said to a great extent of English literature from the
-time of Shakespeare downwards. No better portrait than Portia was ever
-drawn of the
-
-    Perfect woman, nobly planned
-    To soothe, to comfort, and command;
-    And yet a spirit still, and bright
-    With something of an angel light.
-
-And in the long gallery of good and loveable women, from Rosalind and
-Imogene down to Lucy Roberts and Laura Pendennis, we have not one who is
-a mere non-entity or child of passionate impulse. Nor is the recognition
-of woman’s equality less marked in the bad characters. Lady Macbeth is
-of a stronger nature than Macbeth; Becky Sharp more clever and full of
-resources than the men with whom she plays like puppets; Maggie Tulliver,
-with all her wild struggles with herself and her surroundings, has far
-more in her than her brother Tom. Compare these characters with those
-of the school of modern French novels, which turn mainly on adultery
-and seduction, committed for the most part not in any whirlwind of
-irresistible passion, but to gratify some passing caprice or vanity, and
-it is easy to see how wide is the gulf which separates the ideals and
-moral atmosphere of the two countries.
-
-It is not therefore from any wish to indulge in what Herbert Spencer
-calls the ‘unpatriotic bias,’ and depreciate my own country, that I am
-disposed to think that the younger English-speaking communities are
-somewhat in advance of ourselves in this matter of the relations of
-the sexes, but simply because I think that the feeling is there more
-widespread and universal. We have in English society two strata in which
-women are still considered as inferior beings to men: a lower one, where
-better ideas have not yet permeated the dense mass of ignorance and
-brutality; and a higher one, where among a certain portion, let us hope
-a small one, of the gilded youth and upper ten, luxury and idleness have
-blunted the finer susceptibilities, and created what may be most aptly
-called a Turkish tone about women. There are many of this class, and
-unfortunately often in high places, where their example does widespread
-mischief, whose ideal might be summed up in the words of the Irish
-ballad:—
-
-    I am one of the ould sort of Bradies,
-      My turn does not lie to hard work;
-    But I’m fond of my pipe and the ladies,
-      And I’d make a most illigant Turk.
-
-And most ‘illigant Turks’ they make, though far worse than real
-Turks who are born and brought up in the ideas and surroundings of a
-lower civilisation; while the tone of our English Turks is far more
-nauseous and disgusting, as denoting innate selfishness, sensuality,
-and vulgarity. Of these two classes there seem to be fewer in the newer
-English communities; and if they exist, they are in such a small minority
-that they conceal their existence, and pay the homage of vice to virtue
-which is called hypocrisy.
-
-To return, however, to the more scientific aspects of the question, the
-polarity of sex displays itself as conspicuously as that of the magnet in
-the fundamental law of repulsion of like for like, and attraction of like
-for unlike. In each case there must be an identity of essence developing
-itself in opposite directions. Thus, atoms attract or repel atoms, but
-not molecules; for if they seem to do so, it is only in cases in which
-the molecule contains some atom whose atomicity or polar power has not
-been fully satisfied. So currents of air or water do not affect electric
-currents. But given the identity of substance, its differentiation takes
-place under an ever-increasing progression of polarity of affinities and
-repulsions.
-
-A German naturalist, Brahm, discussing the question why birds sing, says,
-‘the male finds in the female those desirable and attractive qualities
-which are wanting in himself. He seeks the opposite to himself with
-the force of a chemical element.’ This is equally true of the male and
-female of the human species. A masculine woman and effeminate man are
-equally unattractive, and if the qualities are pushed to an extreme
-extent, the individuals become monstrosities, and, instead of attracting,
-excite vehement disgust and repulsion. This, which is true physically,
-is equally true of moral and intellectual characteristics. Each seeks,
-in the happy marriage or perfect ideal union, the qualities which are
-most deficient in themselves: the woman, strength, active courage, and
-the harder qualities; the man, gentleness, amiability, and the softer
-virtues. In each individual, as in each union of individuals, harmony
-and perfection depend on the due balance of the opposite qualities, and
-the ‘falsehood of extremes’ leads up to chaos and insanity. The man in
-whom strength and hardihood are not tempered by gentleness and affection
-becomes brutal and tyrannical; while the woman who has no strength of
-character becomes silly and frivolous. Marriage, however, involves the
-highest ideal, for the well-assorted union of the two in one gives a more
-complete harmony and reconciliation of opposites than can be attained
-by the single individual, who must always remain more or less within
-the sphere of the polarity of his or her respective sex. But here also
-the same law of polarity operates, for as happy marriage affords the
-highest ideal, so do unhappy and ill-assorted unions involve the greatest
-misery and most complete shipwreck of life. Especially to the woman, for
-the man has other pursuits and occupations, and can to a great extent
-withdraw himself from domestic troubles; while the woman has no defence
-against the coarseness, selfishness, and vulgarity of the partner to
-whom she is tied, and who may make her life a perpetual purgatory, and
-drag all her finer intellectual and moral nature down to a lower level.
-Fortunately extreme cases are rare, and, though the ideal of a perfect
-union may seldom be attained to, the great majority of married couples
-manage to jog on together, and bring up families in comparative comfort
-and respectability. Evidently, however, in many cases the weaker party
-does not get fair play, and the laws which are the result of centuries of
-male legislation are often too oblivious of the maxim that what is ‘sauce
-for goose is sauce for gander.’ Improvement, however, is coming from the
-growth of the more healthy public opinion which stigmatises any invasion
-of woman’s real rights, and any attempt on the part of her natural
-protector to bully and tyrannise, as utterly disgraceful; and the waves
-of this public opinion are slowly but surely sapping the cliffs of legal
-conservatism, and forcing the intrenchments of stolid injustice behind
-ermine robes, horsehair wigs, and obsolete Acts of Parliament.
-
-
-
-
-CHAPTER IX.
-
-PRIMITIVE POLARITIES—HEREDITY AND VARIATION.
-
-    Heredity in simple forms of life—In more complex
-    organisms—Pangenesis—Varieties how produced—Fixed by law of
-    survival of the fittest—Dr. Temple’s view—Examples: triton,
-    axolotl—Variations in individuals and species—Lizards into
-    birds—Ringed snakes—Echidna.
-
-
-As the earth is kept in an orbit, which makes life possible by the
-balance of the antagonist centripetal and centrifugal forces, so is
-that life evolved and maintained by the balance of the two conflicting
-forces of heredity and variation. Heredity, or the principle which makes
-offsprings resemble their parental organisms, may be considered as the
-centripetal force which gives stability to species; while variation is
-like the centrifugal force which tends to make them develop into new
-forms, and prevents organic matter from remaining ever consolidated into
-one uniform mass.
-
-As regards heredity, the considerations which have been advanced in the
-last chapter, on the origin of sex, will enable the reader to understand
-the principles on which it is based. When a moneron, or living piece
-of pure protoplasm, or its successor the nucleated cell, propagates
-itself by simple division into two equal parts, it is obvious that each
-half must, in its atomic constitution and motions, exactly resemble the
-original. If amœba A divides into amœbæ B and C, both B and C are exact
-facsimiles of A and of one another, and so are the progeny of B and C
-through any number of generations. They must remain identical repetitions
-of the parent form, unless some of them should happen to be modified by
-different actions of their surrounding environment, powerful enough to
-affect the original organisation.
-
-In propagation by germs or buds, the same thing must hold true, only, as
-the offspring carries with it not the half, but only a small portion of
-the parental organism, its impress will be less powerful, and the new
-organism will more readily be affected by external influences. When we
-come to propagation by spores or single cells, and still more to sexual
-propagation by the union of single cells of two progenitors, it becomes
-more difficult to see how the type of the two parents, and of a long line
-of preceding ancestors, can be maintained so perfectly.
-
-Of the fact that it is maintained there can be no doubt. Not only do
-species breed true and remain substantially the same for immense periods,
-but the characters of individual parents and their ancestors repeat
-themselves, to a great extent, in their offspring. Thus the cross between
-the white and black varieties of the human species perpetuates itself
-to such an extent, that a single cross of black blood leaves traces for
-a number of generations. In the Spanish American States and the West
-Indies, where the distinction is closely observed, the term ‘octoroon’
-is well known, as applied to Creoles who have seven-eighths of white
-to one-eighth of black blood in their composition. In the case of what
-is called ‘atavism,’ this recurrence to the characters of ancestors
-is carried to a much further extent. In breeding animals, it is not
-uncommon to find the peculiar features of generations of ancestors
-long since extinct cropping up occasionally in individuals. Thus,
-stripes like those of the ass along the back and down the shoulders,
-occasionally appear on horses whose immediate ancestors for many
-generations back showed nothing of the sort; and even stripes across
-the legs like those of the zebra occur quite unexpectedly, and testify
-to the common descent of the various species of the horse tribe from a
-striped ancestor. How these ancestral peculiarities can be transmitted
-through many generations, each individual of which originated from a
-single microscopic cell which had been fructified by another cell, is
-one of the greatest mysteries of nature. It may assist us in forming
-some idea of the possibility of a solution to remember what has been
-proved as to the dimensions of atoms. Their order of magnitude is that
-of a cricket-ball to the earth. In a single microscopic cell, therefore,
-there may be myriads of such atoms circling round one another and forming
-infinitesimal solar systems, of infinite complexity and variety. Darwin’s
-theory of ‘Pangenesis’ supposes that some of the actual identical atoms
-which formed part of ancestral bodies are thus transmitted through their
-descendants for generation after generation, so that we are literally
-‘flesh of the flesh’ of the primæval creature who was developed into man
-in the later tertiary or early glacial period. Haeckel, more plausibly,
-suggests that not the identical atoms, but their peculiar motions and
-mode of aggregation have been thus transmitted: a mode of transmission
-which, with his prevailing tendency to invent long and learned names
-for everything, he calls the ‘Perigenesis of plastids.’ In any case,
-however, these must be taken not as solutions of the problem, but as
-guesses at the truth which show that its solution is not impossible.
-
-The opposite principle to heredity, that of variation, is equally
-important and universal. It is apparent in the fact, that although
-every individual of every species reproduces qualities of parents and
-ancestors, no two individuals do so in precisely the same manner; no two
-are exactly alike. This difference, or individuality, becomes more marked
-as the organism is higher. Thus, sheep and hounds differ from one another
-by slight differences which require the practised eye of the shepherd
-or huntsman to detect; while human beings are so unlike, that of the
-many millions existing in each generation no two exactly resemble one
-another. The reason of this is apparent if we consider that the higher
-the organism the more complex does it become, and the less the chance of
-the whole complicated relations of parent and ancestral organisms being
-transmitted by single cells so solidly and completely as to overpower
-and remain uninfluenced by external influences. Variation evidently
-depends mainly on the varying influences of environment. If the exterior
-layer of molecules of a lump of protoplasm become differentiated from
-the interior ones and form a cell-wall, it is because they are in more
-immediate contact with the air or other surrounding medium. Internal
-changes depend on conditions such as temperature and nutrition. In the
-case of cultivated plants and domestic animals we can see most clearly
-how varieties are produced by adaptation to changes of environment. These
-variations, however, would not proceed very far, were it not for the
-interaction of the opposing forces of variation and heredity, by which
-latter the variations appearing in individuals are fixed and accumulated
-in descendants, until they become wide and permanent divergencies.
-This is done in the case of cultivated plants and domestic animals by
-man’s artificial selection in pairing individuals who show the same
-variations; and in nature by the struggle for existence, giving victory
-and survival to those forms, and in the long run to those forms only,
-whose variations, slight as they may be in each generation, tend to bring
-individuals into better adaptation to their environment.
-
-It is the great glory of Darwin to have established this firmly by an
-immense number of interesting and exhaustive instances, and thus placed
-evolution, or a scientific explanation of the development and laws of
-life, on a solid basis. Every day fresh discoveries and experiments
-confirm this great principle, and it has almost passed into the same
-phase as Newton’s law of gravity, as a fundamental law accepted as
-axiomatic by all men of science, and as the basis of modern thought, to
-which all religions and philosophies have to conform, accepted by nearly
-all modern thinkers. I may here quote a passage from an eminent Anglican
-divine, Dr. Temple, for the double purpose of showing how universal
-has become the acceptance of this Darwinian view of evolution among
-intelligent men; and how little terrible are its consequences, even to
-those who look at the facts of the universe through a theological medium
-and retain their belief in accepted creeds.
-
-‘It seems in itself something more majestic, more befitting of Him to
-whom a thousand years are as one day, and one day as a thousand years,
-thus to impress His will once for all on this creation, and provide for
-all its countless varieties by this one original impress, than by special
-acts of creation to be perpetually modifying what He had previously
-made.’[1]
-
-    [1] Dr. Temple, _Religion and Science_.
-
-Scientific men would be content to accept this statement of Dr. Temple’s
-almost in his own words, except that they might consider his definition
-of the Great First Cause as somewhat too absolute and confident. Having
-had to deal so much with actual facts and accurate knowledge, they
-are apt to be more modest in assertion than even the most enlightened
-theologian, whose studies have lain rather in the direction of phrases
-and ideas, which, from their very nature, are more vague and indefinite,
-and perhaps rather guesses and aspirations after truth, than proofs of
-it. In any case there is the authority of a learned and liberal-minded
-bishop for the position that the scientific way of looking at the
-universe is not necessarily profane or irreligious.
-
-To return to variation: the instances of the operation of this principle,
-alone or in conjunction with that of heredity, in working out the
-evolution of species, are exceedingly numerous and interesting. Those who
-wish to understand the subject thoroughly must study the works of Darwin,
-Haeckel, Huxley, and other modern writers; but for my present purpose it
-will be sufficient to refer to a few of the most marked instances which
-may assist the reader in comprehending how the gradual evolution of life
-and creation of new species may have been brought about.
-
-There is an amphibious animal, called the triton or water-salamander,
-akin to the frog, whose normal course is to begin life living in the
-water and breathing by gills, and end it on land with gills metamorphosed
-into lungs. If they are shut up in water and kept in a tank they
-never lose their gills, but continue through life in the lower stage
-of development, and reproduce themselves in other tritons with gills.
-Conversely the axolotl, a peculiar gilled salamander from the Lake of
-Mexico, has its normal course to live, die, and propagate its species in
-water, breathing by gills; but if an axolotl happens to stray from the
-water and take to living on dry land, the gills are modified into lungs
-and the animal gains a place in the class in the school of development.
-This fits in remarkably with the fact that the embryo of all vertebrate
-mammals, including man, passes through the gilled stage before arriving
-at the development of lungs, which assists us in understanding two facts
-of primary importance in the history of evolution.
-
-First, how terrestrial life may have arisen from aquatic life by
-adaptation to altered conditions.
-
-Secondly, how the evolution of the embryo sums up in the individual, in
-the period of a few days or months, the various stages of evolutions
-which it has taken millions of years to accomplish in the species.
-
-As a parallel to the transformation of gills into lungs, and of an
-aquatic into a land animal, if we turn to the geological records of the
-Secondary period we may trace the transformation of a water into an air
-population, of sea-lizards into flying-lizards, and of flying-lizards
-into birds. The ‘Hesperornis’ is an actual specimen of the transition,
-being a feathered lizard, or rather winged and feathered creature which
-is half lizard and half bird.
-
-A remarkable instance of the great change of functions which may be
-produced by a change of outward conditions is afforded by the common
-ringed snake, which in its natural state lays eggs which take three
-weeks to hatch; but if confined in a cage in which no sand is strewed
-it hatches the eggs within its own body, and from oviparous becomes
-viviparous. This may help us to understand how the lowest order of
-mammals, which, like the Australian echidna or duck-billed mole, lay
-eggs, may have developed, first into marsupial, and finally into
-placental mammals.
-
-These examples may assist the reader in understanding how the infinite
-diversities of living species may have been developed in the course of
-evolution from simple origins, just as the inorganic world was from
-atoms, by the action and reaction of primitive polar forces between the
-organism and its environment, and between heredity and variation.
-
-
-
-
-CHAPTER X.
-
-THE KNOWABLE AND UNKNOWABLE—BRAIN AND THOUGHT.
-
-    Basis of knowledge—Perception—Constitution of brain—White and
-    grey matter—Average size and weight of brains—European, negro,
-    and ape—Mechanism of perception—Sensory and motor nerves—Separate
-    areas of brain—Sensory and motor centres—Abnormal states of
-    brain—Hypnotism—Somnambulism—Trance—Thought-reading—Spiritualism—Reflex
-    action—Ideas how formed—Number and space—Creation
-    unknowable—Conceptions based on perceptions—Metaphysics—Descartes,
-    Kant, Berkeley—Anthropomorphism—Laws of nature.
-
-
-Before entering on the higher subjects of religions and philosophies,
-it is well to arrive at some precise idea of the limits of human
-knowledge, and of the boundary line which separates the knowable from the
-unknowable. The ultimate basis of all knowledge is perception. Without
-an environment to create impressions, and an organ to receive them,
-we should know absolutely nothing. What is the environment and what
-the organ of human knowledge? The environment is the whole surrounding
-universe, or, in the last analysis, the motions, or changes of motion,
-by which the objects in that universe make impressions on the recipient
-organ. The organ is the grey matter of that large nervous agglomeration,
-the brain. But here I must at the outset make two reservations. In the
-first place I do not define how these impressions are made. In all
-ordinary cases they are made through the channels of the senses; but it
-is possible that in certain exceptional cases vibrations in the brain,
-causing perceptions, may be conveyed to it through the nerves in other
-ways. In somnambulism, for instance, it seems to be an ascertained fact
-that a somnambulist with closed eyes securely bandaged can walk in the
-dark and avoid obstacles as well as if guided by the sight in full
-daylight. There is a great deal of evidence also that in artificial
-somnambulism, otherwise called mesmerism or hypnotism, and also in what
-is called thought-reading, perceptions may be conveyed from one brain to
-another otherwise than by the usual methods of speech or writing. But
-these phenomena, however far they may be extended, do not affect the
-position that impressions on the brain are the essential condition of
-thought. If the grey matter of the brain is deficient or diseased the
-mind is affected, and beyond a certain point becomes extinct.
-
-The second and more important reservation is, that although mind and
-all its qualities are thus indissolubly connected with matter, it by
-no means follows that they are matter or mere qualities of it. In the
-case of the atoms and energies, we know absolutely nothing of their real
-essence, and cannot form even a conception of what they are, how they
-came there, or what will become of them. It is the same with mind, soul,
-or self: we feel an instinctive certainty of their existence, as we do of
-that of matter; and we can trace their laws and manifestations under the
-conditions in which they are known to us, viz. those of association with
-matter and motion in the brain. But of their real essence or existence we
-know nothing, and it is as unscientific to affirm as to deny. Directly
-we pass beyond the boundary of such knowledge as really can be known
-by human faculty, and stand face to face with the mystery of the Great
-Unknown, we can only bow our heads with reverence and say with the poet,
-
-    Behold, I know not anything.
-
-I hope thus to steer safely between Scylla and Charybdis—between the
-arid rocks of materialism and the whirling eddies of spiritualism.
-Materialist and spiritualist seem to me very like two men disputing as to
-the existence of life in the sun. ‘No,’ argues the former; ‘for the known
-conditions there are totally inconsistent with any life we can conceive.’
-‘Yes,’ says the other; ‘for the belief fits in with many things which
-I earnestly wish to believe respecting a Supreme Being and a future
-existence.’ To the first I say, ignorance is not evidence; to the second,
-wishes are not proofs. For myself, while not quarrelling with those more
-favoured mortals who have, or fancy they have, superior knowledge, I
-can only say that I really know nothing; and this being the case, I see
-no use in saying that I know, and think it both more truthful and more
-modest to confess the limitation of my faculties.
-
-With this caution I return to the field of positive knowledge. The brain,
-spinal marrow, and nerves consist of two substances: one white, which
-constitutes the great mass consisting of tubes or fibres; the other grey,
-which is an aggregation of minute cells, so minute that it has been
-computed that there are several millions of them in a space no larger
-than a sixpence. The bulk of this grey nerve-tissue is found in the
-higher animals, and especially in man, in the outside rind which covers
-the brain, and its amount is greatly increased by the convolutions of
-that organ giving a greater extent of covering surface. In fact the
-convolutions of the average human brain give as much grey matter in a
-head of average size, as would be given by a head of four times the size
-if the brain were a plane surface. The extent of the convolutions is,
-therefore, a sure sign of the extent of intellect. They are more numerous
-and deeper in the European than in the negro; in the negro than in the
-chimpanzee; in the anthropoid ape than in the monkey or lemur. This grey
-nerve-tissue is the organ by which impressions from without are turned
-into perceptions, volitions, and evolutions of nerve force. The white
-matter is simply the medium of transmission, or we may say the telegraph
-wires by which the impressions are conveyed to the head office and the
-answers sent. The cell-tissue of the grey matter is thus emphatically
-the organ of the mind. In fact, if it did not sound too materialistic,
-we might call thought a secretion of the grey matter, only in saying
-so we must bear in mind that it is only a mode of expressing the fact
-that the two invariably go together; and that if we say with the German
-philosopher ‘Ohne Phosphor kein Gedank,’ it does not mean that thought
-and phosphorus are identical, but simply that the condition on which
-thought depends is that of the existence of a material organ of which
-phosphorus is an ingredient.
-
-That this grey nerve-tissue is really the organ of thought has been
-firmly established by numerous experiments both in man and the lower
-animals. Injuries to it, or diseases in it, invariably affect what is
-called the mind; while considerable portions of the white matter may be
-removed without affecting the thinking and perceptive powers. A certain
-amount of it is indispensable for the existence of intellect; the more
-there is of it as the brain increases in size and the convolutions become
-deeper, the greater is the intellect; when these fall below certain
-dimensions intellect is extinguished and we have idiocy. The average
-brain of the male white European weighs 49½ ounces, of the negro a
-little under 47. The maximum brains which have been accurately weighed
-and measured, are those of Cuvier and Daniel Webster, the weight of
-the former being 64⅓ ounces, and the capacity of the latter being 122
-cubic inches; while the average capacity of the Teutonic race, including
-English, Germans, and Americans, is 92 inches, of the negro 83, and of
-the Australian and Hottentot 75. The brain of the idiot seldom weighs
-over 23 ounces, and the minimum weight consistent with a fair degree of
-intelligence is about 34 ounces.
-
-The mechanism by which correspondence is kept up between the living
-individual and the surrounding universe is very simple—in reality, as
-simple as that of any ordinary electric circuit. In the most complex
-case, that of man, there are a number of nerve-endings, or small lumps
-of protoplasm, embedded in the tissues all over the body, or highly
-specialised and grouped together in separate organs such as the eye
-and ear, from which a nerve-fibre leads direct to the brain, or to the
-spinal cord and so up to the brain. These nerve-endings receive the
-different vibrations by which outward energy presents itself, which
-propagate a current or succession of vibrations of nerve-energy along the
-nerve-fibre. This nerve-fibre is a round thread of protoplasm covered
-by a white sheath of fatty matter which insulates it like the wire of
-a submarine telegraph coated with gutta-percha. This nerve-wire leads
-up to a nerve-centre, consisting of two corpuscles of protoplasm: the
-first or sensory, a smaller one, which is connected by branches with the
-second, a much larger one, called the motor, from which a much larger
-nerve-fibre or wire proceeds, which terminates in a mass of protoplasm
-firmly attached to a muscle. Thus, a sensation is propagated along the
-sensory nerve to the sensory nerve-centre, whence it is transmitted to
-the motor-centre, which acts as an accumulator of stored-up energy,
-a large flow of which is sent through the large conductor of the
-motor-nerve to the muscle, which it causes to contract and thus produces
-motion. It is thus that the simpler involuntary actions are produced
-by a process which is purely mechanical. In the more complex cases, in
-which consciousness and will are involved, the process is essentially
-the same, though more complicated. The message is transmitted to the
-brain, where it is received by a cluster of small sensory cells or
-nerve-centres, which are connected with another cluster of fewer and
-larger motor-centres, often at some distance from them, by a network
-of interlacing fibres. But it is always a case of a single circuit of
-wires, batteries, and accumulators, adapted for receiving, recording,
-and transmitting one sort of vibrations caused by and producing one sort
-of energy, and one only. The brain does not act as a whole, receiving
-indiscriminately impressions of light, sound, and heat; but by separate
-organs for each, located in separate parts of it. It is like a great
-central office, in one room of which you have a printing instrument
-reading off and recording messages sent through an electric telegraph; in
-another a telephone; in a third a self-registering thermometer, and so
-on. And the same for the motor-centres and nerves. One set is told off to
-move the muscles of the face, another those of the arms, others for the
-legs and body, and so forth. This is further complicated by the fact that
-the brain like the rest of the body has two sides, a right and left, and
-that in some cases the motor-apparatus is doubled, each working only on
-one side, while in others the same battery and wires serve for both. As a
-rule the right hemisphere of the brain works the muscles of the left side
-of the body, and _vice versâ_, so that an injury to one side of the brain
-may paralyse the voluntary motion of the limbs on the opposite side,
-leaving in a perfect condition those on its own side.
-
-In the case of the higher functions involving thought, the upper part of
-the brain, which performs these functions, seems to be a sort of duplex
-machine, so that we have two brains capable of thinking, just as we
-have two eyes capable of seeing. It is a remarkable fact that the areas
-of the brain which are appropriated to the lowest and most instinctive
-functions, which appear first, lie lowest, and as the functions rise the
-position of their nerve-centres rises with them. Thus, at the very base
-of the frontal convolutions at the lowest end of the fissure of Rolando,
-we find the motor areas for the lower part of the face, by which the
-lowest animals and the new-born infant perform their solitary function
-of sucking and swallowing. Higher up are the centres in the right and
-left brains for moving the upper limbs, that is, for seizing food and
-conveying it to the mouth, which is the next function in the ascending
-scale. Next above these are the centres for moving the lower limbs
-and for co-ordinating the motions of the arms and legs, marking the
-progression of an organism which can pursue and catch as well as eat its
-food. And still higher are the centres which regulate the motions of the
-trunk and body in correspondence with those of the limbs; while highest
-of all, at the front and hind ends of the enveloping cortex of the brain,
-come the organs of the intellectual faculties.
-
-It is easy to see that this corresponds with the progression of the
-individual, for the infant sucks and cries for food from the first day,
-soon learns to extend its hand and grasp objects, but takes some time
-to learn to walk, and still longer to perform exercises like dancing or
-riding, in which the motions of the whole body have to be co-ordinated
-with those of the limbs. And as the development of the individual is an
-epitome of the evolution of life from protoplasm, we may well suppose
-that the brain was developed in this order from its first origin in
-a swelling at the end of the spinal cord as we find it in the lowest
-vertebrates.
-
-It is a singular fact that the particular motor area which gives the
-faculty of articulate speech lies in a small patch of about one and a
-half square inches on the left side of the lower portion of the first
-brain. If this is injured, the disease called aphasia is produced, in
-which the patient loses the power of expressing ideas by connected words.
-The corresponding area on the right side cannot talk; but in left-handed
-persons this state of things is reversed, and the right side, which is
-generally aphasial, can be taught to speak in young people, though not in
-the aged.
-
-Higher up in the cortex, or convoluted envelope of the brain, come the
-areas for hearing and seeing, the latter being the more extensive. These
-areas are filled mainly by a great number of sensory nerve-centres or
-cells, connected with one another in a very complicated network. These
-seem to be connected with the multitude of ideas which are excited in the
-brain by perceptions derived from the higher senses, especially that of
-sight. The simple movements are produced by a few large motor-centres,
-which have only one idea and do only one thing, whether it be to move the
-leg or the arm. But a sensation from sight often calls up a multitude of
-ideas. Suppose you see the face of one with whom some fifty years ago you
-may have had some youthful love passages, but your lives drifted apart,
-and you now meet for the first time after these long years, how many
-ideas will crowd on the mind, how many nerve-cells will be set vibrating,
-and how many nerve-currents set coursing along intricate paths! No wonder
-that the nerve-corpuscles are numerous and minute, and the nerve-channels
-many and complicated.
-
-When we come to the seats of the intellectual faculties the question
-becomes still more obscure. They are probably situated in the hinder and
-front parts of the surface of the brain, and depend on the grey matter
-consisting of an immense number of minute sensory cells. It has been
-computed that there are millions in the area of a square inch, and they
-are all in a state of the most delicate equilibrium, vibrating with the
-slightest breath of nervous impression. They depend for their activity
-entirely on the sensory perceptive centres, for there is no consciousness
-in the absence of sensory stimulation, as in dreamless sleep. Perception,
-however caused, whether by outward stimulation of real objects, or by
-former perceptions revived by memory, sends a stream of energy through
-the sense-area, which expands, like a river divided into numerous
-channels, fertilising the intellectual area, where it is stored up by
-memory, giving us the idea of continual individual existence, and by some
-mysterious and unknown process becoming transformed into consciousness
-and deliberate thought. And conversely the process is reversed when what
-we call will is excited, and the small currents of the intellectual area
-are concentrated by an effort of attention and sent along the proper
-nerve-channels to the motor-centres, whose function it is to produce
-the desired movement. This mechanical explanation, it will be observed,
-leaves entirely untouched the question of the real essence and origin of
-these intellectual faculties, as to which we know nothing more than we do
-of the real essence and origin of life, of matter, and of energy.
-
-A very curious light however is thrown on them by phenomena which
-occur in abnormal states of the brain, as in trance, somnambulism, and
-hypnotism. In the latter, by straining the attention on a given object or
-idea, such as a coin held in the hand or a black wafer on a white wall,
-the normal action of the brain is, in the case of many persons—perhaps
-one out of every three or four—thrown out of gear, and a state induced
-in which the will seems to be annihilated, and the thoughts and actions
-brought into subjection to the will of another person. In this state
-also a cataleptic condition of the muscles is often induced, in which
-they acquire enormous strength and rigidity. In somnambulism outward
-consciousness is in a great measure suspended, and the somnambulist
-lives for the time in a walking dream which he acts and mistakes for
-reality. In this state old perceptions, scarcely felt at the time, seem
-to revive, as in dreams, with such wonderful vividness and accuracy that
-the somnambulist in acting the dream does things altogether impossible in
-the waking state. Thus an ignorant Scotch servant-maid is said to have
-recited half a chapter of the Hebrew version of the Old Testament: the
-explanation being that she had been in the service of a Scotch minister,
-who was studying Hebrew, and who used to walk about his room reciting
-this identical passage. It would seem as if the brain were like a very
-delicate photograph plate, which takes accurate impressions of all
-perceptions, whether we notice them or not, and stores them up ready to
-be reproduced whenever stronger impressions are dormant and memory by
-some strange caprice breathes on the plate.
-
-Most wonderful, however, are some of the phenomena of trance. In this
-case it really seems as if two distinct individuals might inhabit the
-same body. Jones falls into a trance and dreams that he is Smith. While
-the trance lasts he acts and talks as Smith, he really is Smith, and
-even addresses his former self Jones as a stranger. When he wakes from
-the trance he has no recollection of it, and takes up the thread of
-his own life, just as if he had dozed for a minute instead of being
-in a trance for hours. But if he falls into a second trance, days or
-weeks afterwards, he takes up his trance life exactly where he dropped
-it, absolutely forgetting his intermediate real life. And so he may go
-on alternating between two lives, with two separate personalities and
-consciousnesses, being to all intents and purposes now Jones and now
-Smith. If he died during a trance, which would he be, Jones or Smith? The
-question is more easily asked than answered; but it certainly appears
-as if with one mode of motion in the same brain you might have one mind
-and personal identity associated with it, and with another mode of motion
-different ones.
-
-It would take me too far, and the facts are too doubtful, to investigate
-the large class of cases included under the terms thought-reading,
-telepathy, psychism, and spiritualism. It may suffice to say that there
-is a good deal of evidence for the reality of very curious phenomena,
-but none of any real weight for their being caused by any spiritualistic
-or supernatural agency. They all seem to resolve themselves into the
-assertion that under special conditions the perceptions of one brain can
-be reproduced in another otherwise than by the ordinary medium of the
-senses, and that in such conditions a special sort of cataleptic energy
-or psychic force may be developed. The amount of negative evidence is
-of course enormous, for it is certain that in millions upon millions
-of cases thought cannot be read, things are not seen beyond the range
-of vision, and coincidences do not occur between deaths and dreams or
-visions. Neither can tables be turned, nor heavy bodies lifted, without
-some known form of energy and a fulcrum at which to apply it.
-
-This borderland of knowledge is, therefore, best left to time, which is
-the best test of truth. That which is real will survive, and be gradually
-brought within the domain of science and made to fit in with other facts
-and laws of nature. That which is unreal will pass away, as ghosts
-and goblins have done, and be forgotten as the fickle fashion changes
-of superstitious fancy. In the meantime we shall do better to confine
-ourselves to ascertained facts and normal conditions.
-
-It is pretty certain that although the brain greatly preponderates as
-an organ of mind in man and the higher animals, the grey tissue in the
-spinal marrow and nervous ganglia exercises a limited amount of the
-same functions proportionate to its smaller quantity. The reflex or
-automatic actions, such as breathing, are carried on without reference
-to the brain, and the messages are received and transmitted through the
-local offices without going to the head office. This is the case with
-many complicated motions which originated in the brain, but have become
-habitual and automatic, as in walking, where thought and conscious
-effort only intervene when something unusual occurs which requires a
-reference to the head office; and in the still more complex case of the
-piano-player, who fingers difficult passages correctly while thinking of
-something else or even talking to a bystander.
-
-Indeed, in extreme cases, where experiments on the brain have been
-tried on lower animals, it is found that it can be entirely removed
-without destroying life, or affecting many of the actions which require
-perception and volition. Thus, when the brain has been entirely removed
-from a pigeon, it smoothes its feathers with its bill when they have been
-ruffled, and places its head under its wing when it sleeps; and a frog
-under the same conditions, if held by one foot endeavours to draw it
-away, and if unsuccessful, places the other foot against an obstacle in
-order to get more purchase in the effort to liberate itself.
-
-So much for the organ of mind; the other factor, that of outward
-stimulus, is still more obvious. If thought cannot exist without grey
-nerve-tissue, neither can it without impressions to stimulate that
-tissue. A perfect brain, if cut off from all communication with the
-external universe, could no more think and have perceptions, than
-impressions from without could generate them without the appropriate
-nerve-tissue. Once generated, the mind can store them up by memory,
-control them by reason, and gradually evolve from them ever higher and
-higher ideas and trains of reasoning, both in the individual and the
-species:—in the individual passing from infancy to manhood, partly by
-heredity from ancestors, and partly by education—using the word in the
-large sense of influences of all sorts from the surrounding environment;
-in the species, by a similar but much slower development from savagery to
-civilisation.
-
-Thus the whole fabric of arithmetic, algebra, and the higher calculi
-are built up from the primitive perception of number. The earliest
-palæolithic savage must have been conscious of a difference between
-encountering one or two cave-bears or mammoths; and some existing races
-of savages have hardly got beyond this primitive perception. Some
-Australian tribes, it is said, have not got beyond three numerals, one,
-two, and a great number. But by degrees the perceptions of number have
-become more extensive and accurate, and the number of fingers on each
-hand has been used as a standard of comparison. Thus ten, or two-hand,
-the number of fingers on the two hands has gradually become the basis
-of arithmetical numeration, and from this up to Sir W. Hamilton’s
-‘Quaternions’ the progression is regular and intelligible. But Newton
-could never have invented the differential calculus and solved the
-problem of the heavens, if thousands of centuries before some primitive
-human mind had not received the perception that two apples or two bears
-were different from one.
-
-In like manner geometry, as its name indicates, arises from primitive
-perceptions of space, applied to the practical necessity of
-land-measuring in alluvial valleys like those of the Nile and Euphrates,
-where annual inundations obliterated to a great extent the dividing
-lines between adjoining properties. The first perceptions of space would
-take the form of the rectangle, or so many feet or paces, or cubits or
-arm-lengths, forwards, and so many sideways, to give the proper area;
-but as areas were irregular, it would be discovered that the triangle
-was necessary for more accurate measurement. Hence the science of the
-triangle, circle, and other regular forms, as we see it developed in
-Euclid and later treatises on geometry, until we see it in its latest
-development in speculations as to space of four dimensions.
-
-But in all these cases we see the same fundamental principle as prevails
-throughout the universe under the name of the ‘conservation of energy’;
-always something out of something, never something out of nothing.
-
-This, therefore, defines the limit of human knowledge, or boundary line
-between the knowable and the unknowable. Whatever is _transformation_
-according to existing laws is, whether known or unknown, at any rate,
-knowable—whatever is _creation_ is unknowable. We have absolutely no
-faculties to enable us to form the remotest conception of what the
-essence of these primary atoms and energies really is, how they came
-there, and how the laws, or invariable sequences, under which they act,
-came to be impressed on them. We have no faculties, because we have
-never had any perceptions upon which the mind can work. Reason and
-imagination can no more work without antecedent perceptions than a bird
-can fly in a vacuum.
-
-Thus, for instance, the imagination can invent dragons, centaurs, and any
-number of fabulous monsters, by piecing together fragments of perceptions
-in new combinations; but ask it to invent a monster whose head shall
-be that of an inhabitant of Saturn and its body that of a denizen of
-Jupiter, and where is it? Of necessity all attempts to define or describe
-things of which we have never had perceptions, must be made in terms of
-things of which we have had perceptions, or, in other words, must be
-anthropomorphic.
-
-So far as science gives any positive knowledge as to the relations of
-mind to matter, it amounts to this: That all we call mind is indissolubly
-connected with matter through the grey cells of the brain and other
-nervous ganglia. This is positive. If the skull could be removed without
-injury to the living organism, a skilful physiologist could play with his
-finger on the human brain, as on that of a dog, pigeon, or other animal,
-and by pressure on different notes, as on the keys of a piano, annihilate
-successively voluntary motion, speech, hearing, sight, and finally will,
-consciousness, reasoning power, and memory. But beyond this physical
-science cannot go. It cannot explain how molecular motions of cells of
-nerve-centres can be transformed into, or can create, the phenomena of
-mind, any more than it can explain how the atoms and energies to which it
-has traced up the material universe were themselves created or what they
-really are.
-
-All attempts to further fathom the depths of the unknown follow a
-different line, that of metaphysics, or, in other words, introspection of
-mind by mind, and endeavour to explain thought by thinking. On entering
-into this region we at once find that the solid earth is giving way
-under our feet, and that we are attempting to fly in an extremely rare
-atmosphere, if, indeed, we are not idly flapping our wings in an absolute
-vacuum. Instead of ascertained facts which all recognise, and experiments
-which conducted under the same conditions always give the same results,
-we have a dissolving view of theories and intuitions, accepted by some,
-denied by others, and changing with the changing conditions of the age,
-and with individual varieties of characters, emotions, and wishes. Thus,
-mind and soul are with some philosophers identical, with others mind
-is a product of soul; with some soul is a subtle essence, with others
-absolutely immaterial; with some it has an individual, with others a
-universal, existence; by some it is limited to man, by others conceded to
-the lower animals; by some located in the brain, by others in the heart,
-blood, pineal gland, or dura mater; with some it is pre-existent and
-immortal, with others created specially for its own individual organism;
-and so on _ad infinitum_. The greatest philosophers come mostly to the
-conclusion that we really know nothing about it. Thus Descartes, after
-having built up an elaborate metaphysical theory as to a spiritual,
-indivisible substance independent of the brain and cognisable by
-self-consciousness alone, ends by honestly confessing ‘that by natural
-reason we can make many conjectures about the soul, and have flattering
-hopes, but no assurance.’ Kant also, greatest of metaphysicians in
-demolishing the fallacies of former theories, when he comes to define his
-‘noumenon,’ has to use the vaguest of phrases, such as ‘an indescribable
-something, safely located out of space and time, as such not subject
-to the mutabilities of those phenomenal spheres, ... and of whose
-ontological existence we are made aware by its phenomenal projections,
-or effects in consciousness.’ The sentence takes our breath away, and
-makes us sympathise with Bishop Berkeley when he says, ‘We metaphysicians
-have first raised a dust, and then complain we cannot see.’ It prepares
-us also for Kant’s final admission that nothing can really be proved by
-metaphysics concerning the attributes, or even the existence, of the
-soul; though, on the other hand, as it cannot be disproved, its reality
-may for moral purposes be assumed.
-
-It appears, therefore, that the efforts of the sublimest
-transcendentalists do not carry us one step farther than the conclusions
-of the commonest common-sense, viz. that there are certain fundamental
-conditions of thought, such as space, time, consciousness, personal
-identity, and freedom of will, which we cannot explain, but cannot get
-rid of. The sublimest speculations of a Plato and a Kant bring us back
-to the homely conclusions of the old woman in the nursery ballad, in
-whose mind grave questions as to her personal identity were raised by the
-felonious abstraction of the lower portion of her petticoat.
-
-    If I be I, as I think I be,
-    I’ve a little dog at home, and he’ll know me.
-
-It is a safe ‘working hypothesis’ that when I go home in the afternoon,
-my wife, children, and little dog will recognise me as being ‘I myself
-I;’ but why or how I am I, whether I was I before I was born, or shall
-be so after I am dead, I really know no more than the little dog who wags
-his tail and yelps for joy when he recognises my personal identity as
-something distinct from his own, when he sees me coming up the walk.
-
-Our conceptions, therefore, are necessarily based on our perceptions,
-and are what is called anthropomorphic. The term has almost come to
-be one of reproach, because it has so often been applied to religious
-conceptions of a Deity with human, though often not very humane,
-attributes; but, if considered rightly, it is an inevitable necessity
-of any attempt to define such a being or beings. We can only conceive
-of such as of a magnified man, indefinitely magnified no doubt, but
-still with a will, intelligence, and faculties corresponding to our own.
-The whole supernatural or miraculous theory of the universe rests on
-the supposition that its phenomena are, in a great many cases, brought
-about, not by uniform law, but by the intervention of some Power, which,
-by the exercise of will guided by intelligent design, alters the course
-of events and brings about special effects. As long as the theory is
-confined to knowable transformations of existing things, like those
-which are seen to be affected by human will, it is not necessarily
-inconceivable or irrational. Inferring like effects from like causes,
-the hypothesis was by no means unreasonable that thunder and lightning,
-for instance, were caused by some angry invisible power in the clouds.
-On the contrary, the first savage who drew the deduction was a natural
-philosopher who reasoned quite justly from his assumed premises. Whether
-the premises were true or not was a question which could only be
-determined centuries later by the advance of accurate knowledge.
-
-When do we say we know a thing? Not when we know its essence and primary
-origin, for of these the wisest philosopher is as ignorant as the rudest
-savage; but when we know its place in the universe, its relation to other
-things, and can fit it in to that harmonious sequence of events which is
-summed up in what are called Laws of Nature. The highest knowledge is
-when we can trace it up to its earliest origin from existing matter and
-energy, and follow it downwards so as to be able to predict its results.
-The force of gravity affords a good illustration of this knowledge, both
-where it comes up to, and where it falls short of, perfection.
-
-Newton’s law leaves nothing to be desired as regards its universal
-application and power of prediction; but we do not yet fully understand
-its mode of action or its relation to other forms of energy. It is
-probable that some day we may be able to understand how the force of
-gravity appears to act instantaneously at a distance, and how all the
-transformable forces, gravity, light, heat, electricity, and molecular or
-atomic forces, are but different manifestations of one common energy. But
-in the meantime we know this for certain, that the law of gravity is not
-a local or special phenomenon, but prevails universally from the fixed
-stars to the atoms, from the infinitely great to the infinitely small.
-This is a _fact_ to which all other phenomena, which are true facts and
-not illusions, must conform.
-
-In like manner, if we find in caves or river-gravels, under circumstances
-implying enormous antiquity, and associated with remains of extinct
-animals, rude implements so exactly resembling those in use among
-existing savages, that if the collection in the Colonial Exhibition
-of stone celts and arrow-heads used by the Bushmen of South Africa
-were placed side by side with one from the British Museum of similar
-objects from Kent’s Cavern or the caves of the Dordogne, no one but an
-expert could distinguish between them, the conclusion is inevitable
-that Devonshire and Southern France were inhabited at some remote
-period by a race of men not more advanced than the Bushmen. Any theory
-of man’s origin and evolution which is to hold water must take account
-of this fact and square with it. And so of a vast variety of facts
-which have been reduced to law and become certainly known during the
-last half-century. A great deal of ground remains unexplored or only
-partially explored; but sufficient has been discovered to enable us
-to say that what we know we know thoroughly, and that certain leading
-facts and principles undoubtedly prevail throughout the knowable
-universe, including not only that which is known, but that which is as
-yet partially or wholly unknown. For instance, the law of gravity, the
-conservation of energy, the indestructibility of matter, and the law of
-evolution, or development from the simple to the complex.
-
-
-
-
-CHAPTER XI.
-
-RELIGIONS AND PHILOSOPHIES
-
-    Religions, ‘working hypotheses’—Newman’s illative sense—Origins
-    of religions—Ghosts and spirits—Fetishes—Nature-worship—Solar
-    myths—Planets—Evolution of nature-worship—Polytheism,
-    pantheism, and theism—Evolution of monotheism in the Old
-    Testament—Evolution of morality—Natural law and miracle—Evidence
-    for miracles—Insufficiency of evidence—Absence of intelligent
-    design—Agnosticism—Origin of evil—Can only be explained
-    by polarity—Optimism and pessimism—Jesus, the Christian
-    Ormuzd—Christianity without miracles.
-
-
-Having thus, I may hope, given the reader some precise ideas of what
-are the boundaries and conditions of human knowledge, we may proceed
-to consider their application to the highest subjects, religions and
-philosophies.
-
-In the introductory chapter of this work I have said that all religions
-are in effect ‘working hypotheses,’ by which men seek to reconcile the
-highest aspirations of their nature with the facts of the universe, and
-bring the whole into some harmonious concordance. I said so for the
-following reasons. In a discussion at the Metaphysical Society on the
-uniformity of laws of nature, recorded in the ‘Nineteenth Century,’
-Huxley is represented as saying that he considered this uniformity, not
-as an axiomatic truth like the first postulates of geometry, but as a
-‘working hypothesis’; adding, however, that it was an hypothesis which
-had never been known to fail. To this some distinguished advocates of
-Catholic theology replied, that their conviction was of a higher nature,
-for their belief in God was a final truth which was the basis of their
-whole intellectual and moral nature, and which it was irrational to
-question. This is in effect Cardinal Newman’s celebrated argument of an
-‘illative sense,’ based on a complete assent of all the faculties, and
-which was therefore a higher authority than any conclusions of science.
-The answer is obvious, that complete assent, so far from being a test
-of truth, is, on the contrary, almost always a proof that truth has not
-been attained, owing either to erroneous assumptions as to the premises,
-or to the omission of important factors in the solution of the problem.
-To give an instance, I suppose there could not be a stronger case of
-complete assent than that of the Inquisitors who condemned the theories
-of Galileo. They had in support of the proposition that the sun revolved
-round the earth the testimony of the senses, the universal belief of
-mankind in all ages, the direct statement of inspired Scripture, the
-authority of the infallible Church. Was all this to be set aside because
-some ‘sophist vainly mad with dubious lore’ told them, on grounds of
-some new-fangled so-called science, that the earth revolved round its
-axis and round the sun? ‘No; let us stamp out a heresy so contrary to
-our “illative sense,” and so fatal to all the most certain and cherished
-beliefs of the Christian world, to the inspiration of the Word of God,
-and to the authority of His Church.’ ‘E pur si muove,’ and yet the earth
-really did move; and the verdict of _fact_ was that Galileo and science
-were right, and the Church and the illative sense wrong.
-
-In truth the distinction between the conclusions of science and those
-of religious creeds might be more properly expressed by saying that
-the former are ‘working hypotheses’ which never fail, while the latter
-are ‘working hypotheses’ which frequently fail. Thus, the fundamental
-hypothesis of Cardinal Newman and his school of a one infinite and
-eternal personal Deity, who regulates the course of events by frequent
-miraculous interpositions, so far from being a necessary and axiomatic
-truth, has never appeared so to the immense majority of the human race:
-and even at the present day, in civilised and so-called Christian
-countries, its principal advocates complain that ninety-nine out of every
-hundred practically ignore it. It is not so with the uniformity of the
-laws of nature. No palæolithic savage ever hesitated about putting one
-foot after another in chase of a mammoth from a fear that his working
-hypothesis of uniform law might fail, the support of the solid earth give
-way, and with his next step he might find himself toppling over into the
-abyss of an infinite vacuum. In like manner Greeks and Romans, Indians
-and Chinese, monotheists, polytheists, pantheists, Jews and Buddhists,
-Christians and Mahometans, all use standard weights in their daily
-transactions without any misgivings that the law of gravity may turn out
-not to be uniform. But religions theories vary from time to time and from
-place to place, and we can in a great many cases trace their origins and
-developments like those of other political and social organisms.
-
-To trace their origins we must, as in the case of social institutions,
-look first at the ideas prevailing among those savage and barbarous races
-who are the best representatives of our early progenitors; and secondly
-at historical records. In the first case we find the earliest rudiments
-of religious ideas in the universal belief in ghosts and spirits. Every
-man is conceived of as being a double of himself, and as having a sort of
-shadowy self, which comes and goes in sleep or trance, and finally takes
-leave of the body, at death, to continue its existence as a ghost. The
-air is thus peopled with an immense number of ghosts who continue very
-much their ordinary existence, haunt their accustomed abodes, and retain
-their living powers and attributes, which are exerted generally with a
-malevolent desire to injure and annoy. Hence among savage races, and by
-survival even among primitive nations of the present day, we find the
-most curious devices to cheat or frighten away the ghost, so that he may
-not return to the house in which he died. Thus, the corpse is carried
-out, not by the door, but by a hole made for the purpose in the wall,
-which is afterwards built up, a custom which prevails with a number of
-widely separated races—Greenlanders, Hottentots, Algonquins, and Fijians;
-and the practice even survives among more civilised nations, such as the
-Chinese, Siamese, and Thibetans; nor is it wholly extinct in some of the
-primitive parts of Europe.
-
-This idea obviously led to the practice of constructing tents or houses
-for the ghosts to live in, and of depositing with them articles of
-food and weapons to be used in their ghostly existence. In the case
-of great chiefs, not only their arms and ornaments are deposited, but
-their horses, slaves, and wives were sacrificed and buried with them,
-so that they might enter spirit-land with an appropriate retinue. The
-early Egyptian tombs were as nearly as possible facsimiles of the house
-in which the deceased had lived, with pictures of his geese, oxen, and
-other possessions painted on the walls, evidently under the idea that the
-ghosts of these objects would minister to the wants and please the fancy
-of the human ghost whose eternal dwelling was in the tomb where his mummy
-was deposited.
-
-Another development of the belief in spirits is that of fetish-worship,
-in which superstitious reverence is paid to some stock or stone, tree
-or animal, in which a mysterious influence is supposed to reside,
-probably owing to its being the chosen abode of some powerful spirit.
-This is common among the negro races, and it takes a curious development
-among many races of American Indians, where the tribe is distinguished
-by the totem, or badge of some particular animal, such as the bear,
-the tortoise, or the hare, which is in some way supposed to be the
-patron spirit of the clan, and often the progenitor from whom they are
-descended. This idea is so rooted that intermarriage between men and
-women who have the same totem is prohibited as a sort of incest, and
-the daughter of a bear-mother must seek for a husband among the sons of
-the deer or fox. Possibly a vestige of the survival of this idea may be
-traced in the coat-of-arms of the Sutherland family, and the wild cat may
-have been the totem of the Clan Chattan, while the oak tree was that of
-the Clan Quoich, with whom they fought on the Inch of Perth. Be this as
-it may, it is clearly a most ancient and widespread idea, and prevails
-from Greenland to Australia; while it evidently formed the oldest element
-of the prehistoric religion of Egypt, where each separate province had
-its peculiar sacred animal, worshipped by the populace in one nome, and
-detested in the neighbouring one.
-
-By far the earliest traces of anything resembling religious ideas are
-those found in burying-places of the neolithic period. It is evident that
-at this remote period ideas prevailed respecting ghost or spirit life and
-a future existence very similar to those of modern savages. They placed
-weapons and implements in the graves of the dead, and not infrequently
-sacrificed human victims, and held cannibal feasts. Whether this was
-done in the far more remote palæolithic era is uncertain, for very few
-undoubted burials of this period have been discovered, and those few
-have frequently been used again for later interments. We can only draw
-a negative inference from the absence of idols which are so abundant
-in the prehistoric abodes explored by Professor Schliemann, among the
-very numerous carvings and drawings found in the caves of the reindeer
-period in France and Germany, that the religion of the palæolithic men,
-if they had any, had not reached the stage when spirits or deities were
-represented by images.
-
-For the first traces therefore of anything like what is now understood
-by the term religion, we must look beyond the vague superstitions of
-savages, at the historical records of civilised nations. As civilisation
-advanced population multiplied, and rude tribes of hunters were
-amalgamated into agricultural communities and powerful empires, in which
-a leisured and cultured class arose, to whom the old superstitions were
-no longer sufficient. They had to enlarge their ‘working hypothesis’
-from the worship of stocks and stones and fear of ghosts, to take in a
-multitude of new facts and ideas, and specially those relating to natural
-phenomena which had roused their curiosity, or become important to them
-as matters of practical utility. The establishment of an hereditary
-caste of priests accelerated this evolution of religious ideas, and from
-time to time recorded its progress. The oldest of such records are those
-of Egypt and Chaldæa, where the fertility of alluvial valleys watered by
-great rivers had led to the earliest development of a high civilisation.
-The records also of the Chinese, Hindoos, Persians, and other nations
-take us a long way back towards the origins of religions.
-
-In all cases we find them identical with the first origins of science,
-and taking the form of attempted explanations of natural phenomena, by
-the theory of deified objects and powers of nature. In the Vedas we see
-this in the simplest form, where the gods are simply personifications of
-the heavens, earth, sun, moon, dawn, and so forth; and where we should
-say the red glow of morning announces the rising of the sun, they express
-it that Aurora blushes at the approach of her lover the mighty Sun-god.
-It is very interesting to observe how the old Chaldæan legend of the
-creation of the world has been modified in the far later Jewish edition
-of it in Genesis, to adapt it to monotheistic ideas. The Chaldæan legend
-begins, like that of Genesis, with an ‘earth without form and void,’ and
-darkness on the chaotic deep. In each legend the Spirit of God, called
-Absu in the Chaldæan, moves on the face of the waters, and they are
-gathered together and separated from the land. But here a difference
-begins: in the original Chaldæan legend ‘the great gods were then made;
-the gods Lakman and Lakmana caused themselves to come forth; the gods
-Assur and Kesar were made; the gods Anu, Bel, and Hea were born.’
-
-The appearance of the gods Lakman and Lakmana was the primitive mode of
-expressing the same idea as that which is expressed in Genesis by saying
-that God created the firmament separating the heaven above from the earth
-beneath; Assur and Kesar mean the same thing as the hosts of heaven and
-the earth; the god Bel is the sun, and so forth. It is evident that the
-first attempts to explain the phenomena of nature originated in the idea
-that motion and power implied life, personality, and conscious will; and
-therefore that the earth, sky, sun, moon, and other grand and striking
-phenomena, must be regarded as separate gods.
-
-As culture advanced astronomy became more and more prominent in these
-early religions, and solar myths became a principal part of their
-mythologies, while astrology, or the influence of planets and stars on
-human affairs, became an important part of practical life. The Chaldæan
-legend referred to contains a mass of astronomical knowledge, which in
-the Genesis edition is reduced to ‘He made the stars also.’ It describes
-how the constellations were assigned their forms and names, the twelve
-signs of the zodiac established, the year divided into twelve months,
-the equinoxes determined, and the seasons set their bounds. Also how the
-moon was made to regulate the months by its disc, ‘horns shining forth to
-lighten the heavens, which on the seventh day approaches a circle.’
-
-In the still older Egyptian pyramids we find proof of the long previous
-existence of great astronomical knowledge and refined methods of
-observation, for these buildings, which are at once the largest and the
-oldest in the world, are laid down so exactly in a meridian line, and
-with such a close approximation to the true latitude, as would have
-otherwise been impossible. In fact there is every reason to believe that
-while they were constructed as tombs for kings, they were at the same
-time intended for national observatories, for the arrangement of the
-internal passages as such is to make the Great Pyramid serve the purpose
-of a telescope, equatorially mounted, and showing the transits of stars
-and planets over the meridian, by reference to a reflected image of what
-was then the polar star, a knowledge of which was essential for accurate
-calculation of the calendar and seasons, for fixing the proper date of
-religious ceremonies, and very probably for astrological purposes.
-
-The prevalence of these solar and astronomical myths among a number
-of different nations separated by wide intervals of space and time is
-very remarkable. Egyptians, Indians, Babylonians, Chinese, Mexicans,
-and Peruvians had myths which were strangely similar, indeed almost
-identical, based on the sun’s annual passage through the constellations
-of the zodiac. His apparent decline and death as he approached the
-winter solstice, and his return to life when he had passed it, gave
-rise to myths of the murder of the Sun-god by some fierce wild boar,
-or treacherous enemy, and of his triumphant resurrection in renewed
-glory. Hence, also, the passage of the winter solstice was a season of
-general rejoicing and festivity, traces of which survive when the sirloin
-and turkey smoke upon the hospitable tables of modern Christmas. One
-remarkable myth had a very universal acceptance, that of the birth of
-the infant Sun-god from a virgin mother. It appears to have originated
-from the period, some 6,450 years ago, when the sun, which now rises at
-the winter solstice in the constellation of Sagittarius, rose in that
-of Pisces, with the constellation of the Virgin, with upraised arms
-marked by five stars, setting in the north-west. Anyhow, this myth of
-an infant god born of a virgin mother holds a prominent place in the
-religions of Egypt, India, China, Chaldæa, Greece, Rome, Siam, Mexico,
-Peru, and other nations. The resemblances are often so close that the
-first Jesuit missionaries to China found that their account of the
-miraculous conception of Christ had been anticipated by that of Fuh-ke,
-born 3468 B.C.; and if an ancient priest of Thebes or Heliopolis could
-be restored to life and taken to the Gallery of Dresden, he would see
-in Raffaelle’s Madonna di San Sisto what he would consider to be an
-admirable representation of Horus in the arms of Isis.
-
-The planets also, still more mysterious in their movements than the sun,
-and therefore still more endowed with human-like faculties of life,
-power, and purpose, were from an early period believed to exercise an
-influence on human affairs. Of the universality of this belief we find
-traces in the names of the days of the week, which are so generally taken
-from the sun, moon, and five visible planets—Mercury, Mars, Jupiter,
-Venus, and Saturn—to whom special days were dedicated. If every seventh
-day is a day of rest, it was originally so because it was thought unlucky
-to undertake any work on the Sabbath, Saturday, or day of the gloomy and
-malignant Saturn.
-
-As time rolled on and civilisation advanced, this simple nature-worship
-and deification of astronomical phenomena developed into larger and more
-complex conceptions. Following different lines of evolution, polytheism,
-pantheism and monotheism began to emerge as religious systems with
-definite creeds, rituals, and sacred books. These lines seem to have been
-determined a good deal by the genius of the race in which the religious
-development took place. The impressions made on the human mind by the
-surrounding universe are very various. Suppose ourselves looking up at
-the heavens on a clear starry night, what will be the impression? To
-one, that of awe and reverence, and he will feel crushed, as it were,
-into nothingness, in the presence of such a sublime manifestation of
-majesty and glory. Another, of more æsthetic nature, will be charmed by
-the beauty of the spectacle, and tempted to assign life to it, and to
-personify and dramatise its incidents. A third, of a scientific turn,
-will above all things wish to understand it.
-
-Thus we find the impression of awe preponderating among the Semitic races
-generally; and as in their political relations, so in their religious
-conceptions, we find them prone to prostrate themselves before despotic
-power. With the Greeks again the æsthetic idea almost swallowed up
-the others, and the old astronomical myths blossomed into a perfect
-flower-bed of poetical and fanciful legends. The Chinese never got beyond
-a simple pantheism, which looked upon the universe as being alive, and
-saw nothing behind it; while the more metaphysical and physically feebler
-races of Hindoos and Buddhists refined their pantheism into a system of
-illusion, in which their own existence and the surrounding universe were
-literally
-
-                        such stuff
-    As dreams are made on,
-
-and to be ‘rounded with a sleep’ was the final consummation devoutly to
-be desired.
-
-Monotheism developed itself later, partly from the feeling of the
-unity of nature forcing itself on the more philosophical minds; partly
-from that feeling of reverence and awe in presence of the Unknown which
-swallowed up other conceptions; and partly, in the earlier stages, from
-the feeling which exalted the local god of the tribe or nation, first
-into a supremacy over other gods, and finally into sole supremacy,
-degrading all other gods into the category of dumb idols made by human
-hands. In the Old Testament we can trace the development of this latter
-idea in its successive stages. Until the later days of the Jewish
-monarchy it is evident that the Jews never doubted the existence of other
-gods; and their allegiance oscillated between Jehovah and the heathen
-deities symbolised by the golden calf, worshipped in high places, and
-contending for the mastership in the rival sacrifices of Elijah and the
-priests of Baal. But the prophetic element gradually introduced higher
-ideas, and in the reigns of Hezekiah and Josiah the worship of Jehovah
-as the sole God became the religion of the State; and old legends and
-documents were re-edited in this sense in the sacred book, which was
-discovered and published for the first time in the reign of the latter
-king. The subsequent misfortunes of the nation, their captivity and
-contact with other religions in Babylonia, strengthened this monotheism
-into an ardent, passionate national faith, as it has continued to be
-with this remarkable people up to the present day. Christianity and
-Mahometanism, children of Judaism, have spread this form of faith over
-a great part of the civilised world; and of the three theories of
-polytheism, pantheism, and monotheism, it may be said that only the two
-latter survive.
-
-Polytheism was bound to perish first, for slow as the advance of science
-was, the uniformity of most of the phenomena, which had been attributed
-to so many separate gods, could not fail to make an impression; and as
-ideas of morality came slowly and tardily to be evolved as an element
-of religion, the cruel rites and scandalous fables which so generally
-accompanied polytheistic religions became shocking to an awakening
-conscience.
-
-It is worthy of remark that this element of morality, which has now
-gone so far towards swallowing up the others, was the latest to appear.
-Even in the Jewish conception Jehovah was for a long time just as often
-cruel, jealous, and capricious, as just and merciful; and St. Paul’s
-doctrine that because God had the power to do as He liked, He was
-warranted in creating a large portion of the human race as ‘vessels of
-wrath,’ predestined to eternal punishment, is as revolting to the modern
-conscience as any sacrifice to Beelzebub or Moloch. If we wish to see how
-little necessary connection there is between morality and monotheism, we
-have only to look at Mahometanism, which, in its extremer forms, may be
-called monotheism run mad.
-
-The Wahabite reformer, we are told by Palgrave, preached that there were
-only two deadly sins: paying divine honours to any creature of Allah’s,
-and smoking tobacco; and that murder, adultery, and such like trivial
-matters, were minor offences which a merciful Allah would condone. He
-held also that of the whole inhabitants of the world all would surely
-be damned, except one out of the seventy-two sects of Mahometans, who
-held the true faith and dwelt in the district of Riad. This illustrates
-the insane extremes into which all human speculations run, if a single
-idea—in this case that of awe, reverence, and abject submission in
-presence of an almighty power—is allowed to run its course without check
-and obtain undue preponderance.
-
-Apart from these extreme instances we may say that the two religious
-theories which have survived to the present day in the struggle for
-existence, are monotheism and pantheism. Pantheism is, in the main, the
-creed of half the human race—of the teeming millions of India, China,
-Japan, Ceylon, Thibet, Siam, and Burmah. How deeply it is rooted in
-their conceptions was very forcibly impressed on me in a conversation I
-had on board one of the P. and O. steamers with an English missionary
-returning from China. He told me how he had dined one evening with an
-intelligent Chinese merchant, and after dinner they walked in the garden
-discussing religious subjects, and he tried to impress on his host the
-first principles of the Christian religion. It was a starlight night,
-and for sole reply the Chinese gentleman stretched his hand to the
-heavens and said, ‘Do you mean to tell me all that is dead—do you take
-me for a fool?’ The Chinese ‘illative sense’ was as absolute in its
-conclusions for pantheism, as that of Cardinal Newman for theism. In fact
-pantheism, though not the whole truth, and almost as inconsistent as
-polytheism with the real facts of the universe as disclosed by science,
-has a certain poetical truth in it, to which chords of human emotion
-vibrate responsively, and is perhaps not so widely in error as some of
-the extreme theories which treat matter as something base and brutal.
-Wordsworth’s noble lines—
-
-                          A sense sublime
-    Of something far more deeply interfused,
-    Whose dwelling is the light of setting suns,
-    And the round ocean and the living air,
-    And the blue sky, and in the mind of man;
-    A motion, and a spirit that impels
-    All thinking things, all objects of all thoughts,
-    And rolls through all things—
-
-are pure pantheism, and yet we cannot but feel ourselves to a great
-extent in sympathy with them.
-
-So also the well-known lines of a greater than Wordsworth, Shakespeare,
-are pure Buddhism:
-
-    The cloud-capp’d towers, the gorgeous palaces,
-    The solemn temples, the great globe itself,
-    Yea, all which it inherit, shall dissolve
-    And, like this insubstantial pageant faded,
-    Leave not a rack behind. We are such stuff
-    As dreams are made on, and our little life
-    Is rounded with a sleep.
-
-No one can read these lines without feeling that the Buddhist conception
-is as far as possible from being a trivial or vulgar one, and that the
-triviality and vulgarity are rather with those who cannot, up to a
-certain point, understand and sympathise with it.
-
-The religions of the East are very philosophical, and have kept very
-clearly in view this fundamental distinction between the knowable and
-the unknowable. In the ‘Century Magazine’ of July 1886, there is an
-interesting account of a conversation between an American missionary
-and the Bozu or chief priest of the great temple of the Shin Sect of
-Buddhists at Kioto in Japan. The priest was an intelligent and highly
-educated gentleman who spoke English, and was well versed in the
-speculations of modern philosophy. The conversation turned on theological
-questions, and when pressed by the argument for a Divine Creator, from
-design shown in the universe implying intelligence, he replied:—
-
-‘No; God cannot _make_ matter. Only artificial things show design, only
-things which can be made. What do you mean by saying a thing shows
-design? You only mean that by trying a man could make it.’
-
-And he proceeded to illustrate it thus:—
-
-‘You show me a gold ring; the ring shows design, but not the gold; gold
-is an ultimate element, which can neither be made nor destroyed. When men
-can make a world, then they can prove that this one shows design, for the
-only way they know of design is by what they make.’
-
-He went on to argue for the immortality of the soul, and as a consequence
-for its pre-existence and the transmigration of souls, from the
-conservation of energy; and concluded his argument against the creation
-and government of the world by a comprehensible, anthropomorphic Creator,
-by adducing the existence of evil.
-
-‘There is a sickness,’ he said, ‘called fever and ague; what do you call
-the medicine to cure that?’
-
-‘Quinine.’
-
-‘Yes; now we have not found that long; a good God would not have let so
-many people suffer if He could have given them that. A man found it by
-chance. The sickness and suffering in this life are for wrong done in
-another life.’
-
-We may not accept this unproved theory of the cause of sickness and
-suffering, but it is very interesting to find that candid and intelligent
-minds, brought up in a society and religious beliefs so widely different
-from our own, have arrived practically at the same conclusions as John
-Stuart Mill, Herbert Spencer, and other leaders of advanced thought in
-modern Europe, and drawn almost identically the same line between that
-which is knowable and that which is unknowable by the human mind.
-
-But, however large-minded we may become in seeing the good in other
-forms of creed, we English of the nineteenth century are not going to
-turn either pantheists or Buddhists, and practically the contest of the
-present day is between the supernatural or miraculous, and the natural or
-scientific, hypotheses.
-
-According to the former the operations of the universe are carried on to
-a considerable extent by what may be called secondary interferences of a
-supernatural being, who with will, intelligence, and design, like human
-though vastly superior, frequently interposes to alter the course of
-events and bring about something which natural law would not have brought
-about. The other hypothesis cannot be stated better than in Bishop
-Temple’s words, that the Great First Cause created things so perfect
-from the first, that no such secondary interferences have ever been
-necessary, and everything has been and is evolved from the primary atoms
-and energies in a necessary and invariable succession. The supernatural
-and the natural theories of the universe are thus brought into direct
-antagonism.
-
-For the supernatural theory it must be conceded that it is quite
-conceivable, as is proved by the fact that it has been the almost
-universal conception of mankind for ages, and remains so still for the
-greater number. It is, as I have said, the inevitable first conception
-when men began to reflect on the phenomena of the universe, and to reason
-from effects to causes. I have always thought that Hume went too far in
-condemning miracles as absolutely incredible _a priori_. It is a question
-of evidence. _A priori_, I can conceive that the true explanation of the
-universe might have been natural law, as the general rule, supplemented
-by miracles; just as readily as that it is law always, and miracle never.
-The verdict must be decided by the weight of evidence. The two theories
-must be called, face to face, before the tribunal of _fact_, and its
-decision must be respected. This is exactly what has been going on for
-the last two centuries, and specially for the last half century, and the
-record of decisions is now a very ample one. In every single instance law
-has carried the day against miracle.
-
-Instance after instance has occurred in which phenomena which in former
-ages were attributed without hesitation to supernatural agencies have
-been conclusively proved to be due to natural laws. Take the obvious
-instance of thunder. When Horace wrote:—
-
-    Jam satis terris nivis, atque diræ
-    Grandinis misit Pater, et rubente
-    Dextera sacras jaculatus arces
-        Terruit urbem,
-
-he wrote to a public to whom it was an undoubted article of faith that
-thunder and lightning, hail and snowstorms, came direct from the Father
-of the gods in the sky. Even to a late period this was the general
-faith, and the prayers in our rubric for rain or fine weather remain
-as a survival of the belief that these things, when unusual or in
-excess, are supernatural manifestations. But Benjamin Franklin said,
-‘No, there is nothing supernatural about lightning. I will bring it
-down from the clouds and manufacture it by turning a wheel.’ Appeal
-being made to _fact_, the verdict is that Franklin was right, and that
-lightning-conductors protect ships and houses better than prayers or
-incantations. Again, when Galileo and the Church joined issue as to
-whether the earth was round or flat, inspiration and authority were
-cited in vain for the received theory; _fact_ said it was round, and
-it was proved to be so by men sailing round it. The law of gravity was
-considered a very dangerous heresy, and for a long time pious divines
-held out against its conclusions, and contended that it was no better
-than atheism to doubt that comets were signs of God’s anger sent to warn
-a sinful world. But Halley calculated the time of his comet’s return
-according to the laws of gravity, and appeal being made to fact, the
-comet returned true to time.
-
-This has occurred so often that few are left who doubt the universal
-prevalence of law in the material universe, where former generations saw
-miracles at every turn. Nor is the defeat of miracle less conspicuous
-in the spiritual world. Where former ages and rude races saw, and still
-see, possession by evil spirits, modern doctors see fevers, epilepsies,
-or insanity. Once more appeal being made to _fact_, the old medicine-men
-administered incantations, the new ones quinine—which cure the most
-patients?
-
-In like manner demonology and witchcraft, with all their train of
-cruelties and horrors, once universally believed even by men like Justice
-Hale, have passed into oblivion as completely as the Lamiæ, Phorkyads,
-and other fantastic figures of the classical Walpurgisnight. Is the
-world the better or the worse for this triumph of natural law over
-supernaturalism?
-
-The triumph has been so complete in innumerable instances, without
-a single one to the contrary, that belief in the permanence and
-universality of natural law has become almost an instinct in all educated
-minds, and even those who cling to old beliefs must admit that the most
-cogent and irresistible evidence is requisite to establish the fact of a
-real supernatural interference. It may be taken as an axiom that wherever
-a natural explanation is possible, a miraculous one is impossible.
-
-Now this is just the point on which, as knowledge has increased, the
-evidence for miracles has become weaker, almost in the exact ratio in
-which the necessity for evidence has become stronger.
-
-Take, for instance, the following case recorded by Dr. Braid of Glasgow.
-Miss R. had suffered from ophthalmia and was totally blind. She could
-not discern a single letter of the title-page of a book placed close
-to her, though some of the letters were a quarter of an inch long. Dr.
-Braid placed the patient in a condition of hypnotism or artificial
-somnambulism, and directed the nervous force, or sustained attention of
-the mind, to the eyes by wafting over them. After a first sitting of
-about ten minutes she was able to read a great part of the title-page,
-and after four more sittings she was able to read the smallest-sized
-print in a newspaper, and was quite cured for the rest of her life. In
-another case, that of Mrs. S., blindness of the left eye had occurred
-owing to an attack of rheumatic fever, the structure of the eye, both
-external and internal, being considerably injured, and more than half the
-cornea covered by an opaque film. After a few sittings the cornea became
-transparent, and the patient was cured.
-
-In both these cases the blind were made to see by processes which were
-purely mechanical, for hypnotism was induced by the simple means of
-making the patient strain her attention on some fixed idea or object,
-commonly on a black wafer stuck on a white wall, and the stimulation
-of the optic nerve to greater activity did the rest. And if the blind
-could be made to see, _a fortiori_ the deaf were made to hear, and the
-lame and halt to walk, by the same mechanical process. Here there is an
-explanation of nine-tenths of all recorded miracles by purely natural
-causes.
-
-Again, take the well-known case of the Berlin bookseller, Nicolai, who,
-having fallen into ill-health, for a whole year saw, when awake, visions
-so real and palpable that he may be said to have lived in the company of
-disembodied spirits, undistinguishable from actual men and women. This is
-a common phenomenon in vivid dreams, but the Berlin case takes us a step
-farther, and shows us how subjective impressions may assume the form of
-objective realities, even in the case of a man wide awake, of a sceptical
-turn of mind, and in full possession of his reasoning faculties. Why
-then should we be driven to the alternative of miracle or imposture, to
-account for similar dreams or visions being taken for objective realities
-by enthusiastic minds, living in an atmosphere of religious excitement,
-in an uncritical age, when supernatural occurrences were considered to
-be matters of course? And history is full of instances which show how
-any supernatural germ, planted in such a medium, propagates itself and
-extends to millions, almost as rapidly as the bacillus germ does in an
-epidemic of small-pox. St. Vitus’s dance, or the dancing mania, ran the
-round of Europe like the potato disease, and even yet survives in the
-hysterical affections of the sect of Shakers. The gift of tongues spread
-like wildfire through Irving’s congregation, and only died out because it
-had fallen on the uncongenial soil of the nineteenth century; even the
-story of the tail of the lion over the gateway of the old Northumberland
-House being seen by many passers-by to wag because one had asserted it,
-illustrates the contagiousness of nervous sympathy, and the tricks which
-‘strong imagination’ can play with the senses.
-
-Another great blow has been dealt against the miraculous theory by what
-can only be called the singular want of intelligence displayed in the
-exercise of miraculous power as commonly recorded. The _raison d’être_,
-or effect desired to be produced by miracles, is to convert mankind from
-sin, or to attest a divine mission by convincing proofs. Even ordinary
-human intelligence—and how much more so that of a superior Being—must see
-that to attain this end the means must be to make the proof convincing.
-There is no reason in itself why it should not be so. The fact that a man
-who was alive and signed a will is now dead, is attested as regards the
-latter proposition by a proper medical certificate, and as regards the
-former by two credible witnesses, who are prepared to come into court,
-give their names and addresses, depose on oath to the signature, and
-stand cross-examination. If this testimony is required to establish a
-fact so antecedently probable as that one particular man has undergone
-the common fate of millions of millions of other men, that is to say,
-that he has died after being alive, how much more must it be requisite
-to establish the fact so antecedently improbable, as that one man
-among those many millions after having died came back to life. And yet
-where is the recorded miracle for which even this _minimum_ amount of
-testimony is forthcoming? Why are miracles so constantly performed in
-holes and corners, in obscure localities, among little knots of ignorant
-and enthusiastic adherents, attested by the vaguest hearsay evidence
-of unknown or incompetent witnesses, and apparently under circumstances
-inevitably calculated to defeat their object and engender doubts in
-the minds of reasonable and conscientious men. Take, for instance, the
-miracles now said to be wrought at Lourdes. The object must be taken to
-be to convert infidel France to the Catholic faith. But obviously this
-object would be far better attained by a single undoubted miracle wrought
-at Paris before a commission headed by a man like Pasteur, than by any
-number of miracles scarcely, if at all, distinguishable from those of Dr.
-Braid, alleged to occur at an obscure village in the presence of peasants
-and pilgrims. Or, take a higher instance, that of the demand made by the
-Pharisees to Jesus for a sign to attest his Messiahship. Consider the
-circumstances of the case, and see if it is at all possible that if he
-had possessed the power of working miracles he should have replied, ‘Why
-doth this generation seek after a sign? verily I say unto you, there
-shall no sign be given unto this generation’ (St. Mark ix. 12). In the
-first place the statement throws discredit upon all the miracles said to
-have been wrought, by the positive and explicit declaration that none
-should be wrought. But beyond this, the very essence of the mission of
-Jesus was contained in the words, ‘Repent ye, for the kingdom of heaven
-is at hand.’ He had a firm conviction that the kingdom of heaven, or a
-millennium of peace and goodwill, was close at hand, and its advent only
-retarded by the sinfulness and want of faith of his chosen people. He
-thought it his bounden duty to do all he could to remove the obstacle and
-expedite the coming of the kingdom. With this conviction, though fully
-seeing the risk and counting the cost, when he found that he was making
-no decided headway by preaching in a remote province, he determined to go
-to Jerusalem and make there one great effort to accomplish his object.
-Can it be doubted that he would use every means in his power to carry
-his mission to a successful conclusion? If, having the power to do so by
-working a miracle, he had refused, he would from his point of view have
-been guilty of a great sin—that of preventing the coming of the kingdom
-of heaven.
-
-Again, who were the Pharisees? No doubt there were formalists and
-hypocrites among them, but the position of the sect in the Jewish nation
-was almost exactly similar to that of the English Puritans in the reign
-of Charles. They were the embodiment of the patriotic and religious
-spirit of the race, the sons of the heroic fathers who fought under Judas
-Maccabeus against Antiochus, the fathers of the equally heroic sons who
-made the last desperate stand against the legions of Titus. It was their
-duty, when a claim to Messiahship was advanced, before departing from
-the traditions of their ancestors, to require evidence. The universally
-expected evidence of a temporal deliverer being wanting, there remained
-only the evidence of miracles, which, moreover, were assigned as the test
-of a Messiah by all their prophets. To refuse them a sign, if a sign were
-possible, was to do injustice to many sincere and conscientious men.
-Nay, more, it was an act of cruelty if leaving them in their old faith
-entailed eternal punishment. The same thing applies to all records of
-miracles. They are never wrought under circumstances where they would be
-the most effective means for attaining proposed ends. They are never
-wrought under circumstances which leave them clear of the suspicion
-of being subjective illusions or misinterpretations of effects due to
-natural causes. They never convince any but those who are more than half
-convinced already.
-
-It would be easy to multiply instances showing the inadequacy of the
-evidence adduced to establish such an exceptional and extraordinary fact
-as the occurrence of a real miracle. But it is unnecessary to do so,
-as all thinking minds have come, or are fast coming, to the conclusion
-of Dr. Temple, that ‘all the countless varieties of the universe were
-provided for by one original impress, and not by special acts of creation
-modifying what had previously been made.’
-
-It is only when we look behind the phenomena of the universe at this
-Great First Cause, that I see anything to object to in the definition
-of Dr. Temple, and of Christian philosophers generally. They assume it
-to be a personal Deity, who is to a great extent known or knowable, and
-therefore must have attributes conformable to human perceptions which
-are the basis of all human knowledge. In other words, however much we
-may purify and enlarge these attributes, He must be essentially an
-anthropomorphic God or magnified man. To this theory there seems to me
-to be this fatal objection, that it gives no account of the origin of
-evil, or rather that it makes the Divine Creator directly responsible
-for it. The existence of evil in the world is as palpable a fact as the
-existence of good. There are many things which to our human perceptions
-appear to be base, cruel, foul, and ugly, just as clearly as other things
-appear to be noble, merciful, pure, and beautiful. Whence come they?
-If the existence of good proves a good Creator, how can we escape the
-inference that the existence of evil proves an evil one? This is never
-so forcibly impressed on me as when I read the arguments of those who
-insist most strongly on the conception of a one, anthropomorphic God.
-When Carlyle says, ‘All that is good, generous, wise, right—whatever I
-deliberately and for ever love in others and myself—who or what could
-by any possibility have given it to me but One who first had it to
-give? This is not logic, but axiom.’ I cannot but picture to myself the
-sledgehammer force with which, if he had approached the question without
-prepossessions, he would have come down on the cant, the insincerity, the
-treason to the eternal veracities, which refused to look facts in the
-face, and apply the same reasoning to the evil. Or if Arnold defines the
-Deity as the ‘Something not ourselves which makes for righteousness,’ how
-of the Something not ourselves which makes for unrighteousness? The only
-escape I can find from this dilemma is to accept existing facts and not
-evade them. It is a fact that polarity is the law of existence. Why we
-know not, any more than we know the real essence and origin of the atoms
-and energies which are our other ultimate facts. But we accept atoms and
-energies, and accept the law of gravity and other laws; why not accept
-also the law of polarity, and admit that it is part of the ‘original
-impress’: one of the fundamental conditions under which the evolution of
-Creation from its ultimate elements is necessitated to proceed. This the
-human mind can understand; beyond it is the great unknown or unknowable,
-in presence of which we can only feel emotions of reverence and of awe,
-and ‘faintly trust the larger hope’ that duality may somehow ultimately
-be merged in unity, evil in good, and ‘every winter turn to spring.’
-
-As nations advanced in civilisation there has always been a tendency
-among the higher and purer minds to relegate the Great First Cause
-further and further back into the unknown, and to divest it of
-anthropomorphic attributes. When Socrates said, ‘that divinely revealed
-wisdom of which you speak, I deny not, inasmuch as I do not know it;
-I can only understand human reason,’ he spoke the identical language
-of Darwin, Spencer, Huxley, and those leaders of modern thought whom
-theologians call agnostics. Even in religions based on the idea of a
-single anthropomorphic Deity the same tendency often appears among the
-highest thinkers. Thus Emmanuel Deutsch, in his learned work on the
-Talmud, tells us, ‘Its first chapter treats of the Deity as conceived
-by Jewish philosophy. The existence of God is, of course, presupposed.
-But what of His attributes? Has He any? Scripture literally taken seems
-to affirm this. Yet taken in a higher sense, as understood by the
-Alexandrines, the Talmud, and the Targum, it denies it.’
-
-The great Jewish doctors, Ibn Ezra, Jehuda Hilmi, and Maimonides, take
-this view of a divine origin shrouded in ineffable mystery. Maimonides
-says, ‘If you give attributes to a thing, you define this thing, and
-defining a thing means to bring it under some head, to compare it with
-something like it. God is sole of His kind. Determine Him, circumscribe
-Him, and you bring Him down to the modes and categories of created
-things.’ Even St. Paul says, ‘O the depths of God. How unsearchable are
-His judgments, and how inscrutable His ways’; and the Creed of our own
-Church, in the midst of a string of definitions all implying that God is
-comprehensible, has the words ‘the Father incomprehensible.’
-
-It is evident that the reasons why these anticipations of the prevailing
-tendency of modern thought only appeared by glimpses, and among a
-very limited number of philosophic minds, arose from the fact that
-the miraculous theory of the universe everywhere prevailed. Every
-unusual occurrence was supposed to be owing to the direct supernatural
-interference of a Being acting in the main with human attributes, and
-therefore to be a direct refutation of the theory which denied the
-possibility of defining His attributes, and relegated Him to the dim
-distance of an incomprehensible Creator. With the utter breakdown of the
-miraculous theory, and the certainty that all the countless varieties
-of the universe arise, not from special interferences, but from one
-original impress, this theory of a reverent and devout agnosticism
-becomes impregnable and holds the field against all rivals. It, and it
-alone, is consistent with the facts of science, the deductions of reason,
-the axioms of morality, while at the same time it denies nothing, and
-leaves an ample background on which to paint the visions of faith, and to
-reflect back to us spectral images of our hopes and fears, our longings
-and aspirations.
-
-Some seek for a solution of the mystery, and try to reconcile the
-existence of evil with that of an almighty and beneficent Creator, by
-assuming that in the long run everything will come right. Evolution, they
-say, has led constantly to higher and better things, and when carried far
-enough will lead to a state of society in which wars will cease, evil
-passions die out, and universal love and charity prevail—in other words,
-to a millennium.
-
-Even if this were true, what of the untold millions of the human race who
-have perished in their sins while evolution was slowly working out this
-tardy millennium? Are they the _chair à canons_, whom a Napoleon-like
-Deity sacrifices with cynical indifference, in the calculated moves of
-the game of Creation? Is this their idea of an all-wise and all-merciful
-Father who is in heaven?
-
-And again, is it true that evolution works constantly for good and
-promises to bring about such a millennium? It is doubtless true that
-evolution means progress, and the ever-increasing development of the
-more and more complex and differentiated from the simple and uniform.
-But is this all for good, or all for happiness; and is not evolution,
-like everything else, subject to the primary and all-pervading law of
-polarity? We have only to ask the question to answer it. In the case
-of the individual, which is the epitome of the history of the species,
-is development from the engaging innocence of childhood always in the
-direction of goodness and happiness?
-
-So far is this from being the case that, as individuals and societies
-advance, and become higher and more complex in the scale of organisation,
-the law of polarity asserts itself with ever-increasing force, and
-contrasts become sharper. The good become better, the bad worse; and as
-we become less
-
-    Like the beasts with lower pleasures,
-    Like the beasts with lower pains,
-
-if our happiness becomes more intense, so does our misery become more
-intolerable. I refer not merely to physical conditions, though here the
-contrast is most apparent. An intelligent traveller who recently circled
-the world, surveying mankind with a keen and impartial eye ‘from China to
-Peru,’ says, as the result of his experience, ‘The traveller will not see
-in all his wanderings so much abject repulsive misery among human beings
-in the most heathen lands, as that which startles him in his civilised
-Christian home, for nowhere are the extremes of wealth and poverty so
-painfully presented.’ This is perfectly true; but it would be a rash
-conclusion to infer that civilised and Christian countries are worse than
-heathen lands, or that those who march in the van of progress and succeed
-in the struggle for life, have a larger dose of original sin than the
-laggards and those who fail.
-
-Accumulations of population and accumulations of capital are alike causes
-and effects of progress in an industrial age. But you can no more have a
-north without a south pole, than you can have this progress without its
-counterpart of suffering. When an educated gentleman was, like the good
-vicar,
-
-    Passing rich with forty pounds a year,
-
-how many struggles and how many heart-aches were avoided. When ‘merry
-England’ dwelt in rural hamlets and villages, the ‘bitter cry’ of East
-London could scarcely have been written. Turn it as you like, increase of
-population means increase of poverty. Say that only five per cent. fail
-in the battle of life, from their own or inherited faults; from bad luck,
-ill-health, weakness of mind, adverse surroundings; five per cent. on
-thirty millions is a larger figure than five per cent. on ten millions.
-And the lot of those who fail is aggravated by the success of those who
-succeed. The scale of living rises, and the cost of living increases,
-while competition becomes keener. Increase of population in a limited
-area means increased difficulty of finding employment; and the complex
-relations of international commerce send panics and crises vibrating
-throughout the world, which throw millions out of work, or reduce them
-to starvation wages. In simple forms of society every one accepts the
-condition in which he finds himself as a matter of course, while in a
-more complex civilisation the fiend Envy steps in, and teaches the baser
-natures who are failures, to regard every success as an insult and every
-successful man as an enemy. Hence Labour rises in mad revolt against
-Capital; Socialists attack society with dynamite; and Utopian theorists
-preach a millennium to be attained by abolishing private property and
-individual liberty.
-
-If we turn to the moral aspects of the question, it is still more
-clear that evolution does not tend solely to the side of virtue.
-There is doubtless less ferocious savagery, less rude and unconscious
-or half-conscious crime, in civilised societies, but there is far
-more deliberate and diabolical wickedness. The very temptations and
-opportunities which, if resisted, lead to higher virtues, if succumbed
-to, lead to greater vice. Even the intellectual advance, if perverted,
-becomes the instrument of greater crimes. A chemist discovers
-nitro-glycerine, and dynamite becomes a resource of civilisation. There
-is a saying that there is ‘no blackguard so bad as a Scotch blackguard,’
-which, as a patriotic Scotchman, I take to be a tribute to the generally
-high intellectual and moral character of my countrymen. A powerful
-polarity is powerful, as the case may be, either for good or evil. Why
-then should we believe that evolution, which, carried thus far, has
-developed more strongly the contrast between good and evil, will, if
-carried a little farther, extinguish it by annihilating the evil?
-
-In fact, the good and evil resulting from the higher evolution of society
-are so equally balanced that it depends very much on place, time, and
-temperament whether we are optimists or pessimists. If my liver acts
-properly I am an optimist; if it is out of order, a pessimist. Personally
-I incline to optimism—that is, I think that this world, if not exactly
-‘the best of all possible worlds,’ is yet on the whole a very tolerable
-world, and that life to the majority, and on the average, is worth
-living. I think also that progress is certainly towards higher, and very
-probably towards happier, conditions. It seems to me that in the most
-advanced English-speaking communities, the condition of at least one
-half—viz. the female half—of the population is distinctly better, and
-that the working class, who form the majority of the male half, though
-many are worse off than formerly, are, on the whole, better fed, better
-clothed, better educated, and better behaved.
-
-This, however, is perhaps very much a matter of temperament. Greater
-minds than mine have seen things differently and inclined to pessimism.
-Buddhism, and almost all Oriental religions and philosophies, are based
-upon it, and look to Nirvana or annihilation of personal identity as the
-supreme bliss. Pauline Christianity assumes that all mankind, except a
-few chosen vessels, are so hopelessly bad as to be predestined to eternal
-damnation. And even more remarkable, Shakespeare, the universal genius,
-who one would say had as happy a temperament and led as successful a
-life as any man, had his moods of despondency in which he could say:—
-
-    When in disgrace with fortune and men’s eyes,
-      I all alone bemoan my outcast state;
-    Wearying deaf heaven with my fruitless cries,
-      And look upon myself, and _curse my fate_.
-
-Or declare with Hamlet that no one would bear the ills of life if
-
-    He himself could his quietus make
-    With a bare bodkin.
-
-With instances like these, and the disgust of life manifested in so
-many modern societies by the increase of suicides, and the spread of
-pessimistic theories like those of Schopenhauer and Hartmann, who can
-deny that the great magnet of modern civilisation has a south as well as
-a north pole, and that progress is not all towards perfection?
-
-The attempts of theologians to reconcile the existence of evil with the
-goodness of an almighty Creator, by relegating the adjustment to a future
-life, only make the fact of this fundamental polarity more apparent, for
-their conceptions of a heaven and a hell obviously do not reconcile, but
-only intensify, the opposite polarities. The good are better, the bad
-worse, the happy happier, and the wretched more miserable, in all these
-attempts to define the undefinable and to reconcile divine justice with
-divine mercy. All that remains really clear to each individual is that
-by his efforts in this life he can do something to keep the balance of
-polarities somewhat more on the side of good, both in his own individual
-existence, and in that of the aggregate of units, of which he is one,
-which is called society or humanity.
-
-The great advantage of this form of religious hypothesis, which for want
-of a better name I call Zoroastrianism, is that, in the first place, it
-gets rid of the antagonism between religion and science, for there is no
-possible discovery of science which is irreconcilable with the fact that
-there is a necessary and inevitable polarity of good and evil, and in the
-background a great unknown, which may be regarded with those feelings
-and aspirations which are inseparable from human nature. And secondly,
-there is the still greater advantage that we can devote ourselves with
-a whole heart and sincere mind to the worship of the good principle,
-without paltering with our moral nature by professing to love and adore a
-Being who is the author of all the evil and misery in the world as well
-as of the good. If it were really true that there were such a Being as
-theologians describe, who created the immense majority of the human race
-vessels of wrath doomed to eternal punishment, either from pure caprice
-or to avenge the slight offered to Him by the disobedience of a remote
-ancestor, what would be the attitude of every healthy human soul towards
-such a Being? Rather that of Prometheus or Satan, than of Gabriel or
-Michael; of heroic defiance than of abject submission. We may gloss this
-over in words, but the fact remains, and it is difficult to overestimate
-the amount of evil which has resulted in the world from this confusion of
-moral sentiments which has made good men do devil’s work in the belief
-that it had divine sanction.
-
-The horrors of demonology and witchcraft had their origin in texts of
-the Old Testament; religious wars and persecutions arose out of the
-fundamental error that intellectual acceptance of doubtful dogmas was the
-one thing necessary for salvation; and ruthless cruelty was justified
-by an appeal to God’s anger with Saul for refusing to hew in pieces the
-captive Amalekites. A follower of Zoroaster would see at once that these
-were works of Ahriman and not of Ormuzd, and that in taking part in them
-he was deserting the standard under which he had enlisted, and doing
-deeds of darkness while pretending to serve the Prince of Light. This
-idea of being a soldier enlisted in the army of light seems to me to
-afford one of the strongest practical inducements to hate what is evil
-and cleave to what is good. A bad deed or foul thought is felt to be not
-only wrong but dishonourable: a disloyal going over to the enemy and
-abandonment of the chief under whom we had enlisted, and of the comrades
-with whom we had served. This is a very strong motive, and even in the
-humble ranks of the Salvation Army we can see how powerfully it operates
-to make men true to their banner.
-
-Indeed a great deal of what is best in genuine Christianity seems to me
-to resolve itself very much into the worship of Jesus as the Ormuzd or
-personification of the good principle, and determination to try to follow
-his example and do his work. It happens to me to receive a good many
-circulars from the devoted men and women who are doing so much charitable
-work to assist the poor and fallen, and I observe that the appeals are
-almost constantly made in the name of Jesus. When the Salvation Army
-made an appeal the other day to its members for funds to prosecute
-their campaign, it was touching to read the replies and see men parting
-with an overcoat or giving up their beer, and women going without a new
-bonnet or cup of tea, to contribute their mite. But always for the
-‘love of Jesus,’ for the ‘Saviour’s sake,’ as an offering to the ‘dear
-Redeemer.’ Theological Christianity says that the one thing needful is
-to believe in the Catholic Faith as defined by the Athanasian Creed,
-without which we shall ‘without doubt perish everlastingly.’ Practical
-Christianity has completely dropped the Holy Ghost as a sort of fifth
-wheel to the coach, and relegated the Father into ever vaguer and greater
-distance; while it has fastened more and more on the figure of Jesus of
-Nazareth as the practical living embodiment of the good principle of the
-universe. In a word, Christianity, as it has become more reasonable, more
-charitable, more pure, and more elevated, has approximated more and more
-to Zoroastrianism, and for practical purposes modern Christians are, to a
-great extent, without knowing it, worshippers of Ormuzd, with Christ for
-their Ormuzd.
-
-To this I see no sort of objection. The tendency to personify abstract
-principles in something which is warmer, dearer, nearer to ourselves,
-is ineradicable in human nature; and especially among the great masses
-of mankind who cannot rise to the height of philosophical speculations.
-It is impossible in the present age to invent new personifications,
-or to revive old ones. Jesus has the immense advantage of being in
-possession of the field, with all the accumulated love and reverence
-of nineteen centuries of followers. It would be difficult to invent a
-better ideal or a more perfect example. No doubt the ideal, like all
-human conceptions, is not absolutely perfect; it is subject to the law of
-polarity, and its excellences, if pushed to the ‘falsehood of extremes,’
-in many cases become faults. It would not do in practice if smitten
-on one cheek to turn the other, or to take no thought for the morrow
-and live like the sparrows. The opposition between the flesh and the
-spirit is also stated so absolutely, that it is apt to lead to a barren
-and ignoble asceticism. But those are elements which, practically, are
-not likely to be pushed to excess, and which serve rather to mitigate
-the tendencies of modern civilisation to an undue preponderance of the
-opposite polarities of selfishness, worldliness, and sensuality. Courage,
-hardihood, self-reliance, foresight, a love of progress, and a desire to
-attain independence, will always remain prominent virtues, especially
-of the stronger races, and the gentler teachings of Christianity will
-long be wanted as an influence to soften, to elevate, and to purify.
-By all means, therefore, let Christians remain Christians, and see in
-Christ their Ormuzd, or personification of the good principle. Only let
-them remember that there are two sides to every question, and cease to
-entertain hard and bitter thoughts towards those who follow the truth
-after a different fashion. Let them delight rather to discover unity in
-the spirit than differences in the letter, and instead of anathematising
-with Athanasius those who dissent by one hair’s breadth from the Catholic
-faith, strive with St. Paul after that charity which ‘suffereth long and
-is kind: beareth all things, believeth all things, hopeth all things,
-endureth all things.’
-
-This will be easier if they recollect that love and reverence for Jesus,
-as the personification of the good principle, is in no way connected
-with the supernatural dogmas and legends which have come down from
-superstitious ages, and which are seen every day, more and more clearly,
-to stand in direct contradiction to the real facts and real laws of the
-universe. He is the bright example of the highest ideal of human virtue,
-not on account of miracles, but in spite of them; not because he was a
-transcendental abstraction with attributes altogether outside of human
-experience or conception; but because he was a man whom other men can
-love and other men can strive to imitate. The dogmas and miracles may
-quietly fade out of sight, as so many articles of the Athanasian Creed
-have already done, like mists before the rising rays of larger knowledge
-and purer morality, and yet the essence of Christianity will remain, as a
-worship of the good and beautiful, personified in the brightest example
-which has been afforded—that of Jesus, the son of the carpenter of
-Nazareth.
-
-
-
-
-CHAPTER XII.
-
-CHRISTIANITY AND MORALS.
-
-    Christianity based on morals—Origin of morality—Traced
-    in Judaism—Originates in evolution—Instance of
-    murder—Freedom of will—Will suspended in certain states of
-    brain—Hypnotism—Mechanical theory—Pre-established harmony—Human
-    and animal conscience—Analysis of will—Explained by
-    polarity—Practical conclusion.
-
-
-The great advantage which Christianity possesses over most other
-religions is that it is based to a much greater extent on the solid
-foundation of an elevated morality. The creeds of ancient Egypt, of
-Buddhism, and of Confucianism contain many excellent moral precepts;
-and the injunctions to ‘do unto others as you would be done by,’ and
-to ‘love your neighbour as yourself,’ are to be found long before the
-Sermon on the Mount. But these religions in the main followed other lines
-of development, and branched off either into metaphysical conceptions
-or into formal rites and ceremonies. With the exception of Judaism, of
-which Christianity is the lineal descendant, no religion has ever to the
-same extent become to the great mass of its adherents a rule of conduct
-and an incentive, strengthened by divine sanction, to lead pure and
-upright lives. This is the sense in which Christianity has always been
-understood by the vast majority of Christians, and its corruptions have
-come much more from above than from below; from theologians, priests,
-and politicians, than from the instincts of the millions; and this it
-is which enables it to retain such a wonderful vitality even in modern
-times, when faith in dogmas and miracles has been so greatly weakened.
-In order to appreciate the solidity of this basis it is necessary to
-understand the origin of morals, and to see that the fundamental precepts
-of moral law are not mere chance inventions of a few exceptional minds,
-or the teachings of doubtful revelations, but are the necessary growth
-and products of human nature, in the course of the evolution of society
-from rude beginnings to a high civilisation. This gives them a certainty
-and sanction which could be derived from no other source, and makes them
-what in fact they have become—almost primary instincts of the natural and
-normal mind in civilised communities. I proceed, therefore, to endeavour
-to trace shortly the process by which moral laws have originated and
-grown up to their present certainty and cogency in the course of
-evolution.
-
-As I have already said, the element of morality is one of the latest to
-be developed in religious conceptions. The first impressions of savage
-races reflect the feelings of vague superstitious terror with which
-they regard unknown phenomena and powers. They are afraid of ghosts and
-afraid of thunder, long before they rise to a belief in a future state
-of rewards and punishments, or to the notion of an almighty Being acting
-by natural laws. In a higher state of development they personify natural
-powers in gods, who have no more idea of morality than if they were so
-many parallels of latitude or degrees of longitude; and they invent
-tribal gods, who are simply great chiefs, bound by no laws, but granting
-favours when appeased and inflicting injuries when angry. By slow
-degrees, as civilisation advances, moral ideas are evolved, and the more
-enlightened minds begin to attribute moral attributes to their deities.
-Earnest men, prophets, and reformers take up these ideas and preach them
-to the world, and, if circumstances are favourable and the soil prepared,
-they take root and become popular convictions, surviving in the struggle
-for life, and becoming stronger from generation to generation.
-
-This evolution of moral ideas is most clearly traced in the religious
-history of the Jews. In their earlier conceptions Jehovah is represented
-with all the traits of a jealous and capricious Oriental sultan. The one
-virtue in his eyes is implicit obedience; the one unpardonable crime,
-anything that looks like disrespect. David is the man after God’s own
-heart, though he commits crimes of the foulest description, and treats
-as nullities the moral commandments against adultery and murder. But
-when he takes a census of his people Jehovah is offended, and, with
-a total disregard of justice, visits his anger, not on the offender,
-but on the innocent people whom he decimates by a pestilence. In like
-manner, Abraham is favoured because he is ready to obey the inhuman
-command to sacrifice his son; while Saul loses Jehovah’s favour because
-he hesitates to massacre his captives in cold blood. The first ideas
-of a higher moral sense appear with the prophets in the troubled times
-of the later kings—when poor little Palestine was being ground between
-the upper millstone of Assyria and the nether one of Egypt. Sufferings
-and persecutions, anxieties and tribulations, wrought a ferment in the
-Jewish mind from which new ideas were generated. Sacrifices had been duly
-offered, and yet the enemies of Jehovah waxed and his chosen people
-waned. It must be that He was offended with them because He required
-something better than the blood of bulls—justice and mercy. So taught
-the popular preachers of the day—men like Isaiah and Amos—and by degrees
-their words found acceptance. It was not, however, until the Captivity
-that these ideas of morality were wrought into the Jewish nation so as
-to become, so to speak, flesh of their flesh and blood of their blood,
-as they have remained ever since. Whether it was contact with the more
-advanced moral ideas of religions like those of Buddha and Zoroaster, or,
-more probably, their sufferings from the cruelty and injustice of their
-conquerors, the Captivity certainly made them a new nation, attached
-ardently to morality and monotheism—thus effecting in a few years, and
-by purely human agencies, what, according to received beliefs, centuries
-of miraculous dispensation had failed to accomplish. How speedily and
-how effectually the work was done appears from that most interesting
-narrative of the domestic life of a middle-class Jew of Nineveh, the
-Book of Tobit. The simple piety and homely household virtues are almost
-identically the same as those of many a Jewish family living to-day in
-London or Frankfort. From that time forward Jewish morality maintains
-a high level, and in the age immediately preceding Christianity it had
-attained great purity and spirituality in the school of the early doctors
-of the Talmud, and of the Jewish colony of Alexandria. The Sermon on
-the Mount, beautiful as it is, is but an admirable _résumé_ of maxims
-which are to be found in the works of Philo and other Jewish teachers,
-and which were current in the synagogues of the day. Hillel, who was
-president of the Sanhedrin when Christ was born, when asked what was the
-law, replied, ‘Do not unto another what thou wouldst not have another
-do unto thee. This is the whole Law, the rest is mere commentary.’ And
-again, ‘Do not judge thy neighbour until thou hast stood in his place.’
-
-The Talmud anticipates in a wonderful degree not only the moral precepts
-of the Gospel, but to a great extent its phraseology and technical
-terms. ‘Redemption,’ ‘grace,’ ‘faith,’ ‘salvation,’ ‘Son of man,’ ‘Son
-of God,’ ‘kingdom of heaven,’ were all, as Deutsch shows, not invented
-by Christianity, but were household words of contemporary Judaism. In
-one respect only Christianity shows a higher evolution of morality than
-Judaism—viz. its universality. Pure Judaism hardly rises above the idea
-of ‘neighbour,’ or those who were of the same race or common faith; while
-Christianity, as enlarged by St. Paul, embraces all mankind, and may
-truly say: ‘Humani nihil a me alienum puto.’
-
-The idea that morality and religion are products of a slowly developing
-evolution is denounced by many as degrading and materialistic. In many
-the instinct of the ‘good’ is so strong that it seems to them sacrilege
-to attempt to explain it. They insist that it is either a universal
-instinct implanted from the first in all mankind, or else that it has
-been so implanted by a divine revelation. They forget that, to use the
-vigorous phraseology of Carlyle, ‘It matters not whether you call a thing
-pan-theism or pot-theism; what really concerns us is to know whether it
-is _true_.’ Now it admits of no question that, whether we like it or not,
-the evolutionist theory of morality is the true one. Take an extreme
-instance, that of murder. We feel an instinctive horror at the idea,
-and even a brutal ruffian like Bill Sikes becomes an accursed thing to
-himself and his companions when he has transgressed the commandment ‘Thou
-shalt do no murder.’ But is it so everywhere, and was it so always? By
-no means; the Fiji islander kills and eats a stranger or enemy without
-scruple; the Red Indian and the Dyak are not accounted men until they
-have murdered some one and brought home his scalp or his head as a
-trophy. Even at a late period among ourselves murder was considered to be
-rather as a civil injury, to be met by compensation, than as a crime; and
-a regular tariff was established of the amount to be paid according as
-the victim was a slave or a freeman.
-
-The origin and progress of the idea that murder is a crime can almost
-be traced step by step. The wife of a rude savage does something which
-offends him; a violent perception of anger flashes from the visual organ
-to the perceptive area of the brain, and a reflex action flashes from it
-along the motor nerve to the muscles of the arm. He strikes and kills
-her, almost as unconsciously and instinctively as he walks or breathes.
-But other perceptions follow on the act. He finds next day that he has
-no one to cook his food; the image of her dying face photographed on his
-brain is an unpleasant one; and thus by degrees a series of secondary
-perceptions get attached to the primary one of striking when he feels
-angry. If he gets another wife who again provokes him, the primary
-perception calls up the secondary ones, and the nerve-centres of his
-brain, instead of being solicited only in one direction, are acted on
-in opposite ways by conflicting impressions. He hesitates, and, as
-the primary impulse of passion is probably the more evanescent, the
-restraining impulses prevail, and every time they prevail they acquire
-more strength. Gradually they extend to a conviction that it is both
-inconvenient and disagreeable to kill any one with whom he is closely
-related either by family or tribal ties, and that, in a word, murder
-does not pay, and is wrong, unless practised on an enemy. This idea
-accumulates by heredity, and evidently those tribes or races in whom it
-is strongest will have an advantage in the struggle for life and be most
-likely to survive.
-
-From this point the idea may be traced historically, deepening and
-widening from generation to generation as civilisation advances, until
-in the higher races it assumes the form of an instinctive abhorrence of
-murder in the abstract, as we find it at the present day.
-
-It is a mistake to suppose that the foundations of morality are in any
-way weakened by thus tracing them up to their first origins. On the
-contrary, if we consider the matter rightly, they are placed on a much
-more solid and unassailable basis. If we say that moral laws depend on
-a universal instinct implanted in all mankind, faith in them is shaken
-whenever we read in history, or hear from the report of travellers, of
-whole nations, constituting from first to last the immense majority
-of the human race, who had none of those ideas which we now consider
-fundamental. If, again, we base them on divine precepts miraculously
-conveyed, every discovery of science and development of thought which
-weakens faith in miracles impairs the basis of morals. And on this
-theory, hopeless contradictions arise within the sphere of those very
-moral laws which we seek to establish; as in reconciling the justice and
-mercy of the Creator in revealing this inspired code only to limited
-portions of the human race, and under conditions which leave large scope
-for legitimate doubt, and which, in point of fact, failed to ensure
-recognition for its moral precepts among His own chosen people for a long
-period after its promulgation.
-
-But on the scientific theory of the evolution of morality by natural laws
-it stands on an impregnable footing. No one can deny that, as a matter
-of fact, such instincts do prevail, and have become part of the nature
-of all the best men and best races, and that each successive generation
-tends to fix them more firmly. Mathematical laws are not the less certain
-because they can be traced back to counting on the fingers, and moral
-laws will continue to have a certainty and cogency, scarcely inferior to
-the axioms of mathematics, although we can trace them back to origins as
-rude as the attempts of the Australian savage to extend his perceptions
-of number beyond ‘one, two, and a great many.’
-
-The real difficulty is not in tracing the origin of these instincts
-of morality, but in that fundamental difficulty which underlies all
-theories of reconciling the consciousness of free-will with the material
-attributes with which it is indissolubly associated. Without freedom
-of will there can be no conscience, no right or wrong in acting in
-accordance or otherwise with the instincts of moral law, however those
-instincts may have been derived. Now it is certain that the will, like
-life, memory, consciousness, and other mental functions, is, so far as
-human knowledge extends, indissolubly connected with matter and natural
-laws, in the form of certain motions of the cells which form the grey
-substance of the nerves and of the nervous ganglia of which the cortex
-of the brain is the most considerable. This is conclusively proved by
-experiment. We know that, by removing certain portions of the brain of a
-dog or of a pigeon, we can destroy the power of motion while preserving
-the will, and by removing certain other portions we can destroy the will
-while preserving the powers of motion. Take away a certain portion of the
-brain of a pigeon, and although it retains the power of taking food, it
-has so totally lost the will to exercise this power that it will starve
-in the midst of abundance, though it can be kept alive by placing the
-food in its mouth. In like manner, in the human brain there are certain
-portions which, if destroyed by injury or disease, will paralyse the
-power of giving effect to the will by muscular movements, while the
-destruction of other portions will paralyse the will which originates
-such movements. Numerous cases are recorded in medical treatises in
-which the will is completely paralysed for the performance of certain
-functions, and in such cases the anatomist can lay his finger on the spot
-where the brain is affected, and when the brain is dissected after the
-death of the patient, it will be found that his prediction is verified,
-and that this region of the brain really was diseased. In sleep also,
-and in abnormal states of the brain such as somnambulism, and mesmerism
-or hypnotism, the action of the will is suspended. Hypnotism affords the
-most remarkable instances, for here the will seems to be transferred from
-the Ego or individuality of the patient to that of the operator, and the
-currents of nervous energy which induce motion in A are set going by
-impulses in the mind of A, not caused by his own will, but by that of B,
-conveyed by words, gestures, or other subtle indications. A ludicrous
-instance of this is recorded by Dr. Braid, in which an old lady, who had
-a true puritanical abhorrence of dancing as sinful, being hypnotised,
-began capering about the room when a waltz tune was struck up, on being
-told to do so by the operators.
-
-There are some other curious effects produced by hypnotism, in the way of
-inducing a sort of double consciousness and memory, which makes people in
-this condition totally forget things which they remember when awake, and
-remember things which were totally forgotten in the waking state.
-
-These and a variety of other instances point to the conclusion that
-man is only a conscious machine. In other words, that the original
-impress, to use Dr. Temple’s words, was so perfect that it provided a
-pre-established harmony not only for the innumerable phenomena of the
-material universe as unfolded by evolution, but for the still more
-innumerable phenomena of life in all its manifestations and all its
-complex relations to outward environment. I say of _life_, for we clearly
-cannot confine the theory to human life. A dog, who with the two courses
-before him of doing wrong and chasing a rabbit, or doing right and
-remaining at his master’s heel, chooses one of them, is in exactly the
-same position as Hercules between the rival attractions of virtue and
-pleasure. If Hercules acted as a machine, yielding to the pre-established
-preponderance of the stronger attraction, so did the dog; but if Hercules
-exerted free-will and felt the approval or blame of conscience, so did
-the retriever. There is no fundamental distinction, but merely a question
-of degree, between human conscience and the shame which a dog feels when
-it knows that it has done wrong, and the pleasure which it manifests
-when conscious that it has behaved properly.
-
-Shall we thus conclude, as Leibnitz and other great philosophers have
-done, in favour of the mechanical theory? But if we do, how are we to
-account for the instinctive ineradicable feeling, which comes home to
-every one with a conviction even stronger than the evidence of the
-senses, that we really have a choice between opposite courses, and can
-decide on our own actions—a conviction which is obviously the foundation
-of all conscience and of all morality?
-
-Let us try to analyse more closely what Will really means, and under what
-conditions it is manifested. The circuit which connects any one single
-perception with action, through sensory nerve, sensory centre, motor
-centre, motor nerve and muscle, is as purely mechanical as that of an
-electric circuit. Reflex motions such as breathing, and even more complex
-motions which by repetition have become reflex or instinctive, are also
-mechanical and involve no exercise of will. But when perceptions become
-complex, and one primary evokes a number of secondary perceptions—in
-other words, when the cells of the corresponding portions of grey matter
-in the cortex of the brain are set vibrating by a variety of complex
-and conflicting molecular motions, the feeling of free-will inevitably
-arises. We feel the conviction that there is a something which we call
-soul, mind, or in the last analysis, ‘I myself I,’ which sits, as Von
-Moltke might do, in a cabinet receiving conflicting telegraphic messages
-from different generals, and deciding then and there what order to flash
-out in reply.
-
-What can we say to this? That it is like space and time, one of the
-categories of thought, or primary moulds in which thought is cast. We do
-not know what space and time really are in their essence, or why they are
-the necessary conditions of thought, any more than we do in the case of
-will. They may be illusions, but we accept them, and of necessity accept
-them, as facts. For all practical purposes it is the same to us, as if
-we understood their essence and knew them to be realities. A man can no
-more doubt that he is an individual being, with a will which, in a great
-many cases, enables him to decide which of a variety of impulses shall
-prevail, than he can hesitate, if he is furnishing a room, to regulate
-his purchase of carpeting and paper by space of three dimensions, without
-regard to possible speculations as to quaternions.
-
-Perhaps the principle of polarity may assist us in understanding that
-both theories may be true; or rather that matter and spirit, necessity
-and free-will, may be opposite poles of one fundamental truth which is
-beyond our comprehension. We cannot shake off this principle of polarity,
-and arrive at any knowledge, or even conception, of the absolute truth
-in regard to the atoms, energies, and natural laws, which make up the
-universe of matter and of all the ordinary and material functions of
-life; why should we expect to do so in the higher manifestations of the
-same life, which have been arrived at in the later stages of one unbroken
-course of evolution from monad to man?
-
-This, at any rate, is the theory which best satisfies my own mind and
-enables me to reduce my own individual chaos into some sort of a cosmos.
-I draw from it the following conclusions:—
-
-For all practical purposes assume that ‘right is right,’ and that the
-moral instincts, however they have been formed, are imperative laws.
-Assume also that
-
-    Man is man and master of his fate,
-
-and that we have, to a great extent, the power of deciding what to do and
-what not to do. But in doing so, keep the mind open to all conclusions
-of science, and admit freely that these assumptions are indissolubly
-connected with natural laws and with material organs, and that man
-is to a very great extent dependent on his environment and his place
-in evolution, both for his moral code and for the force of will and
-conscience which enable him to conform to it. Learn therefore the lesson
-of a large toleration and of charity in thought and deed, towards those
-who, from inherited constitution or unfortunate conditions of education
-and outward circumstances, fall under the sway of the principle of evil,
-and lead bad, useless, and unlovely lives. Had you and I, reader, been in
-their place, should we have done better?
-
-
-
-
-CHAPTER XIII.
-
-ZOROASTRIANISM.
-
-    Zoroaster an historical person—The Parsees—Iranian branch
-    of Aryan family—Zoroaster a religious reformer—Scene at
-    Balkh—Conversion of Gushtasp—Doctrines of the ‘excellent
-    religion’—Monotheism—Polarity—Dr. Haug’s description—Ormuzd and
-    Ahriman—Anquetil du Perron—Approximation to modern thought—Absence
-    of miracles—Code of morals—Its comprehensiveness—And
-    liberality—Special rites—Fire-worship—Disposal of dead—Practical
-    results—The Parsees of Bombay—Their probity, enterprise,
-    respect for women—Zeal for education—Philanthropy and public
-    spirit—Statistics—Death and birth rates.
-
-
-Zoroastrianism is commonly supposed to derive its name from its founder
-Zoroaster, a Bactrian sage or prophet, who lived in the reign of King
-Gushtasp the First. Zoroaster’s name has come down to us from antiquity
-in much the same relation to this form of religion as that of Moses
-to Judaism, or of Sakya-Mouni to Buddhism. As in those cases, certain
-learned commentators have endeavoured to show that the alleged founder
-was purely mythical and had no real historical existence, basing their
-argument mainly on the fact that a number of supernatural attributes,
-and embodiments of metaphysical and theological ideas, became attached
-to the name, just as a whole cycle of solar myths became associated
-with the name of Hercules. But this seems to be carrying scepticism too
-far. Experience shows that religions have generally originated in the
-crystallisation of ideas floating in solution at certain periods of the
-evolution of societies, about the nucleus of some powerful personality.
-Nearly all the great religions of the world, such as Buddhism,
-Confucianism, Christianity, and Mahometanism, clearly had historical
-founders, and it would be hypercritical to deny that such a man as Jesus
-of Nazareth really lived because many of his sayings and doings may be
-traced to applications, more or less erroneous, of ancient prophecies,
-or because his human nature became transfigured into the Logos and other
-metaphysical conceptions of the Alexandrian philosophy.
-
-In the case of Zoroaster, the argument for his historical existence
-seems even stronger, for his name is connected with historical reigns
-and places, and his genuine early history contains nothing supernatural
-or improbable. He is represented as simply a deep thinker and powerful
-preacher, like Luther, who gave new form and expression to the vague
-religious and philosophical ideas of his age and nation, reformed
-its superstitions and abuses, and converted the leading minds of his
-day, including the monarch, by the earnestness and eloquence of his
-discourses. At any rate, for my purpose I shall assume his personality,
-for my object is not to write a critical essay on the origin and
-development of the Zoroastrian religion, but to show that in its
-fundamental ideas and essential spirit it approximates wonderfully to
-those of the most advanced modern thought, and gives the outline of a
-creed which goes further than any other to meet the practical wants
-of the present day, and to reconcile the conflict between faith and
-science. This will be most clearly and vividly shown by assuming the
-commonly accepted historical existence of Zoroaster to be true, and
-by confining myself to the broad, leading principles of his religion,
-without dwelling on its varying phases, or on the mythical legends and
-ritualistic observances which, as in the case of all other old religions,
-have crystallised about the primitive idea and the primitive founder.
-
-Zara-thustra, or, as he is commonly called, Zoroaster, and the religion
-which goes by his name, are known to us mainly from the sacred books
-which have been preserved by the modern Parsees. The Parsees, a small
-remnant of the Persians who under Cyrus founded one of the mightiest
-empires of the ancient world, flying from their native country to escape
-from persecution after the Mahometan conquest, formed a colony in India,
-and are now settled at Bombay. They form a small but highly intelligent
-community, who have preserved their ancient religion, and, fortunately,
-some considerable fragments of their sacred scriptures. The oldest of
-these are written in the Gata dialect of the Avesta or Zend language,
-which is contemporary with Sanskrit, and bears much the same relation to
-it as Latin does to Greek. The primitive Aryan family at some very remote
-period became divided into two branches, and radiated from their Central
-Asian home in two directions. The Hindoo branch migrated to the south
-into the Punjaub and Hindostan; the Iranian westwards, into Bactria and
-Persia; while other successive waves of Aryan migration in prehistoric
-times rolled still further westwards over Europe, obliterating all but a
-few traces of the aboriginal population.
-
-The period of this separation of the Iranian and Hindoo races must be
-very remote, for the Rig-Veda is probably at least 4,000 years old, and
-the divergence between its form of Sanskrit and the Gata dialect of the
-Zend is already as great as that between two kindred European languages
-such as Greek and Latin. The divergence of religious ideas is also
-evidently of very early date. In the Hindoo, and all other races of the
-primitive Aryan stock, the word used for gods and good spirits is taken
-from the root ‘div,’ to shine. Thus, Daeva in Sanskrit, Zeus and Theos in
-Greek, Deus in Latin, Tius in German, Diews in Lutheranism, Dia in Irish,
-Dew in Kymric, all mean the bright or shining one represented by the
-vault of heaven. But in Iranian the word has an opposite sense, and the
-‘deevs’ correspond to our ‘devils.’
-
-The primitive Aryan religions were evidently all derived from a
-contemplation of the powers and phenomena of nature. The sky, with its
-flood of light and vault of ethereal blue, was considered to be the
-highest manifestation of a Supreme Power; while the sun and moon, the
-stars and planets, the winds and clouds, the earth and waters, were
-personified, either as symbols of the Deity or as subordinate gods.
-The original simple faith was thus apt to degenerate into a system of
-polytheism, and, as the gods came to be represented by visible forms,
-into idolatry.
-
-Zoroaster appears to us, like Mahomet at a later age and among a ruder
-people, as a prophet or reformer who abolished these abuses and restored
-the ancient faith in a loftier and more intellectual form, adapted to the
-use of an advanced and civilised society. The records of his life and
-teaching have fortunately been preserved in so authentic a form, that
-distant as he is from us we can form a singularly accurate idea of who he
-was and what he taught.
-
-Some 3,200 years ago a sight might have been seen in the ancient city of
-Balkh—the famous capital of Bactria, the ‘Mother of Cities’—very like
-that witnessed some fourteen centuries later at our own Canterbury.
-The king and his chief nobles and courtiers were assembled to hear the
-discourse of a preacher who proposed to teach them a better religion.
-Gushtasp listened to Zoroaster, as Ethelbert listened to Augustine, and
-in each case reason and eloquence carried conviction, and the nation
-became converts to the new doctrine.
-
-This conversion was effected without miracles, for it is expressly stated
-in the celebrated speech of the prophet, preserved in the 30th chapter of
-the Yasna, that he relied solely on persuasion and argument. Ferdousi,
-the Persian Homer, thus describes the first interview between Zoroaster
-and Gushtasp: ‘Learn,’ he said, ‘the rites and doctrines of the religion
-of excellence. For without religion there cannot be any worth in a king.
-When the mighty monarch heard him speak of the excellent religion, he
-accepted from him the excellent rites and doctrines.’
-
-The doctrines of this ‘excellent religion’ are extremely simple. The
-leading idea is that of monotheism, but the one God has far fewer
-anthropomorphic attributes, and is relegated much farther back into the
-vague and infinite, than the god of any other monotheistic religion.
-Ahura-Mazda, of which the more familiar appellation Ormuzd is an
-abbreviation, means the ‘All-knowing Lord;’ he is said sometimes to
-dwell in the infinite luminous space, and sometimes to be identical with
-it. He is, in fact, not unlike the inscrutable First Cause, whom we may
-regard with awe and reverence, with love and hope, but whom we cannot
-pretend to define or to understand. But the radical difference between
-Zoroastrianism and other religions is that it does not conceive of this
-one God as an omnipotent Creator, who might make the universe as he
-chose, and therefore was directly responsible for all the evil in it; but
-as a Being acting by certain fixed laws, one of which was, for reasons
-totally inscrutable to us, that existence implied polarity, and therefore
-that there could be no good without corresponding evil.
-
-Dr. Haug, who is the greatest authority on all questions connected with
-the Zend scriptures, says: ‘Having arrived at the grand idea of the unity
-and indivisibility of the Supreme Being, Zoroaster undertook to solve
-the great problem which has engaged the attention of so many wise men
-of antiquity and even in modern times, viz. how are the imperfections
-discernible in the world, the various kind of evils, wickedness, and
-baseness, compatible with the goodness, holiness, and justness of God?
-This great thinker of remote antiquity solved this difficult question
-philosophically, by the supposition of two primæval causes, which, though
-different, were united, and produced the world of material things as
-well as that of spirit. These two primæval principles are the two moving
-causes in the universe, united from the beginning, and therefore called
-twins. They are present everywhere—in the Ahura Mazda, or Supreme Deity,
-as well as in man.’
-
-They are called in the Vendidad Spento Mainyush, or the ‘beneficent
-spirit,’ and Angro Mainyush, or the ‘hurtful spirit.’ The latter is
-generally known as Ahriman, the Prince of Darkness; and the former as
-Ormuzd, is identified with Ahura Mazda, the good God, though, strictly
-speaking, Ahura Mazda is the great unknown First Cause, who comprehends
-within himself both principles as a necessary law of existence, and in
-whom believers may hope that evil and good will ultimately be reconciled.
-
-Anquetil du Perron, the first translator of the Zendavesta, in his
-‘Critical View of the Theological and Ceremonial System of Zar-thurst,’
-thus sums up the Parsee creed: ‘The first point in the theological
-system of Zoroaster is to recognise and adore the Master of all that is
-good, the Principle of all righteousness, Ormuzd, according to the form
-of worship prescribed by him, and with purity of thought, of word, and
-of action, a purity which is marked and preserved by purity of body.
-Next, to have a respect, accompanied by gratitude, for the intelligence
-to which Ormuzd has committed the care of nature (i.e. to the laws of
-nature), to take in our actions their attributes for models, to copy
-in our conduct the harmony which reigns in the different parts of the
-universe, and generally to honour Ormuzd in all that he has produced.
-The second part of their religion consists in detesting the author of
-all evil, moral and physical, Ahriman—his productions, and his works;
-and to contribute, as far as in us lies, to exalt the glory of Ormuzd by
-enfeebling the tyranny which the Evil Principle exercises over the world.’
-
-It is evident that this simple and sublime religion is one to which,
-by whatever name we may call it, the best modern thought is fast
-approximating. Men of science like Huxley, philosophers like Herbert
-Spencer, poets like Tennyson, might all subscribe to it; and even
-enlightened Christian divines, like Dr. Temple, are not very far from
-it when they admit the idea of a Creator behind the atoms and energies,
-whose original impress, given in the form of laws of nature, was so
-perfect as to require no secondary interference. Admit that Christ is the
-best personification of the Spenta Mainyush, or good principle in the
-inscrutable Divine polarity of existence, and a man may be at the same
-time a Christian and a Zoroastrian.
-
-The religion of Zoroaster has, however, this great advantage in the
-existing conditions of modern thought, that it is not dragged down by
-such a dead weight of traditional dogmas and miracles as still hangs upon
-the skirts of Christianity. Its dogmas are comprised in the statement
-that there is one supreme, unknown, First Cause, who manifests himself in
-the universe under fixed laws which involve the principle of polarity.
-This is hardly so much a dogma as a statement of fact, or of the ultimate
-and absolute truth at which it is possible for human faculty to arrive.
-No progress of science or philosophy conflicts with it, but rather they
-confirm it, by showing more and more clearly with every discovery that
-this is in very fact and deed the literal truth. Religion, or the feeling
-of reverence and love for the Great Unknown which lies beyond the sphere
-of human sense and reason, shines more brightly through this pure medium
-than through the fogs of misty metaphysics; and we can worship God in
-spirit and in truth without puzzling our brains as to the precise nature
-of the Logos, or exercising them on the insoluble problem how one can be
-equal to three, and at the same time three equal to one.
-
-As regards miracles, which are another millstone about the neck of
-Catholic Christianity, the religion of Zoroaster is entirely free from
-them. There are, it is true, a few miraculous myths about him in some
-of the later writings in the Pehlvi language, as of his conception
-by his mother drinking a cup of the sacred Homa, but these are of no
-authority and form no part of the religion. On the contrary, the original
-scriptures which profess to record his exact words and precepts disclaim
-all pretension to divine nature or miraculous power, and base the
-claims of the ‘excellent religion’ purely on reason. This is an immense
-advantage in the ‘struggle for life,’ when every day is making it more
-impossible for educated men to believe that real miracles ever actually
-occurred, and when the evidence on which they were accepted is crumbling
-to pieces under the light of critical enquiry. The Parsee has no reason
-to tremble for his faith if a Galileo invents the telescope or a Newton
-discovers the law of gravity. He has no occasion to argue for Noah’s
-deluge, or for the order of Creation described in Genesis. Nay even, he
-may remain undisturbed by that latest and most fatal discovery that man
-has existed on the earth for untold ages, and, instead of falling from a
-high estate, has risen continuously by slow and painful progress from the
-rudest origins. How many orthodox Christians can say the same, or deny
-that their faith in their sacred books and venerable traditions has been
-rudely shaken?
-
-The code of morality enjoined by the Zoroastrian religion is as pure as
-its theory is perfect. Dr. Haug enumerates the following sins denounced
-by its code, and considered as such by the present Parsees: Murder,
-infanticide, poisoning, adultery on the part of men as well as women,
-sorcery, sodomy, cheating in weight and measure, breach of promise
-whether made to a Zoroastrian or non-Zoroastrian, telling lies and
-deceiving, false covenants, slander and calumny, perjury, dishonest
-appropriation of wealth, taking bribes, keeping back the wages of
-labourers, misappropriation of religious property, removal of a boundary
-stone, turning people out of their property, maladministration and
-defrauding, apostasy, heresy, rebellion. These are positive injunctions.
-The following are condemnable from a religious point of view: Abandoning
-the husband; not acknowledging one’s children on the part of the father;
-cruelty towards subjects on the part of a ruler; avarice, laziness,
-illiberality and egotism, envy. In addition there are a number of special
-precepts adapted to the peculiar rites of the Zoroastrian religion
-which aim principally at the enforcement of sanitary rules, kindness to
-animals, hospitality to strangers and travellers, respect to superiors,
-and help to the poor and needy.
-
-It is evident that this is the most complete and comprehensive code of
-morals to be found in any system of religion. It comprises all that
-is best in the codes of Buddhism, Judaism, and Christianity, with a
-much more ample definition of many vices and virtues which, even in
-the Christian religion, are left to be drawn as inferences rather than
-inculcated as precepts. Thus, laziness, cheating, selfishness, and envy
-are distinctly defined as crimes, and their opposites as virtues, and
-not merely left to be inferred from the general maxims of ‘loving your
-neighbour as yourself,’ and ‘doing unto others as you would be done by.’
-The comprehensiveness and liberal spirit of the code is also remarkable,
-for we are repeatedly told that these rules of morality apply to
-non-Zoroastrians as well as to Zoroastrians. The application of religious
-precepts to practical life is another distinguishing feature. Thus
-kindness to animals is specially enjoined, and it is considered a sin to
-ill-treat animals of the good creation, such as cattle, sheep, horses,
-or dogs, by starving, beating, or unnecessarily killing them. With true
-practical wisdom, however, the ‘falsehood of extremes’ is avoided, and
-this precept is not, as in the case of Brahminism and Buddhism, carried
-so far as to prohibit altogether the taking of animal life, which is
-expressly sanctioned when necessary. This sober practical wisdom, or what
-Matthew Arnold calls ‘sweet reasonableness,’ is a very characteristic
-feature of Zoroaster’s religion, and very remarkable as having been
-taught at so early a period in the history of civilisation.
-
-Another precept, which might well have been made by an English board of
-health in the nineteenth century, is not to pollute water by throwing
-impure matter into it.
-
-The only special Parsee rites which would be unsuited for modern European
-society, are the worship of the sacred fire and the disposal of the
-dead. It is true that the former is distinctly understood to be merely
-a symbol of the Deity, and used exactly as water is in baptism, or as
-the ascending flame of candles and smoke from swinging incense are in
-the Catholic ritual, to bring more vividly before the minds of the
-worshippers the idea of the spirit soaring upwards towards heaven. Still,
-in modern society fire is too well understood as merely a particular form
-of chemical combination, and is too familiar as the strong slave and
-household drudge of man, to acquire a leading place in a religious ritual
-where it has not been hallowed by the usage of a long line of ancestors
-and the traditions of a venerable antiquity. All that can be said is,
-that if religious rites and ceremonies are to be maintained in an age
-when science has become the prevailing mode of thought, appropriate
-symbolism, especially that of music, must more and more take the place of
-appeals to the intellect on metaphysical questions, and of repetitions of
-traditional formulæ which have lost all living significance.
-
-Another Parsee rite, which is even less adapted for general usage, is
-that of disposing of the dead on towers of silence, where the body
-moulders away or is devoured by birds of prey. It originates in a
-poetical motive of not defiling the pure elements, fire, earth, or
-water, by corruption; but it is obviously unsuited for the conditions of
-civilisation and climate which prevail in crowded cities under a humid
-sky.
-
-There is little prospect therefore of any general conversion to the sect
-of Zoroastrians; but what seems probable is the gradual transformation of
-existing modes both of religious and secular thought into something which
-is, in principle, very closely akin to the ‘excellent religion’ taught by
-the Bactrian prophet.
-
-The miraculous theory of the universe being virtually dead, the only
-theory that can reconcile facts with feelings, and the ineradicable
-emotions and aspirations of the human mind with the incontrovertible
-conclusions of science, is that of a remote and more or less unknown
-and incomprehensible First Cause, which has given the original atoms
-and energies so perfect an impress from the first, that all phenomena
-are evolved from them by fixed laws, one of the principal of such laws
-being that of polarity, which develops the ever-increasing complexities
-and contrasts of the inorganic and organic worlds, of moralities,
-philosophies, religions, and human societies. True religion consists in
-a recognition of this truth, a feeling of reverence in presence of the
-unknown, and, above all, a feeling of love and admiration for the good
-principle in whatever form it is manifested, in the beauties of nature
-and of art, in moral and physical purity and perfection, and all else
-that falls within the domain of the Prince of Light, in whose service,
-whether we conceive of him as an abstract principle, or accept some
-personification of him as a living figure, we enlist as loyal soldiers,
-doing our best to fight in his ranks against the powers of evil.
-
-The application of the all-pervading principle of polarity is exemplified
-in the realm of art. The glorious Greek drama turned mainly on the
-conflict between resistless fate and heroic free-will, and is typified
-in its highest form by Æschylus, when he depicts Prometheus chained to
-the rock hurling defiance at the tyrant of heaven. Our own Milton, in
-like manner, gives us the spectacle of the fallen archangel opposing
-his indomitable will and fertile resources to the extremity of adverse
-circumstance and to Almighty power.
-
-The greatest of modern dramas, Goethe’s ‘Faust,’ turns so entirely on
-the opposition between the human soul striving after the infinite, and
-the spirit _der verneint_, who combats ideal aspirations with a cynical
-sneer, that it might well be called a Zoroastrian drama. It is a picture
-of the conflict between the two opposite principles of good and evil, of
-affirmation and negation, of the beautiful and the ugly, personified in
-Faust and Mephistopheles, and it is painted on a background of the great
-mysterious unknown. ‘Wer darf ihn nennen?’
-
-    Who dares to name Him,
-    Who to say of Him, ‘I believe’?
-    Who is there ever with a heart to dare
-    To utter, ‘I believe Him not’?
-
-So in poetry, Tennyson, the poet of modern thought, touches the deepest
-chords when he asks—
-
-    Are God and Nature, then, at strife?
-
-and paints in the sharpest contrast on the background of the unknown, the
-conflict between the faith that
-
-                God is love indeed,
-    And love creation’s final law,
-
-and the harsh realities of nature, which
-
-                      Red in tooth and claw
-    With ravine shrieks against the creed;
-
-or again in his later work, ‘The Ancient Sage,’ he says—
-
-    Thou canst not prove the Nameless, O my son!
-    For nothing worthy proving can be proven,
-    Nor yet disproven.
-
-In like manner in the works of art which embrace a wider range, and hold
-up the mirror to human nature, as in Shakespeare’s plays, and the novels
-of Walter Scott and other great authors, the interest arises mainly from
-the polarity of the various characters. We care little for the goody-good
-heroes or vulgar villains, but we recognise a touch of that nature which
-makes all the world akin in a Macbeth drawn by metaphysical suggestion
-to wade through a sea of blood; in Othello’s noble nature caught like a
-lion in the toils by the net of circumstances woven by a wily hunter; in
-Falstaff, a rogue, a liar, and a glutton, yet made almost likeable by his
-ready wit, imperturbable good-humour, and fertile resources. Shakespeare
-is, in fact, the greatest of artists, because he is the most multipolar.
-He has poles of sympathy in him which, as the poles of carbon attract
-so many elements and form so many combinations, enable him to take into
-his own nature, assimilate, and reproduce every varied shade of character
-from a Miranda to a Caliban, from an Imogen to a Lady Macbeth, from a
-Falstaff to an Othello. Sir Walter Scott and all our great novelists
-have the same faculty, though in a less degree, and are great in exact
-proportion as they have many poles in their nature, and as those are
-poles of powerful polarity. The characters and incidents which affect
-us strongly and dwell in the memory are those in which the clash and
-conflict of opposites are most vividly represented. We feel infinite pity
-for a Maggie Tulliver dashing her young life, like a prisoned wild bird,
-against the bars of trivial and prosaic environment which hem her in; or
-for a Colonel Newcome opposing the patience of a gentle nature to the
-buffets of such a fate as meets us in the everyday world of modern life,
-the failure of his bank and the naggings of the Old Campaigner. On a
-higher level of art we sympathise with a Lancelot and a Guinevere because
-they are types of what we may meet in many a London drawing-room, noble
-natures drawn by some fatal fairy fascination into ignoble acts, but
-still retaining something of their original nobility, and while
-
-    Their honour rooted in dishonour stands,
-
-appearing to ordinary mortals little less than ‘archangels ruined.’ Or
-even if we descend to the lowest level of the penny dreadful or suburban
-drama, we find that the polarity between vice and virtue, however
-coarsely delineated, is that which mostly fascinates the uncultured mind.
-
-The affinity between Zoroastrianism and art is easily explained when
-we consider that in one respect it has a manifest advantage over most
-Christian forms of religion. Christianity in its early origins received
-a taint of Oriental asceticism which it never shook off, and which in
-the declining centuries of the Roman empire, and in the barbarism and
-superstition of the Middle Ages, developed into what may be almost called
-a devil-worship of the ugly and repulsive. The antithesis between the
-flesh and the spirit was carried to such an extreme and false extent,
-that everything that was pleasant and beautiful came to be regarded as
-sinful, and the odour of sanctity was an odour which the passer-by would
-do well to keep on the windward side of. This leaven of asceticism is
-the rock upon which Puritanism, monasticism, and many of the highest
-forms of Christian life have invariably split. It is contrary to human
-nature, and directly opposed to the spirit of the life and doctrines of
-the Founder of the religion. Jesus, who was ‘a Jew living among Jews
-and speaking to Jews,’ adopted the true Jewish point of view of making
-religion amiable and attractive, and denouncing, as all the best Jewish
-doctors of the Talmud did, the pharisaical strictness which insisted on
-ritualistic observances and arbitrary restrictions. In no passages of
-his life does the ‘sweet reasonableness’ of his character appear more
-conspicuous than where we find him strolling through the fields with his
-disciples and plucking ears of corn on the Sabbath, and replying to the
-formalists who were scandalised, ‘The Sabbath was made for man, not man
-for the Sabbath.’ The ascetic bias subsequently introduced may have been
-a necessary element in counteracting the corruption of Rome; but the
-pendulum in its reaction swung much too far, and when organised in the
-celibacy of the clergy and monastic institutions asceticism became the
-source of great evils. Even at a late period we can see in the reaction
-of the reign of Charles II. how antagonistic the puritanical creed,
-even of men like Cromwell and Milton, proved to the healthy natural
-instinct of the great mass of the English nation. And at the present day
-it remains one of the main causes of the indifference or hostility to
-religion which is so widely spreading among the mass of the population.
-Children are brought up to consider Sunday as a day of penance, and
-church-going as a disagreeable necessity; while grown-up men, especially
-those of the working classes, resent being told that a walk in the
-country, a cricket-match, or a visit to a library or museum on their only
-holiday, is sinful.
-
-In view of the approximation between the Zoroastrian religion and
-the forms of modern thought it is interesting to note how the former
-works among its adherents in actual practice. For, after all, the
-practical side of a religion is more important than its speculative
-or philosophical theories. Thus, for instance, the Quakers have a
-faith which is about the most reasonable of any of the numerous sects
-of Christianity and nearest to the spirit of its Founder, and yet
-Quakerism remains a narrow sect which is far from being victorious in the
-‘struggle for life,’ Mahometanism, again, while dying out among civilised
-nations, shows itself superior to Christianity in the work of raising
-the barbarous, fetish-worshipping negroes of Africa to a higher level.
-And Mormonism, based on the most obvious imposture and absurdity, is
-the only new religion which, in recent times, has taken root and to a
-certain extent flourished.
-
-Tried by this test, Zoroastrianism has made good its claim to be called
-the ‘excellent religion.’ Its followers, the limited community of Parsees
-in India, are honourably distinguished for probity, intelligence,
-enterprise, public spirit, benevolence, tolerance, and other good
-qualities. By virtue of these qualities they have raised themselves
-to a prominent position in our Indian empire, and take a leading part
-in its commerce and industrial enterprise. The chief shipbuilder at
-Bombay, the first great native railway contractor, the founder of cotton
-factories, are all Parsees, and they are found as merchants, traders, and
-shopkeepers in all the chief towns of British India, and distant places
-such as Aden and Zanzibar. Their commercial probity is proverbial, and,
-as in England, they have few written agreements, the word of a Parsee,
-like that of an Englishman, being considered as good as his bond. Their
-high character and practical aptitude for business are attested by the
-fact that the first mayor, or chairman of the Corporation of Bombay, was
-a Parsee who was elected by the unanimous vote both of Europeans and
-natives.
-
-The position of women affords perhaps the best test of the real
-civilisation and intrinsic worth of any community. Where men consider
-women as inferior creatures it is a sure proof that they themselves are
-so. They are totally wanting in that delicacy and refinement of nature
-which distinguishes the true gentleman from the snob or the savage, and
-are coarse, vulgar brutes, however disguised under a veneer of outward
-polish. On the other hand, respect for women implies self-respect,
-nobility of nature, capability of rising to high ideals above the sordid
-level of animal appetite and the selfish supremacy of brute force.
-
-The Parsees in this respect stand high, far higher than any other
-Oriental people, and on a level with the best European civilisation.
-The equality of the sexes is distinctly laid down in the Zoroastrian
-scriptures. Women are always mentioned as a necessary part of the
-religious community. They have the same religious rites as the men. The
-spirits of deceased women are invoked as well as those of men. Long
-contact with the other races of India, and the necessity for some outward
-conformity to the practices of Hindoo and Mahometan rulers, did something
-to impair the position of females as regards public appearances, though
-the Parsee wife and mother always remained a principal figure in the
-Parsee household; and latterly, under the security of English rule,
-Parsee ladies may be seen everywhere in public, enjoying just as much
-liberty as the ladies of Europe or America. Nor are they at all behind
-their Western sisters in education, accomplishments, and, it may be
-added, in daintiness of fashionable attire. In fact, an eager desire for
-education has become a prominent feature among all classes of the Parsee
-community, and they are quite on a par with the Scotch, German, and other
-European races in their efforts to establish schools, and in the numbers
-who attend, and especially of those who obtain distinguished places in
-the higher schools and colleges, such as the Elphinstone Institute and
-the Bombay University. Female education is also actively promoted, and no
-prejudices stand in the way of attendance at the numerous girls’ schools
-which have been established, or even of studying in medical colleges,
-where Parsee women attend lectures on all branches of medical science
-along with male students. Those who know the position of inferiority and
-seclusion in which women are kept among all other Oriental nations can
-best appreciate the largeness and liberality of spirit of a religion
-which, in spite of all surrounding influences, has rendered such a thing
-possible in such a country as India.
-
-Another prominent trait of the Parsee character is that of philanthropy
-and public spirit. In proportion to their numbers and means they raise
-more money for charitable objects than any other religious sect. And they
-raise it in a way which does the greatest credit to their tolerance and
-liberality. For instance, the Parsees were the principal subscribers to
-a fund raised in Bombay in aid of the ‘Scottish Corporation,’ and quite
-recently a Parsee gentleman gave 16,000_l._ towards the establishment of
-a female hospital under the care of lady doctors, although the benefit of
-such an institution would be confined principally to Mahometan and Hindoo
-women, Parsee women having no prejudice against employing male doctors.
-
-The public spirit shown by acts like this is the trait by which the
-Parsee community is most honourably distinguished, and in respect of
-which it must be candidly confessed it far surpasses not only other
-Oriental races, but most European nations, including our own. Whatever
-the reason may be, the fact is certain that in England, while a great
-deal of money is spent in charity, lamentably little is spent from the
-enormous surplus wealth of the country on what may be called public
-objects. There is neither religious influence nor social opinion brought
-to bear on the numerous class who have incomes far beyond any possible
-want, to teach them that it should be both a pleasure and a pride to
-associate their names with some act of noble liberality. A better spirit
-we may hope is springing up, and there have been occasional instances
-of large sums applied to public purposes, such as parks and colleges,
-by private individuals, principally of the trading and manufacturing
-classes, such as the Salts, Crossleys, Baxters, and Holloways; but on the
-whole the amount contributed is miserably small. It is probably part of
-the price we pay for aristocratic institutions that those who inherit or
-accumulate great fortunes consider it their primary object to perpetuate
-or to found great families. Be this as it may, a totally different spirit
-prevails among the Parsees of Bombay, where it has been truly stated
-that hardly a year passes without some wealthy Parsee coming forward
-to perform a work of public generosity. The instance of Sir Jamsedjee
-Jijibhoy, who attained a European reputation for his noble benevolence,
-is only one conspicuous instance out of a thousand of this ‘public
-spirit’ which has become almost an instinctive element in Parsee society.
-
-How far the large and liberal religion may be the cause of the large
-and liberal practice, it is impossible to say. Other influences have
-doubtless been at work. The Parsees are a commercial people, and commerce
-is always more liberal with its money than land. They are the descendants
-of a persecuted race, and as a rule it is better to be persecuted than to
-persecute. Still, after making all allowances, it remains that the tree
-cannot be bad which bears such fruits; the religion must be a good one
-which produces good men and women and good deeds.
-
-Statistical facts testify quite as strongly to the high standard of the
-Parsee race, and the practical results which follow from the observance
-of the Zoroastrian ritual. A small death-rate and a large proportion
-of children prove the vigorous vitality of a race. The Parsees have
-the lowest death-rate of any of the many races who inhabit Bombay. The
-average for the two years 1881 and 1882 per thousand was for Hindoos
-26·11; for Mussulmans 30·46; for Europeans 20·18; for Parsees 19·26.
-The percentage of children under two years old to women between fifteen
-and forty-five was 30·27 for Parsees, as against Hindoos 22·24, and
-Mussulmans 24·9, showing incontestably greater vitality and greater care
-for human life.
-
-Of 6,618 male and 2,966 female mendicants in the city of Bombay, only
-five male and one female were Parsees.
-
-These figures speak for themselves. It is evident that a religion in
-which such results are possible cannot be unfavourable to the development
-of the ‘mens sana in corpore sano;’ and that, although we may not turn
-Zoroastrians, we may envy some of the results of a creed which inculcates
-worship of the good, the pure, and the beautiful in the concerns of daily
-life, as well as in the abstract regions of theological and philosophical
-speculation.
-
-
-
-
-CHAPTER XIV.
-
-FORMS OF WORSHIP.
-
-    Byron’s lines—Carnegie’s description—Parsee nature-worship—English
-    Sunday—The sermon—Appeals to reason misplaced—Music better
-    than words—The Mass—Zoroastrianism brings religion into daily
-    life—Sanitation—Zoroastrian prayer—Religion of the future—Sermons
-    in stones and good in everything.
-
-
-      Not vainly did the early Persian make
-      His altar the high places and the peak
-      Of earth-o’ergazing mountains, and thus take
-      A fit and unwall’d temple, where to seek
-      The spirit, in whose honour shrines are weak,
-      Uprear’d of human hands. Come, and compare
-      Columns and idol-dwellings, Goth or Greek,
-      With nature’s realms of worship, earth and air,
-    Nor fix on fond abodes to circumscribe thy prayer!
-
-                                                _Childe Harold_, iii. 91.
-
-A shrewd Scotch-American ironmaster—Andrew Carnegie—in an interesting
-and instructive record of experiences during a voyage round the world,
-gives the following description of the worship of the modern Parsees, as
-actually witnessed by him at Bombay:—
-
-‘This evening we were surprised to see, as we strolled along the beach,
-more Parsees than ever before, and more Parsee ladies richly dressed, all
-wending their way towards the sea. It was the first of the new moon, a
-period sacred to these worshippers of the elements; and here on the shore
-of the ocean, as the sun was sinking in the sea, and the slender silver
-thread of the crescent moon was faintly shining on the horizon, they
-congregated to perform their religious rites.
-
-‘Fire was there in its grandest form, the setting sun, and water in the
-vast expanse of the Indian Ocean outstretched before them. The earth was
-under their feet, and wafted across the sea the air came laden with the
-perfumes of “Araby the blest.” Surely no time or place could be more
-fitly chosen than this for lifting up the soul to the realms beyond
-sense. I could not but participate with these worshippers in what was so
-grandly beautiful. There was no music save the solemn moan of the waves
-as they broke into foam on the beach. But where shall we find so mighty
-an organ, or so grand an anthem?
-
-‘How inexpressibly sublime the scene appeared to me, and how
-insignificant and unworthy of the unknown seemed even our cathedrals
-“made with human hands,” when compared with this looking up through
-nature unto nature’s God! I stood and drank in the serene happiness which
-seemed to fill the air. I have seen many modes and forms of worship—some
-disgusting, others saddening, a few elevating when the organ pealed forth
-its tones, but all poor in comparison with this. Nor do I ever expect
-in all my life to witness a religious ceremony which will so powerfully
-affect me as that of the Parsees on the beach at Bombay.’
-
-I say Amen with all my heart to Mr. Carnegie. Here is an ideal religious
-ceremony combining all that is most true, most touching, and most
-sublime, in the attitude of man towards the Great Unknown. Compare it
-with the routine of an ordinary English Sunday, and how poor and prosaic
-does the latter appear! There is nothing which seems to me to have fallen
-more completely out of harmony with its existing environment than our
-traditional form of church service. The sermon has been killed by the
-press and has become an anachronism. There was a time when sermons like
-those of Latimer and John Knox were living realities; they dealt with all
-the burning political and personal questions of the day, and to a great
-extent did the work now done by platform speeches and leading articles.
-If there are national dangers to be denounced, national shortcomings to
-be pointed out, iniquity in high places to be rebuked, we look to our
-daily newspaper, and not to our weekly sermon. The sermon has in a great
-majority of cases become a sort of schoolboy theme, in which traditional
-assumptions and conventional phrases are ground out, with as little soul
-or idea behind them as in the Thibetan praying-mill. In the course of a
-long life I have gained innumerable ideas and experienced innumerable
-influences, from contact with the world, with fellow-men, and with books;
-but although I have heard a good many sermons, I cannot honestly say that
-I ever got an idea or an influence from one of them which made me wiser
-or better, or different in any respect from what I should have been if I
-had slept through them. And this from no fault of the preachers. I have
-heard many who gave me the impression that they were good men, and a
-few who impressed me as being able and liberal-minded men—nor do I know
-that, under the conditions in which they are placed, I could have done
-any better myself. But they were dancing in fetters, and so tied down by
-conventionalities that it was simply impossible for them to depart from
-the paths of a decorous routine.
-
-The fact is that the whole point of view of our religious services,
-especially in Protestant countries, has become a mistaken one. It is
-far too much an appeal to the intellect and to abstract dogmas, and too
-little, one to the realities of actual life and to the vague emotions and
-aspirations which constitute the proper field of religion. In the great
-reaction of the Reformation it was perhaps inevitable that an appeal
-should be made to reason against the abuses of an infallible Church; and
-as long as the literal inspiration of the Bible and other theological
-premises were held to be undoubted axioms by the whole Christian world,
-there might be a certain interest in hearing them repeated over and over
-again in becoming language, and in listening to sermons which explained
-shortly conclusions which might be drawn from these admitted axioms. But
-this is no longer the case. It is impossible to touch the merest fringe
-of the questions now raised by the intellectual side of religion in
-discourses of half an hour’s length; even if the preacher were perfectly
-free, and not hampered by the fear of scandalising simple, pious souls
-by plain language. Spoken words have to a great extent ceased to be
-the appropriate vehicle for appealing either to religious reason or
-to religious emotion—books for the former, music for the latter, are
-infinitely more effective. Music especially seems made to be the language
-of religion. Not only its beauty and harmony, but its vagueness, and its
-power of exciting the imagination and stirring the feelings, without
-anything definite which has to be proved and can be contradicted, fit
-it to be the interpreter of those emotions and aspirations which fill
-the human soul in presence of the universe and of the Great Unknown.
-Demonstrate, with St. Thomas Aquinas or Duns Scotus, how many angels can
-stand on the point of a needle, and I remain unaffected; but let me hear
-Rossini’s ‘Cujus Animam,’ or Mozart’s ‘Agnus Dei,’ and I say, ‘Thus the
-angels sing.’
-
-In this respect the Roman Catholic Church has retained a great advantage
-over reformed churches. Whatever we may think of its tenets and
-principles, its forms of worship are more impressive and more attractive.
-The Mass, apart from all dogma and miracle, is a mysterious and beautiful
-religious drama, in which appropriate symbolism, vocal and instrumental
-music, all the highest efforts of human art, are united to produce
-feelings of joy and of devoutness. The vestment of the priest, his
-gestures and genuflexions, the Latin words chanted in stately recitative,
-the flame of the candles pointing heavenwards, the burning incense
-slowly soaring upwards, the music of great masters, not like our dreary
-and monotonous psalmody, but in fullest harmony and richest melody—all
-combine to attune the mind to that state of feeling which is the soul of
-religion.
-
-In this respect, however, what I have called the Zoroastrian theory
-of religion affords great advantages. It connects religion directly
-with all that is good and beautiful, not only in the higher realms of
-speculation and of emotion, but in the ordinary affairs of daily life.
-To feel the truth of what is true, the beauty of what is beautiful, is
-of itself a silent prayer or act of worship to the Spirit of Light; to
-make an honest, earnest, effort to attain this feeling, is an offering
-or act of homage. Cleanliness of mind and body, order and propriety in
-conduct, civility in intercourse, and all the homely virtues of everyday
-life, thus acquire a higher significance, and any wilful and persistent
-disregard of them becomes an act of mutiny against the Power whom we have
-elected to serve. Such moral perversion becomes impossible as that which
-in the Middle Ages associated filth with holiness, and adduced as a title
-to canonisation that the saint had worn the same woollen shirt until it
-fell to pieces under the attacks of vermin. We laugh at this in more
-enlightened days, but we often imitate it by setting up false religious
-standards, and thinking we can make men better by penning them up on
-Sundays in the foul air and corrupting influences of densely peopled
-cities.
-
-The identification of moral and physical evil, which is one of the most
-essential and peculiar tenets of the Zoroastrian creed, is fast becoming
-a leading idea in modern civilisation. Our most earnest philanthropists
-and zealous workers in the fields of sin and misery in crowded cities are
-coming, more and more every day, to the conviction that an improvement
-in the physical conditions of life is the first indispensable condition
-of moral and religious progress. More air, more light, better lodging,
-better food, more innocent and healthy recreation, are what are wanted
-to make any real impression on the masses who have either been born and
-bred in an evil environment, or have fallen out of the ranks and are
-the waifs and stragglers left behind in the rapid progress and intense
-competition of modern society. Hence we see that the devoted individuals
-and charitable institutions who take the lead in works of practical
-benevolence direct their attention more and more to the rescue of
-children from bad surroundings; to sending them to new and happier homes
-in the colonies, to country retreats for the sickly, and excursions for
-the healthy; and to providing clubs and reading-rooms as substitutes for
-the gin-palace and public-house. The latest development of this idea,
-that of the ‘People’s Palace’ in the East End of London, is a noble
-offering to the ‘Spirit of Light,’ by whatever name we choose to call
-him, in opposition to the ‘Spirit of Darkness.’
-
-To the Zoroastrian, prayer assumes the form of a recognition of all that
-is pure, sublime, and beautiful in the surrounding universe. He can never
-want opportunities of paying homage to the Good Spirit and of looking
-into the abysses of the unknown with reverence and wonder. The light of
-setting suns, the dome of loving blue, the clouds in the might of the
-tempest or resting still as brooding doves, the mountains, the
-
-                                    Waste
-    And solitary places where we taste
-    The pleasure of believing what we see,
-    Is boundless, as we wish our souls to be;
-
-the ocean lashed by storm, or where it
-
-    All down the sand
-    Lies breathing in its sleep,
-    Heard by the land—
-
-these are a Zoroastrian’s prayers.
-
-And even if, ‘in populous cities pent,’ he is cut off from close
-communion with nature, opportunities are not wanting to him of letting
-his soul soar aloft with purifying aspirations. A glimpse of the starry
-sky, even if seen from a London street, may bear in on him the awful yet
-lovely mystery of the Infinite. Good books, good music, true works of
-art, may all strengthen his love of the good and beautiful. A dense fog,
-or drizzling rain may obscure the outward view, but with the inner eye
-he may stand listening to the lark or under the vernal sky, and while his
-
-    Heart looks down and up,
-      Serene, secure;
-    Warm as the crocus-cup,
-      As snowdrops pure,
-
-thank the Good Spirit that it has been given to man to write, and to
-him to read, verses of such exquisite perfection as Shelley’s ‘Ode to a
-Skylark’ and Tennyson’s ‘Early Spring.’ Above all, where men congregate
-in masses, in the great centres of politics, of commerce, of literature,
-science, and art, he can hear best
-
-    The still sad music of humanity,
-    Not harsh nor grating, but of ample power
-    To chasten and subdue,
-
-and associate himself with movements in which his little individual
-effort is exerted towards making the world a little better rather than a
-little worse than he found it.
-
-This, rather than wrangling with his fellow-mortals about creeds and
-attempts to name the unnameable, believe the unbelievable, and define the
-undefineable, seems to me to be the religion of the future. Call it by
-what name you like, I quarrel with no one as long as he can find
-
-    Sermons in stones and good in everything.
-
-
-
-
-CHAPTER XV.
-
-PRACTICAL POLARITIES.
-
-    Fable of the shield—Progress and conservatism—English and
-    French colonisation—Law-abidingness—Irish land question—True
-    conservative legislation—Ultra-conservatism—Law and
-    education—Patriotism—Jingoism and parochialism—True
-    statesmanship—Free trade and protection—Capital
-    and labour—Egoism and altruism—Socialism and
-    _laissez faire_—Contracts—Rights and duties of
-    landlords—George’s theory—State interference—Railways—Post
-    Office—Telegraphs—National defence—Concluding remarks.
-
-
-A well-known fable tells how in the olden time two knights were riding
-in opposite directions along a green road overarched by the trees of
-an ancient forest. It was a bright morning in early summer, with the
-green leaves freshly bursting in contrasted foliage; the sun had just
-risen over the tops of the trees in clouds of golden and crimson glory;
-dewdrops were glittering like diamonds on every twig and blade of grass;
-and the joyous birds carolling their loudest song to greet the opening
-day.
-
-Everything was fresh and cheerful as of a new-born earth, and so were the
-spirits of the two youthful knights, who were pricking forth in search of
-adventures. He whose face was turned towards the West, where the rising
-sun had last set, wore a primrose scarf over his cuirass, and had on his
-shield a quaint device, which, on closer inspection, might be seen to be
-a tombstone with the inscription,
-
-    ‘I was well, would be better, and here I am.’
-
-He rode along musing on the heroic legends of the past, and wishing
-that he had been a knight of Arthur’s round table to ride out with the
-blameless king against invading heathen.
-
-The second knight, whose face was turned towards the rising sun, bore an
-azure shield with a different device. On it was depicted the good Sir
-James Douglass charging the serried Paynim army, and, as he charged,
-flinging before him into the hostile ranks the casket containing the
-heart of Robert Bruce, and shouting for battle-cry—
-
-    Go thou aye forward, as was thy wont.
-
-As he rode his fancy wrought the fairy web of a day-dream, in which he
-saw himself delivering the fair princess Liberty from the fiery dragon
-Prejudice and the stolid giant Obstruction.
-
-The knights met just where an ancient oak of mighty bulk stretched
-overhead a huge branch across the path, as some aged athlete might
-stretch out an arm rigid with gnarled and knotted muscles, to show
-younger generations how Olympian laurels were won when Pollux or Hercules
-plied the cestus. From this branch a shield hung suspended.
-
-‘Good morrow, fair knight,’ said he of the primrose scarf; ‘prithee tell
-me if thou knowest what means this golden shield suspended here.’
-
-‘I marvel at it myself, good Sir Knight,’ responded the other; ‘but you
-mistake in calling the shield golden; it is of silver.’
-
-‘Your eyes must be of the dullest,’ said the first knight, ‘if you
-mistake gold for silver.’
-
-‘Not so dull as yours,’ retorted the other, ‘if you mistake silver for
-gold.’
-
-The argument waxed hot, and, as usual in such cases, as tempers grew weak
-adjectives grew strong. Soon, like the old Homeric heroes when Greek met
-Trojan
-
-    Far on the ringing plains of windy Troy,
-
-winged words of fire and fury darted from each mouth, and epithets were
-exchanged, of which ‘stupid old Tory’ and ‘low, vulgar Radical’ were
-among the least unparliamentary. At length the fatal words ‘You lie’
-escaped simultaneously from both, and on the instant spears were couched,
-steeds spurred, and, red with rage, they encountered each other in full
-career. Such was the momentum that both men and horses rolled over, even
-as the Templar went down before the spear of Ivanhoe within the lists of
-Ashby-de-la-Zouch. But, like the redoubted knight Brian de Bois-Guilbert,
-each sprang to his feet and drew his sword, eager to redeem the fortune
-of war in deadly combat. Like two surly boars with bristling backs and
-foaming tusks quarrelling for the right of way in Indian jungle, or tawny
-lions in Numidian desert tearing one another to pieces for the smiles
-of a leonine Helen, the heroes clashed together, cutting, slashing,
-parrying, foyning, and traversing, until at length, bleeding and
-breathless, they paused for a moment, leaning on their swords to recover
-second wind.
-
-Just then an aged hermit appeared on the scene, drawn thither by the
-sound of the combat.
-
-‘Pause, my sons,’ he said, ‘and tell me what is the cause of this furious
-encounter.’
-
-‘Yonder false villain protests,’ said the one, ‘that the shield which
-hangs there is of gold.’
-
-‘And that lying varlet persists that it is of silver,’ said the other.
-
-The hermit smiled, and said, ‘Hold your hands, good sirs, for a single
-moment, and use your remaining strength to exchange places and look at
-the opposite side of the shield.’
-
-They obeyed his words, and found to their confusion that they had been
-fighting in a quarrel in which each was right and each wrong.
-
-‘Father,’ they said, ‘we are fools. Grant us thy pardon for our folly and
-absolution for our sin.’
-
-‘Absolution,’ said the hermit, ‘is soon granted for faults which arise
-from the innate tendency of poor human nature. Wiser and older men than
-you are prone to see only their own side of a question. Come, then, with
-me to my humble hermitage; there will I dress your wounds and offer you
-my frugal fare; happy if from this lesson you may learn for the rest of
-your lives, before indulging in vehement assertions and proceeding to
-violent extremities, to “look at the other side of the shield.”’
-
-The application of this fable to the polarity of politics will be obvious
-to every intelligent reader. As the earth is kept in its orbit by the
-due balance of centripetal and centrifugal forces, so is every civilised
-society held together by the opposite influences of conservative and
-progressive tendencies. The conservative tendency may be likened to the
-centripetal force which binds the mass together, while the progressive
-one resembles that centrifugal force which prevents it from being
-concentrated in a rigid and inert central body without life or motion.
-As Herbert Spencer truly says, ‘from antagonistic social tendencies
-there always results not a medium state, but a rhythm between opposite
-states. Now the one greatly preponderates, and presently, by reaction,
-there comes a preponderance of the other.’ So it is with the antagonism
-of conservative and liberal tendencies. In the societies of the ancient
-world, and to the present day in the East, the conservative tendency
-unduly preponderates, and they crystallise into inert masses in the
-form of despotisms, and of sacerdotal or administrative hierarchies. At
-times the pent-up forces which make for change accumulate, and, as in
-the French Revolution, explode with destructive violence, shattering the
-old and bringing in new eras. But unless the balance between liberty and
-order is tolerably preserved in the individual citizens whose aggregate
-forms the society, after a period more or less prolonged of violent
-oscillations they crystallise anew into fresh forms, in which another
-military dynasty, or it may be administrative centralisation under the
-name of a republic, again asserts the preponderance of the centripetal
-force.
-
-The happiest nations are those in which the individual character of
-individual citizens supplies the requisite balance. An ideal society is
-one in which every citizen is at the same time liberal and conservative;
-law-abiding, and yet with a strong instinct for liberty of thought and
-action, for progress and for individual independence. It is among the
-Teutonic races, especially when they are placed in favourable conditions
-as in new countries, or in old countries where for ages
-
-    Freedom has widened slowly down,
-      From precedent to precedent,
-
-that this happy ideal is most nearly realised. Hence it is that these
-races are more and more coming to the front and surviving in the struggle
-for existence.
-
-The contrast of English and French colonisation affords a striking
-instance of this difference of races. A century and a half ago France
-stood as well as England in the race for colonial supremacy. She had
-the start of us in Canada, and her pioneers had explored the Great
-Lakes, the Mississippi, and a large part of the continent of North
-America west of the Rocky Mountains. To-day there are sixty millions
-of an English-speaking population in that continent, while French is
-scarcely spoken beyond the single province of Quebec. Political events
-had doubtless something to do with this result; but it has been mainly
-owing to the innate qualities of the two races, for even the genius of
-Chatham might have failed to establish our supremacy if it had not been
-backed by the superior intelligence, energy, and staying power of the
-English colonists. The ultimate cause of the triumph of the English over
-the French element in America and India is doubtless to be found in
-the stronger individualism of the former. The character of the French
-is eminently social, they like to live in societies, and shrink from
-encountering the hardships and still more the isolation of the life
-of early settlers. They like to be administered, and shrink from the
-responsibility of hewing out, each for themselves, their own path in the
-relations of civil life or in the depths of primæval forests.
-
-It is so to the present day, and they fail conspicuously in creating a
-large French population even at their own doors in Algeria; while in
-their more distant colonies they conquer and annex, but to see their
-commerce fall into the hands of English, Germans, and Chinese, as in
-Cochin China, or to stagnate as in New Caledonia. As a witty French
-writer puts it, the trade of a remote French colony may be summed up
-as—imports, absinthe and cigars; exports, stamped paper and red-tape.
-Individualism in this case has been fairly pitted against Socialism, and
-has beaten it out of the field by the verdict of Fact, which is more
-conclusive than any amount of abstract argument.
-
-To return, however, to the field of politics. Where the essential quality
-of being law-abiding is wanting in individuals, it is hopeless to look
-for real liberty. The centripetal force in societies, as in planets,
-must be supplied somehow, or they would fly into dissolution; and if not
-by the integration of the tendencies of the individual units, then by
-external restrictions. Socialists may be allowed to make inflammatory
-harangues in a non-explosive atmosphere, but hardly to let off their
-fireworks in a powder-magazine. In order, however, that a nation shall be
-law-abiding, it is essential that the great majority should feel that,
-on the whole, the law is their friend. It is not in human nature to love
-that which injures, or to respect that which is felt to be unjust. The
-volcanic explosion of the French Revolution was due to the feeling of
-the French nation, with the exception of a few courtiers, nobles, and
-priests, that the existing order of things was their enemy, and law a
-tool in the hands of their oppressors. Even among English-speaking races
-we find, in the unfortunate instance of Ireland, that under specially
-unfavourable circumstances the same effects may be produced by the same
-causes. What has English law practically meant for centuries to an
-average peasant of Kerry or Connemara? It has meant an irresistible
-malevolent power, which comes down on him with writs of eviction to
-compel him to pay a high rent on his own improvements. More than half the
-population of Ireland consists of tenants and their families occupying
-small holdings, paying less than 10_l._ a year of rent. Of an immense
-majority of these small holdings two things may be safely asserted:
-first, that the total gross value of the produce is insufficient, after
-paying the rent, to leave a decent subsistence for the cultivator.
-Secondly, that this rent is levied to a great extent on the improvements
-of the tenant or his predecessors. Throughout the poorer parts of Ireland
-the greater part of the soil, in its natural state of bog or mountain,
-is not worth a rent of a shilling an acre; but some poor peasant, urged
-by the earth-hunger which results from the absence of other sources of
-employment, squats upon it, builds a wretched cottage, delves, drains,
-fences, and reclaims a few acres of land so as to bear a scanty crop of
-oats and potatoes. When he has done so the landlord or landlord’s agent
-comes to him and says, ‘This land is worth ten or fifteen shillings an
-acre, according to the standard of rents in the district, and you must
-pay it or turn out;’ and the law backs him in saying so by writs of
-eviction and police. Put yourself in poor Pat’s place, and say if you
-would love the law and be law-abiding.
-
-It would take me too far from the scope of this volume into the field of
-contemporary politics if I attempted to point out who is to blame for
-this state of things, or what are the remedies. It is enough to say that
-this is the real Irish problem, and to point to it as an instance of the
-calamitous effects which inevitably follow when the instincts of a whole
-population are brought by an unfavourable combination of circumstances
-into necessary and natural antagonism with the laws which they are bound
-to obey.
-
-Conservative legislation, by whatever party it is introduced, really
-means making the law correspond with the common sense and common
-morality of all except the criminal and crotchety classes, so that the
-majority may feel it to be their friend. For instance, the most truly
-conservative measure of recent times was probably that which legalised
-trades’ unions and gave working-men full liberty to combine for an
-increase of wages. The old legal maxim, that such combinations were
-illegal as being in restraint of trade, was so obviously an invention of
-the members of the upper caste who wore horsehair wigs, to give their
-fellows of the same caste who employed labour an unfair advantage, that
-it could not fail to cause feelings of discontent and exasperation
-among the masses of working-men. By its repeal the sting has been taken
-out of Socialism, and the British working-man has come to be, in the
-main, a reasonable citizen, on whom incitements to violence in order to
-inaugurate Utopias, fall as lightly as the howlings of the barren east
-wind on the chimney-tops. It has led also to reasonable and peaceful
-adjustment of disputes between employers and labourers by arbitration
-and sliding-scales instead of by strikes and lock-outs. In the United
-States of America the law-abiding instinct is even stronger. We find that
-strikes attended with violence are almost always confined mainly to the
-foreign element of recently imported immigrants, and that the native-born
-American citizen considers the laws as his own laws, and is determined
-to have them respected.
-
-The balance between the conservative and progressive tendencies is,
-however, at the best, always imperfect, and inclines too much sometimes
-in one and sometimes in the other direction. In England the conservative
-tendency has had on the whole too much preponderance. I do not speak
-of political institutions, for in these of late years the balance has
-been pretty equally preserved; but in practical matters there is still a
-good deal of old-fashioned stolid obstruction. This is most apparent in
-law and in education. The common or judge-made law, though on the whole
-well-intentioned and upright, is fettered by so many technicalities and
-musty precedents, that it fails in a great many instances to be, what
-civil law ought to be, a cheap, speedy, and intelligible instrument
-for enforcing honest dealings between man and man. One of our greatest
-railway contractors once said to me, ‘If I want to make an agreement
-which shall be absolutely binding, I make it myself on a sheet of
-note-paper; if I want to have a loophole, I send it to my lawyer to have
-it drawn up in legal language and engrossed on sheets of parchment.’
-Another man of large experience in commercial and financial matters laid
-down this axiom: ‘If you want to know what is the law in a doubtful case,
-reason out what is the common-sense view of it, and assume that the
-direct opposite is probably the law.’ These may be extreme instances,
-as all such epigrammatic sentences generally are, but it is undeniable
-that they have a considerable basis of substantial truth; and that law,
-with its dilatory processes, its enormous expense, and its uncertain
-conclusions, may be, and often is, not an instrument of justice, but a
-weapon in the hands of an unscrupulous adventurer or of a dishonest rich
-man, to extort blackmail or to defeat just claims.
-
-Again, what nation but England would tolerate so long a system of land
-law, so bristling with antiquated technicalities, so tedious, and so
-expensive, as almost to amount to a prohibition of the transfer of land
-in small quantities; or could let the private interests of a mere handful
-of professional lawyers stand in the way of a codification of laws and a
-registration of titles?
-
-Education is another subject which shows how difficult it is to move
-the sluggish ultra-conservative instincts of the English mind in the
-direction of progress, when not stimulated by political conflict. What
-is education? The word tells its own story; it is to _draw out_, not to
-_cram in_; to unfold the capacities of the growing mind, strengthen the
-reasoning faculty, create an interest in the surrounding universe; in a
-word, to excite a love of knowledge and impart the means of acquiring it.
-For the mass of the population, education is necessarily confined in a
-great measure to the latter object. The three R’s—reading, writing, and
-arithmetic—are indispensable requisites, and the acquirement of these,
-with perhaps a few elements of history and geography, absorbs nearly all
-the time and opportunity that can be afforded for attendance at school.
-For any culture beyond this the great majority must depend on themselves
-in after life. But there are a large number of parents of the upper and
-middle classes who can and do keep their children at school for eight or
-ten years, and spend a large sum of money in giving them what is called
-a higher education. What is there to show for this time and money, even
-in the case of the highest schools, which ought to give the highest
-education? On the credit side, a little Latin and less Greek, plenty of
-cricket and athletics, good physical training, and, best of all, on the
-whole a manly, honourable, and gentlemanlike spirit. But on the debit
-side, absolute ignorance, except in the case of a few unusually clever
-and ambitious boys, of all that a cultivated man of the nineteenth
-century ought to know. No French, no German, and, what is worse, no
-English. The average boy can neither write his own language legibly nor
-grammatically, and, if he goes straight from a public school into a
-competitive examination, stands an excellent chance of being plucked for
-spelling. And, what is worst of all, he not only knows nothing, but cares
-to know nothing; his reasoning faculty has never been cultivated, and his
-interest in interesting things has never been awakened. What is the first
-lesson he has had to learn? ‘Propria quæ maribus dicantur mascula dicas,’
-that is, words appropriated to males are called masculine—a lesson which
-elicits as much reasoning faculty, and creates as much interest, as
-if he had been made to commit to memory that things made of gold are
-called golden. Suppose instead of this that the lesson had been that two
-volumes of hydrogen combine with one volume of oxygen to form water.
-The exercise to the memory is the same, but how different is the amount
-of thought and interest evoked, especially if the experiment is made
-before the class and each boy has to repeat it for himself! How many new
-subjects of interest would this open up in the mind of any lad of average
-intelligence! How strange that there should be airs other than the air
-we breathe, which can be weighed and measured, and that two of them by
-combining shall produce their exact weight of a substance so unlike them
-as water! Or if the exercise of a class were to look through a microscope
-at the leaf of a plant or wing of an insect, and try who could best draw
-what they had seen and write a description of it in a legible hand and in
-good English, how many faculties would this call into play compared with
-the dull routine of parsing a Latin sentence or writing a halting copy of
-Greek iambics! Even grammar, the one thing which is supposed to be taught
-thoroughly, is taught so unintelligently that it awakens no interest
-beyond that of a parrot learning by rote. From ‘propria quæ maribus’
-the scholar passes to ‘as in præsenti perfectum format in avi,’ without
-an attempt to explain what language really means, how it originates
-from root-words, and how these inflections of ‘as’ and ‘avi’ are part
-of the devices which certain families of mankind, including our own,
-have invented as a mechanism for attaching shades of meaning, such as
-present and past, to the primitive root. Even the alphabet intelligently
-taught opens up wide fields of interesting matter as to the history of
-ancient nations, and their successive attempts to analyse the component
-sounds of their spoken words, and to pass from primitive picture-writing
-to phonetic symbols. But the instructors of the budding manhood of the
-_élite_ of the nation, like Gallio, ‘care for none of these things,’
-and the organisation of our higher schools seems to be stereotyped on
-the principle that they are made for teachers rather than for scholars,
-and that their chief _raison d’être_ is to enable a limited number of
-highly respectable gentlemen from the Universities to realise comfortable
-incomes with a maximum of holidays and a minimum of trouble. And the
-parents support the system because so many of them really reverence rank
-more than knowledge, and are willing to compound for their sons growing
-up ignorant, idle, and extravagant, if by any chance they can count a
-lord or two among their acquaintance.
-
-Mr. Francis Galton, in the course of his interesting inquiries as to the
-effect of heredity and education on character and attainments, took the
-very practical course of addressing a set of questions to some hundred
-and eighty of our most distinguished men as to the hereditary qualities
-of their ancestors, and the various influences which they considered had
-done most to promote or to retard their success in life. Of course he
-received a variety of answers, ‘quot homines tot sententiæ,’ but upon one
-point there was a striking unanimity. ‘They almost all expressed a hatred
-of grammar and the classics, and an utter distaste for the old-fashioned
-system of education. There were none who had passed through this old high
-and dry education who were satisfied with it. Those who came from the
-greater schools usually did nothing there, and have abused the system
-heartily.’
-
-And yet the system goes on, and the Eton Latin grammar will probably be
-taught, and hexameters written, for another generation. Surely the needle
-swings here too strongly towards the negative or obstructive pole.
-
-The instances are so numerous in social and practical life in which it is
-necessary to look at both sides of the shield that the difficulty is in
-selection. Take the case of patriotism. Patriotism is beyond all doubt
-a great virtue—in fact, the fertile mother of many of the higher and
-heroic virtues. Who does not sympathise with the legends of Wallace and
-William Tell, and scorn with Walter Scott
-
-          the man with soul so dead
-    Who never to himself has said,
-    This is my own, my native land?
-
-And yet how thin a line of partition separates it from narrow-minded
-arrogance and insolent ignorance! Reflected in the latter form from
-Paris, in hysterical shouts now of ‘À Berlin, À Berlin!’ and now ‘À
-bas perfide Albion!’ we call it ‘Chauvinism,’ and recognise it as an
-unlovely exhibition. But call it ‘Jingoism,’ and let it take the form
-of the bellowings of some stupid bull, as the red flag, now of a French
-and now of a Russian scare, crosses his line of vision, and we are
-blind to its deformity. Still there is another side to the shield, for
-even ‘Jingoism,’ which is only another word for patriotism run mad,
-is more respectable than the opposite extreme of a sordid and narrow
-minded parochialism, which shrinks behind the ‘silver streak,’ measures
-everything by the standard of pounds, shillings, and pence, and, with
-what Tennyson calls
-
-    The craven fear of being great,
-
-groans over the responsibilities of extended empire. The growth of such
-a spirit among prominent politicians of the advanced Liberal school
-seems to me one of the most alarming symptoms of the day; but I take
-comfort when I reflect that the most democratic community in the world,
-that of the United States, is precisely the one which has shown most
-determination to maintain its national greatness, if necessary by the
-sword, and has made the greatest sacrifices for that object. If the
-‘copperheads’ were a miserable minority in America, why should we be
-afraid of our ‘English copperheads’ ever becoming a majority in Old
-England?
-
-In this, as in all similar cases, it is evident that true statesmanship
-consists in hitting the happy mean, and doing the right thing at the
-right time; and that true strength stands firm in the middle between
-the two opposite poles, while weakness is drawn by one or other of the
-conflicting attractions into
-
-    The falsehood of extremes.
-
-When Sir Robert Peel some forty years ago announced his conversion by the
-unadorned eloquence of Richard Cobden, and free trade was inaugurated,
-with results which were attended with the most brilliant success, every
-one expected that the conversion of the rest of the civilised world was
-only a question of time, and that a short time. Few would have been found
-bold enough to predict that forty years later England would stand almost
-alone in the world in adherence to free-trade principles, and that the
-protectionist heresy would not only be strengthened and confirmed among
-Continental nations such as France and Germany, but actually adopted by
-large and increasing majorities in the United States, Canada, Australia,
-and other English-speaking communities. Yet such is the actual fact at
-the present day. In spite of the Cobden Club and of arguments which
-to the average English mind appear irresistible, free trade has been
-steadily losing ground for the last twenty years, and nation after
-nation, colony after colony, sees its protectionist majority increasing
-and its free-trade minority dwindling.
-
-It is evident there must be some real cause for such a universal
-phenomenon. In countries like France and Russia we may attribute it to
-economical ignorance and the influence of cliques of manufacturers and
-selfish interests; but the people of Germany, and still more of the
-United States, Canada, and Australia, are as intelligent as ourselves,
-and quite as shrewd in seeing where those interests really lie. They are
-fettered by no traditional prejudices, and their political instincts
-rather lie towards freedom and against the creation of anything like
-an aristocracy of wealthy manufacturers. And yet, after years of
-free discussion, they have become more and more hardened in their
-protectionist heresies.
-
-What does this prove? That there are two sides to the shield, and not, as
-we fancied in our English insularity, only one.
-
-Free trade is undoubtedly the best, or rather the only possible, policy
-for a country like England, with thirty millions of inhabitants,
-producing food for less than half the number, and depending on foreign
-trade for the supplies necessary to keep the other half alive. It is the
-best policy also for a country which, owing to its mineral resources,
-its accessibility by sea to markets, its accumulated capital, and the
-inherited qualities, physical and moral, of its working population, has
-unrivalled advantages for cheap production. Nor can any dispassionate
-observer dispute that in England, which is such a country, free trade
-has worked well. It has not worked miracles, it has not introduced an
-industrial millennium, the poor are still with us, and it has not saved
-us from our share of commercial depressions. But, on the whole, national
-wealth has greatly increased, and, what is more important, national
-well-being has increased with it, the mass of the population, and
-especially the working classes, get better wages, work shorter hours, and
-are better fed, better clothed, and better educated than they were forty
-years ago.
-
-This is one side of the shield, and it is really a golden and not an
-illusory one. But look at the other side. Take the case of a country
-where totally opposite conditions prevail: where there is no surplus
-population, unlimited land, limited capital, labour scarce and dear, and
-no possibility of competing in the foreign or even in the home market
-with the manufactures which, with free trade, would be poured in by
-countries like England, in prior possession of all the elements of cheap
-production. It is by no means so clear that protection, to enable native
-industries to take root and grow, may not in such cases be the wisest
-policy.
-
-Take as a simple illustration the case of an Australian colony imposing
-an import duty on foreign boots and shoes. There is not a doubt that
-this is practically taxing the immense majority of colonists who wear
-and do not make these articles. But, on the other hand, it makes the
-colony a possible field for emigration for all the shoemakers of Europe,
-and shoemaking a trade to which any Australian with a large family can
-bring up one of his sons. Looking at it from the strict point of view of
-the most rigid political economist, the maximum production of wealth,
-which is the better policy? The production of wealth, we must recollect,
-depends on labour, and productive labour depends on the labourer finding
-his tools—that is, employment at which he can work. A labourer who cannot
-find work at living wages is worse than a zero: he is a negative quantity
-as far as the accumulation of wealth is concerned. On the other hand,
-every workman who finds work, even if it may not be of the ideally best
-description, is a wealth-producing machine. What he spends on himself and
-his family gives employment to other workmen, and the work must be poor
-indeed if the produce of a year’s labour is not more than the cost of a
-year’s subsistence. The surplus adds to the national capital, and thus
-capital and population go on increasing in geometrical progression. The
-first problem, therefore, for a new or a backward country is to find ‘a
-fair day’s wages for a fair day’s work,’ for as many hands as possible.
-The problem of making that employment the most productive possible is
-a secondary one, which will solve itself in each case rather by actual
-practice than by abstract theory.
-
-This much, however, is pretty clear, that in order to secure the maximum
-of employment it must be varied. All are not fit for agricultural work,
-and, even if they were, if the conditions of soil and climate favour
-large estates and sheep or cattle runs rather than small farms, a large
-amount of capital may provide work for only a small number of labourers.
-On social and moral grounds, also, apart from dry considerations of
-political economy, progress intelligence and a higher standard of
-life are more likely to be found with large cities, manufactures, and
-a variety of industrial occupations than with a dead level of a few
-millionaires and a few shepherds, or of a few landlords and a dense
-population of poor peasants. If protection is the price which must be
-paid to render such a larger life possible, it may be sound policy to
-pay it, and the result seems to show that neither it nor free trade is
-inconsistent with rapid progress, while, on the other hand, neither of
-them affords an absolute immunity from the evils that dog the footsteps
-of progress, and from the periods of reaction and depression which
-accompany vicissitudes of trade.
-
-Here, as in other cases, there are two sides of the shield, and true
-statesmanship consists in seeing both, and doing the right thing, at the
-right place, and at the right time. If free trade is, as we believe,
-ultimately to prevail, it will be an affair of time. The real trial of
-protection comes when it has stimulated production to a point which gluts
-the home market and leaves a surplus which must be exported. Exports of
-articles the cost of which has been artificially raised by protection,
-cannot compete in the world’s market with the cheaper products of
-free-trade countries. Vicissitudes therefore of prosperity and depression
-must tend to become more frequent and more severe, and, if production
-goes on, a point must be reached where, at whatever cost, it must either
-be arrested or made capable of competing in the wider market. The United
-States are probably not far from such a point, and it would have been
-already reached but for the immense and unexhausted resources of that
-vast continent. In France the point has apparently been reached, and we
-find that, with a lower scale of wages than in England, it is becoming
-more and more difficult every day to maintain that lower scale, and the
-export trade of its manufactured goods to foreign markets.
-
-Protection, leading to higher wages and profits than can be permanently
-maintained, and artificially enhancing the cost of living to the working
-classes, threatens, more and more every day, to introduce strained
-relations between capital and labour in most countries of Europe.
-
-The relation between capital and labour affords a good instance of the
-inevitable error of applying hard and fast logical conclusions to the
-complex and ever-varying problems of actual life. Ricardo and other
-distinguished writers on political economy have assumed that the two
-constitute a fundamental antagonistic polarity. Wealth, they say, is the
-joint product of capital and labour, and, as in the case of a cake which
-has to be divided between C and L, the more C gets the less is left for
-L, and _vice versâ_. The theory sounds plausible: but what says fact? In
-the most unmistakable manner it pronounces, as the outcome of practical
-experience, that the profits of capital and the wages of labour rise
-and fall together. High profits mean high wages, rising profits rising
-wages, falling profits falling wages. It has been proved so in a thousand
-instances, and not one can be quoted where the one factor has varied in
-an inverse, and not in a direct, ratio with the other. It is obvious that
-there must be some fallacy in Ricardo’s argument. The fallacy is this: he
-assumes the cake to be of fixed dimensions, whereas in point of fact it
-varies, sometimes diminishing to zero, or even to a negative quantity,
-at others expanding to many times its original size. A new gold-field is
-discovered in a remote country, and forthwith profits rise to cent. per
-cent., and wages to a pound a day; a bad season and depression of trade
-overtake an old country, and the gross value of the produce of many a
-farm is insufficient to cover expenses and depreciation, even if the
-labourers worked for nothing. The polarity is therefore confined to the
-limited and temporary case of the division of the profit, where there
-is a profit, in particular trades and in individual instances. And this
-is regulated mainly by the accustomed scale of wages and standard of
-living of the workmen, and their opportunities of finding employment
-elsewhere if dissatisfied with the terms offered to them. On the whole,
-it may be said that capital has the best of it on a rising, and wages on
-a falling, market. A manufacturer or mine-owner’s profit may rise from
-five to twenty per cent. without quadrupling the rate of wages; but, on
-the other hand, it may fall from twenty per cent. to five, or even for a
-time below zero, without a proportionate diminution in the price paid for
-labour. Capital is, in fact, the great insurer of labour, the flywheel
-which regulates the motion of the industrial machine. This will be best
-illustrated by a practical instance. The Brighton Railway Company for
-several consecutive years paid no dividend, or only a trifling amount,
-on the shareholders’ capital, but during the whole of this time it gave
-steady employment at good wages to upwards of ten thousand workmen.
-The Blaenavon Coal and Iron Company in South Wales was for many years
-a losing concern, and successive capitalists lost the best part of a
-million pounds in it, until at length it was reorganised with a small
-capital and became a fairly prosperous concern. During the whole of this
-time it gave employment at fair wages to several thousand workmen. Which
-had the best of it in these two cases, capital or labour, and where
-would the workmen have been on any communistic or co-operative system?
-In fact it will be apparent to any one who will study dispassionately
-the statistics of any line of inquiry, such as the scale of wages, the
-price of provisions, the accumulations of savings banks and provident
-societies, &c., for the last twenty years, that the working classes have
-had the lion’s share of the vast increase which has taken place in the
-wealth and income of the nation. I am glad that it is so, for it is
-better, both morally and politically, that the condition of the masses
-should be improved, and their standard of living raised, than that
-capital should accumulate too exclusively in large masses.
-
-Still there is a good deal to be said for such large accumulations.
-Let us go to the United States of America for an illustration, where
-everything is on a large scale, and colossal fortunes have been made in
-a few years. The _modus operandi_ by which most of these fortunes have
-been made may be described according to the way we look at it, either
-as railway jobbing or as pioneering the way in useful enterprise. The
-construction of the first railway across the continent to California
-is a typical instance. A clique or syndicate of wealthy speculators
-make surveys and estimates of a line across deserts and over mountain
-ranges, and ascertain pretty accurately what it will cost. They form
-a company with a capital of double that cost, and by subventions from
-the Government, grants of land, and sale of mortgage bonds, raise the
-half really required, and hold the other half in shares as profit in
-paper. The line is made, and if the traffic turns out well, and there
-is a period of speculation in the money market, the paper is turned
-into dollars, and, if the line really costs, say, 10,000,000_l._ or
-20,000,000_l._, the promoters realise an equal amount as profit.
-
-This has two sides to it: it is doubtless bad for the public to have
-to pay rates which give a return on twice the actual cost, and the
-possession of a close monopoly in the hands of a few millionaires may
-be abused to the detriment of individual traders. But, on the other
-hand, the railway could not have been made in any other way. If it had
-been necessary to wait until the slow growth of population insured such
-a traffic as would induce the ordinary public to subscribe for shares
-at par, you might have waited for twenty years before a single mile of
-railway was made west of the Mississippi. Nor is this all: the enormous
-profit realised in the first of these enterprises led to a rush of rich
-speculators into the lottery of pushing railways ahead of traffic, in
-which there were such magnificent prizes. The continent was covered by
-new railways built to create new traffic rather than to provide for
-that which already existed. And the traffic was created, though, as
-the lottery contained blanks as well as prizes, many of the original
-promoters were ruined. The second great line spanning the continent—the
-Northern Pacific—ruined two successive sets of promoters, and is only now
-beginning to be moderately successful.
-
-But the final result has been that while British India, which went on
-what may be called the respectable system of getting a pound’s worth of
-work for every pound raised, has only 12,000 miles of railway, the United
-States, under the speculative system, has got 120,000 miles. I cannot
-doubt that the national wealth of America is greater at the present day
-than if there had been no Jay Goulds or Vanderbilts, and the construction
-of her railways had been delayed on the average for twenty years.
-
-The contrast between labour and capital or free trade and protection is
-only a particular case of the larger polarity between what is called in
-scientific language egoism and altruism, or, in more popular phraseology,
-individualism and socialism. According to one theory, the best result
-is obtained by leaving individuals as free as possible to act on
-their own suggestions of their duties and interests, and confining the
-intervention of the State to enforcing laws for the protection of life
-and property, and such measures as are obviously necessary for the safety
-of society. According to the other theory, the State ought to interfere
-wherever the results of individual liberty lead to abuses, and should
-endeavour to create a society as near to ideal perfection as possible,
-by administering and regulating the public and private affairs of its
-citizens. It is obvious that the question has two sides, that extreme
-conclusions in either direction are, as is always the case, invariably
-false. Individualism carried too far would disintegrate society. It would
-be impossible to leave it to the short-sighted selfishness of every
-citizen to say whether an army and navy should be maintained for national
-defence, and taxes should be levied for their support.
-
-Individualism also easily passes over into a hard and cruel selfishness,
-which recognises no obligation beyond the letter of the law, and acts
-practically on the principle of ‘Every one for himself, and the devil
-take the hindmost.’ It is this phase of individualism which makes
-enthusiasts and men of strong moral and religious sympathies declaim so
-vehemently against _laissez faire_, and cry aloud, like Carlyle, for a
-hero or benevolent despot who is to scourge humanity into the practice of
-all the virtues.
-
-On the other hand, Socialism, if not confined within rigid limits
-of experience and common sense, is even more destructive in its
-consequences. Civilised society is based on the security of private
-property and the observance of contracts. If these are liable, not
-merely to be regulated in extreme and exceptional cases, but to be
-absolutely condemned in principle, as by Socialists of the Proudhon
-school, who declare, ‘La propriété c’est le vol;’ or overruled and set
-aside whenever they are thought to conflict with humanitarian scruples or
-sentimental aspirations, society would be dissolved into its elements,
-to crystallise anew about some military dictator or other strong form
-of repressive government, who could restore it to a state of stable
-equilibrium in accordance with these fundamental laws.
-
-No society based on the community of goods has ever existed, except on a
-very limited scale and for a very short time, under some strong temporary
-influence such as religious excitement. In the early Christian Church it
-only existed as long as its members were a handful of humble individuals
-who were impressed with the idea that the end of the world was close at
-hand, and that sacrifices made on earth would be repaid at an early day
-with compound interest in heaven. They acted on what was almost as much a
-principle of enlightened selfishness as if they had placed their money on
-the best possible security at the highest possible interest.
-
-The only existing society, as far as I am aware, which has everything
-in common, is a small sect of Shakers in the United States, which owes
-its limited success to two conditions—first, that there is no marrying
-or giving in marriage; secondly, that a member invented a patent
-rat-trap—conditions which are hardly likely to survive in the struggle
-for life and become a type for general adoption.
-
-The nearest approach to Communism in practical operation on a large
-scale is that of the village communities of Russia and parts of India,
-which certainly show no signs of being progressive types destined to
-gain ground. On the contrary, they fail to fulfil what is the first
-condition of an agricultural community, that of obtaining a fair average
-produce from the soil, and the more enterprising and intelligent moujiks
-or ryots invariably seek to obtain something which they can call their
-own and are not obliged to share with the idle and improvident. A
-conclusive objection to all schemes of Socialism or Communism is, that
-they not only crush out all individual initiative and enterprise in
-material life, but that they also destroy all incentives to individual
-charity and benevolence. Why make sacrifices to help others, if they
-are already helped at your expense by the State? This is no theoretical
-objection, but has been proved practically by the history of the poor
-laws. What scope for individual charity was there in a parish like that
-in Buckinghamshire, where under the old poor law the rate had risen
-to twenty shillings in the pound, and the cultivation of the soil was
-abandoned? Or even in less extreme cases, any one who is acquainted with
-remote rural parishes inhabited by cotters and small farmers must be
-aware that the poor law operates strongly to destroy the feeling of manly
-independence and family affection which induced the poor to support their
-own aged and infirm relatives.
-
-In many parts of Scotland with which I am personally acquainted men who
-a generation ago would have thought it a disgrace to ask for help to
-support an aged father or mother, now think it only fair play, after
-having contributed for years to the poor rate, to try and get something
-out of it in return.
-
-Altruism, as Herbert Spencer well puts it, if carried to excess, defeats
-itself, for in annihilating egoistic vices it annihilates egoistic
-virtues, and the result is zero—a result which, as ‘nature abhors a
-vacuum,’ can happily never be attained, and the precepts of the Sermon on
-the Mount must always remain maxims of private morality, rather than of
-State regulation.
-
-It is of little use, however, to deal with such generalities; as long as
-we confine ourselves to extreme instances on either side, it is as easy
-as it is idle to refute them. Profitable discussion only begins when
-we enter on the wide intermediate space which lies between the extreme
-frontier provinces, and, instead of arguing for absolute conclusions,
-endeavour to discover the happy mean in doubtful cases, where there
-really are limitations of time and circumstance, and a good deal which
-may be reasonably said on each side of the question.
-
-Take for instance the case of contract, which has been so much discussed
-with reference to the Irish question. Nothing can be clearer than
-that the enforcement of contracts is one of the principal duties of a
-government. The principle of _caveat emptor_ may occasionally lead to
-results not altogether consistent with strict morality; but there will
-always be fools in the world, and it is better they should pay for their
-folly than that the State should be perpetually interfering in the vain
-attempt to protect them. The bargain may be a bad one, but it is far
-better that men should be held to their bargains than that every loser
-should have a loophole provided to escape by appealing to some legal
-quibble or State-provided tribunal of arbitration.
-
-But there are limits to this salutary principle. The contract must be
-a free one, freely entered into by parties who meet on equal terms. If
-it is a compulsory one, which the weaker party has practically no option
-of refusing, the case is altered. Thus, in the case of children, it is
-absurd to say that they are free agents in contracting for the disposal
-of their labour, and the State properly interferes by Factory Acts to
-limit the number of hours for which they are to work. So in the relations
-between landlord and tenant, whenever they meet on equal terms, and
-the tenant has an option of either taking or refusing to take a farm
-at the rent asked, both sides must be held to their bargain, however
-disadvantageous it may turn out for either of them. But if the landlord
-is practically omnipotent, and the tenant has no alternative but to
-promise to pay an impossible rent or to be turned out on the roadside
-and die of starvation, it is by no means so clear that the State should
-enforce the bargain unless the landlord submits to equitable terms. Or
-again, if the rent is not due to the intrinsic value of the land, but
-is a confiscation of the tenant’s improvements, it is far from being
-self-evident that the law should look only at landlords’ rights and
-forget all about landlords’ duties.
-
-It is a question rather of fact than of argument or assertion, whether
-such a state of things does or does not prevail at any particular time
-in any particular country. If the contracts were fair bargains entered
-into by free agents, they ought to be enforced whether prices have risen
-or fallen, leaving it to the humanity and self-interest of landlords to
-make reasonable reductions. But if they were no more equal bargains than
-those of slaves or factory-children, the State might fairly interfere to
-attach equitable conditions to the enforcement of inequitable contracts.
-
-The antithesis between the rights and duties of property, especially in
-the case of land, is one which raises many nice and difficult questions.
-Some theorists, like Henry George, are for solving it by ignoring the
-rights altogether. According to them, private property in land is the
-source of all the evils that afflict modern society; poverty, depressions
-of trade, low profits, and low wages are caused by the constant drift
-towards high rents, due to the possession by a small section of the
-community of a monopoly in that which is as much a necessity of existence
-as air or water. Abolish private property in land, and straightway you
-will have the millennium.
-
-In this extreme form the fallacy of the argument is obvious. You cannot
-stop at land, but must have the courage of your opinion, and go the full
-length, with Proudhon, of denouncing all property as robbery. For if the
-right of individual property is the first condition of civilised society,
-you can hardly exclude that form of it which, in all ages and all
-countries, has been practically the most powerful incentive to progress
-and civilisation.
-
-Compare the United States of America under their homestead laws, with
-Russia under a system of village communes; or the California of to-day
-with that of fifty years ago under the Jesuit padres; and you will see
-that the desire to acquire property in land has been what may be called
-the high-pressure steam supplying the motive power to reclaim continents
-and multiply population.
-
-Nor in principle is there any argument for the confiscation of land
-which would not equally apply to the confiscation of any other sort
-of property, when theorists, philanthropic at other people’s expense,
-thought that the owner had more than was good for him, or had acquired
-it as an unearned increment, without working for it. Suppose two men, A
-and B, employed as engine-drivers on an American railway, have each saved
-a hundred dollars. The railway has been a failure: intended to reach a
-distant terminus, it has stopped halfway in a desert, for want of funds,
-and for years has paid no dividend. The hundred-dollar shares are only
-worth ten, and the land at the distant terminus is only worth ten dollars
-an acre. But A and B are sharp fellows, and see that if speculation
-ever revives the line will probably be completed, and both shares and
-land will become valuable. A buys ten shares with his hundred dollars,
-and B ten acres of land. The boom comes, the capital is found, the line
-completed, and the shares rise to par, and the land to a hundred dollars
-an acre. A and B have each realised nine hundred dollars by what may be
-described, as you like to put it, either as an unearned increment or as
-providence and foresight. On what principle can you confiscate B’s nine
-hundred dollars because it is in land, and leave A’s untouched because it
-is in shares?
-
-On the other hand, there is no doubt that when we come to more complex
-cases, in which land is held in large masses, fenced in, not by the
-natural right of a man to the produce of his own exertions, but by
-artificial legal systems of inheritance and settlement, we are on
-neutral ground, where fair discussion is possible as to the limitations
-and conditions under which the State may afford its protection. Landed
-property is more the creature of law, and runs greater risks in case of
-revolution or communistic legislation, than personal property, which is
-more easily concealed or transferred. It is not unreasonable, therefore,
-that it should pay a higher insurance in the form of taxation, and
-especially when it passes by inheritance or settlement, when the new
-owner’s title is to a great extent artificial and the creation of the
-law. No one can dispute the abstract justice of a succession duty on
-all property, landed or personal, in proportion to its amount, passing
-by operation of law: the only question can be as to the amount, and
-the expediency of confining it within limits that shall not trench on
-confiscation or impair the desire to accumulate capital. And in the case
-of land, there is no doubt that there are a good many instances in which
-the question of the ‘unearned increment’ is raised more forcibly than in
-the case of ordinary property. Take a practical instance within my own
-knowledge, for an illustration is often better than an argument. There
-was a mountain property in Wales which, as a sheep or cattle farm, might
-be worth at the outside 800_l._ a year. Coal and iron were discovered
-under it, capitalists sank pits and erected works, two or three sets
-lost their money; but the works were carried on, a large amount of
-labour was employed, and in course of time a town of some eight or nine
-thousand inhabitants, sprang up. The proprietor’s 800_l._ a year grew
-into 8,000_l._ from fixed rents and royalties, which he has enjoyed for
-the last thirty years, through good times and bad, without being called
-on to contribute a penny towards schools, churches, roads, sewers, water,
-or any of the local objects necessary for the civilised existence of the
-population of eight thousand whose labour has added to his wealth. I do
-not blame him: the law told him to do what he liked with his own, and
-it probably never occurred to him that he was under any moral obligation
-to go beyond the law. But I do think that the law would have been more
-just, and better for the interests of the community, if it had made
-some portion of this unearned increment of 7,000_l._ a year liable for
-a contribution towards the sanitary and other objects essential for the
-decent existence of the town which had grown up on this property and
-given it this increased value. I cannot help thinking that centuries of
-landlord legislation, and of a public opinion based mainly on that of the
-wealthy and specially of the landed classes, have made our laws in many
-respects too favourable to the predominant interests, and that the swing
-of the pendulum now is, and properly is, in the direction of recognising
-the duties as well as the rights of property.
-
-We must take care, however, not to let it swing too far in this
-direction, for of the two evils it is better to put up with occasional
-cases of hardship and oppression on the part of bad landlords than to
-endanger the security of property by reforms pushed to extremes at the
-dictation of impulsive masses, designing demagogues, or sentimental
-philanthropists.
-
-Herbert Spencer, in his works on Sociology, often dwells with great
-force on the evils which arise from State interference. There can be no
-doubt that it is very undesirable that the State should become a sort
-of Jack-of-all-trades, and undertake branches of business which can be
-conducted by private enterprise. It is undesirable for two reasons:
-first, because the work is certain to cost more and be worse done;
-secondly, for the still more important reason that it tends to extinguish
-individual enterprise, strangle progress with red-tape, and teach a
-nation to look, like children to outside guidance, rather than, like
-men to their own. Still the question has two sides. Whatever individual
-enterprise can do should be left to it; but there are, in the complex
-conditions of modern society, a number of things which cannot be done by
-individuals, and which must either be left undone or done by the State,
-or by some local authority, joint-stock company, or other quasi-monopoly
-sanctioned by the State. Thus, if it were a question of bringing coals
-from Newcastle by sea, no one would suggest that the State should
-interfere with the private enterprise of individual shipowners. But to
-bring them by land requires railways, and railways can only be built by
-capitals beyond the reach of private individuals. If the State had not
-delegated a portion of its powers to joint-stock companies, not a ton of
-coal would ever have been brought by land to London.
-
-And if the State may thus occasionally delegate its powers with advantage
-to the community, there are cases in which it may, with equal advantage,
-undertake itself branches of the nation’s business. For instance, the
-Postal Service. The advantages of a cheap and uniform system for the
-collection and delivery of letters throughout the whole kingdom are
-so great that they far outweigh any theoretical objections to State
-interference. Possibly some of the larger towns might have been as well
-or better served by private enterprise, but no non-paying district would
-have had a post-office, and the enormous commercial and educational
-benefits of the penny post would have been in a great measure lost to the
-community.
-
-The case of telegraphs is not so clear. Probably, on the whole, the
-advantages of a uniform State management preponderate, but there are
-drawbacks which make it doubtful. Even at a sixpenny rate a great deal
-of the telegraphic communication of the large towns and active centres
-of business is taxed to make up for the deficiency of the rest of the
-kingdom. And invention and improvement in telegraphy are no doubt checked
-to a considerable extent by creating a State monopoly whose first duty it
-is to try to satisfy its masters at the Treasury by making the system pay.
-
-When we come to railways we are on debateable ground, and it is fairly
-arguable that they should be worked by the State for the public good.
-But the objections here outweigh the advantages. Every one who has any
-practical experience of the working of railways must be aware that
-the simplicity and uniformity of the penny postal system are totally
-inapplicable, and that the traffic of the country requires, above all
-things, great freedom and elasticity in meeting, day by day, the varying
-contingencies which arise. Here is an illustration: In a certain town
-in France, on a railway worked by the State, it was determined to have
-a _fête_ in order to raise funds for a hospital, and, as an attraction,
-to bring down from Paris a small troop of actors and have a play in the
-evening. The question turned on the railway consenting to give them a
-reduced fare for the return journey. The manager of the railway was
-quite willing, but said that he had no power to alter the tariff without
-permission from the Minister of Public Works. The permission was applied
-for, and the result was that it arrived exactly on the day twelve months
-after the _fête_ had been held.
-
-Contrast this with the case of the general manager of the London and
-North Western Railway sitting in his office at Euston and receiving half
-a dozen telegrams asking him to quote special rates, one perhaps for beef
-from Chicago to London, another for emigrants from Hamburg to New York
-_via_ Liverpool, and all requiring telegraphic answers then and there, if
-the business is to be done at all.
-
-Again, if railways had been in the hands of the State, I do not suppose
-that we should have had half our present mileage; for the Treasury would
-never have sanctioned the outlay of public money on lines which could
-not show the prospect of a fair return on the capital, and it would
-have vetoed any multiplication of trains or reduction of rates which
-threatened loss to the exchequer. I can speak with some authority on this
-point, for I have been both Chairman of a railway company and Secretary
-of the Treasury, and I am certain that, in the former capacity, I have
-introduced important innovations, such as excursion trains and cheap
-periodical tickets, by which the public have greatly benefited, which I
-should have vetoed in the latter capacity.
-
-Still there may be exceptional cases, as that of Ireland, where an
-unreasonable number of poor companies, in a poor country, wrangling among
-themselves, and giving a bad service at an excessive cost, intensify
-social and political evils, where the arguments in favour of a State
-purchase may outweigh the objections; and the extent and nature of
-State control over British railways is always a question fairly open to
-discussion.
-
-In other departments, the supply of articles such as water and gas, and
-the enforcement of sanitary conditions, are probably best left to local
-authorities: in the latter case, under some central supervision to see
-that the duty is not evaded. Wherever neglect involves danger to others,
-as in the case of small-pox and other contagious epidemics, it is clear
-that the decision cannot be left to individuals, and the State is bound
-to interfere to enforce rational precautions.
-
-So also the State is bound to undertake trades which are essential for
-the protection of the nation against foreign enemies. Our dockyards
-and arsenals may, and doubtless do, often make mistakes and turn out
-expensive work; but we could not safely leave the building of ironclads
-and supply of cannon solely to private enterprise, for there is no such
-large and steady demand for such articles as would induce a number of
-private firms to erect works and keep up establishments adequate to
-supply the wants which might arise in an emergency. In all such matters,
-therefore, of national defence we must put up with a certain amount
-of drawbacks incidental to State management, and confine ourselves
-to endeavouring to reduce them to a minimum. And this is to a great
-extent within the power of the nation and its Parliament, by applying
-common-sense principles of business to national expenditure, and seeing
-that while on the one hand we get as nearly as possible a pound’s
-worth of work for every pound spent, on the other hand we do not spend
-nineteen shillings uselessly, because some Chancellor of the Exchequer
-wants to gain momentary popularity by the ‘penny wise and pound foolish’
-economy of docking the extra shilling off the necessary estimates. In
-private life a man gets on by knowing when to spend as well as when not
-to spend, and true economy has no greater foe than spasmodic parsimony
-alternating almost certainly with spasmodic extravagance. It would be
-easy to multiply instances, for there are few phases of political and
-practical life to which the principle of polarity does not apply, where
-extremes are not false, and where there is not a good deal to be said on
-both sides of the question. But the very obviousness of the principle
-makes it difficult to deal with it generally without degenerating into
-commonplace, while to trace its application exhaustively in any one
-instance would require a volume. Those who wish to pursue the subject
-further will do well to study the works of Herbert Spencer, where they
-will find the application of general principles to all the problems of
-sociology treated with a depth of philosophic insight and an abundance
-and aptness of illustration which I cannot pretend to equal. My ambition
-is of a humbler nature. I do not expect to set the Thames on fire,
-or to produce a revolution in modern thought; but I do hope that the
-views which I have endeavoured to express may do somewhat to make some
-readers more tolerant and charitable in their judgments, less bitter and
-one-sided in controversy; and that whatever truth there may be in my
-ideas will contribute to form a small part, neither more nor less than
-it deserves, of the great body of truth which is handed down from the
-present to succeeding generations, and which becomes, long after I am
-there to witness it, the inheritance of the human race in the course of
-its evolution.
-
-And now, before I take my final leave of the reader, let me for a few
-moments throw the reins on the neck of fancy, and suppose myself standing
-with that group of Parsees by the shore of the Indian Ocean, listening to
-its murmured rhythm, inhaling the balmy air, watching the silver crescent
-of the new moon, and musing on the wise sayings of the ancient sage;
-the sum of the reflections which I have tried to embody in the preceding
-pages would take form and crystallise in the following sonnet:—
-
-    Hail! gracious Ormuzd, author of all good,
-    Spirit of beauty, purity, and light;
-    Teach me like thee to hate dark deeds of night,
-    And battle ever with the hellish brood
-    Of Ahriman, dread prince of evil mood—
-    Father of lies, uncleanness, envious spite,
-    Thefts, murders, sensual sins that shun the light,
-    Unreason, ugliness, and fancies lewd—
-    Grant me, bright Ormuzd, in thy ranks to stand,
-    A valiant soldier faithful to the end;
-    So when I leave this life’s familiar strand,
-    Bound for the great Unknown, shall I commend
-    My soul, if soul survive, into thy hand—
-    Fearless of fate if thou thine aid will lend.
-
-
-
-
-INDEX.
-
-
-    Abraham, 186.
-
-    Accumulator, the electric, 63, 64.
-
-    Acetic ether, 73, 74.
-
-    Acids, 69, 70.
-
-    Aerobes, 87, 88.
-
-    Affinities, chemical, 51, 52, 55, 68;
-      of Zoroastrianism and art, 212.
-
-    Agriculture, 245.
-
-    Ahriman, 4, 180, 202, 203, 265.
-
-    Air, a cubic centimetre of, 20;
-      pressure of, 24, 25.
-
-    Aleutian Islands, 97.
-
-    Alga, 95, 105;
-      forests of the, 97.
-
-    Algonquins, funeral custom, 149.
-
-    Alizarine manufactured, 86.
-
-    Alkalies, 69, 70.
-
-    America, woman in, 111, 112;
-      respect for law in, 235.
-
-    Amœba, 76, 77, 82;
-      propagation of the, 103, 104, 117.
-
-    Amos, 187.
-
-    Anemone, sea, 104.
-
-    Angiosperms, 98.
-
-    Animal life, 92, 93;
-      Zoroaster enjoins kindness to, 207.
-
-    Aquarium, 93;
-      nature one huge, 101.
-
-    Arnold, Matthew, 207;
-      definition of the Deity by, 171.
-
-    Aryan race, divisions of the, 199;
-      religion of the, 200;
-      language, 200.
-
-    Assur, 153.
-
-    Astronomy, 5;
-      in early religions, 153.
-
-    Athanasian Creed, 181-183.
-
-    Atlantic cable, 60, 61.
-
-    Atoms, 5, 10, 14;
-      weight of, 15-17;
-      theory of, 16;
-      elementary, 18;
-      and their laws, 19, 22, 25;
-      vibrations of, 26;
-      and ether, 32;
-      and the vortex theory, 33, 34, 36;
-      action of heat on, 43;
-      and chemical energy, 50;
-      affinities and repulsions of, 51;
-      the primary element of matter, 66, 67;
-      polarity of, 68;
-      in hydrates, 69;
-      of hydrogen in acids, 69, 70;
-      of oxygen, 70;
-      multipolar, 71;
-      magnetic, 72;
-      dimensions of, 119.
-
-    Augustin, 201.
-
-    Australia, free trade in, 242, 245.
-
-    Authorities to whom the author is indebted, x.
-
-    Atavism, 103, 118.
-
-    Avogadro, law of, 13.
-
-    Axolotl, 123.
-
-
-    Bacteria, 85, 105.
-
-    Balkh, Zoroaster at, 201.
-
-    Bees, reproduction of, 106.
-
-    Bel, 152, 153.
-
-    Berkeley, Bishop, 142.
-
-    Berlin, spirit-seeing in, 166.
-
-    Blindness cured by hypnotism, 165.
-
-    Bombay, death rate in, 1881, 1882, 218.
-
-    Books, the best mirrors of an age, 111, 112;
-      modern French novels, 113.
-
-    Bozu, Buddhist priest upon the Divine Creator, 160, 161.
-
-    Brahm, 114.
-
-    Brahminism, 207.
-
-    Braid, Dr., cures by hypnotism, 165, 168, 193.
-
-    Brain, the, 125, 126;
-      tissue of the, 127;
-      average weight of the human, 129;
-      organs of the, 130, 131;
-      areas of speech, hearing, and sight in the, 132;
-      intellectual faculties in the, 133;
-      abnormal state of the, 134, 135;
-      action of the grey tissue of the, 137;
-      of the higher animals, 137, 138;
-      cells of the, 140;
-      action in a murder, 189;
-      organ of will in the, 191, 192;
-      effect of injuries to the, 192;
-      effect of will on the, 194.
-
-    Bret Harte, 110, 112.
-
-    Bruce, legend of the heart of, 228.
-
-    Buddha, 187.
-
-    Buddhism, 156;
-      in Shakespeare, 160;
-      the Divine Creator in, 160, 161;
-      morality of, 160, 184;
-      based upon pessimism, 177, 197, 198, 206, 207.
-
-    Burial of the dead, 149;
-      prehistoric, 151;
-      Parsee avoidance of, 208.
-
-    Butyric acid, 73, 74.
-
-    Byron on the Parsees, 219.
-
-
-    Calculus, the differential, 6, 28-32, 138.
-
-    California, 256.
-
-    Canterbury, Augustin at, 201.
-
-    Capital and labour, 176, 246-248.
-
-    Carbon, 16, 18, 71;
-      in dynamite, 50;
-      radicals of, 73, 74, 77;
-      in the protoplasm, 80;
-      early abundance of, 86;
-      in a dead body, 88;
-      plant life and, 93.
-
-    Carbonic dioxide, 16, 51, 82, 83, 92, 95, 96;
-      in plant life, 101.
-
-    Carlyle, 171, 188, 251.
-
-    Carnegie, Andrew, on modern worship, 219.
-
-    Catholic theology, 147.
-
-    Cause, the Great First, 122, 162;
-      Dr. Temple’s definition of, 170;
-      evolution of the idea of, 172, 201, 203;
-      Zoroaster and, 204;
-      the only reasonable theory, 208.
-
-    Cell, the first step in organisms, 78, 79;
-      the nucleated multiplication of the, 104.
-
-    Centrifugal force, 89, 90, 117.
-
-    Centripetal force, 89, 90, 117;
-      in societies, 233.
-
-    Chaldean legends, 152, 153;
-      of the Creation, 193.
-
-    Chalk, formation of, 95.
-
-    Chemical energy in electricity, 60.
-
-    Chemistry, 5, 14, 25;
-      elementary substances in, 17, 18, 74;
-      energy in, 47;
-      a modern law of change, 75;
-      and the protoplasm, 84.
-
-    Chinese funeral custom, 149;
-      religion, origin of the, 152;
-      religion, 156, 159;
-      myths, 164;
-      faith in a virgin mother, 155.
-
-    Chlorine, 16, 70, 71.
-
-    Christianity, 157, 198;
-      the position of women influenced by, 108, 109;
-      Pauline, 177;
-      the creed of, 180, 181;
-      impractical, 182;
-      morality of, 184, 185, 188;
-      influenced by Oriental asceticism, 212.
-
-    Clausius, 19.
-
-    Cleanliness and religion, 223, 224.
-
-    Clerk Maxwell, 19.
-
-    Coal, 45, 49, 97;
-      heat in burning, 61, 62;
-      land animals found in, 99.
-
-    Cobden, Richard, 242.
-
-    Colloids, 77, 78, 80.
-
-    Comets, 25;
-      supernatural dread of, 164.
-
-    Communism, 252, 253.
-
-    Conceptions, our, 143.
-
-    Confucianism, 184, 198.
-
-    Conservative legislation, 230;
-      in England, 235.
-
-    Contract, law of, 254, 255.
-
-    Creation, unknown, 19;
-      early myths of the, 152, 153.
-
-    Cromwell, 213.
-
-    Crystals, 10, 26-28.
-
-    Cumming, Dr., 47.
-
-
-    Darwin, 6, 122, 172;
-      his theory of Pangenesis, 119;
-      his theory of evolution, 121.
-
-    David, 186.
-
-    Descartes, 141.
-
-    Deus, derivation of the word, 200.
-
-    Deutsch, Emmanuel, on the Talmud, 172, 188.
-
-    Diamond, the, 74, 77.
-
-    Dionæa, 96.
-
-    Dog, will in a, 39, 40;
-      sense of right and wrong in a, 193.
-
-    Drummond, Professor, 3.
-
-    Dryopithecus, 100.
-
-    Dynamite, 48, 50, 74, 176.
-
-    Dynamo, the, 61-63.
-
-
-    Earth, structure of the, 51, 52;
-      first temperature of the, 86;
-      orbit of the, 22, 89, 117.
-
-    Echidna, the, 124.
-
-    Education, 237-240.
-
-    Egypt, ancient tombs in, 149, 150;
-      animal worship in, 150;
-      priests in, 152;
-      astronomy in, 153, 154;
-      a virgin mother worshipped in, 155;
-      religious morality in, 184.
-
-    Electric energy, 47;
-      light currents, effects of, 57-59;
-      telegraph, 59, 60;
-      accumulator, 61;
-      light, 56, 57, 61;
-      engines, 62, 63.
-
-    Electricity, 2, 14;
-      ether in, 25;
-      nature of, 52-55;
-      in pith balls, 52, 53, 71, 72;
-      velocity of the current in, 56;
-      and magnets, 58, 59;
-      storage of, 64.
-
-    Embryology, 106.
-
-    Emerson, vii.
-
-    Energy, 2;
-      nature of, 35, 36, 38, 66, 67;
-      of motion and position, 37, 48;
-      transformation of, 41, 42;
-      in heat and light, 43, 44, 47;
-      variations of, 47, 48;
-      molecular, 49;
-      chemical, 50;
-      in electricity, 54-57;
-      cost of, obtained from zinc, 61, 62;
-      conservation of, 62, 63, 139.
-
-    England, conservatism in, 236, 237;
-      education in, 237-239;
-      free trade in, 243.
-
-    English literature, 111;
-      woman in, 112, 113;
-      colonisation, 232.
-
-    Eozoon Canadiense, 99.
-
-    Ethelbert, 201.
-
-    Ether, 22, 36;
-      density of, 24, 25;
-      waves, 26, 43;
-      vibrations of, 27;
-      attempt to identify, with atoms, 32, 35;
-      nature of, 66.
-
-    Evil, origin of, 170, 173;
-      attempts to reconcile it with good, 178;
-      consistent with theory of God, 173, 202;
-      modern treatment of, 224.
-
-    Evolution, 6, 8, 121;
-      of religion, 4, 155, 156, 185, 186;
-      of matter, 80;
-      of life, 100;
-      important facts in the history of, 123;
-      does not tend to virtue, 173, 176;
-      of moral ideas, 186, 191;
-      of the horror of murder, 189, 190.
-
-
-    Fable of the shield, 227-230;
-      applied to politics, 230;
-      to commerce, 243, 244.
-
-    “Faust” a Zoroastrian drama, 209.
-
-    Ferdousi, 201.
-
-    Fermentation, 87, 88.
-
-    Ferns in the primary epoch, 97.
-
-    Fetish worship, 150.
-
-    Fiji, 149, 189.
-
-    Fire, primitive means of obtaining, 41;
-      worship, 207, 220.
-
-    Fish shells in the Tertiary epoch, 98;
-      in the Silurian epoch, 99.
-
-    Fungi, 95.
-
-    France, protection in, 246;
-      state railways in, 261.
-
-    Franklin, Benjamin, 163.
-
-    French Revolution, 231, 233;
-      colonisation, 232;
-      trade in a colony, 233.
-
-    Frog with the brain removed, 137.
-
-
-    Galileo, 147, 164, 205.
-
-    Gallio, 239.
-
-    Gas in dynamite, 51.
-
-    Gases, law of, 11-13;
-      in water, 14;
-      kinetic theory of, 14, 33;
-      substances reduced to, 44;
-      expansion of, 45.
-
-    Galton, Mr. F., 240.
-
-    Genesis, the Creation in, 152, 153.
-
-    Geology, 5;
-      records of, 96;
-      earliest strata of, 97;
-      vegetable records in, 96-98;
-      animal records in, 99, 100.
-
-    Geometry, 139.
-
-    George, Henry, 256.
-
-    Ghosts, universal belief in, 149-151.
-
-    Glass, 49, 53.
-
-    Globigerena, 95.
-
-    God, Buddhist idea of, 161;
-      a magnified man, 170, 171;
-      Carlyle on, 171;
-      Arnold’s definition of, 171;
-      Jewish doctors on, 172;
-      prevalent idea of miraculous intervention by, 173;
-      the author of good and evil, 179;
-      primitive Aryan word for, 200.
-
-    Grammar, 239, 240.
-
-    Gravity, the law of, 5, 16, 48, 49, 121, 144;
-      atoms subject to the, 34;
-      universal confidence in the, 148;
-      a dangerous heresy, 164.
-
-    Greeks, religion amongst the, 155, 156.
-
-    Gushtasp, 201.
-
-    Gymnosperms, 97, 98.
-
-
-    Haeckel, 119, 122.
-
-    Hale, Justice, 164.
-
-    Halley, 164.
-
-    Haug, Dr., 202, 205.
-
-    Heat, produced by work, 41, 42;
-      nature of, 43;
-      performs work, 44, 47;
-      and electricity, 54, 61;
-      and the stability of substances, 74;
-      in chemistry, 75.
-
-    Helmholz, 32.
-
-    Hercules, 193, 197.
-
-    Heredity, the principle of, 117-121;
-      in education, 240.
-
-    Hesperornis, 123.
-
-    Hillel, morality of, 188.
-
-    Hindoo religion, 152, 156;
-      migration, 199.
-
-    Horace, 163.
-
-    Horse, 119.
-
-    Human remains in Tertiary period, 100;
-      implements, prehistoric, 144, 145.
-
-    Hume, 162.
-
-    Huxley, Professor, v., vi., 78, 86, 122, 172, 203;
-      on spontaneous generation, 85;
-      on the protista, 94;
-      on the uniformity of law in Nature, 146.
-
-    Hydrates, 69.
-
-    Hydrochloric acid, 16, 70, 71.
-
-    Hydrogen, 11, 13, 16-18, 70, 71, 74, 75;
-      composition of, 15;
-      in the sun, 26;
-      in dynamite, 50;
-      in water, 52, 68, 238;
-      in the accumulator, 63;
-      in acids, 69;
-      in the protoplasm, 80;
-      in a dead body, 88.
-
-    Hypnotism, 134, 192;
-      blindness cured by, 165, 166;
-      an old lady dancing through, 193.
-
-
-    Ibn Ezra, 172.
-
-    India, British railways in, 250.
-
-    Indians, North American, totem of the, 150;
-      murder amongst the, 189.
-
-    Indigotine, 86.
-
-    Induction, phenomena of, 58.
-
-    Intellectual faculties, the seat of the, 133, 134.
-
-    Iodine vapour, 75.
-
-    Iranian migration, 199;
-      language, 200.
-
-    Ireland, popular ignorance of the land question in, 9;
-      rents in, 233, 234;
-      contracts in, 254;
-      railways in, 262.
-
-    Iron, filings and a magnet, 1, 10, 11, 27;
-      contraction of, 49, 50;
-      bar and a magnet, 68;
-      rust, 68, 81;
-      motion of, 83.
-
-    Irving, Edward, 166.
-
-    Isaiah, 187.
-
-    Isomerism, 74.
-
-    Istar, vi.
-
-
-    Jehovah, gradual conception of, 157, 158, 186.
-
-    Jehuda Hilmi, 172.
-
-    Jesus, on miracles, 168, 169;
-      the personification of Ormuzd, 180-183, 204;
-      an historical personage, 198;
-      adopted a Jewish view of religion, 212.
-
-    Jewish doctors on God, 172;
-      gradual development of the, religion, 157;
-      morality in the, religion, 186, 187.
-
-    Jijibhoy, Jamsedjee, Sir, 217.
-
-    “Jingoism,” 241.
-
-    Joule, Dr., 42, 46.
-
-    Jupiter, the planet, 22, 25.
-
-
-    Kant, 141, 142.
-
-    Kesar, 152, 153.
-
-    Knowledge, limits of our, 125-127, 136, 139-141.
-
-    Knox, John, 221.
-
-
-    Lakman and Lakmana, 152.
-
-    Latimer, 221.
-
-    Law in Nature, 6, 144, 145, 164, 171;
-      common, 236.
-
-    Lead, 63.
-
-    Leibnitz, 194.
-
-    Lichens, 95, 96.
-
-    Light, waves, 19, 23, 24, 26-28, 43;
-      velocity of, 21, 22;
-      energy in, 47;
-      electric, 56, 57, 61.
-
-    Lightning conductors, 163.
-
-    Lourdes, miracles at, 168.
-
-    Luther, 198
-
-
-    Magnet, the, 1, 2, 27, 68, 70, 71;
-      nature of, 58.
-
-    Magnetism, vii.
-
-    Mahometanism, 157, 158, 198, 213.
-
-    Maimonides on God, 172.
-
-    Manuals in geology, 100.
-
-    Manufacturers, generous, 217.
-
-    Marriage, 115.
-
-    Mass, the, 223.
-
-    Matter, 10;
-      nature of, 66, 67.
-
-    Meat, frozen, 45, 87.
-
-    Mechanical action in life, 39, 40, 91;
-      power, 41;
-      process in nerve action, 129, 130.
-
-    Menai Bridge, 50.
-
-    Mercury, 17, 44.
-
-    Metrical system, the, 42.
-
-    Mexican myths, 154, 155.
-
-    Microcrith, 15.
-
-    Microscope, 11, 239.
-
-    Mill, John Stuart, 161.
-
-    Milton, 209, 213.
-
-    Miracles, 6;
-      a question of evidence, 162, 163;
-      early belief in, 164;
-      uselessness of ordinary, 167, 170;
-      not found in Zoroastrianism, 204.
-
-    Molecules, 5, 10, 12, 22, 25;
-      weight of, 13;
-      in chemistry, 14;
-      of oxygen and hydrogen, 15;
-      composition of, 18;
-      in a cubic centimetre of air, 20;
-      vibrations of, 26;
-      the vortex theory of, 33, 34;
-      action of heat on, 43-46;
-      of nitrogen, 50;
-      nature of, 67;
-      complex, 73;
-      of monera, 79;
-      of the protoplasm, 80, 81.
-
-    Molecular energies, 47, 49.
-
-    Monera, 79, 94;
-      reproduction of the, 103, 117.
-
-    Monogamy, 109.
-
-    Monotheism, 156.
-
-    Moon, worship of the, 102, 153;
-      Parsee worship of the, 219.
-
-    Morality, in religions, 108, 184-188;
-      in nations, 110;
-      origin of, 190, 191.
-
-    Mormonism, 213.
-
-    Motion, of living beings, 83;
-      independent of will in the brain, 137, 192.
-
-    Music in religion, 222.
-
-    Murder, 189, 190.
-
-
-    Nerves, 129, 130;
-      divisions of the, 131;
-      channels of the, 133.
-
-    Newcome, Colonel, 211.
-
-    Newman, Cardinal, 147, 148, 159.
-
-    Newton, 16, 17, 28, 121, 138, 144, 205.
-
-    Nickel, a magnet, 68.
-
-    Nicolai, visions seen by, 166.
-
-    Nitric acid, 69.
-
-    Nitrogen, 18, 69, 88;
-      in dynamite, 50, 51;
-      in the protoplasm, 80.
-
-    Nitro-glycerine (dynamite), 50, 51.
-
-    Nitrous oxide, 51.
-
-    Northumberland House, lion on, 167.
-
-    Novelists, English, 111.
-
-    Nummulitic limestone, 94, 95.
-
-    Nursery rhymes, 142.
-
-    Nutrition, 81.
-
-
-    Octoroon, 118.
-
-    Oersted, 59.
-
-    Optimism, 176.
-
-    Ormuzd, 3, 4;
-      Jesus the modern, 180-182;
-      a definition of, 201, 202;
-      homage due to, 203;
-      sonnet to, 265.
-
-    Oxide of iron, 43, 81.
-
-    Oxygen, 11, 13, 14, 18, 57, 238;
-      composition of, 15;
-      is universal, 16;
-      weight of an atom of, 16;
-      and iron, 43;
-      in dynamite, 50;
-      affinities of, 52;
-      in the accumulator, 63;
-      in water, 68, 75;
-      bipolar, 70;
-      in the protoplasm, 80;
-      in contact with dead bodies, 88;
-      and animal life, 93, 96;
-      in plant life, 101.
-
-
-    Palgrave, 158.
-
-    Pangenesis, 119.
-
-    Pantheism, in China, 156;
-      prevalence of, 159, 160.
-
-    Paris, 241.
-
-    Parsees, the, 199;
-      creed of the, 205;
-      rites of the, 207, 208;
-      the distinguishing characteristics of the, 214-216;
-      women amongst, 215, 216;
-      a commercial people, 217;
-      death rate amongst the, 218;
-      Byron on the, 219;
-      modern worship of the, 219, 264.
-
-    Parthenogenesis, 106.
-
-    Pasteur, 87.
-
-    Patriotism, 240, 241.
-
-    Peel, Sir Robert, 242.
-
-    Pendulum, 37.
-
-    Perceptions, the basis of knowledge, 125, 140.
-
-    Permian formation, 97;
-      reptiles in the, 99.
-
-    Perron, Anquetil du, 203.
-
-    Peruvian myths, 154, 155.
-
-    Pessimism, 177, 178.
-
-    Pharisees, 168, 169.
-
-    Philo, 187.
-
-    Philosophy, and the unknown, 141;
-      in Eastern religion, 160.
-
-    Physical conditions and religious progress, 224.
-
-    Pigeon with the brain removed, 137, 192.
-
-    Pith-balls, electricity in, 52, 53, 71, 72.
-
-    Planet worship, 155.
-
-    Plant life, 82, 92, 93;
-      reproduction of, 84, 105;
-      food, 95;
-      fly-eating, 96;
-      gradual appearance in geology of, 97;
-      in the chalk, 98.
-
-    Plato, 142.
-
-    Polarity, law of, v., vii., 1-4, 10, 65;
-      in crystals, 27, 28;
-      in wave motion, 38;
-      in will, 40, 195;
-      of chemical elements, 68, 70;
-      electrical differs from magnetic, 72;
-      is the clue to the construction of the world, 74;
-      in life, 76, 89, 93;
-      in the organic world, 91;
-      in evolution, 100;
-      in sex, 107, 109, 114, 115;
-      a law of existence, 171;
-      asserts itself in society, 174;
-      in moral life, 178;
-      in art and fiction, 209-211;
-      in politics, 230, 231;
-      in political economy, 247-250.
-
-    Polytheism, 157.
-
-    Poor laws, the, 253.
-
-    Population, effects of the accumulation of, 175, 176.
-
-    Postal service, 260.
-
-    Potassic hydrates, 69.
-
-    Pramantha, 41, 42.
-
-    Prayer, Zoroastrian, 223, 225.
-
-    Prehistoric faith in spirits, 151.
-
-    Priesthood, first records of a, 52.
-
-    Primary period, the, 97;
-      fish in the, 99.
-
-    Principles, Zoroaster’s two great, 202.
-
-    Progress, modern, 7.
-
-    Prometheus, 42, 209.
-
-    Propagation of life by germs, 104, 118;
-      of the lower plants, 105.
-
-    Property in land, 255, 256.
-
-    Protection, 244-246.
-
-    Protista, 94.
-
-    Protoplasm, the, 78, 79, 81, 84;
-      nature of the, 80;
-      the first, 87;
-      the origin of all life, 93;
-      in nerve-endings, 129.
-
-    Proudhon, 256.
-
-    Putrefaction, 87, 88.
-
-    Pyramids, the, 10;
-      astronomical value of the, 153, 154.
-
-
-    Quakers, the, 213.
-
-    Quantivalence of substances, 71, 72.
-
-
-    Radiolaria, 95.
-
-    Railway, companies, 248;
-      profits of companies, 249, 250;
-      working of a State, 261, 262.
-
-    Religion, 4;
-      nature of, 146;
-      origin of, 148, 149, 151;
-      early, 152;
-      universal faith in a virgin mother, 154, 155;
-      planet worship, 155;
-      gradual evolution of, 155, 156;
-      philosophical in the East, 160;
-      nature in, 163;
-      wars of, 179;
-      amongst savages, 185;
-      Jewish, 186;
-      and morality, 188;
-      Aryan, 200;
-      of Zoroaster, 201, 208, 223;
-      probable form of modern, 203, 209;
-      music the language of, 222, 223.
-
-    Roman Church, the, 223.
-
-    Reproduction of species, 83;
-      of worms, 104;
-      sexual, 105, 106, 118.
-
-    Reptiles, 99.
-
-    Ricardo, 247.
-
-    Russia, 243;
-      communism in, 253.
-
-
-    Sabbath, the, 212;
-      origin of the, 155;
-      in England, 212, 220.
-
-    Saint Paul, his doctrine of predestination, 158;
-      on God, 172;
-      Christianity of, 177, 188;
-      on charity, 182.
-
-    —— Vitus’s dance, 166.
-
-    Salt, 52, 70.
-
-    Salvation Army, the, 180.
-
-    Sanskrit, 199, 200.
-
-    Sargasso Sea, 97.
-
-    Saul, 180, 186.
-
-    Savages, and numbers, 138, 191;
-      religion amongst, 149-151, 185;
-      murder amongst, 189, 190.
-
-    Schliemann, Professor, 151.
-
-    Scotland, virtue in, 176;
-      the poor rate in, 253.
-
-    Scott, Sir Walter, 210, 211, 241.
-
-    Secondary epoch, the, 97;
-      reptiles and birds in the, 99;
-      transformation of a water into an air population, 123.
-
-    Semitic races, religion amongst the, 156.
-
-    Sermons, 220-222;
-      on the mount, 184, 187, 254.
-
-    Sex in ancient creeds, 102, 103.
-
-    Shakers, the, 166, 252.
-
-    Shakespeare, on women, 112;
-      Buddhism in, 160;
-      despondency of, 178;
-      polarity of character in, 210, 211.
-
-    Shelley, 19, 226.
-
-    Snakes, changes from oviparous to viviparous, 124.
-
-    Soap bubbles, 19;
-      a clue to the dimensions of light, 33.
-
-    Socialism, 251, 252.
-
-    Society, 231.
-
-    Sociology, H. Spencer on, 259.
-
-    Socrates on religion, 172.
-
-    Sodium, 52, 70.
-
-    Solar myths, 152-154;
-      system worshipped by the Aryans, 200.
-
-    Somnambulism, 126, 134, 135, 192.
-
-    Sonnet to Ormuzd, 265.
-
-    Soul, the, 194.
-
-    Sound waves, velocity of, 24.
-
-    Species, 118, 119.
-
-    Spectroscope, 25, 26.
-
-    Spectrum of sun-rays, 43.
-
-    Spencer, Herbert, x., 113, 161, 203;
-      on antagonistic forces, 90;
-      on polarity in religion, 109, 172;
-      on politics, 231;
-      on altruism, 254;
-      on sociology, 259;
-      works of, 264.
-
-    Spiritualism, 136.
-
-    Spontaneous generation, 84, 89.
-
-    State interference, 253, 255, 257;
-      railways, 261, 262;
-      trade for national defence, 263.
-
-    Steam, action of, 45, 49;
-      engine, 45, 61.
-
-    Stone-throwing, brain action in, 38, 39.
-
-    Substances, quality and grouping of, 73;
-      stability of, 74, 75.
-
-    Succession duty, 258.
-
-    Sun, 26;
-      heat of the, 45.
-
-    Sutherland family, crest of the, 150.
-
-
-    Tait, Professor, 32.
-
-    Talmud, the, 172, 212;
-      morality in the, 187, 188.
-
-    Telephone, the, 60.
-
-    Temple, Dr., 162;
-      on evolution, 121;
-      on a Creator, 170, 203;
-      on man, 193.
-
-    Tennyson, 203, 210, 226, 241.
-
-    Tertiary epoch, 98;
-      mammals in the, 100.
-
-    Thomson, Sir W., 19, 21, 32.
-
-    Tobit, the Book of, 187.
-
-    Trade, free, 242-245.
-
-    Trance, phenomena of, 135.
-
-    Traveller, a, on misery in Christian lands, 175.
-
-    Triton, the, 122.
-
-    Tulliver, Maggie, 112, 211.
-
-    Turkey, 110, 111;
-      woman in, 112.
-
-    Turks, English, 113, 114.
-
-    Tyndall, 94.
-
-
-    United States, the, 241, 242;
-      protection in the, 242, 243, 246;
-      homestead laws in the, 256, 257.
-
-    Unknown, the Great, 126, 127.
-
-    Urea, 86.
-
-
-    Variations of species, principle of, 120.
-
-    Vedas, the Hindoo, 152;
-      antiquity of the, 199.
-
-    Vendidad, the, 202.
-
-    Virgin mother, prevalence of faith in a, 154, 155.
-
-    Voltaic battery, the, 14, 55, 61.
-
-    Volume, variations of, 12.
-
-    Vortex theory, 33, 34.
-
-
-    Wales, coal in, 258.
-
-    Wahabite reformer, 158.
-
-    Water, formation of, 11, 12, 14, 15, 52;
-      and electricity, 14, 53;
-      a cubic inch of, magnified, 21;
-      becomes vapour, 45, 46, 75;
-      freezing, 81.
-
-    Waves, motion, 23, 24, 48;
-      light, 19-24, 26-28, 43;
-      sound, 24.
-
-    Wheat, mummy, 80.
-
-    Will, free, 191;
-      nature of the, 194.
-
-    Witchcraft, 164, 179.
-
-    Woman, natural office of the, 107, 108;
-      position of, a test of civilisation, 110, 111;
-      in modern books, 111, 112;
-      rights of, 116;
-      amongst the Parsees, 214-216.
-
-    Wood, burning, 75.
-
-    Wordsworth, pantheism in, 159, 160.
-
-    Worms, reproduction of, 104.
-
-
-    Zend, dialect, 199, 200;
-      scriptures, 201, 202;
-      Avesta, 203.
-
-    Zinc, in electricity, 61.
-
-    Zodiac, the, 153.
-
-    Zoophytes, 94, 95.
-
-    Zoroaster, 4, 187;
-      theory of, 7, 179, 197, 202, 203, 223;
-      history of, 197, 198;
-      known by his book, 199;
-      a reformer, 200;
-      at Balkh, 201;
-      his creed not weighted by tradition, 204;
-      miraculous conception of, 205.
-
-    Zoroastrian, a modern, 3;
-      creed of a, 180;
-      morality, 205, 206.
-
-    Zoroastrianism and art, 212;
-      and modern thought, 213.
-
-
-THE END.
-
-
-
-
-
-End of the Project Gutenberg EBook of A Modern Zoroastrian, by S. Laing
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-<pre>
-
-The Project Gutenberg EBook of A Modern Zoroastrian, by S. Laing
-
-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: A Modern Zoroastrian
-
-Author: S. Laing
-
-Release Date: November 4, 2019 [EBook #60631]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK A MODERN ZOROASTRIAN ***
-
-
-
-
-Produced by Louise Davies, Marilynda Fraser-Cunliffe and
-the Online Distributed Proofreading Team at
-http://www.pgdp.net (This book was produced from scanned
-images of public domain material from the Google Books
-project.)
-
-
-
-
-
-
-</pre>
-
-
-<p><span class="pagenum"><a name="Page_i" id="Page_i">[i]</a></span></p>
-
-<p class="titlepage larger">A MODERN ZOROASTRIAN.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_ii" id="Page_ii">[ii]</a></span></p>
-
-<p class="titlepage">A MODERN ZOROASTRIAN.</p>
-
-<table summary="Editions of this book" class="italic">
-  <tr>
-    <td>1000</td>
-    <td>copies</td>
-    <td>printed,</td>
-    <td>February, 1888.</td>
-  </tr>
-  <tr>
-    <td>1000</td>
-    <td class="center">”</td>
-    <td class="center">”</td>
-    <td>March, 1889.</td>
-  </tr>
-  <tr>
-    <td>1000</td>
-    <td class="center">”</td>
-    <td class="center">”</td>
-    <td>March, 1890.</td>
-  </tr>
-  <tr>
-    <td>1000</td>
-    <td class="center">”</td>
-    <td class="center">”</td>
-    <td>June, 1890.</td>
-  </tr>
-  <tr>
-    <td>1000</td>
-    <td class="center">”</td>
-    <td class="center">”</td>
-    <td>March, 1891.</td>
-  </tr>
-  <tr>
-    <td>1000</td>
-    <td class="center">”</td>
-    <td class="center">”</td>
-    <td>June, 1892.</td>
-  </tr>
-  <tr>
-    <td>1000</td>
-    <td class="center">”</td>
-    <td class="center">”</td>
-    <td>February, 1893.</td>
-  </tr>
-  <tr>
-    <td>1000</td>
-    <td class="center">”</td>
-    <td class="center">”</td>
-    <td>November, 1893.</td>
-  </tr>
-</table>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_iii" id="Page_iii">[iii]</a></span></p>
-
-<p class="titlepage larger">A MODERN ZOROASTRIAN</p>
-
-<p class="titlepage"><span class="smaller">BY</span><br />
-<span class="larger">S. LAING,</span><br />
-<span class="smaller">AUTHOR OF<br />
-“MODERN SCIENCE AND MODERN THOUGHT,” “PROBLEMS OF THE FUTURE,”<br />
-“HUMAN ORIGINS.”</span></p>
-
-<p class="titlepage gothic">Eighth Thousand.</p>
-
-<p class="titlepage">LONDON: <span class="smcap">CHAPMAN AND HALL, Ld.</span><br />
-1893.</p>
-
-<p><span class="pagenum"><a name="Page_iv" id="Page_iv">[iv]</a></span></p>
-
-<p class="titlepage smaller">CHARLES DICKENS AND EVANS,<br />
-CRYSTAL PALACE PRESS.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_v" id="Page_v">[v]</a></span></p>
-
-<h2>PREFACE TO NEW EDITION.</h2>
-
-<p>From some of the criticisms on the First Edition of
-this work I fear that the distinction I endeavoured
-to draw between the use of the term “polarity”
-in the inorganic and in the spiritual worlds has
-not been made sufficiently clear. I stated in the
-Introduction “That while the principle of polarity
-pervades both worlds, I am far from assuming that
-the laws under which it acts are identical; and that
-virtue and vice, pain and pleasure, are products of
-the same mathematical laws as regulate the attractions
-and repulsions of molecules and atoms.” But this
-warning has been apparently overlooked by some
-readers who have assumed that instead of analogy I
-meant identity, and that it was a mistake to use the
-same word “polarity” for phenomena so essentially
-distinct as those of the material and the spiritual
-worlds.</p>
-
-<p>Thus my “guide, philosopher, and friend,” Professor
-Huxley, for whose authority I have the highest respect,
-observed in a recent article, that he had long ago
-acquired a habit, if he came across the word polarity
-applied to anything but magnetism and electricity,<span class="pagenum"><a name="Page_vi" id="Page_vi">[vi]</a></span>
-of throwing down the book and reading no farther.
-I must confess that I felt a little disconcerted when
-I read this passage; but I was soon consoled, for,
-in a month or two afterwards, I came across another
-passage in the same Review which said, “However revolting
-may be the accumulation of misery at the negative
-pole of Society, in contrast with that of monstrous
-wealth at the positive pole, this state of things must
-abide and grow continuously worse, as long as Istar
-(the dual Goddess of the Babylonians) holds her way
-unchecked.”</p>
-
-<p>Surely, I thought, here is a case in which the
-Professor must have thrown down the Review when
-he came to these words: but when I came to the
-end, I found that it was not the Review, but the
-pen, which must have been thrown down, for the
-article is signed “T. Huxley.” Can there be a more
-conclusive proof that there are a vast variety of facts outside
-of magnetism and electricity, connected by an underlying
-idea, which inevitably suggests analogy to them,
-and which can be most conveniently expressed by the
-word “polarity”? Words after all are only coins to facilitate
-the interchange of ideas, and the best word is that
-which serves the purpose most clearly and concisely.
-Thus instead of using a waggon load of copper, or
-the verbiage of a conveyancer’s deed, to express the
-ideas comprised in such words as “theism,” “pantheism,”
-or “agnosticism,” we coin them for general use, as
-Huxley did the word “agnosticism,” in order to convey
-our meaning.</p>
-
-<p><span class="pagenum"><a name="Page_vii" id="Page_vii">[vii]</a></span></p>
-
-<p>Polarity is such a word. It sums up what Emerson
-says in his Essay on Compensation: “Polarity, or
-action and reaction, we meet in every part of Nature;
-in darkness and light; in the ebb and flow of waters;
-in male and female; in the inspiration and expiration
-of plants and animals; in the undulations of fluids and
-of sound; in the centripetal and centrifugal gravity;
-in electricity, galvanism, and chemical affinity. Superinduce
-Magnetism at one end of a needle, the opposite
-Magnetism takes place at the other end. If the South
-attracts, the North repels. An inevitable dualism besets
-nature, so that each thing is a half, and suggests another
-to make it whole: as spirit, matter; man, woman; odd,
-even; subjective, objective; in, out; upper, under;
-motion, rest; yea, nay.”</p>
-
-<p>These, by whatever name we like to call them, are
-facts and not fancies, and facts which enter largely
-into all questions, whether of science, philosophy,
-religion, or practical policy. Every one who wishes to
-keep at all abreast with modern culture, ought to have
-some general knowledge of the ideas and principles
-which underlie them and which are embraced in the
-comprehensive word “polarity.” My object in this book
-has been to assist the reader, who is not a specialist,
-in arriving at some general understanding of the subjects
-treated of, and I may hope, in awakening such an
-interest in them as may induce him to prosecute further
-researches. If I succeed in this, my object will have
-been attained.</p>
-
-<p><span class="pagenum"><a name="Page_viii" id="Page_viii">[viii]</a></span></p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_ix" id="Page_ix">[ix]</a></span></p>
-
-<h2>PREFACE.</h2>
-
-<p>The reception given to my former work, on ‘Modern
-Science and Modern Thought,’ has induced me to write
-this further one. I refer not so much to the reviews of
-professional critics, though as a rule nothing could be
-more courteous and candid, but rather to the letters
-I have received from readers of various age, sex, and
-condition, saying that I had assisted them in understanding
-much interesting matter which had previously
-been a sealed book to them.</p>
-
-<p>If I am good for anything, it is for a certain faculty
-of lucid condensation, and I have thought that I might
-apply this to some of the less-known branches of modern
-science, such as the new chemistry and physiology, as
-well as, in my first work, to the more familiar subjects
-of astronomy and geology; while at the same time I
-might extend it to some of the more obvious problems
-of religion, morals, metaphysics, and practical life, which
-force themselves, more and more every day, on the
-attention of intelligent thinkers.</p>
-
-<p>As in the former work the scientific speculations
-were linked together by the leading idea of the universality
-of law, so, in this, unity is given to them by
-the all-pervading principle of polarity, which manifests<span class="pagenum"><a name="Page_x" id="Page_x">[x]</a></span>
-itself everywhere as the fundamental condition of the
-material and spiritual universe.</p>
-
-<p>For the scientific portion of the work I am indebted
-to the most approved authorities, such as Darwin,
-Huxley, Haeckel, and Professor Cooke’s volume on the
-New Chemistry in the International Scientific Series.
-For the religious and philosophical speculations I am
-myself responsible; for, although I have derived the
-greatest possible pleasure and profit from Herbert
-Spencer’s writings, I had arrived at my principal conclusions
-independently before I had read any of his
-works. I can only hope that I may have succeeded in
-presenting a good many abstruse questions in a popular
-form, intelligible to the average mind of ordinary
-readers, and calculated, if it teaches nothing else, to
-teach them a practical philosophy which inculcates
-tolerance and charity, and assists them in finding</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Sermons in stones and good in everything.</div>
-</div>
-</div>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_xi" id="Page_xi">[xi]</a></span></p>
-
-<h2>CONTENTS.</h2>
-
-<table summary="Contents" class="contents">
-  <tr>
-    <td></td>
-    <td class="tdpg smaller">PAGE</td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER I.<br />INTRODUCTORY.</td>
-  </tr>
-  <tr>
-    <td>Experiment with magnet—Principle of polarity—Applies
-        universally—Analogies in spiritual world—Zoroastrian religion—Changes in
-        modern environment—Require corresponding changes in religions
-        and philosophies</td>
-    <td class="tdpg"><a href="#CHAPTER_I">1</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER II.<br />POLARITY IN MATTER—MOLECULES AND ATOMS.</td>
-  </tr>
-  <tr>
-    <td>Matter consists of molecules—Nature of molecules—Laws of their
-        action in gases—Law of Avogadro—Molecules composed of atoms—Proved
-        by composition of water—Combinations of atoms—Elementary
-        substances—Qualities of matter depend on atoms—Dimensions
-        and velocities of molecules and atoms—These are ascertained
-        <i>facts</i>, not theories</td>
-    <td class="tdpg"><a href="#CHAPTER_II">9</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER III.<br />ETHER.</td>
-  </tr>
-  <tr>
-    <td>Ether proved by light—Light-waves—Elasticity of ether—Its universal
-        diffusion—Influences molecules and atoms—Is influenced
-        by them—Successive orders of the infinitely small—Illustrated
-        by the differential and integral calculus—Explanation of this
-        calculus—Theory of vortex rings</td>
-    <td class="tdpg"><a href="#CHAPTER_III">21</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER IV.<br />ENERGY.</td>
-  </tr>
-  <tr>
-    <td>Energy of motion and of position—Energy can be transformed, not
-        created or destroyed—Not created by free-will—Conservation of
-        mechanical power—Convertibility of heat and work—Nature of<span class="pagenum"><a name="Page_xii" id="Page_xii">[xii]</a></span>
-        heat—The steam-engine—Different forms of energy—Gravity—Molecular
-        energy—Chemical energy—Dynamite—Chemical affinities—Electricity—Produced
-        by friction—By the voltaic battery—Electric
-        currents—Arc light—Induction—Magnetism—The
-        magnetic needle—The electric telegraph—The telephone—Dynamo-electric
-        engine—Accumulator</td>
-    <td class="tdpg"><a href="#CHAPTER_IV">36</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER V.<br />POLARITY IN MATTER.</td>
-  </tr>
-  <tr>
-    <td>Ultimate elements of universe—Built up by polarity—Experiment
-        with magnet—Chemical affinity—Atomic poles—Alkalies and
-        acids—Quantivalence—Atomicity—Isomerism—Chemical stability—Thermochemistry—Definition
-        of atoms—All matter built
-        up by polar forces</td>
-    <td class="tdpg"><a href="#CHAPTER_V">65</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER VI.<br />POLARITY IN LIFE.</td>
-  </tr>
-  <tr>
-    <td>Contrast of living and dead—Eating and being eaten—Trace matter
-        upwards and life downwards—Colloids—Cells—Protoplasm—Monera—Composition
-        of protoplasm—Essential qualities of life—Nutrition
-        and sensation—Motion—Reproduction—Spontaneous
-        generation—Organic compounds—Polar conditions of life</td>
-    <td class="tdpg"><a href="#CHAPTER_VI">76</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER VII.<br />PRIMITIVE POLARITIES—PLANT AND ANIMAL.</td>
-  </tr>
-  <tr>
-    <td>Contrast in developed life—Plants producers, animals consumers—Differences
-        disappear in simple forms—Zoophytes—Protista—Nummulites—Corals—Fungi—Lichens—Insectivorous
-        plants—Geological
-        succession—Primary period, Algæ and Ferns—Secondary
-        period, Gymnosperms—Tertiary and recent, Angiosperms—Monocotyledons
-        and Dicotyledons—Parallel evolution of animal
-        life—Primary, protista, mollusca, and fish—Secondary, reptiles—Tertiary
-        and recent, mammals</td>
-    <td class="tdpg"><a href="#CHAPTER_VII">92</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER VIII.<br />PRIMITIVE POLARITIES—POLARITY OF SEX.</td>
-  </tr>
-  <tr>
-    <td>Sexual generation—Base of ancient cosmogonies—Propagation
-        non-sexual in simpler forms—Amœba and cells—Germs and buds—Anemones—Worms—Spores—Origin
-        of sex—Ovary and male<span class="pagenum"><a name="Page_xiii" id="Page_xiii">[xiii]</a></span>
-        organ—Hermaphrodites—Parthenogenesis—Bees and insects—Man
-        and woman—Characters of each sex—Woman’s position—Improved
-        by civilisation—Christianity the feminine pole—Monogamy
-        the law of nature—Tone respecting women test of character—Women
-        in literature—In society—Attraction and repulsion of
-        sexes—Like attracts unlike—Ideal marriage—Woman’s rights and
-        modern legislation</td>
-    <td class="tdpg"><a href="#CHAPTER_VIII">102</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER IX.<br />PRIMITIVE POLARITIES—HEREDITY AND VARIATION.</td>
-  </tr>
-  <tr>
-    <td>Heredity in simple forms of life—In more complex organisms—Pangenesis—Varieties
-        how produced—Fixed by law of survival
-        of the fittest—Dr. Temple’s view—Examples: triton, axolotl—Variations
-        in individuals and species—Lizards into birds—Ringed
-        snakes—Echidna</td>
-    <td class="tdpg"><a href="#CHAPTER_IX">117</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER X.<br />THE KNOWABLE AND UNKNOWABLE—BRAIN AND THOUGHT.</td>
-  </tr>
-  <tr>
-    <td>Basis of knowledge—Perception—Constitution of brain—White and
-        grey matter—Average size and weight of brains—European,
-        negro, and ape—Mechanism of perception—Sensory and motor
-        nerves—Separate areas of brain—Sensory and motor centres—Abnormal
-        states of brain—Hypnotism—Somnambulism—Trance—Thought-reading—Spiritualism—Reflex
-        action—Ideas how
-        formed—Number and space—Creation unknowable—Conceptions
-        based on perceptions—Metaphysics—Descartes, Kant, Berkeley—Anthropomorphism—Laws
-        of nature</td>
-    <td class="tdpg"><a href="#CHAPTER_X">125</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER XI.<br />RELIGIONS AND PHILOSOPHIES.</td>
-  </tr>
-  <tr>
-    <td>Religions, ‘working hypotheses’—Newman’s illative sense—Origins
-        of religions—Ghosts and spirits—Fetishes—Nature-worship—Solar
-        myths—Planets—Evolution of nature-worship—Polytheism,
-        pantheism, and theism—Evolution of monotheism in the Old
-        Testament—Evolution of morality—Natural law and miracle—Evidence
-        for miracles—Insufficiency of evidence—Absence of
-        intelligent design—Agnosticism—Origin of evil—Can only be
-        explained by polarity—Optimism and pessimism—Jesus, the
-        Christian Ormuzd—Christianity without miracles</td>
-    <td class="tdpg"><a href="#CHAPTER_XI">146</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2"><span class="pagenum"><a name="Page_xiv" id="Page_xiv">[xiv]</a></span>CHAPTER XII.<br />CHRISTIANITY AND MORALS.</td>
-  </tr>
-  <tr>
-    <td>Christianity based on morals—Origin of morality—Traced in Judaism—Originates
-        in evolution—Instance of murder—Freedom of will—Will
-        suspended in certain states of brain—Hypnotism—Mechanical
-        theory—Pre-established harmony—Human and animal
-        conscience—Analysis of will—Explained by polarity—Practical
-        conclusion</td>
-    <td class="tdpg"><a href="#CHAPTER_XII">184</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER XIII.<br />ZOROASTRIANISM.</td>
-  </tr>
-  <tr>
-    <td>Zoroaster an historical person—The Parsees—Iranian branch of Aryan
-        family—Zoroaster a religious reformer—Scene at Balkh—Conversion
-        of Gushtasp—Doctrines of the ‘excellent religion’—Monotheism—Polarity—Dr.
-        Haug’s description—Ormuzd and
-        Ahriman—Anquetil du Perron—Approximation to modern
-        thought—Absence of miracles—Code of morals—Its comprehensiveness—And
-        liberality—Special rites—Fire-worship—Disposal
-        of dead—Practical results—The Parsees of Bombay—Their
-        probity, enterprise, respect for women—Zeal for education—Philanthropy
-        and public spirit—Statistics—Death and birth rates</td>
-    <td class="tdpg"><a href="#CHAPTER_XIII">197</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER XIV.<br />FORMS OF WORSHIP.</td>
-  </tr>
-  <tr>
-    <td>Byron’s lines—Carnegie’s description—Parsee nature-worship—English
-        Sunday—The sermon—Appeals to reason misplaced—Music
-        better than words—The Mass—Zoroastrianism brings religion
-        into daily life—Sanitation—Zoroastrian prayer—Religion of
-        the future—Sermons in stones and good in everything</td>
-    <td class="tdpg"><a href="#CHAPTER_XIV">219</a></td>
-  </tr>
-  <tr>
-    <td class="tdc" colspan="2">CHAPTER XV.<br />PRACTICAL POLARITIES.</td>
-  </tr>
-  <tr>
-    <td>Fable of the shield—Progress and conservatism—English and French
-        colonisation—Law-abidingness—Irish land question—True conservative
-        legislation—Ultra-conservatism—Law and education—Patriotism—Jingoism
-        and parochialism—True statesmanship—Free
-        trade and protection—Capital and labour—Egoism and
-        altruism—Socialism and <i>laissez faire</i>—Contracts—Rights and
-        duties of landlords—George’s theory—State interference—Railways—Post
-        Office—Telegraphs—National defence—Concluding
-        remarks</td>
-    <td class="tdpg"><a href="#CHAPTER_XV">227</a></td>
-  </tr>
-</table>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_1" id="Page_1">[1]</a></span></p>
-
-<h1>A MODERN ZOROASTRIAN.</h1>
-
-<h2 id="CHAPTER_I">CHAPTER I.<br />
-<span class="smaller">INTRODUCTORY.</span></h2>
-
-<div class="chapter">
-
-<p>Experiment with magnet—Principle of polarity—Applies universally—Analogies
-in spiritual world—Zoroastrian religion—Changes in modern
-environment—Require corresponding changes in religions and philosophies.</p>
-
-</div>
-
-<p>Scatter a heap of iron filings on a plate of glass; bring
-near it a magnet, and tap the glass gently, and you will
-see the filings arrange themselves in regular forms.</p>
-
-<p>If one pole only of the magnet is brought near the
-glass the filings arrange themselves in lines radiating
-from that pole.</p>
-
-<p>Next lay the bar-magnet on the glass so that the
-filings are influenced by both poles; they will arrange
-themselves into a series of regular curves.</p>
-
-<p>In other words, the Chaos of a confused heap of inert
-matter has become a Cosmos of harmonious arrangement
-assuming definite form in obedience to law.</p>
-
-<p>As the old saying has it, that ‘every road leads to
-Rome,’ so this simple experiment leads up to a principle
-which underlies all existence knowable to human faculty—that
-of Polarity. Why do the iron filings arrange<span class="pagenum"><a name="Page_2" id="Page_2">[2]</a></span>
-themselves in regular curves? Because they are magnetised
-by the influence of the larger magnet, and each
-little particle of iron is converted into a little magnet
-with two opposite poles attracting and repelling.</p>
-
-<div class="figcenter" style="width: 500px;">
-<img src="images/illus1.jpg" width="500" height="160" alt="" />
-</div>
-
-<p>What is a magnet? It is a special manifestation of
-the more general principle of polarity, by which energy,
-when it passes from the passive or neutralised into the
-active state, does so under the condition of developing
-opposite and conflicting energies: no action without
-reaction, no positive without a negative, and, as we see
-it in the simplest form in our magnets, no North Pole
-without a South Pole—like ever repelling like and
-attracting unlike. The magnet, again, may be considered
-as a special form of electricity, for if we send an
-electric current through a coil of copper wire encircling
-a bar of soft iron, the bar is at once converted into a
-magnet; so that a magnet may be considered as the
-summing up, at two opposite extremities or poles, of
-the attractive and repulsive effects of electric currents
-circulating round it. But this electricity is itself subject
-to the law of polarity, whether developed by chemical
-action in the form of a current or electricity in motion,
-or by friction in the form of statical electricity of small
-quantity but high tension. In all cases a positive implies
-a negative; in all, like repels like and attracts unlike.<span class="pagenum"><a name="Page_3" id="Page_3">[3]</a></span>
-Conversely, as polarity produces definite structure, so
-definite structure everywhere implies polarity.</p>
-
-<p>The same principle prevails not only throughout the
-inorganic or world of matter, but throughout the organic
-or world of life, and specially throughout its highest
-manifestations in human life and character, and in the
-highest products of its evolution, in societies, religions,
-and philosophies. To show this by some familiar and
-striking examples is the main object of this book.</p>
-
-<p>But here let me interpose a word of caution. I
-must avoid the error which vitiates Professor Drummond’s
-interesting work on ‘Natural Law in the
-Spiritual World,’ of confounding analogy and identity.
-Because the principle of polarity pervades alike the
-natural and spiritual worlds, I am far from assuming
-that the laws under which it acts are identical; and
-that virtue and vice, pain and pleasure, ugliness and
-beauty, are products of the same mathematical changes
-of sign and inverse squares or cubes of distances, as
-regulate the attractions and repulsions of molecules and
-atoms. All I say is, that the same pervading principle
-may be traced wherever human thought and human
-knowledge extend; that it is apparently, for some
-reason unknown to us, the essential condition of all
-existence within the sphere of that thought and that
-knowledge; and that what lies beyond it is the great
-unknown, behind the impenetrable veil which it is not
-given to mortals to uplift. In like manner, if I call
-myself ‘a modern Zoroastrian,’ it is not that I wish
-or expect to teach a new religion or revive an old one,
-to see Christian churches dedicated to Ormuzd, or right
-reverend bishops exchanging the apron and shovel-hat
-for the mitre and flowing robes of the ancient Magi;<span class="pagenum"><a name="Page_4" id="Page_4">[4]</a></span>
-but simply this. All religions I take to be ‘working
-hypotheses,’ by which successive ages and races of men
-try to satisfy the aspirations and harmonise the knowledge
-which in the course of evolution have come to be,
-for the time, their spiritual equipment. The best proof
-of any religion is, that it exists—i.e. that it is part of
-the same evolution, and that on the whole it works
-well, i.e. is in tolerable harmony with its environment.
-When that environment changes, when loftier views of
-morality prevail, when knowledge is increased and the
-domain of science everywhere extends its frontier, religions
-must change with it if they are to remain good
-working, and not become unworkable and unbelievable
-hypotheses.</p>
-
-<p>Now of all the religious hypotheses which remain
-workable in the present state of human knowledge, that
-seems to me the best which frankly recognises the
-existence of this dual law, or law of polarity, as the
-fundamental condition of the universe, and, personifying
-the good principle under the name of Ormuzd,
-and the evil one under that of Ahriman, looks with
-earnest but silent and unspoken reverence on the great
-unknown beyond, which may, in some way incomprehensible
-to mortals, reconcile the two opposites, and
-give the final victory to the good.</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Oh! yet we hope that somehow good</div>
-<div class="verse">Will be the final goal of ill.</div>
-</div>
-</div>
-
-<p class="noindent">So sings the poet of the nineteenth century: so, if we
-understand his doctrine rightly, taught the Bactrian
-sage, Zoroaster, some forty centuries earlier.</p>
-
-<p>This, and this alone, seems to me to afford a working
-hypothesis which is based on fact, can be brought
-into harmony with the existing environment, and embraces,<span class="pagenum"><a name="Page_5" id="Page_5">[5]</a></span>
-in a wider synthesis, all that is good in other
-philosophies and religions.</p>
-
-<p>When I talk of our new environment, it requires
-one who, like the author, has lived more than the
-Scriptural threescore and ten years, and has, so to
-speak, one foot on the past and one on the present,
-to realise how enormous is the change which a single
-generation has made in the whole spiritual surroundings
-of a civilised man of the nineteenth century.
-When I was a student at Cambridge, little more than
-fifty years ago, Astronomy was the only branch of
-natural science which could be said to be definitely
-brought within the domain of natural law. And that
-only as regards the law of gravity, and the motions of
-the heavenly bodies, for little or nothing was known as
-to their constitution. Geology was just beginning the
-series of conquests by which time and the order and
-succession of life on the earth have been annexed by
-science as completely as space by astronomy; and
-theories of cataclysms, universal deluges, and special
-recent creations of animals and man, still held their
-ground, and were quoted as proofs of a universe maintained
-by constant supernatural interference.</p>
-
-<p>And when I say that space had been annexed to
-science by astronomy, it was really only that half of
-space which extends from the standpoint of the human
-senses in the direction of the infinitely great. The
-other equally important half which extends downwards
-to the infinitely small was unknown, or the subject
-only of the vaguest conjectures.</p>
-
-<p>Chemistry was, to a great extent, an empirical
-science, and molecules and atoms were at best guesses
-at truth, or rather convenient mathematical abstractions<span class="pagenum"><a name="Page_6" id="Page_6">[6]</a></span>
-with no more actual reality than the symbols of the
-differential calculus. The real causes and laws of heat,
-light, and electricity, were as little known as those of
-molecular action and of chemical affinity. The great
-laws of the indestructibility of matter, the correlation of
-forces, and the conservation of energy, were unknown,
-or only just beginning to be foreshadowed. As regards
-life, protoplasm was a word unheard of; scientific
-biology, zoology, and botany were in their infancy;
-and the gradual building up of all living matter from a
-speck of protoplasm, through a primitive cell, was not
-even suspected. Above all, the works of Darwin had
-not been published, and evolution had not become the
-general law of modern thought; nor had the discovery
-of the antiquity of man, and of his slow development
-upwards from the rudest origins, shattered into fragments
-established beliefs as to his recent miraculous
-creation.</p>
-
-<p>Science and miracle have been fighting out their
-battle during the last fifty years along the whole
-line, and science has been at every point victorious.
-Miracle, in the sense in which our fathers believed in
-it, has been not only repulsed, but annihilated so completely,
-that really little remains but to bury the dead.</p>
-
-<p>The result of these discoveries has been to make a
-greater change in the spiritual environment of a single
-generation than would be made in their physical environment
-if the glacial period suddenly returned and
-buried Northern Europe under polar ice. The change
-is certainly greater in the last fifty years than it had
-been in the previous five hundred, and in many respects
-greater than in the previous five thousand.</p>
-
-<p>It may be sufficient to glance shortly at the equally<span class="pagenum"><a name="Page_7" id="Page_7">[7]</a></span>
-great corresponding changes which this period has witnessed
-in the practical conditions of life and of society.
-If astronomy and geology have extended the dominion
-of the mind over space and time, steamers, railways,
-and the electric telegraph have gained the mastery over
-them for practical purposes. Commerce and emigration
-have assumed international proportions, and India,
-Australia, and America are nearer to us, and connected
-with us by closer ties, than Scotland was to England
-in my schoolboy days. Education and a cheap press
-have even in a greater degree revolutionised society,
-and knowledge, reaching the masses, has carried with it
-power, so that democracy and free-thought are, whether
-for good or evil, everywhere in the ascendant, and old
-privileges and traditions are everywhere decaying.</p>
-
-<p>With such a great change of environment it is evident
-that many of the old creeds, institutions, and other
-organisms, adapted to old conditions, must have become
-as obsolete as a schoolboy’s jacket would be as the
-comfortable habiliment of a grown-up man. But as a
-lobster which has cast its shell does not feel at ease
-until it has grown a new one, so thinking men of the
-present day are driven to devise, to a great extent each
-for themselves, some larger theory which may serve
-them as a ‘working hypothesis’ with which to go
-through life, and bring the ineradicable aspirations and
-emotions of their nature into some tolerable harmony
-with existing facts.</p>
-
-<p>To me, as one of those thinking units, this theory,
-of what for want of a better name I call ‘Zoroastrianism,’
-has approved itself as a good working theory,
-which reconciles more intellectual and moral difficulties,
-and affords a better guide in conduct and practical life<span class="pagenum"><a name="Page_8" id="Page_8">[8]</a></span>
-than any other; and, in a word, enables me to reduce
-my own individual Chaos into some sort of an intelligible
-and ordered Cosmos. I feel moved, therefore, to
-preach through the press my little sermon upon it, for
-the benefit of those whom it may concern, feeling assured
-that the process of evolution, by which</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">The old order changes, giving place to new,</div>
-</div>
-</div>
-
-<p class="noindent">can best be assisted by the honest and unbiassed expression
-of the results of individual thought and experience
-on the part of any one of those units whose aggregates
-form the complicated organisms of religions and philosophies,
-of societies and of humanity.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_9" id="Page_9">[9]</a></span></p>
-
-<h2 id="CHAPTER_II">CHAPTER II.<br />
-<span class="smaller">POLARITY IN MATTER—MOLECULES AND ATOMS.</span></h2>
-
-<div class="chapter">
-
-<p>Matter consists of molecules—Nature of molecules—Laws of their action
-in gases—Law of Avogadro—Molecules composed of atoms—Proved
-by composition of water—Combinations of atoms—Elementary substances—Qualities
-of matter depend on atoms—Dimensions and velocities
-of molecules and atoms—These are ascertained <i>facts</i>, not theories.</p>
-
-</div>
-
-<p>If in building a house that is to stand when the rains
-fall and the winds blow, it is requisite to go down to
-the solid rock for a foundation, so much the more is
-it necessary in building up a theory to begin at the
-beginning and give it a solid groundwork. Nine-tenths
-of the fallacies current in the world arise from the haste
-with which people rush to conclusions on insufficient
-premises. Take, for instance, any of the political questions
-of the day, such as the Irish question: how many
-of those who express confident opinions, and get angry
-and excited on one side or the other, could answer any
-of the preliminary questions which are the indispensable
-conditions of any rational judgment? How many
-marks would they get for an examination paper which
-asked what was the population of Ireland; what proportion
-of that population was agricultural; what
-proportion of that agricultural population consisted of
-holders of small tenements; what was the scale of rents
-compared with that for small holdings in other countries;<span class="pagenum"><a name="Page_10" id="Page_10">[10]</a></span>
-how much of that rent was levied on them for their own
-improvements; and other similar questions which lie at
-the root of the matter? In how many cases would it
-be found that the whole superstructure of their confident
-and passionate theories about the Irish difficulty
-was based on no more solid foundation than their like
-or dislike of a particular statesman or of a particular
-party?</p>
-
-<p>I propose therefore to begin at the beginning, and,
-taking the simplest case, that of dead or inorganic
-matter, show how the material universe is built up by
-the operation of the all-pervading law of polarity.
-What does matter consist of? Of molecules, and molecules
-are made up of atoms, and these are held together
-or parted, and built up into the various forms of the
-material universe, primarily by polar forces.</p>
-
-<p>Let me endeavour to make this intelligible to the
-intelligent but unscientific reader. Suppose the Pyramid
-of Cheops shown for the first time to a giant
-whose eye was on such a scale that he could just discern
-it as a separate object. He might make all sorts
-of ingenious conjectures as to its nature, but if microscopes
-had been invented in Giant-land and he looked
-through one, he would find that it was built up, layer
-by layer, on a regular plan and in determinate lines and
-angles, by molecules, or what seemed to him almost infinitely
-small masses, of squared stone. For pyramid
-write crystal, and we may see by the human sense, aided
-by human instruments and human reason, a similar
-structure built up in the same way by minute particles.
-Or again, divide and subdivide our iron filings until we
-reach the limit of possible mechanical division discernible
-by the microscope; each one remains essentially a<span class="pagenum"><a name="Page_11" id="Page_11">[11]</a></span>
-bar of iron, as capable of being magnetised, and showing
-the same qualities and behaviour under chemical
-tests as the original bar of iron from which the filings
-were taken. This carries us a long way down towards
-the infinitely small, for mechanical division and microscopic
-visibility can be carried down to magnitudes
-which are of the order of 1/100000th of an inch.</p>
-
-<p>But this is only the first step; to understand our
-molecules we must ascertain whether they are infinitely
-divisible, and whether they are continuous, expanding
-by being spread out thinner and thinner like gold-beater’s
-skin: or are they separate bodies with intervals
-between them, like little planets forming one solar system
-and revolving in space by fixed laws. Ancient science
-guessed at the former solution and embodied it in the
-maxim ‘that nature abhors a vacuum’: modern science
-proves the latter.</p>
-
-<p>In the first place bodies combine only in fixed proportions,
-which is a necessary consequence if they consist
-of definite indivisible particles, but inconceivable if
-the substance of each is indefinitely divisible. Thus
-water is formed in one way and one only: by uniting one
-volume or molecule of oxygen with two of hydrogen,
-and any excess of one or the other is left out and remains
-uncombined. But if the molecules could be
-divided into halves, quarters, and so on indefinitely,
-there can be no reason why their union should take
-place always in this one proportion and this only.</p>
-
-<p>A still more conclusive proof is furnished by the
-behaviour of substances which exist in the form of
-gases. If a jar is filled with one gas, a second and
-third gas can be poured into it as readily as into a
-vacuum, the result being that the pressure on the sides<span class="pagenum"><a name="Page_12" id="Page_12">[12]</a></span>
-of the jar is exactly equal to the sum of the separate
-pressures of each separate gas. This evidently means
-that the first gas does not occupy the whole space, but
-that its particles are like a battalion of soldiers in loose
-skirmishing order, with such intervals between each
-unit that a second and third battalion can be marched
-in and placed on the same ground, without disturbing
-the formation, and with the result only of increasing
-the intensity of the fire.</p>
-
-<p>Now gas is matter as much as solids or liquids, and
-in the familiar instance of water we see that it is merely
-a question of more or less heat whether the same matter
-exists as ice, water, or steam. The number and nature
-of the molecules is not changed, only in the one case they
-are close to one another and solidly linked together; in
-the other, further removed and free to move about one
-another, though still held together as a mass by their
-mutual attractions; and in the third, still further apart,
-so that their mutual attraction is lost and they dart
-about, each with its own proper motion, bombarding
-the surface which contains them, and by the resultant
-of their impacts producing pressure.</p>
-
-<p>In this latter and simpler form of gas the following
-laws are found to prevail universally for all substances.
-Under like conditions volumes vary directly as the temperature
-and inversely as the pressure. That is to say,
-the pressure which contains them remaining the same,
-equal volumes of air, steam, or any other substance
-in the state of gas, expand into twice the volume if
-the temperature is doubled, three times if it is tripled,
-and so on; contracting in the same way if the temperature
-is lowered. If on the other hand the temperature
-remains constant, the volume is reduced to one<span class="pagenum"><a name="Page_13" id="Page_13">[13]</a></span>
-half or one third, if the pressure is doubled or tripled.
-From these laws the further grand generalisation has
-been arrived at, that all substances existing in the form
-of gas contain the same number of molecules in the
-same volume.</p>
-
-<p>This, which is known as the Law of Avogadro,
-from the Italian chemist by whom it was first discovered,
-is the fundamental law of modern chemistry,
-and the key to all certain and scientific knowledge of
-the constitution of matter and of the domain of the
-infinitely small, just as much as the law of gravity is to
-action of matter in the mass, and the resulting conditions
-and motions of mechanics and astronomy.</p>
-
-<p>This conclusion obviously follows from it, that
-difference of weight in different substances arises not
-from one having more molecules in the same volume
-than another, but from the molecules themselves being
-heavier. If we weigh a gallon or litre of hydrogen gas,
-which is the lightest known substance, and then weighing
-an equal volume of oxygen gas find that it is sixteen
-times heavier, we know for certain that the molecule
-or ultimate particle of oxygen is sixteen times
-heavier than that of hydrogen.</p>
-
-<p>It is evident that in this way the molecules of all
-simple substances which can exist in the form of pure
-gas can be weighed, and their weight expressed in terms
-of the unit which is generally adopted, that of the molecule
-of the lightest known substance, hydrogen. But
-science, not content with this achievement, wants to
-know not the relative weight only, but the absolute
-dimensions, qualities, and motions of these little bodies;
-and whether, although they cannot be divided further
-by mechanical means, and while retaining the qualities<span class="pagenum"><a name="Page_14" id="Page_14">[14]</a></span>
-of the substances they build up, they are really ultimate
-and indivisible particles or themselves composites.</p>
-
-<p>Chemistry and electricity give a ready answer to
-this latter question. Molecules are composites of still
-smaller bodies, and to get back to the ultimate particle
-we must go to atoms. All chemical changes resolve
-themselves into the breaking up of molecules and rearrangement
-of their constituent atoms. If the opposite
-poles of a voltaic battery are inserted in a vessel containing
-water, molecules of water are broken up,
-bubbles of gas rise at each pole, and if these are collected,
-the gas at the positive pole is found to be
-oxygen, and that at the negative pole hydrogen. Nothing
-has been added or taken away, for the weight of
-the two gases evolved exactly equals that of the water
-which has disappeared. But the molecules of the water
-have been broken up, and their constituents reappear
-in totally different forms, for nothing can well be
-more unlike water than each of the two gases of which
-it is composed. That it is composed of them can be
-verified by the reverse experiment of mixing the two
-gases together in the same proportion of two volumes
-of hydrogen to one of oxygen as was produced by
-the decomposition of water, passing an electric spark
-through the vessel containing the mixture, when with
-a loud explosion the gases reunite, and water is formed
-in precisely the same quantity as produced the volumes
-of gas by its decomposition. Can the ultimate particles
-of these gases be further subdivided; can they,
-like those of water, be broken up and reappear in new
-forms? No; there is no known process by which an
-atom of oxygen can be made anything but oxygen, or
-an atom of hydrogen anything but hydrogen.</p>
-
-<p><span class="pagenum"><a name="Page_15" id="Page_15">[15]</a></span></p>
-
-<p>The only thing which is compound in the composition
-of oxygen is that its molecules consist of two atoms
-linked together. This appears from the fact that while
-the weight of oxygen, and therefore that of its molecules,
-is sixteen times greater than that of an equal
-volume of hydrogen, and therefore of hydrogen molecules,
-it combines with it in the proportion not of sixteen,
-but of eight to one. If, therefore, the molecule
-were identical with the atom of oxygen, we must
-admit that the atom could be halved, which is contrary
-to its definition as the ultimate indivisible particle
-of the substance oxygen. But if the oxygen molecule
-consists of two linked atoms, O—O, and the hydrogen
-molecule equally of two, H—H, as can be proved by
-other considerations, everything is explained by assuming
-that the molecule of water consists of two atoms of
-hydrogen linked to one of oxygen, or H₂O, and that
-when this molecule is broken up by electricity, its constituents
-resolve themselves into atoms, which recombine
-so as to form twice as many molecules of hydrogen,
-H—H, as of oxygen, O,—i.e. into two volumes of
-hydrogen gas to one of oxygen.</p>
-
-<p>Taking the single hydrogen atom as the unit of
-weight as being the lightest known ponderable body,
-and calling this weight a microcrith, or standard of the
-smallest of this order of excessively small weights, this
-is equivalent to saying that the weight of an oxygen
-atom is equal to 16 microcriths, and as water is composed
-of one such atom plus two of hydrogen, the
-weight of its molecule ought to be 16 + 2 = 18, which
-is in fact the exact ratio in which the weight of a
-volume of steam, or water in the form of gas, is heavier
-than an equal volume of hydrogen.</p>
-
-<p><span class="pagenum"><a name="Page_16" id="Page_16">[16]</a></span></p>
-
-<p>This key unlocks the whole secret of the chemical
-changes and combinations by which matter assumes all
-the various forms known to us in the universe.</p>
-
-<p>Thus oxygen enters into a great variety of combinations
-forming different substances, but always in the
-proportion which is either 16, or some multiple of 16,
-such as 32, 48, 64. That is, either 1, 2, 3, or 4 atoms
-of oxygen unite with other atoms to form the molecules
-from which these other substances are made.</p>
-
-<p>One atom of oxygen weighing 16 microcriths combines,
-as we have seen, with two atoms of hydrogen
-weighing 2, to form a molecule of water weighing
-18 mc. In like manner one atom of oxygen, 16 mc.,
-combines with one of carbon, which weighs 12 mc., to
-form a molecule of carbonic oxide weighing 28 mc.; and
-two of oxygen, 32 mc., with one of carbon, 12 mc., to
-form a molecule of carbonic dioxide weighing 44 mc.</p>
-
-<p>The same applies to all elementary substances. Thus
-hydrogen, two atoms of which combine with one of
-oxygen to form water, combines one atom to one with
-chlorine to form the molecule of hydrochloric acid, which
-weighs 36·5 mc., being the united weights of one atom
-of chlorine, 35·5 mc., and one of hydrogen, 1 mc.
-These, with hundreds of similar instances, are the
-results not of theories as to molecules and atoms, but
-of actual facts, ascertained by innumerable experiments
-made independently by careful observers over long
-periods of years, many of them dating back to the
-labours of the alchemists of the middle ages in pursuit
-of gold. The atomic theory is the child and not the
-parent of the facts, and is indeed nothing but the
-summary of the vast variety of experiments which led
-up to it, as Newton’s law of gravity is of the facts<span class="pagenum"><a name="Page_17" id="Page_17">[17]</a></span>
-known to us with regard to the attractions and motions
-of matter in the mass. But as Newton’s law enables
-us to predict new facts, to calculate eclipses and the
-return of comets beforehand, and to compile nautical
-almanacs; so the new chemistry, based on the atomic
-theory, affords the same conclusive proof of its truth
-by enabling us in many cases to predict phenomena
-which are subsequently verified by experiment, and to
-infer beforehand what combinations are possible, and
-what will be their nature.</p>
-
-<p>The actual existence, therefore, of molecules and
-atoms is as well-ascertained a fact, as that of cwts. and
-lbs., or of planets and stars, of solar systems and nebulæ.</p>
-
-<p>The researches of chemists have succeeded in discovering
-about 70 substances, of which the same may
-be said as of the oxygen and hydrogen into which
-water is decomposed, viz. that they cannot be decomposed
-by any known process, and must therefore be
-considered as ultimate and elementary. Their atoms
-differ widely in size and weight: that of mercury, for
-instance, being 200 times heavier than that of hydrogen,
-and the weights varying from 1 mc. for the hydrogen
-atom, up to 240 for that of uranium. When we call
-them elementary substances, we merely mean that we
-know no means of decomposing them. It is possible
-that all of them may be compounds which we cannot
-take to pieces of some substratum of uniform matter, and
-it is remarkable that the weight of nearly all of these
-elementary atoms is some simple multiple of that of
-hydrogen, pointing to their being all combinations of
-one common substratum of matter; but this is merely
-conjecture, and in the present state of our knowledge
-we must assume these 66 or 71 ultimate particles<span class="pagenum"><a name="Page_18" id="Page_18">[18]</a></span>
-or atoms to be the indivisible units out of which
-all the complicated puzzle of the material universe is
-put together. They are not all equally important to
-us. Of the 71 elementary substances enumerated in
-chemical treatises, 5 are doubtful, and 30 to 35 of
-the remainder are either known only to chemists in
-minute quantities, or exist in nature in small quantities,
-having no very material bearing upon man’s
-relation to matter. The most important are oxygen,
-hydrogen, nitrogen, and carbon. Oxygen diluted by
-nitrogen gives us the air we breathe, combined with
-hydrogen the water we drink, and with metals and other
-primitive bases the solid earth on which we tread.
-Carbon again is the great basis of organised matter and
-life, to which it leads up by a variety of complex combinations
-with oxygen, hydrogen, and nitrogen.</p>
-
-<p>The qualities and relations of elementary atoms
-afford a subject of great interest, but of such vast
-extent that those who wish to understand it must be
-referred to professed works on modern chemistry. For
-the present purpose it is sufficient to say that the
-following conclusions are firmly established.</p>
-
-<p>All the various forms of matter are composed of
-combinations of primitive atoms which form molecules,
-the molecules being neither more nor less than very
-small pieces of ordinary matter.</p>
-
-<p>The qualities of this matter, or, what is the same
-thing, of its molecules, depend partly on the qualities of
-the atoms, which are something quite distinct from those
-of the molecules, and partly on their mode of aggregation
-into molecules, affecting the form, size, stability,
-and other attributes of the molecule.</p>
-
-<p>All matter, down to the smallest atom, has definite<span class="pagenum"><a name="Page_19" id="Page_19">[19]</a></span>
-weight and is indestructible. No man by taking
-thought can add the millionth of a milligramme to the
-weight of any substance, or make it either more or less
-than the sum of the weights of its component factors,
-any more than he can add a cubit to his stature. When
-Shelley sang of the cloud,</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">I change, but I cannot die,</div>
-</div>
-</div>
-
-<p class="noindent">he enunciated a scientific axiom of the first importance.
-Creation, in the sense of making something out of nothing,
-is a thing absolutely unknown and unknowable
-to us. If we say we <i>make</i> a ship or a steam-engine, we
-simply mean that we transform existing matter and
-existing energies into new combinations, which give
-results convenient for our purpose. So if we talk of
-making a world, our idea really is that if our powers
-and knowledge were indefinitely increased we might be
-able, given the atoms and energies with their laws of
-existence, to put them together so as to produce the
-desired results. But how the atoms and their inherent
-laws got there is a question as to which knowledge,
-or even conceivability, is impossible, for it altogether
-transcends human experience.</p>
-
-<p>Before finally taking leave of atoms it may be well
-to state shortly that science, not content with having
-proved their existence and weighed them in terms of
-the lightest element, the hydrogen atom, has attempted,
-not without success, to solve the more difficult problem
-of their real dimensions, intervals, and velocities. This
-problem has been attacked by Clausius, Sir W. Thomson,
-Clerk Maxwell, and others, from various sides: from a
-comparison with the wave-lengths of light; with the
-tenuity of the thinnest films of soap-bubbles just before<span class="pagenum"><a name="Page_20" id="Page_20">[20]</a></span>
-they burst, and when they are presumably reduced to a
-single layer of molecules; and from the kinetic theory
-of gases, involving the dimensions, paths, and velocities
-of elastic bodies, constantly colliding, and by their impacts
-producing the resulting pressure on the confining
-surface. All these methods involve such refined mathematical
-calculations that it is impossible to explain them
-popularly, but they all lead to nearly identical results,
-which involve figures so marvellous as to be almost
-incomprehensible. For instance, a cubic centimetre of
-air is calculated to contain 21 trillions of molecules—i.e.
-21 times the cube of a million, or 21 followed by 18
-ciphers; the average distance between each molecule
-equals 95 millionths of a millimetre, which is about
-25 times smaller than the smallest magnitude visible
-under a microscope; the average velocity of each molecule
-is 447 metres per second; and the average number
-of impacts received by each molecule in a second is 4,700
-millions.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_21" id="Page_21">[21]</a></span></p>
-
-<h2 id="CHAPTER_III">CHAPTER III.<br />
-<span class="smaller">ETHER.</span></h2>
-
-<div class="chapter">
-
-<p>Ether proved by light—Light-waves—Elasticity of ether—Its universal
-diffusion—Influences molecules and atoms—Is influenced by them—Successive
-orders of the infinitely small—Illustrated by the differential
-and integral calculus—Explanation of this calculus—Theory of vortex
-rings.</p>
-
-</div>
-
-<p>Perhaps the best way to convey some idea of this
-order of magnitudes to the ordinary reader is to quote
-Sir W. Thomson’s illustration, that if we could suppose
-a cubic inch of water magnified to the size of the earth—i.e.
-to a sphere 24,000 miles in circumference—the dimensions
-of its ultimate particles, magnified on the same
-scale, or, as he expresses it, its degree of coarse-grainedness,
-would be something between the size of rifle-bullets
-and cricket-balls.</p>
-
-<p>Extraordinary as these dimensions are, they are not
-more so than those at the opposite extremity of the
-scale, where the distance of stars and nebulæ has to be
-measured by the number of thousand years their light,
-travelling at the rate of 192,000 miles per second, takes
-to reach us. Infinitely small, however, as those dimensions
-appear to our original conceptions derived from
-our natural senses, they are certain and ascertained
-facts, if not as to the precise figures, yet beyond all
-doubt as to the orders of magnitude. In dealing with
-them also we are to a great extent on familiar ground.<span class="pagenum"><a name="Page_22" id="Page_22">[22]</a></span>
-Molecules are nothing more nor less than small pieces
-of ordinary matter; and atoms are also matter, for
-they obey the law of gravity, have definite weights,
-and build up molecules as surely as molecules build
-up ordinary matter, and as squared stones build up
-pyramids.</p>
-
-<p>But to understand the constitution of the material
-universe we must go a step further, part from the
-familiar world of sense, and deal with an all-pervading
-medium, which is at the same time matter and not
-matter, which lies outside the laws of gravity, and yet
-obeys other laws intelligible and calculable by us; of
-which it may be said we know it and we know it not.
-We call it Ether.</p>
-
-<p>Ether is a medium assumed as a necessary consequence
-from the phenomena of light, heat, and electricity—primarily
-from those of light. Respecting
-light two facts are known to us with absolute certainty.</p>
-
-<p>1st. It traverses space at the rate of 192,000 miles
-per second.</p>
-
-<p>2nd. It is propagated not by particles actually
-travelling at this rate, but, like sound through air, by
-the transmission of waves.</p>
-
-<p>The first fact is known from the difference of time
-at which eclipses of Jupiter’s satellites are seen according
-as the earth is at the point of its orbit nearest to
-or farthest from Jupiter—i.e. from the time light takes
-to traverse the diameter of the earth’s orbit, which is
-about 180 millions of miles; and this velocity of light
-is confirmed by direct experiments, as by noting the
-difference of time between seeing the flash and hearing
-the sound of a gun, which gives the velocity of light
-compared with the known velocity of sound.</p>
-
-<p><span class="pagenum"><a name="Page_23" id="Page_23">[23]</a></span></p>
-
-<p>The second fact is equally certain from the phenomena
-of what are called interferences, when the crest of
-one wave just overtakes the hollow of a preceding one,
-so that, if the two waves are of equal magnitude, the
-oscillations exactly neutralise one another, and two
-lights produce darkness. This is shown in a thousand
-different ways, and for all the different colours depending
-on different waves into which white light is analysed
-when passed through a prism. It is a certain result of
-wave-motion, and of wave-motion only, and therefore
-we know without a doubt that light is propagated by
-waves.</p>
-
-<p>But waves imply a medium through which waveforms
-are transmitted, for waves are nothing but the
-rhythmic motion of something which rises and falls, or
-oscillates symmetrically about a mean position of rest,
-slowly or quickly according to the less or greater
-elasticity of the medium. The waves which run along
-a large and slack wire are large and slow, those along a
-small and tightly stretched wire are small and quick;
-and from the data we possess as to light, its velocity
-of transmission, its refraction when its waves pass from
-one medium into another of different density, and from
-the distance between the waves as shown by interference,
-it is easy to calculate the lengths and vibratory
-periods of the waves, and the elasticity of the medium
-through which such waves are transmitted.</p>
-
-<p>The figures at which we arrive are truly extraordinary.
-The dimensions and rates of oscillations of
-the waves which produce the different colours of visible
-light have been measured and calculated with the
-greatest accuracy, and they are as follows:</p>
-
-<p><span class="pagenum"><a name="Page_24" id="Page_24">[24]</a></span></p>
-
-<p class="center"><span class="smcap">Dimensions of Light-Waves.</span></p>
-
-<table summary="Dimensions of light-waves">
-  <tr>
-    <th>Colours</th>
-    <th>No. of waves<br />in one inch</th>
-    <th>No. of oscillations<br />in one second</th>
-  </tr>
-  <tr>
-    <td>Red</td>
-    <td class="tdr">39,000</td>
-    <td class="tdr">477,000,000,000,000</td>
-  </tr>
-  <tr>
-    <td>Orange</td>
-    <td class="tdr">42,000</td>
-    <td class="tdr">506,000,000,000,000</td>
-  </tr>
-  <tr>
-    <td>Yellow</td>
-    <td class="tdr">44,000</td>
-    <td class="tdr">535,000,000,000,000</td>
-  </tr>
-  <tr>
-    <td>Green</td>
-    <td class="tdr">47,000</td>
-    <td class="tdr">577,000,000,000,000</td>
-  </tr>
-  <tr>
-    <td>Blue</td>
-    <td class="tdr">51,000</td>
-    <td class="tdr">622,000,000,000,000</td>
-  </tr>
-  <tr>
-    <td>Indigo</td>
-    <td class="tdr">54,000</td>
-    <td class="tdr">658,000,000,000,000</td>
-  </tr>
-  <tr>
-    <td>Violet</td>
-    <td class="tdr">57,000</td>
-    <td class="tdr">699,000,000,000,000</td>
-  </tr>
-</table>
-
-<p>The elasticity of this wonderful medium is even
-more extraordinary.</p>
-
-<p>The rapidity with which wave-motion is transmitted
-depends, other things being equal, on the elasticity of
-the medium, which is proportional to the square of the
-velocity with which a wave travels through it. As the
-velocity of the sound-wave in air is about 1,100 feet in
-a second, and that of the light-wave about 192,000
-miles in the same time, it follows that the velocity of
-the latter is about a million times greater than that of
-the former, and if the density of ether were the same as
-that of air, its elasticity must be about a million million
-times greater. But the elasticity is the same thing as
-the power of resisting compression, which in the case
-of air we know to be about 15 pounds to the square
-inch; so that the ether, if equally dense, would balance
-a pressure of 15 million million pounds to the square
-inch—that is, it would require a pressure of about 750
-millions of tons to the square inch to condense ether to
-the density of air. On the other hand, its density, if
-any, must be so infinitesimally small that the earth
-moving through it in its orbit with a velocity of 1,100
-miles a minute suffers no perceptible retardation.</p>
-
-<p>Consider what this means. Air blowing at the rate<span class="pagenum"><a name="Page_25" id="Page_25">[25]</a></span>
-of 100 miles an hour is a hurricane uprooting trees and
-levelling houses. If ether were as dense as air the
-resistance to the earth in passing through it would be
-600 times that of going dead to windward in a tropical
-hurricane. But in point of fact there is no sensible
-resistance, for the earth and heavenly bodies move in
-their calculated paths according to the law of gravity
-exactly as they would do if they were moving in a
-vacuum. Even the comets, which consist of such
-excessively rare matter that when one of them got
-entangled among the satellites of Jupiter it did not
-affect their movements, are not retarded by the ether,
-or so slightly, that any retardation in the case of one or
-two of them is suspected rather than proved. But, if
-the ether has no weight, how can we call it material,
-weight being, as we have seen, the invariable test and
-measure of all matter down to the minutest atom? And
-yet how can we deny its existence when it is demonstrably
-necessary to account for undoubted facts revealed
-to us every day by the prism, the spectroscope,
-electricity, and chemical action, and deductions from
-these facts based on the strict laws of mathematical
-calculation? For the existence of the ether is not based
-only on the phenomena of light: it is an equally necessary
-postulate to explain those of heat, electricity, and
-chemical action. We must conceive of our atoms and
-molecules as forming systems and performing their
-movements, not in vacuo, but in an all-pervading
-medium of this ether, to which they impart, and from
-which they receive, impulses.</p>
-
-<p>These impulses are excessively minute, and when
-they occur in irregular order they produce no appreciable
-effect; but when the vibrations of the ether keep<span class="pagenum"><a name="Page_26" id="Page_26">[26]</a></span>
-time with those of the atoms, the multitude of small
-effects becomes summed up into one considerable enough
-to produce great changes. Just so a rhythmic succession
-of tiny ripples may set a heavy buoy oscillating,
-and the footfalls of a regiment of soldiers marching over
-a suspension-bridge may make it swing until it breaks
-down, while a confused mob could traverse it in safety.
-The latter affords a good illustration of the way in
-which molecular structures may be broken down, and
-their atoms set free to enter into other combinations, by
-the action of heat, light, or chemical rays beyond the
-visible end of the spectrum.</p>
-
-<p>Conversely the phenomena of the spectroscope all
-depend on the fact that the vibrations of atoms and
-molecules can propagate waves through the ether, as
-well as absorb ether-waves into their own motions, and
-thus give spectra distinguished by bright or dark lines
-peculiar to each substance, by which it can be identified.
-Whatever ether may be, this much is certain about it:
-it pervades all space. That it extends to the boundaries
-of the infinitely great we know from the fact that light
-reaches us from the remotest stars and nebulæ, and that
-in this light the spectroscope enables us to detect waves
-propagated and absorbed by the very same vibrations
-of the same familiar atoms at these enormous distances
-as at the earth’s surface. Glowing hydrogen, for instance,
-is a principal ingredient of the sun’s atmosphere
-and of those distant suns we call stars, and it affects the
-ether and is affected by it exactly in the same manner
-as the hydrogen burning in an ordinary gas-lamp.</p>
-
-<p>In the direction also of the infinitely small, ether
-permeates the apparently solid structure of crystals,
-whose molecules perform their limited and rigidly definite<span class="pagenum"><a name="Page_27" id="Page_27">[27]</a></span>
-movements in an atmosphere of it, as is shown by
-the fact that in so many cases light and heat penetrate
-through them. A whole series of remarkable phenomena
-arise from the manner in which the vibrations of
-ether which cause light are affected by the structure of
-the molecules of crystals through which they pass. In
-certain cases they are what is called polarised, or so
-affected that while they pass freely if the crystal is held
-in one direction, they are stopped if it is turned round
-through an angle of 90° to its former position, so that
-one and the same crystal may be alternately transparent
-and non-transparent. It would seem as if its structure
-were like that of wood, grained, and more easy to penetrate
-if cut with the grain than against it, so that when
-a ray of light attempted to penetrate, its vibrations were
-resolved into two, one with the grain which got through,
-the other against it which was suppressed; so that the
-emerging ray, which entered with a circular vibration,
-got out with only one rectilinear vibration parallel to the
-diameter which coincided with the grain.</p>
-
-<p>Other crystals of more complicated structure affect
-transmitted light in a more complex way, developing a
-double polarity very similar to that induced in the iron
-filings when brought under the influence of the two poles
-of the magnet. With this polarised light the most beautiful
-coloured rings can be produced from the waves of
-the different colours into which the white light has been
-analysed in passing through the crystal, which alternately
-flash out and disappear as the crystal is turned
-round its axis, and which present a remarkable analogy
-to the curves into which the iron filings form themselves
-under the single or double poles of the magnet.</p>
-
-<p>The importance of this will appear afterwards, but for<span class="pagenum"><a name="Page_28" id="Page_28">[28]</a></span>
-the present it is sufficient to show that the waves of ether
-which cause light really penetrate through the molecules
-of crystals, but in doing so may be affected by them.</p>
-
-<div class="figcenter" style="width: 500px;">
-<img src="images/illus2.jpg" width="500" height="165" alt="" />
-<table summary="caption">
-  <tr>
-    <td><span class="smcap">Rings of Polarised Light, Uniaxial Crystals.</span></td>
-    <td><span class="smcap">Rings of Polarised Light, Biaxial Crystals.</span></td>
-  </tr>
-</table>
-</div>
-
-<p>In dealing with these excessively small magnitudes
-it may assist the reader who has some acquaintance
-with mathematics in forming some conception of them,
-to refer to that refinement of calculation, the differential
-and integral calculus. And even the non-mathematical
-reader may find it worth while to give a little
-attention in order to gain some idea of this celebrated
-calculus which was the key by which Newton and his
-successors unlocked the mysteries of the heavens. The
-first rough idea of it is gained by considering what
-would happen if, in a calculation involving hundreds of
-miles, we neglected inches. Suppose we had a block
-of land to measure, 300 miles long and 200 wide; as
-there are, say, 5,000 feet in a mile, and the error from
-omitting inches could not exceed a foot, the utmost
-error in the measurement of length could not exceed
-1/1500000th, and in width 1/1000000th part of the correct
-amount. In the area of 300 × 200 = 60,000 square
-miles, the limit of error would, by adding or omitting
-the rectangle formed by multiplying together these
-two small errors, not exceed 1/1500000 × 1/1000000 =
-1/1500000000000th part. It is evident that the first<span class="pagenum"><a name="Page_29" id="Page_29">[29]</a></span>
-error is an excessively small part of the true figure,
-and the second error a still more excessively small
-part of the first error. But, as we are dealing with
-abstract numbers, we can just as readily conceive our
-initial error to be the 1/100th or 1/1000th of an inch,
-as one inch; and, in fact, diminish it until it becomes
-an infinitesimally small or evanescent quantity. In
-doing so, however, it is evident that we shall make
-the second error such a still more infinitesimally small
-fraction of the first that it may be considered as
-altogether disappearing.</p>
-
-<p>The first error is called a differential of the first
-order and denoted by <i>d</i>, the second a differential of the
-second order denoted by d₂. Thus if we call the base
-of our rectangle <i>x</i> and its height <i>y</i>, the area will be <i>xy</i>.
-Let us suppose <i>x</i> to receive the addition of a very small
-increment <i>dx</i>, and <i>y</i> the corresponding increment <i>dy</i>,
-what will be the corresponding increment of the area, or
-<i>d.xy</i>? Clearly the difference between the old area <i>xy</i>
-and the new area (<i>x</i> + <i>dx</i>) multiplied by (<i>y</i> + <i>dy</i>).
-This multiplication gives</p>
-
-<table summary="Formula">
-  <tr>
-    <td><i>x</i></td>
-    <td>+</td>
-    <td><i>dx</i></td>
-    <td></td>
-    <td></td>
-    <td></td>
-    <td></td>
-  </tr>
-  <tr>
-    <td><i>y</i></td>
-    <td>+</td>
-    <td><i>dy</i></td>
-    <td></td>
-    <td></td>
-    <td></td>
-    <td></td>
-  </tr>
-  <tr>
-    <td class="bt"><i>xy</i></td>
-    <td class="bt">+</td>
-    <td class="bt"><i>ydx</i></td>
-    <td></td>
-    <td></td>
-    <td></td>
-    <td></td>
-  </tr>
-  <tr>
-    <td></td>
-    <td></td>
-    <td><i>xdy</i></td>
-    <td>+</td>
-    <td>dx.dy</td>
-    <td></td>
-    <td></td>
-  </tr>
-  <tr>
-    <td class="bt"><i>xy</i></td>
-    <td class="bt">+</td>
-    <td class="bt"><i>xdy</i></td>
-    <td class="bt">+</td>
-    <td class="bt"><i>ydx</i></td>
-    <td class="bt">+</td>
-    <td class="bt"><i>dx.dy</i></td>
-  </tr>
-</table>
-
-<p class="noindent">The difference between this and <i>xy</i> is <i>xdy</i> + <i>ydx</i> +
-<i>dx.dy</i>. But <i>dx.dy</i> is, as we have seen, a differential
-of the second order and may be neglected. Therefore
-<i>dxy</i> = <i>xdy</i> + <i>ydx</i>. In like manner <i>dx</i>² = (<i>x</i> + <i>dx</i>)²-<i>x</i>²
-= 2<i>xdx</i> + <i>dx</i>², which last term may be neglected, and
-<i>dx</i>² = 2<i>xdx</i>. In this way the differentials of all manner
-of functions and equations of symbols representing<span class="pagenum"><a name="Page_30" id="Page_30">[30]</a></span>
-dimensions and motions may be found. Conversely
-the wholes may be considered as made up of an
-infinite number of these infinitely small parts, and
-found from them by summing up or integrating the
-differentials. Thus if we had the equation</p>
-
-<p class="center"><i>xdy</i> + <i>ydx</i> = 2<i>zdz</i></p>
-
-<p class="noindent">we know that the left-hand side is the differential of <i>xy</i>,
-and therefore that by integrating it we shall get <i>xy</i>;
-while the right side is the differential of <i>z</i>² which we
-shall get by integrating it. The relation expressed
-therefore is that <i>xy</i> = <i>z</i>², or, in other words, that a rectangle
-whose sides are <i>x</i> and <i>y</i> exactly equals a square
-whose side is <i>z</i>.</p>
-
-<div class="figcenter" style="width: 500px;">
-<img src="images/illus3.jpg" width="500" height="160" alt="" />
-<table summary="caption">
-  <tr>
-    <td><span class="smcap">Fig. 1.</span></td>
-    <td><span class="smcap spaced">Fig. 2.</span></td>
-    <td><span class="smcap">Fig. 3.</span></td>
-  </tr>
-</table>
-</div>
-
-<p>The use of this device in assisting calculation will
-be apparent if we take the case of an area bounded by
-a curved line. We cannot directly calculate this area,
-but we can easily tell that of a rectangle. Now it is
-evident that if we inscribe rectangles in this area <span class="smcapuc">ABC</span>,
-the more rectangles we inscribe the less will be the
-error in taking their sum as equal to the curved area.
-This is apparent if we compare fig. 2 with fig. 3. Suppose
-we take a point <span class="smcapuc">P</span> on the curve, call <span class="smcapuc">BN</span> = <i>x</i> and
-<span class="smcapuc">PN</span> = <i>y</i>, and suppose <span class="smcapuc">N</span><i>n</i> to be <i>dx</i>, the differentially
-small increment of <i>x</i>, and <i>pq</i> = <i>dy</i> the corresponding small
-increment of <i>y</i>. The area of the rectangle <span class="smcapuc">P</span><i>qn</i><span class="smcapuc">N</span> = <span class="smcapuc">PN</span> ×<span class="pagenum"><a name="Page_31" id="Page_31">[31]</a></span>
-<span class="smcapuc">N</span><i>n</i> = <i>ydx</i>, and differs from the true curvilinear area
-<span class="smcapuc">P</span><i>pn</i><span class="smcapuc">N</span> by less than the little rectangle of <span class="smcapuc">P</span><i>q</i> × <i>pq</i> or of
-<i>dx</i>.<i>dy</i>. But, as we have seen, if we push our division
-to the first infinitesimal order, or make <span class="smcapuc">N</span><i>n</i> and <i>pq</i> differentials
-of <i>x</i> and <i>y</i>, <i>dx</i>.<i>dy</i> may be neglected—i.e.
-multiply the number of rectangles indefinitely, and the
-sum of their areas will differ from the true area inclosed
-by the curve by an error which is evanescent.</p>
-
-<p>If then <i>x</i> and <i>y</i> are connected by some fixed law, as
-must be the case if the extremity of <i>y</i> traces out some
-regular curve, the relation between them may be expressed
-by an equation, which will remain one however
-often it may be differentiated or again integrated, and
-whatever modifications or transformations it may receive
-by mathematical processes which do not alter the
-essential equality of the two sides connected by the
-symbol of equality =. Thus by differentiating and
-casting off as evanescent all differentials of a lower
-order than that which we are working with, we may
-arrive at forms of which we know the integrals, and by
-integrating get back to the results in ordinary numbers,
-which we were in search of but could not attain directly.</p>
-
-<p>The same thing will apply if our symbols are
-more numerous, and if they express relations of
-motion as well as of space, or, in fact, any relations
-which are governed by fixed laws expressible by equations.
-If I have succeeded in conveying to the readers
-any idea of this celebrated calculus, they will perceive
-what an analogy it presents to the idea of modern
-physical and chemical science, that of molecules, atoms,
-and ether, forming differentials of successive orders of
-the infinitely small. It is certainly most remarkable
-that while the former was a purely intellectual idea based<span class="pagenum"><a name="Page_32" id="Page_32">[32]</a></span>
-on mathematical abstractions, and which was invented
-and worked as an instrument for solving the most
-intricate astronomical problems for nearly two centuries,
-without a suspicion that it represented any objective
-reality: the latter idea, based on actual experiment,
-seems to show that differentials and integrals have their
-real counterpart in nature and represent fundamental
-facts in the constitution of the universe.</p>
-
-<p>Those who are of a mystic or metaphysical turn of
-mind may discern in this, arguments for matter and laws
-of matter being after all only manifestations of one
-universal, all-pervading mind; but in following such
-speculations we should be deserting the solid earth for
-cloudland, and passing the limit of positive knowledge
-into the region where reflections of our own hopes, fears,
-religious feelings, and poetical sentiments form and dissolve
-themselves against the background of the great
-unknown. For the present, therefore, I confine myself
-to pointing out how these undoubted truths of mathematical
-science, which have verified themselves in the
-practical form of enabling us to predict eclipses and
-construct nautical almanacs, correspond with and throw
-light upon the equally certain facts of this succession of
-infinitely small quantities of successive orders in the
-constitution of matter.</p>
-
-<p>An attempt has recently been made, based on abstruse
-mathematical calculations, to carry our knowledge of
-the constitution of matter one step further back, and
-identify atoms with ether. This is attempted by the
-vortex theory of Helmholz, Sir W. Thomson, and Professor
-Tait. It is singular how some of the ultimate
-facts discovered by the refinements of science correspond
-with some of the most trivial amusements. Thus<span class="pagenum"><a name="Page_33" id="Page_33">[33]</a></span>
-the blowing of soap-bubbles gives the best clue to the
-movement of waves of light, and through them to the
-dimensions of molecules and atoms; and the collision
-of billiard-balls, knocked about at random, to the
-movements of those minute bodies, and the kinetic
-theory of gases. In the case of the vortex theory the
-idea is given by the rings of smoke which certain adroit
-smokers amuse themselves by puffing into the air.
-These rings float for a considerable time, retaining their
-circular form, and showing their elasticity by oscillating
-about it and returning to it if their form is altered, and
-by rebounding and vibrating energetically, just as two
-solid elastic bodies would do, if two rings come into
-collision. If we try to cut them in two, they recede
-before the knife, or bend round it, returning, when the
-external force is removed, to their original form without
-the loss of a single particle, and preserving their
-own individuality through every change of form and of
-velocity. This persistence of form they owe to the fact
-that their particles are revolving in small circles at
-right angles to the axis or circumference of the larger
-circle which forms the ring; motion thus giving them
-stability, very much as in the familiar instance of the
-bicycle. They burst at last because they are formed
-and rotate in the air, which is a resisting medium; but
-mathematical calculation shows that in a perfect fluid
-free from all friction these vortex rings would be indivisible
-and indestructible: in other words, they would
-be atoms.</p>
-
-<p>The vortex theory assumes, therefore, that the
-universe consists of one uniform primary substance, a
-fluid which fills all space, and that what we call matter
-consists of portions of this fluid which have become<span class="pagenum"><a name="Page_34" id="Page_34">[34]</a></span>
-animated with vortex motion. The innumerable atoms
-which form molecules, and through molecules all the
-diversified forms of matter of the material universe, are
-therefore simply so many vortex rings, each perfectly
-limited, distinct, and indestructible, both as to its form,
-mass, and mode of motion. They cannot change or
-disappear, nor can they be formed spontaneously. Those
-of the same kind are constituted after the same fashion,
-and therefore are endowed with the same properties.</p>
-
-<p>The theory is a plausible one, and the reputation
-of its authors must command for it respectful consideration;
-but it is as yet a long way from being an
-established theory which can be accepted as a true
-representation of facts. In the first place it is based
-solely on mathematical theory, and not, as in the case
-of atoms and light-waves, upon actual facts of weight
-and measurement tested by experiment, and to which
-mathematical reasoning affords only an aid and supplement.
-No one has proved the existence of such a
-medium or of such vortex rings, much less weighed or
-measured them.</p>
-
-<p>Moreover the theory is open to some very obvious
-objections. How can aggregations of imponderable
-matter acquire weight, and become subject to the law of
-gravity, which, as we have seen, is one of the essential
-and permanent qualities of atoms? If a cubic millionth
-of a millimetre of ether formed into a big vortex ring
-of, say, an atom of mercury, has a weight equal to 200
-times that of an atom of hydrogen, which itself has a
-definite weight, why has it no weight in its original
-form? And if it had weight, however small, how could
-the enormous mass of ether filling all space produce no
-perceptible effect on bodies, even of attenuated cometic<span class="pagenum"><a name="Page_35" id="Page_35">[35]</a></span>
-vapour, revolving through it with immense velocities?
-Again, how could these innumerable vortex rings be
-formed out of the ether without disturbing the uniformity
-and continuity of the medium, which are essential
-for the propagation of the light-waves through it?
-And how could the motions requisite to form the vortex
-rings be impressed on them <i>de novo</i> consistently with
-the principle of the conservation of energy? Energy
-can no more be created out of nothing than matter,
-by any process known in nature or conceivable by the
-human intellect; and to assume it is simply a more refined
-manner of falling back on the supernatural, which
-is itself only a more refined manner of saying that we
-know nothing.</p>
-
-<p>For the present, therefore, we must be content with
-atoms and ether as the ultimate terms of our knowledge
-of the material or quasi-material components of
-the universe.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_36" id="Page_36">[36]</a></span></p>
-
-<h2 id="CHAPTER_IV">CHAPTER IV.<br />
-<span class="smaller">ENERGY.</span></h2>
-
-<div class="chapter">
-
-<p>Energy of motion and of position—Energy can be transformed, not
-created or destroyed—Not created by free will—Conservation of mechanical
-power—Convertibility of heat and work—Nature of heat—The
-steam-engine—Different forms of energy—Gravity—Molecular
-energy—Chemical energy—Dynamite—Chemical affinities—Electricity—Produced
-by friction—By the voltaic battery—Electric currents—Arc
-light—Induction—Magnetism—The magnetic needle—The electric
-telegraph—The telephone—Dynamo-electric engine—Accumulator.</p>
-
-</div>
-
-<p>Those ultimate elements, however, atoms and ether,
-only give us what may be called the dead half of the
-universe, which could not exist without the constant
-presence of the animating principle of force or energy.
-Energy is the term generally adopted in the language
-of science, for force is apt to be associated with human
-effort and with actual motion produced, while energy
-is a comprehensive term, embracing whatever produces
-or is capable of producing motion. Thus, if we bend a
-cross-bow, the force with which it is bent may either
-reappear at once in the flight of the arrow, if we let
-go the string; or it may remain stored up, if we fix the
-string in the notch, ready to reappear when we pull the
-trigger. In the former case it is called energy of
-motion, in the latter energy of position. It is important
-to realise this distinction clearly, for many of the<span class="pagenum"><a name="Page_37" id="Page_37">[37]</a></span>
-ordered and harmonious arrangements of the universe
-depend on the polarity, or conflict with alternate
-victories and defeats, between those two forms of
-energy.</p>
-
-<div class="figcenter" style="width: 200px;">
-<img src="images/illus4.jpg" width="200" height="160" alt="" />
-</div>
-
-<p>Thus if <span class="smcapuc">A B</span> is a pendulum suspended at the point <span class="smcapuc">A</span>,
-if we move it from its position of rest <span class="smcapuc">A C</span> to <span class="smcapuc">A B</span> and
-hold it there, its whole energy is that of position. If
-we let it go it swings backwards and forwards between
-the positions <i>A B</i> and <i>A D</i>,
-and but for the resistance
-of the air and the friction
-at the point of suspension,
-it would so swing for ever.
-But in thus swinging what
-happens? From <span class="smcapuc">A B</span> to
-<span class="smcapuc">A C</span> energy of motion keeps
-gaining on energy of position, until when the pendulum
-reaches <span class="smcapuc">C</span>, it has annihilated it. Energy of position
-has entirely disappeared, and the whole original force
-expended in raising the pendulum to <span class="smcapuc">A B</span> exactly reappears
-in the force or momentum of the pendulum at
-its lowest point. But is this victory final? By no
-means; energy of position having touched bottom,
-gathers, like Antæus, fresh vigour for the contest, and
-from the position <span class="smcapuc">A C</span> upwards it gains ground on its
-adversary until when the pendulum reaches <span class="smcapuc">A D</span> it is in
-its turn completely victorious.</p>
-
-<p>The same alternation between energy of motion and
-of position takes place in all rhythmical movements such
-as waves, which, whether in water, air, or ether, are
-propagated, as in the case of the pendulum, by particles
-forced out of their position of rest and oscillating
-between the two energies.</p>
-
-<p><span class="pagenum"><a name="Page_38" id="Page_38">[38]</a></span></p>
-
-<div class="figcenter" style="width: 400px;">
-<img src="images/illus5.jpg" width="400" height="80" alt="" />
-</div>
-
-<p>Thus if waves run along an elastic wire <span class="smcapuc">A B</span>, the
-particle <span class="smcapuc">P</span>, which has been forced into the position <i>p</i>,
-oscillates backwards and forwards between <i>p</i> and <i>q</i>,
-beginning with nothing but energy of position at <i>p</i>,
-losing it all for energy of motion at <span class="smcapuc">P</span>, and regaining
-it at <i>q</i>. All wave-motions therefore—that is to say,
-all sound, light, and heat—depend on this primitive
-polarity.</p>
-
-<p>If we have got this definition of the two forms of
-energy clearly into our heads, we shall be the better prepared
-for this further generalisation—the grandest, perhaps,
-in the whole range of modern science—that energy,
-like matter, is indestructible, and can only be transformed,
-but never created or annihilated.</p>
-
-<p>This is at first sight a more difficult proposition to
-establish in the case of energy than in that of matter. In
-the latter case we have nothing in our experience that
-can lead us to suppose that we have ever created something
-out of nothing; but in the former, our first
-impression undoubtedly is that we do create force. If
-I throw a stone at a bird I have an instinctive impression
-that the force which projects the stone is the creation
-of my own conscious will; that I had the choice
-either to throw or not to throw; and that if I had
-decided not to throw, the impelling force would never
-have existed. But, if we look more closely at the
-matter, it is not really so. The chain of events is this:
-the first impulse proceeds from the visual rays, which,
-concentrated by the lens of the eye on the retina, give<span class="pagenum"><a name="Page_39" id="Page_39">[39]</a></span>
-an image of the bird; this sends vibrations along the
-optic nerve to the brain, setting in motion certain molecules
-of that organ; these again send vibrations along
-other nerves to certain muscles of the arm and hand,
-which contract, and by doing so give out the energy of
-movement which throws the stone. All this process
-is strictly mechanical; the eye acts precisely like a
-camera obscura in forming the image; the nerve-vibrations,
-though not identical with those of the wires of
-an electric telegraph, are of the same nature, their
-velocity can be measured, and their presence detected
-by the galvanometer; the energy of the muscle is
-stored there by the slow combustion of the food we
-have eaten, in the oxygen of the air we have breathed.
-Take any of these conditions away, and no effort of the
-will can produce the result. If the nerve is paralysed,
-or the muscle, from prolonged starvation, has no energy
-left, the stone will not be thrown, however much we
-may desire to kill the bird.</p>
-
-<p>Again, precisely the same circle of events takes
-place in numerous instances without any intervention
-of this additional factor of conscious will. We breathe
-mechanically, the muscles of the chest causing it to rise
-and fall like the waves of the ocean, without any deliberate
-intention of taking air into the lungs and exhaling
-it. Nay more, there are instances of what was
-at first accompanied by the sensation of conscious will,
-ceasing to be so when the molecular movements had
-made channels for themselves, as when a piano-player,
-who had learned his notes with difficulty, ends by
-playing a complicated piece automatically. The case
-of animals also raises another difficulty. Suppose a
-retriever dog sees his master shoot at and miss a hare:<span class="pagenum"><a name="Page_40" id="Page_40">[40]</a></span>
-shall he obey the promptings of his animal instinct and
-give chase, or those of his higher moral nature which
-tell him that it is wrong to do so without the word of
-command? It is hard to see how this differs from the
-case of a man resisting or yielding to temptation; and
-how, if we assign conscious will to the man, we can
-deny it to the dog.</p>
-
-<p>Reasoning from these premises, some philosophers
-have come to the conclusion that man and all animals
-are but mechanical automata, cleverly constructed to
-work in a certain way fitting in with the equally preordained
-course of outward phenomena; and that the
-sensation of will is merely an illusion arising as a last
-refinement in the adjustment of the machinery. But
-here comes in that principle of duality or polarity, by
-which a proposition may be at once true and untrue,
-and two contradictory opposites exist together. No
-amount of philosophical reasoning can make us believe
-that we are altogether machines and not free agents; it
-runs off us like water from a duck’s back, and leaves us
-in presence of the intuitive conviction that to a great
-extent</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Man is man and master of his fate.</div>
-</div>
-</div>
-
-<p class="noindent">If this be an illusion, why not everything—evidence of
-the senses, experiment, natural law, science, as well as
-morality and religion?</p>
-
-<p>To pursue this farther would lead us far astray into
-the misty realm of metaphysics, and I refer to it only
-as showing that the principle of the conservation of
-energy, standing as it does in apparent contradiction to
-our natural impressions, requires a fuller demonstration
-than the kindred principle of the indestructibility of
-matter.</p>
-
-<p><span class="pagenum"><a name="Page_41" id="Page_41">[41]</a></span></p>
-
-<div class="figcenter" style="width: 100px;">
-<img src="images/illus6.jpg" width="100" height="200" alt="" />
-</div>
-
-<p>In the case of ordinary mechanical power it had been
-long known that the intervention of machinery did not
-create force, but only transformed it. If a weight of
-1 lb., <span class="smcapuc">A</span>, just balances a weight of 2 lb., <span class="smcapuc">B</span>, by aid of a
-pulley, and by the addition of a minute fraction, such
-as a grain, raises it 1 foot, it will be invariably
-found that <span class="smcapuc">A</span> has descended 2 feet. In
-other words, 1 lb. working through 2 feet
-does exactly the same work as 2 lbs. working
-through 1 foot. And whatever may be the
-intervening machinery the same thing holds
-good, and the work put in at one end comes out, neither
-more nor less, at the other, except for a minute loss due
-to friction and resistance of air. If a force equal to 1 lb.
-is made, by multiplying the intermediate machinery, to
-raise a ton a foot from the ground, exactly as much
-force must have been exerted as if the ton had been
-divided into 2,240 parts of 1 lb. each, and each part
-separately lifted.</p>
-
-<p>But although energy cannot be created, at first sight
-it seems as if it might be destroyed, as when the ton falls
-to the ground and seems to have lost all its energy,
-whether of motion or of position. But here science
-steps in and shows us that it is not destroyed, but simply
-transformed into another sort of motion, which we call
-heat.</p>
-
-<p>Some connection between mechanical work and heat
-had long been known, as in the familiar experiment of
-rubbing our hands together to warm them; and the
-practice known to most primitive races of obtaining fire
-by twirling a stick rapidly in a hole drilled in a block
-of wood; a practice described by the old Sanskrit word
-‘pramantha,’ which means an instrument for obtaining<span class="pagenum"><a name="Page_42" id="Page_42">[42]</a></span>
-fire by pressure or friction, and which, translated into
-Greek, has been immortalised by the legend of Prometheus.
-But it was reserved for recent years, and for
-an English philosopher, Dr. Joule, to give scientific
-precision and generality to this idea, by actually measuring
-the amount of heat produced by a given amount of
-work, and showing that they were in all cases convertible
-terms, so much heat for so much work, and so much
-work for so much heat. He did this by measuring
-accurately by a thermometer the heat added to a given
-amount of water by the work done by a set of paddles
-revolving in it, set in rapid motion by a known weight
-descending through a known space. The unit of work
-being taken as that sufficient to raise 1 kilogramme
-through 1 metre, and that of heat as that required to
-raise the temperature of one kilogramme of water by 1°
-Centigrade, the relation between them, as found by a
-vast number of careful experiments, is that of 424 to 1.
-That is, one unit of heat is equal to 424 units of
-work.</p>
-
-<p>In this, and all cases requiring scientific precision,
-it is better to use the units of the metrical system than
-our clumsy English standards; but it may be sufficient
-for the ordinary reader to take the metre, which is about
-39·37 inches, as practically a yard, and the kilogramme,
-which is 15,432 English grains, as practically equal to
-2 lbs. This is sufficient to show the much greater
-energy of the invisible forces which act at minute
-distances, than that of gravity and other forces which
-do appreciable mechanical work, the energy of a weight
-falling from a height of more than 1,300 feet being
-only sufficient to heat its own weight by 1°.</p>
-
-<p>This proof of the convertibility of work into heat<span class="pagenum"><a name="Page_43" id="Page_43">[43]</a></span>
-gives much greater precision to our ideas respecting
-the real nature of heat and its kindred molecular and
-atomic energies. Heat is clearly not a material substance,
-for a body does not gain weight by becoming
-hotter. In the case of all ponderable matter down to
-the atoms, which are only of the size of cricket-balls
-compared to that of the earth, any combination which
-adds matter adds weight, and the weight of the product
-exactly equals the sum of the weights of the separate
-factors which have united to form it. Thus, if iron is
-burnt in oxygen gas, the product, oxide of iron or rust,
-weighs more than the original iron by just as much as
-the weight of the oxygen which has been consumed.
-But heat, light, and electricity add nothing to the
-weight of a body when they are added to it, and take
-nothing away when they are subtracted. The inference
-is unavoidable that heat, like light, is not ponderable
-matter, but an energy transmitted by waves of the
-imponderable medium known as ether. This is confirmed
-by finding that when a ray from the sun is
-analysed by passing through a refracting prism, one
-part of the spectrum shows light of various colours,
-while another gives heat. The hottest part of the
-spectrum lies in the red and beyond it, showing that
-the heat-waves are longer, and their oscillations slower,
-than those of light. Heat-waves also may be made to
-interfere, and to become polarised, in a manner analogous
-to the phenomena exhibited by those of light.</p>
-
-<p>There can be no doubt, therefore, that heat, like light,
-is an energy or mode of motion, transmitted by waves
-of an imponderable ether, and that it acts on the molecules
-and atoms of matter by the accumulated successive
-impulses of those waves on the molecules and atoms<span class="pagenum"><a name="Page_44" id="Page_44">[44]</a></span>
-which are floating in it, or rather which are revolving
-in it, in definite groups and fixed orbits, like miniature
-solar systems or starry universes. We can now see
-how heat performs work, and why work can be transformed
-into it.</p>
-
-<p>Heat performs work in two ways. First, it expands
-bodies—that is, it draws their molecules farther apart
-against the force of cohesion which binds them together
-or keeps them moving in definite orbits at definite distances.
-It is as if it increased the velocity, and therefore
-the centrifugal force of a system of planets, and so
-caused them to revolve in wider orbits. The expansion
-of mercury in a thermometer affords a familiar instance
-of this effect of heat and the readiest measure of its
-amount. Secondly, it increases the energy of the molecular
-motions, so that they dart about, collide, and
-vibrate with greater force. Thus, as heat increases,
-evaporation increases, for molecules on the surface are
-projected with so much force as to get beyond the
-sphere of the cohesive attraction which binds them to
-the system, and they dart off like comets into space.
-Finally, as heat increases, and more and more work is
-done, against the centripetal force of cohesion, most
-substances, and doubtless all if we could get heat
-enough, are converted from solids into fluids, and ultimately
-into gases, in which latter state the molecules
-have got altogether beyond the sphere of their mutual
-attraction, and tend to dart off indefinitely in the direction
-of their own proper centrifugal motions, unless
-confined, in which case they dart about, collide, rebound,
-and exercise pressure on the containing surface.</p>
-
-<p>Conversely, if heat expands bodies, it is given out
-when they contract. Thus the enormous quantity of<span class="pagenum"><a name="Page_45" id="Page_45">[45]</a></span>
-heat poured out for millions of years by the sun, is
-probably owing mainly to the mechanical force of contraction
-of the original cosmic matter condensing about
-the solar nucleus.</p>
-
-<p>Again, when gases suddenly expand, their temperature
-falls, which is the principle by which artificial ice
-is procured, and frozen beef and mutton are brought
-from America and Australia, producing, such are the
-complicated relations of modern society, agricultural
-depression, fall of rents, and a serious aggravation of
-the Irish question.</p>
-
-<p>As an example of the converse proposition of
-the transformation of heat into mechanical work, the
-steam-engine affords the aptest illustration. The original
-power came from the sun millions of years ago,
-and did work by enabling the leaves of plants to overcome
-the strong mutual affinity of carbon and oxygen
-in the carbonic dioxide in the air, and store up the
-carbon in the plant, where it remained since the coal
-era in the form of energy of position. By lighting the
-coal, or in other words separating its molecules more
-widely by heat, we enable them to exert once more their
-natural affinity for oxygen, and burn, that is recombine
-into carbonic dioxide. The heat thus produced turns
-water into steam, which passes through a cylinder, either
-into a condenser if the steam is at low pressure, or into
-the outer air if it has been superheated and brought to
-a higher pressure than that of the atmosphere. The
-difference of the pressure or elasticity of the steam in
-the boiler, and of the same steam when it is condensed
-or liberated, is available for doing work, and, being
-admitted and released alternately at the two ends of the
-cylinder, drives a piston up and down, which, by means<span class="pagenum"><a name="Page_46" id="Page_46">[46]</a></span>
-of cranks and shafts, turns a wheel or does whatever
-work is required of it. In doing this, heat disappears,
-being converted into work, and the amount of heat
-would exactly equal that into which the work would be
-converted according to Joule’s law, if it could all be
-utilised without the loss necessarily incurred by friction,
-radiation, and the still more important absorption of
-latent heat required to convert water at boiling-point
-into vapour of the same temperature. This latter is not
-really an annihilation of the heat, but its conversion into
-work done in separating the molecules against the force
-of cohesion. The whole heat, therefore, is transformed
-into work, mainly molecular work in tearing molecules
-asunder, and the residue into mechanical work turning
-spindles and driving locomotives and steamboats.</p>
-
-<p>The intermediate machinery here, including the
-water in the boiler, is merely the means of applying the
-original energy in the particular way we desire. The
-essential thing is the transformation of a certain amount
-of heat into work by passing, in accordance with the
-laws of heat, from a hotter to a colder body. The
-last condition is indispensable, for the nature of heat
-is to seek an equilibrium by passing from hot to
-cold, and no work can be got out of it in the reverse
-way. On the contrary, work must be expended and
-turned into heat to restore the temperature which has
-run down. The case is analogous to that of water,
-which, if raised by evaporation or stored up in reservoirs
-at a level above the sea, can be made to turn
-a wheel while it is running down; but when it has all
-run down to the sea level, can do no more work, and
-can only be pumped up again to a higher level by the
-expenditure of fresh work. Owing to this tendency of<span class="pagenum"><a name="Page_47" id="Page_47">[47]</a></span>
-heat we can see that, although matter and energy are to
-all appearance indestructible, the present constitution of
-the universe is not eternal. The animating energy of
-heat is always tending to obliterate differences of temperature,
-and bring all energy down to one uniform
-dead level of a common average, in which no further
-life, work, or motion are possible. Fortunately this
-consummation is far off, and for many tens or hundreds
-of millions of years the inhabitants of this tiny planet
-may feel fairly secure, and need not, like the late Dr.
-Cumming, of millenarian celebrity, introduce breaks in
-the leases of their houses to provide against the contingency
-of the world coming to an end at an early date.</p>
-
-<p>Dismissing, then, to the remote future any speculations
-as to the failure of this essential element of active
-energy, let us rather consider the various protean forms
-in which it shows itself.</p>
-
-<p>1. The energy of visible motion, which, as we have
-seen, may be transformed into an equivalent amount of
-energy of position.</p>
-
-<p>2. Molecular energy, which causes the cohesive
-attraction, repulsion, and other proper motions of these
-minute and invisible particles of matter.</p>
-
-<p>3. Energy of heat and light, which are transmitted
-by waves of the assumed imponderable medium called
-ether.</p>
-
-<p>4. Energy of chemical action, by which the small
-ultimate particles of ponderable matter, called atoms,
-separate and combine into the various combinations of
-molecules constituting visible matter, in obedience to
-certain affinities, or inherent attractions and repulsions.</p>
-
-<p>5. Electrical energy, which includes magnetism as
-a special instance.</p>
-
-<p><span class="pagenum"><a name="Page_48" id="Page_48">[48]</a></span></p>
-
-<p>All these forms of energy may exist, as in the case
-of visible energy, either as energies of motion or of
-position, and the actual constitution of the universe is
-due in a great measure to the alternation of these two
-energies. Thus all wave-motion, whether it be of the
-waves of the sea grinding down a rocky coast, of the
-air transmitting sound, or of ether transmitting light
-and heat, are instances of energies of motion and of
-position, conflicting with one another and alternately
-gaining the victory. So also a pound of gunpowder or
-dynamite has an immense energy of position, which,
-when its atoms are let loose from their mutual unstable
-connection by heat or percussion, manifests itself in an
-enormous energy of motion, which is more or less
-destructive according to the rapidity with which the
-atoms rush into new combinations.</p>
-
-<p>Let us consider these different energies a little more
-in detail. The energy of visible motion is manifested
-principally by the law of gravity, under which all
-matter attracts other matter directly as the mass and
-inversely as the square of the distance. It is a universal
-and uniform law of matter, and can be traced without
-change or variation from the minutest atom up to the
-remotest double star. The energy of living force might,
-at first sight, be considered as another of the commonest
-causes of visible motion; but, when closely analysed, it
-will be found that what appears as such is only the
-result of molecular energy of position stored up in the
-living body by chemical changes during the slow combustion
-of food, and that nothing has been added by
-any hypothetical vital force. The conscious will seems
-to act in those cases simply as the signalman who
-shows a white flag may act on a train which has been<span class="pagenum"><a name="Page_49" id="Page_49">[49]</a></span>
-standing on the line waiting for it. The energy which
-moves the train is due entirely to the difference of heat,
-which has been developed by the combustion of coal,
-between the steam in the boiler and the steam when
-allowed to escape into the air; and this energy came
-originally from the sun, whose rays enabled the leaves
-of growing plants to decompose carbonic dioxide and
-store up the carbon in the coal. Of this force of
-gravity causing visible motion we may say that it is
-comparatively a very weak force, which acts uniformly
-over all distances great or small.</p>
-
-<p>Molecular energies, on the other hand, act with
-vastly greater force, but at very small distances, and appear
-sometimes as attractive and sometimes as repulsive
-forces. Thus solid bodies are held together by a force
-of cohesion which is very powerful, but acts only at very
-small distances, as we may see if we break a piece of
-glass and try to mend it by pressing the broken edges
-together. We cannot bring them near enough to bring
-the molecular attraction again into play and make the
-broken glass solid. But the same glass acts with repellent
-energy if another solid tries to penetrate it, so
-that we can walk on a glass floor without sinking into
-it. Heat also, by increasing the distance between the
-molecules, first weakens the cohesive force so that the
-solid becomes fluid, and finally overcomes it altogether,
-so that it passes into the state of gas in which the centripetal
-attraction of the molecules is extinguished, and
-they tend to recede further and further from each other
-under the centrifugal force of their own proper velocities.
-The great energy of molecular forces will be
-apparent from the fact that a bar of iron, in cooling
-10° Centigrade, contracts with a force equal to a ton<span class="pagenum"><a name="Page_50" id="Page_50">[50]</a></span>
-for each square inch of section, as exemplified in the
-tubular bridge across the Menai Straits, where space
-has to be allowed for the free contraction and expansion
-of the iron under changes of temperature.</p>
-
-<p>Chemical energy, or the mutual attractions and repulsions
-of atoms, is even more powerful than that of
-molecules. It displays itself in their elective affinities,
-or what may be called the likes and dislikes, or loves
-and hatreds, of these ultimate particles. Perhaps the
-best illustration will be afforded by that ‘latest resource
-of civilisation,’ dynamite. This substance, or to give
-it its scientific name, nitro-glycerine, is composed of
-molecules each of which is a complex combination of
-nine atoms of oxygen, five of hydrogen, three of nitrogen,
-and three of carbon. Of these, oxygen and hydrogen
-have a strong affinity for one another, as is seen by
-their rushing together whenever they get the chance,
-and by their union forming the very stable compound,
-water. Oxygen and carbon have also a very strong
-affinity, and readily form the stable product carbonic
-dioxide gas. Nitrogen, on the other hand, is a very
-inert substance; its molecule consists of two atoms of
-itself which are bound together by a strong affinity,
-and can only be coaxed with difficulty into combinations
-with other elements, forming compounds which
-are, as it were, artificial structures, and very unstable.
-We see this in the air, which consists mainly of oxygen
-and nitrogen, but not in chemical combination, the
-oxygen being simply diluted by the nitrogen, as whisky
-is with water, with the same object of diluting the too
-powerful oxygen or too potent alcohol, and enabling
-the air-breather or whisky-drinker to take them into
-the system without burning up the tissues too rapidly.<span class="pagenum"><a name="Page_51" id="Page_51">[51]</a></span>
-If nitrogen had more affinity for oxygen it would
-combine chemically with it, and we should live in an
-atmosphere of nitrous oxide, or laughing gas.</p>
-
-<p>The molecule, therefore, of nitro-glycerine resembles
-a house of cards, so nicely balanced that it will just stand,
-but will fall to pieces at the slightest touch. When
-this is supplied by a slight percussion the molecule falls
-to pieces and is resolved into its constituent atoms, which
-rush together in accordance with their natural affinities,
-forming an immense volume of gas, partly of water in
-the form of steam where oxygen has combined with
-hydrogen, and partly of carbonic dioxide where it has
-combined with carbon, leaving the nitrogen atoms to
-pair off, and revert to their original form of two-atom
-molecules of nitrogen gas. It is as if ill-assorted
-couples, who had been united by matrimonial bonds
-tied by the manœuvres of Belgravian mothers, found
-themselves suddenly freed by a decree of divorce <i>a
-vinculo matrimonii</i>, and rushed impetuously into each
-other’s arms, according to the laws of their respective
-affinities. So striking is the similitude that one of
-Goethe’s best-known novels, the ‘Wahlverwandschaften,’
-takes its title from the human play of these chemical
-reactions. The enormous energy developed when these
-atomic forces are let loose and a vast volume of gas almost
-instantaneously created, is attested by the destructive
-force by which the hardest rocks are shattered to pieces
-and the strongest buildings overthrown.</p>
-
-<p>These loves and hatreds, or, as they are termed,
-chemical affinities and repulsions of the atoms, are the
-principal means by which the material structure of the
-universe is built up from the original elements. The
-earth, or solid crust of the planet we inhabit, consists<span class="pagenum"><a name="Page_52" id="Page_52">[52]</a></span>
-mainly of oxidised bases, and is due to the affinity
-of oxygen for silicon, calcium, aluminium, iron, and
-other primary elements of what are called metals. This
-affinity enables them to make stable compounds, which,
-under the existing conditions of temperature and otherwise,
-hold together and are not readily decomposed.
-Water in like manner, in all its forms of waves, seas,
-lakes, rivers, clouds, and invisible vapour, is due to the
-affinity between oxygen and hydrogen forming a stable
-compound. Salt again is owing to the affinity of
-chlorine for sodium, and so for nearly all the various
-products with which we are familiar, oxygen and nitrogen
-in the air we breathe being almost the only elements
-which exist in their primary and uncombined
-state in any considerable quantities, and form an
-essential part of the conditions which render our planet
-a habitable abode for man and other forms of life.</p>
-
-<p>We shall see presently something more of the nature
-of these affinities, and the laws by which they act; but
-before entering on this branch of the subject we must
-consider the remaining form in which the one indestructible
-energy of the universe manifests itself, viz.
-that of electricity.</p>
-
-<p>Electricity is the most subtle and the least understood
-of these forms. In its simplest form it appears
-as the result of friction between dissimilar substances.
-Thus if we rub a glass rod with a piece of silk, taking
-care that both are warm and dry, we find that the glass
-has acquired the property of attracting light bodies,
-such as little bits of paper, or balls of elder-pith.
-Other substances, such as sealing-wax and amber, have
-the same property. Pursuing our research further we
-find that this influence is not, like that of gravity, uniform<span class="pagenum"><a name="Page_53" id="Page_53">[53]</a></span>
-and always acting in the same direction, but of
-two kinds, equal and opposite. If we touch the pith-ball
-by the excited glass rod, it will after contact be
-repelled; but if we bring the ball which has been excited
-by contact with the glass within the influence of
-a stick of sealing-wax which has been excited by rubbing
-it with warm dry flannel, the ball instead of being
-repelled is attracted.</p>
-
-<p>Conversely, if the pith-ball has been first touched
-by excited sealing-wax, it will afterwards be repelled
-by excited sealing-wax and attracted by excited glass.
-It is clear, therefore, that there are two opposite electricities,
-and that bodies charged with similar electricities
-repel, and with unlike electricities attract, one another.
-For convenience, one of these electricities, that developed
-in glass, is called positive, and the other negative;
-and it has been clearly proved that one cannot
-exist without the other, and that whenever one electricity
-is produced, just as much is produced of an
-opposite description. If positive electricity is produced
-in glass by rubbing it with silk, just as much negative
-electricity is produced upon the silk.</p>
-
-<p>Another primary fact is that some substances are
-able to carry away and diffuse or neutralise this
-peculiar influence called electricity, while others are
-unable to do so and retain it. The former are called
-conductors, the latter non-conductors. Thus, glass is
-an insulator or non-conductor, while metal is a conductor
-of electricity; and the reason why the substances
-rubbed together, as glass and silk, must be dry is that
-water, in all its forms, is a conductor which carries
-away the electricity as fast as it is produced.</p>
-
-<p>These facts have given rise to a theory—which is<span class="pagenum"><a name="Page_54" id="Page_54">[54]</a></span>
-after all not so much an explanation as a convenient
-mode of expressing the facts—of the existence of two
-opposite electric fluids, which, in the ordinary or unexcited
-body, are combined and neutralise one another,
-but are separated by friction, and flow in opposite
-directions, accumulating at opposite poles, or, it may
-be, one being accumulated at one pole, while the other
-is diffused through some conducting medium and lost
-sight of. The active electricity, be it positive or negative,
-thus accumulated at one pole, and retained there
-by the substance in contact with it being a non-conductor,
-disturbs by its influence the electrical equilibrium
-of any body brought near to it, separates its
-two fluids, and attracts the one opposite to itself. This
-attraction draws the light body towards it until contact
-ensues, when the electric fluid of the excited body
-flows into the smaller one, so that its opposite electricity
-is expelled, and it is in the same condition as its
-exciter, and therefore liable to be repelled by a similar
-exciter, or attracted by an opposite one which formerly
-repelled it.</p>
-
-<p>It is evident, without going further, that there is
-a great analogy between electrical energy and those of
-heat and of chemical affinity. The same mechanical
-work—viz. friction—which generates heat, generates
-electricity. The chief difference seems to be that
-friction may be transformed into heat when the same
-substances are rubbed together, as in the case of
-obtaining fire by the friction of wood; but electricity
-can only be obtained by friction between dissimilar
-substances. Thus no electricity is obtained by rubbing
-glass upon glass, or silk upon silk, or upon glass covered
-with silk, though a slight difference of texture is sometimes<span class="pagenum"><a name="Page_55" id="Page_55">[55]</a></span>
-sufficient to separate the electric fluids. Thus if
-two pieces of the same silk ribbon are rubbed together,
-lengthways, no electricity is produced, but if crossways,
-one is positively, and the other negatively, electrified.
-In this respect the analogy is evident to chemical
-affinity, which, in like manner, only acts between
-dissimilar bodies.</p>
-
-<p>In order, however, to carry the proof of the identity
-of these forms of energy beyond the sphere of vague
-analogy, we must follow up electricity far beyond the
-simple manifestations of the glass rod and sealing-wax,
-and pursue it to its origin, in the transformations of
-chemical action and mechanical work, in the voltaic
-battery, the electric telegraph, the telephone, and the
-dynamo.</p>
-
-<p>The voltaic battery, in its simplest form, is a trough
-containing an acid liquid in which pairs of plates of
-different metals are immersed. It is evident that if the
-action of the acid on each metal were precisely the same,
-equal quantities of each would be dissolved in the acid,
-and the equilibrium of chemical energies would not be
-affected. But, the action being different, this equilibrium
-is disturbed, and if the sum of these disturbances for a
-number of separate pairs of plates can be accumulated, it
-will become considerable. This is done by connecting
-the plates of the same metal in each cell by a metallic
-wire covered by some non-conducting substance. There
-are, therefore, two wires, one to the right hand, the
-other to the left, the loose extremities of which are
-called the poles of the battery. If we test these poles
-as we did the glass rod and stick of sealing-wax, we find
-that one pole is charged with positive and the other with
-negative electricity. In other words, the chemical<span class="pagenum"><a name="Page_56" id="Page_56">[56]</a></span>
-energy, whose equilibrium was disturbed by the unequal
-action of the acid on the plates of different metals, has
-been transformed into electrical energy manifesting itself,
-as it always does, under the condition of two equal
-and opposite polarities. If we connect these two poles
-with one another the two electricities rush together
-and unite, and there is established what is called an
-electrical current circulating round the battery. As
-the chemical action of the acid on the metals is not
-momentary but continuous, the acid taking up molecule
-after molecule of the metal, so also the current is continuous.
-When we call it a current, the term is used
-for the sake of convenience, for as the current, as we shall
-presently see, will flow along the wire or other conducting
-substance for immense distances, as across the
-Atlantic, with a velocity of many thousands of miles
-per second, we can, no more than in the case of light,
-figure it to ourselves as an actual transfer of material
-particles swept along as by a river running with this
-enormous velocity, but necessarily as a transmission of
-some form of motion travelling by waves or tremors
-through the all-pervading ether in which the atoms of
-the conducting wire are floating. Be this as it may, the
-effect of these electric currents is very varied and very
-energetic. It can produce intense heat, for if, instead of
-uniting the two poles, we connect them by a thin platinum
-wire, it will, in a few seconds, become heated to redness.
-If the connecting wire is thicker, heat will equally
-be generated but less intense, thus maintaining the
-analogy to the current which rushes with more impetuosity
-through a narrow than through a wide channel.
-If the poles are tipped with a solid substance like
-carbon, whose particles remain solid under great heat,<span class="pagenum"><a name="Page_57" id="Page_57">[57]</a></span>
-when they are brought nearly together intense light is
-produced and the carbon slowly burns away. This
-produces what is called the arc light, which gives such a
-strong illuminating power and is coming into general
-use for lighting up large spaces.</p>
-
-<p>Another transformation is back again into chemical
-energy, which is shown by the power of the electric current
-to decompose compound substances. If, for instance,
-the poles of a battery are plunged into a vessel containing
-water, the molecules of the water will be decomposed
-and bubbles of oxygen gas will rise from the positive,
-and of hydrogen from the negative, pole.</p>
-
-<p>Another effect of electrical currents is that of attraction
-and repulsion on one another. If two parallel
-wires, free to move, carry currents flowing in the same
-direction as from positive to negative, or <i>vice versâ</i>, they
-will attract one another; if in opposite directions, they
-will repel. Electrical currents also work by way of
-induction, that is, they disturb the electrical equilibrium
-of bodies brought within their influence and
-induce currents in them. Thus, if we have two circular
-coils of insulated wire placed near each other, one on
-the right hand, the other on the left, and connect the
-extremities of the right-hand coil with the poles of a
-battery, when the connection is first made and the
-current begins to flow, a momentary current in the
-opposite direction will pass through the left-hand coil.
-This will cease, and as long as the current continues to
-flow through the right-hand coil there will be no
-current through the other; but if we break the contact
-between the right-hand coil and the battery, there will
-be again a momentary current through the left-hand
-coil, but this time in the same direction as the other.<span class="pagenum"><a name="Page_58" id="Page_58">[58]</a></span>
-The same effect will be produced if, instead of making
-and breaking contact in the right-hand coil, we keep
-the current constantly flowing through it, and make
-the right-hand coil alternately approach and recede from
-the other coil. In this case, when the right-hand coil
-approaches, it induces an opposite current in the left-hand
-one; and when it recedes, one in the same direction
-as that of the primary.</p>
-
-<p>These phenomena of induction prepare us to understand
-the nature of magnets, and the magnetic effects
-produced by electrical currents. If an insulated wire is
-wrapped round a cylinder of soft or unmagnetic iron,
-and a current passed through the wire, the cylinder is
-converted into a magnet and becomes able to sustain
-weights. If the current ceases, the cylinder is no longer
-a magnet, and drops the weight. A magnet is therefore
-evidently a substance in which electric currents are
-circulating at right angles to its axis, and a permanent
-magnet is one in which such currents permanently
-circulate from the constitution of the body without
-being supplied from without. The earth is such a
-magnet, and also iron and other substances, under
-certain conditions.</p>
-
-<p>This being established, it is easy to see why an
-electrical current deflects the magnetic needle. If such
-a needle is suspended freely near a wire parallel with it,
-on a current being passed through the wire it must
-attract if similar, or repel if dissimilar, the currents
-which are circulating at right angles to the axis of the
-needle, and thus tend to make the needle swing into a
-position at right angles with the wire so that its currents
-may be parallel to that of the needle. This is the
-reason why the needle in its ordinary condition points<span class="pagenum"><a name="Page_59" id="Page_59">[59]</a></span>
-to the north and south, or rather to the magnetic poles
-of the earth, because its currents are influenced by the
-earth currents which circulate parallel to the magnetic
-equator. The deviation of the needle from this direction,
-caused by any other current, like that passed along
-the wire, will depend on the strength of the current,
-which may be measured by the amount of deflection of
-the needle. The direction in which the needle deflects,
-viz. whether the north pole swings to the right or to the
-left, will depend on the direction of the current through
-the wire. The direction of the circular currents which
-form a magnet is such that if you look towards the
-north pole of a freely suspended cylindrical magnet—i.e.
-if you stand on the north of it and look southwards—the
-positive current will ascend on your right hand, or on
-the west side, and descend on the east. It follows that
-unlike poles must necessarily attract, and like poles repel
-one another, for in the former case the circular currents
-which face each other are going in the same, and in the
-latter in opposite directions.</p>
-
-<p>The reader is now in a position to understand the
-principle of the electric telegraph, that wonderful invention
-which has revolutionised human intercourse and,
-to a great extent, annihilated space and time. It originated
-in the discovery made by Oersted, a Danish
-<i>savant</i>, that the effect of an electric current was to make
-a magnet swing round, in the endeavour to place itself
-at right angles to it. The conducting power of insulated
-copper wire is such that it practically makes no
-difference whether one of the wires connected with the
-pole of a battery is two feet or 2,000 miles in length,
-and the earth, being a conducting medium, supplies
-an equal extension from the other pole, so that a closed<span class="pagenum"><a name="Page_60" id="Page_60">[60]</a></span>
-electric circuit may be established across the Atlantic
-as easily as within the walls of a laboratory.</p>
-
-<p>If, therefore, a magnetic needle is suspended at the
-American end, it will respond to every electrical current,
-and to any interruption, renewal, or reversal of that
-current established in England. The needle may thus
-be made to swing to the right or left, by forming or
-reversing a current through the wire; and it will return
-to its position whenever the current is interrupted, and
-repeat its movement whenever the current is renewed.
-In fact it may be made to move like the arm of the old-fashioned
-telegraph, or of a railway signal. It only
-remains to have a machine by which the operator can
-form and interrupt currents rapidly, and a code by
-which certain movements of the needle stand for certain
-letters of the alphabet, and you have the electric telegraph.</p>
-
-<p>There are many ingenious applications of the machinery,
-but in principle they all resolve themselves into
-transformations of energy. Chemical energy is transformed
-into electric energy, and that again into mechanical
-work in moving the needle.</p>
-
-<p>The telephone is another instance of similar transformations.
-Here spoken words create vibrations of the
-air, which cause corresponding vibrations in a thin plate
-or disc of metal at one end, which are conveyed by intermediate
-machinery to a similar disc at the other end,
-whose vibrations cause similar vibrations in the air, reproducing
-the spoken words at a distance which may
-be a great many miles from the speaker.</p>
-
-<p>The great inventions of modern science which have
-so revolutionised society are all instances of the laws of
-the conservation of energy. Man makes the powers<span class="pagenum"><a name="Page_61" id="Page_61">[61]</a></span>
-of nature available for his purposes by transforming
-them backwards and forwards, now into one, now into
-another form of energy, as required for the result he
-wishes to attain. He wants mechanical power to pump
-water or drive a locomotive or steamboat: he gets it
-from the steam-engine, by transforming the energy of
-heat in coal, which came ages ago from the energy of
-chemical action produced by the sun’s rays in the green
-leaves of growing plants. He wants to send messages
-in a few seconds across the Atlantic: he does it by
-transforming chemical energy into electricity in a voltaic
-battery, sending its vibrations along a conducting
-wire, and converting it at the far end into mechanical
-power, making a magnetic needle turn on its axis
-and give signals. If, instead of sending a message, he
-wants to hold a conversation at a distance, he invents the
-telephone, by which sound-vibrations of air are transformed
-into vibrations of a disc, then into electric currents,
-then into vibrations of a distant disc, and finally
-back again to spoken words. Or, if he wants light, he
-turns electricity into it by tipping the poles of his
-battery with carbon and bringing them close together.</p>
-
-<p>The latest inventions of electrical science—the dynamo
-and the accumulator—afford remarkable instances
-of this convertibility of one primitive energy into different
-forms. In the instance just quoted of obtaining
-light from electricity by the voltaic battery, the cost
-has hitherto proved an obstacle to its adoption. The
-electrical energy is all obtained from the transformation
-of the heat produced in the cells by the chemical action
-on the metal used, which is commonly zinc. Now, the
-heat of combination of zinc with oxygen is only about
-one-sixth of that of coal, while the cost of zinc is about<span class="pagenum"><a name="Page_62" id="Page_62">[62]</a></span>
-twenty times as great. Theoretically, therefore, energy
-got by burning zinc costs 120 times as much as that
-got by burning coal. Practically the difference is not
-nearly so great, for there is very little loss of energy in
-the battery by the process of conversion, while the best
-steam-engine cannot convert into work as much as
-twenty per cent, of the heat energy in the coal consumed.
-Still, after making every allowance, the cost of energy
-from zinc remains some twenty times as great as from
-coal, so that unless some process is found for obtaining
-back the zinc as a residual product, there is no prospect
-of this form of electricity being generally available for
-light or for mechanical power.</p>
-
-<p>The dynamo is an instrument invented for the mechanical
-generation of electricity by taking advantage
-of the principle that electrical energy is produced by
-moving magnets near coils of wire, or coils of wire near
-magnets. A current is thus started by induction, and,
-once started, the mechanical power exerted in making
-the magnet or coils revolve is continually converted
-into electricity until the accumulated electrical energy
-becomes very powerful. The original energy comes of
-course from the coal burned in the steam-engine which
-makes the magnet or coils revolve.</p>
-
-<p>The principle of the conservation of energy is well
-illustrated by the fact that as the dynamo generates an
-electric current if made to revolve, conversely it may
-be made to revolve itself if an electric current is sent
-through it from an exterior source. It is, therefore,
-available not only as a source of light in the former case,
-but as a direct source of mechanical power in the latter.
-It is on this principle that electric engines are constructed
-and electric railways are worked. Here also it is a question<span class="pagenum"><a name="Page_63" id="Page_63">[63]</a></span>
-of cost and convenience, for you can only get electricity
-enough either to light a street or to drive an engine,
-by an original steam-engine or other motive power
-to work the dynamo, and a system of conducting wires
-to convey the electricity to the place where the light or
-power is wanted. Where the motive power is supplied
-by nature, as in the case of tidal or river currents or
-waterfalls, it is quite possible that power may be obtained
-in this way to compete with that obtained directly
-from the steam-engine; but there are as yet considerable
-practical difficulties to be overcome in the transmission
-of any large amount of energy for long distances.</p>
-
-<p>To overcome some of these difficulties the accumulator
-has been invented, which affords yet another
-remarkable instance of the transformation of energy.
-It consists of two lead plates immersed in acidulated
-water. When a strong electrical current is sent through
-the water, it decomposes it, the oxygen going to one
-lead plate and the hydrogen to the other. The oxygen
-attacks the lead plate to which it goes, forming peroxide
-of lead; while the hydrogen reduces any oxide in the other
-plate, producing pure lead, and leaving a film of surplus
-hydrogen on the surface. The charging current is then
-reversed, so that the latter plate is now attacked and
-the former one reduced, when the current is again reversed.
-By continuing this process the surfaces of both
-lead plates become porous, so that they present a large
-surface, and can therefore hold a great deal of peroxide of
-lead. The charging current being now broken, the oxygen
-which has been forcibly separated from the liquid
-seeks to recombine with hydrogen; and if the two lead
-plates are joined by a wire, this effort of the oxygen
-generates an electrical current in the opposite direction<span class="pagenum"><a name="Page_64" id="Page_64">[64]</a></span>
-to the original one, which is the current utilised.
-Electricity is thus stored up in a portable box, where it
-can be kept till wanted, when it is drawn out by connecting
-the plates, and as a large amount of energy
-has been accumulated the current which is produced
-lasts for a considerable time.</p>
-
-<p>Unfortunately accumulators are bulky, heavy, and
-expensive, and nearly half the energy of the original
-charging current is lost in obtaining the reversed or
-working current. They are therefore not as yet adapted
-for general use, though perfectly capable of supplying
-either light or motive power, for both which purposes
-they have been successfully applied in special cases.
-The future both of electric power and electric lighting
-is now reduced entirely to a question of cost; and
-though it is hard to beat gas and the steam-engine, with
-cheap coal, and air and water for nothing, it is possible
-that by using natural sources of power to move dynamos,
-and by obtaining zinc back as a residual product in
-batteries, electricity may in certain cases carry the day.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_65" id="Page_65">[65]</a></span></p>
-
-<h2 id="CHAPTER_V">CHAPTER V.<br />
-<span class="smaller">POLARITY IN MATTER.</span></h2>
-
-<div class="chapter">
-
-<p>Ultimate elements of universe—Built up by polarity—Experiment with
-magnet—Chemical affinity—Atomic poles—Alkalies and acids—Quantivalence—Atomicity—Isomerism—Chemical
-stability—Thermochemistry—Definition
-of atoms—All matter built up by polar forces.</p>
-
-</div>
-
-<p>I almost fear that by this time some of my readers
-may think that I have seduced them under false pretences
-to read long chapters of dry science, when they
-had been led from the introduction to anticipate discussions
-on the more immediately interesting topics of
-morals, religions, and philosophies. My excuse must
-be that these scientific subjects are really of extreme
-interest in themselves and indispensable as a solid basis
-for the superstructure to be raised on them. How can
-I attempt to show that the law of polarity extends to the
-more complex problems of human thought and life, if I
-fail in establishing its application to the simpler case of
-inorganic force and matter? It must be recollected also
-that among the primitive polarities is that of author and
-reader. It is my part to endeavour to present the
-leading facts and laws of the material universe in such
-plain and popular language that the ordinary reader
-who has neither time nor faculty for special studies may
-apprehend them clearly without excessive effort, or extraordinary
-intelligence. But it is the reader’s part to
-supply a fair average amount of attention, and above all<span class="pagenum"><a name="Page_66" id="Page_66">[66]</a></span>
-to feel an interest in interesting matters. Cleverness
-and curiosity are very much convertible terms, and the
-clearest exposition is thrown away on the torpid mind
-which views the marvellous universe in which he has
-the privilege to live, with the stupid apathy of the
-savage, taking things as they come without caring to
-know anything about them.</p>
-
-<p>For the reader’s part of the work I am not responsible;
-but for my own I am, and I proceed therefore to
-give in my own way, and with the best faculty that is
-in me, a clear summary of such of the fundamental facts
-and laws of nature as seem necessary for the work I
-have undertaken.</p>
-
-<p>From the preceding chapters we are now able to
-realise what are the ultimate elements of the material
-universe, and it remains to show how they are put together.
-The elements are ether, energy, and matter.</p>
-
-<p>First, ether: a universal, all-pervading medium,
-imponderable or infinitely light, and almost infinitely
-elastic, in which all matter, from suns and planets down
-to molecules and atoms, float as in a boundless ocean,
-and whose tremors or vibrations, propagated as waves,
-transport the different forms of energy, light, heat, and
-electricity, across space.</p>
-
-<p>Secondly, energy: a primitive, indestructible something,
-which causes motion and manifests itself under
-its many diversified forms, such as gravity, mechanical
-work, molecular and atomic forces, light, heat, electricity,
-and magnetism, all of which are merely Protean
-transformations of the one fundamental energy, and
-convertible into each other.</p>
-
-<p>Thirdly, matter: the ultimate elements of this are
-atoms, which combined form molecules, or little pieces of<span class="pagenum"><a name="Page_67" id="Page_67">[67]</a></span>
-ordinary matter with all its qualities, which are the
-bricks used in building all the varied structures of the
-organic and inorganic worlds. Of these atoms some
-seventy have never yet been divided, and therefore,
-although we may suspect that they are merely combinations
-or transformations of one original matter, we must
-be content for the present to consider them as elementary.
-In like manner we may suspect that matter is in
-reality only another form of energy, and that the impression
-of solidity is given by the action of a repellent
-force which is very energetic at short distances. If this
-were established we might look forward to the generalisation
-that energy was the one reality of nature; but for
-the present it is a mere speculation, and we must be
-content with over seventy elementary atoms as ultimate
-facts. In any case this much is certain, that matter,
-like energy, is indestructible. We have absolutely no
-experience of either of them being created or annihilated.
-Nay, more, we have no faculties to enable us even to
-conceive how something can be made out of nothing,
-and all we know, or can ever know, about these primitive
-constituents of the universe is of their laws of
-existence, their evolutions and their transformations.</p>
-
-<p>Minute as the atoms and molecules are, we must
-conceive of them not as stationary and indissolubly
-connected, but rather as little solar systems in which
-revolving atoms form the molecule, and revolving
-molecules form the matter, held together as separate
-systems by their proper energies and motions, until
-some superior force intruding breaks up the system and
-sets its components free to form new combinations.</p>
-
-<p>What is the principle which thus forms, un-forms,
-and re-forms the various combinations of atomic and<span class="pagenum"><a name="Page_68" id="Page_68">[68]</a></span>
-molecular systems by which the world is built up from
-its constituent elements? It is polarity.</p>
-
-<p>As I began with the illustration of the magnet
-introducing order and harmony into the confused mass
-of iron filings, let me take this other illustration from
-the same source. If we place an iron bar in contact
-with the pole of a magnet, the bar becomes itself a
-magnet with opposite poles to the original one, so that
-as opposite poles attract, the iron bar adheres to it.
-Bring a lump of nickel in contact with the further end
-or free pole of the iron bar, and the nickel also will
-be magnetised and adhere. Let the lump of nickel be
-as large as the pole of the iron bar is able to support,
-and now bring a lump of soft iron near this pole. It
-will drop the nickel and take the iron. This is exactly
-similar to those cases of chemical affinity in which a
-molecule drops one of its factors and takes on another
-to which its attraction is stronger. If iron rusts in
-water it is because the oxygen atom drops hydrogen to
-take iron just as the magnet dropped nickel.</p>
-
-<p>The polarity of chemical elements is attested by
-the fact that when compounds are decomposed by the
-electric current, the different elementary substances
-appear at different poles of the battery. Thus, oxygen,
-chlorine, and non-metallic substances appear at the
-positive pole; while hydrogen, potassium, and metals
-generally, appear at the negative one. The inference is
-irresistible that the atoms had in each case an opposite
-polarity to that of the poles to which they were
-attracted. This is confirmed by the fact that the radicals,
-i.e. the elementary atoms or groups of atoms
-which have opposite polarities, combine readily; while
-those which have the same polarity, as two metals,<span class="pagenum"><a name="Page_69" id="Page_69">[69]</a></span>
-have but slight affinity for each other. Like therefore
-attracts unlike, as in all cases of polarity, and the
-greater the degree of unlikeness the stronger is the
-attraction. Thus, the radicals of all alkalies are electro-positive,
-and appear at the negative pole of a battery;
-while those of acids are all electro-negative, and the
-higher each stands in its respective scale of polarity the
-more strongly does it show the peculiar qualities of acid
-or alkali and the more eagerly does it combine with its
-opposite.</p>
-
-<p>Acids and alkalies are, in fact, all members of the
-same class of compounds called <i>hydrates</i>, because a
-single atom of hydrogen is a common feature in their
-composition. This atom is coupled with a single
-atom of oxygen, which may be conceived of as the
-central magnet holding the hydrogen atom at one pole,
-while at the other it holds either a single atom of
-some metallic element, such as potassium or sodium,
-or a group consisting of such an element together
-with atoms of oxygen, so constituted as to present
-a single pole to the attraction of the central oxygen
-atom. Thus, if K stands for kali or potassium, N for
-nitrogen, O for oxygen, and H for hydrogen, we may
-have the compounds</p>
-
-<p class="center">H—O—K</p>
-
-<p class="noindent">and</p>
-
-<div class="figcenter" style="width: 165px;">
-<img src="images/formula.jpg" width="165" height="40" alt="" />
-</div>
-
-<p class="noindent">The former is the molecule of potassic hydrate, which
-is the most caustic or strongest of alkalies; the latter,
-that of nitric acid, the most corrosive or powerful of
-acids. These are the extremes of the series, of which
-there are many intermediate members, all being more or<span class="pagenum"><a name="Page_70" id="Page_70">[70]</a></span>
-less alkaline, that is caustic and turning litmus-paper
-blue, when the third element is a simple metallic atom;
-and acid, corrosive, and turning litmus-paper red, when
-it is a compound radical of a group of metallic and
-oxygen atoms. This shows to what an extent whole
-classes of substances may have a general resemblance in
-their constitution, and yet differ most widely in their
-qualities by the substitution of one element for another.</p>
-
-<p>These special qualities may be made to diminish
-and finally disappear by mixing the two opposite substances,
-or, as it is called, neutralising an acid by an
-alkali or an alkali by an acid. Thus, if hydrochloric
-acid, HCl, be poured into a solution of sodic-hydrate,
-Na—O—H, the alkaline qualities of the latter diminish
-and finally disappear, the result of the neutral solution
-being water, H—O—H, and sodic-chloride, or common
-salt, Na—Cl. It is evident that this result has
-been produced by the hydrogen atom in H—Cl and
-the sodium atom in Na—O—H changing places, the
-former preferring to unite with oxygen to form water,
-while the displaced sodium atom finds a refuge with
-chlorine. The oxygen atom has dropped sodium and
-taken hydrogen, just as the magnet dropped nickel and
-took iron.</p>
-
-<p>This polarity of chemical elements manifests itself
-in different ways. In some cases it appears like that
-of a magnet, in which there are two opposite poles,
-and two only, one at each end. Thus oxygen (O) is
-bipolar, and its atom holds together two atoms of
-hydrogen (H) in forming the molecule of water, which
-may be represented as H+-O+-H, which is
-equivalent to <img src="images/magnet.jpg" width="165" height="40" alt="drawing of a magnet" />. Others again, like
-hydrogen and chlorine, seem to have only a single<span class="pagenum"><a name="Page_71" id="Page_71">[71]</a></span>
-pole, as in the case of electricity in an excited glass
-rod, and have to create for themselves the opposite
-pole, which is the indispensable condition of all polarity,
-by induction in another body. Thus, muriatic or
-hydrochloric acid is formed by the union of a single
-atom of chlorine, which is strongly negative, with
-a single atom of hydrogen, in which it appears to
-have induced a positive pole: though the combination
-is not a very stable one, for if an element with a
-stronger positive pole of its own is presented to the
-chlorine, it drops the hydrogen, just as the magnet
-drops the nickel. Other atoms are multipolar, and
-seem as if made up of more than one magnet, or rather
-as if the atom had regular shape like a triangle, square,
-or pentagon, and each angle was a pole, thus enabling
-it to unite with three, four, five, or more atoms of other
-substances. Thus, one atom of nitrogen unites with
-three of hydrogen, one of carbon with four of hydrogen,
-and so on. Every substance has, therefore, what is
-called its ‘quantivalence,’ or power of uniting with it a
-greater or less quantity of other atoms, and conversely
-that of replacing in combinations other atoms, or groups
-of atoms, the sum of whose quantivalence equals its
-own. Thus, one atom of carbon, which has four poles,
-combines with four atoms of hydrogen or chlorine,
-which is unipolar, but with only two of oxygen,
-which are bipolar; while the oxygen atom combines
-with two of hydrogen, and that of chlorine with one
-atom only of hydrogen. The analogy between the
-single atomic and electrical poles on the one hand, and
-the dual and magnetic poles on the other, will be evident
-if we consider what occurs if a pith-ball, electrified
-positively, is brought near a similar ball electrified negatively.<span class="pagenum"><a name="Page_72" id="Page_72">[72]</a></span>
-They attract each other, and the one becomes
-the pole of the other; but if separated, each carries with
-it its own electrical charge. But the separate balls
-or poles, though no longer influencing each other, are
-not isolated, for each draws by induction an electrical
-charge opposite to its own to the extremity of the
-nearest conductor, and thus creates for itself a new or
-second pole. Polarity, in fact, involves opposition of
-relations, or two poles, and electrical only differs from
-magnetic polarity in the fact that in the latter the two
-poles are in the same body, while in the former they are
-in separate bodies.</p>
-
-<p>For pith-balls read atoms, and we have an explanation
-of the univalent atoms like those of chlorine and
-sodium which act as single poles; and this is confirmed
-by the fact that such atoms are never found isolated, but
-are always associated in a molecule with at least one
-other atom which forms the opposite pole of the molecular
-system. Bivalent or magnetic atoms, on the other
-hand, which have two poles, like those of mercury and
-zinc, may constitute a complete polar system and be
-found isolated, and form the class of molecules which
-consist of single atoms.</p>
-
-<p>This conception of the polarity of atoms enables us to
-understand the way in which the almost infinite variety
-of substances existing in the world is built up from a
-comparatively few simple elements. Atoms and radicals,
-which are multipolar, can attract and form molecules
-with as many other atoms or radicals as they have
-poles. This is called their degree of atomicity, which
-is the same as their quantivalence; and each of these
-atoms or radicals may be replaced by some other atom
-or radical, which presents to any pole a more powerful<span class="pagenum"><a name="Page_73" id="Page_73">[73]</a></span>
-polarity. Thus, compounds may be built up of great
-and varied complexity, for the quality of any compound
-may be greatly altered by any one of the substitutions
-at any one of the poles. And the molecules, or small
-specimens of matter, may be thus built up into very
-complex aggregations of atoms, some single molecules
-containing more than a hundred atoms. Thus, carbon
-has four poles, or is quadrivalent, and its atoms
-possess the power of combining among themselves to
-an almost indefinite extent and forming groups of great
-stability. Thus, carbon radicals may be formed in very
-great number, each affording a nucleus upon which
-compound radicals may be built up, so that carbon has
-been aptly called the skeleton of almost all the varied
-compounds of the more complex forms of inorganic
-matter as well as the principal foundation of organic
-life.</p>
-
-<p>Nor is this all, for the qualities of substances depend
-not only on the qualities of their constituent elements,
-but also on the manner in which these elements
-are grouped. Two substances may have exactly the
-same chemical composition and yet be very different.
-We may suppose that the same elements affect us differently
-according as they are grouped. Thus, the
-same bricks may be built up either into a cube or
-pyramid, which forms are extremely stable and can
-only be taken in pieces brick by brick; or into a Gothic
-arch, which all tumbles to pieces if a single brick forming
-the keystone is displaced. As an instance of this,
-butyric acid, which gives the offensive odour to rancid
-butter, has exactly the same composition as acetic ether,
-which gives the flavour to a ripe apple. They consist
-of the same number of atoms of the same elements—carbon,<span class="pagenum"><a name="Page_74" id="Page_74">[74]</a></span>
-hydrogen, and oxygen—united in the same
-proportions. This applies to a number of substances,
-and is called Isomerism, or formation of different
-wholes from the same parts.</p>
-
-<p>The principle of polarity, therefore, aided by the
-subsidiary conditions of quantivalence, atomicity, and
-isomerism, gives the clue to the construction of the inorganic
-world out of some seventy elementary substances.
-Of the substances thus formed, whether of molecules or
-of combinations of molecules, some are stable and some
-unstable. As a rule the simpler combinations are the
-most stable, and instability increases with complexity.
-Thus the diamond, which is merely a crystal of pure
-carbon, is very hard and indestructible; while dynamite,
-or nitro-glycerine, which is a very complex compound,
-explodes at a touch.</p>
-
-<p>The stability of a substance depends partly on the
-stable structure of its component elements, and partly
-on their mutual affinity being strong enough to keep
-them together in presence of the attractions of other
-outside elements, which, in the case of most natural
-substances at the surface of the earth, consist principally
-of air and water. Thus, the rocks, earths, metallic
-oxides, water, carbonic dioxide, and nitrogen are extremely
-stable, and resist decomposition, or chemical
-union with other substances, with great energy. With
-regard to all substances this law holds good, that the
-tendency is to fall back from a less stable to a more
-stable condition, and that such a falling back is always
-attended with an evolution of heat; while, on the other
-hand, heat is always absorbed and disappears whenever
-the elements of a more stable substance are made to
-enter into a less stable condition. Thus, when wood<span class="pagenum"><a name="Page_75" id="Page_75">[75]</a></span>
-burns, there is a falling back from a substance unstable,
-on account of its affinity for the oxygen in the air, into
-the stable products, carbonic dioxide and water, and
-the heat evolved is the effect of this fall.</p>
-
-<p>As the tendency of all changes is towards stability
-we arrive at the following law, which is one of the
-most recent generalisations of modern chemistry: In
-all cases of chemical change the tendency is to those
-products whose formation will determine the greatest
-evolution of heat.</p>
-
-<p>This, however, does not imply that the tendency
-may not be overcome and unstable products formed, for
-just as a weight may be lifted against the force of gravity,
-so may the chemical tendency be overcome by a sufficient
-energy acting against it. Heat is the principal
-means of supplying this energy, and by increasing it
-sufficiently not only are molecules drawn apart and most
-solids converted into fluids and finally into gases, but
-there is reason to believe that at extremely high temperatures,
-such as may prevail in the sun, all matter would be
-resolved into isolated or dissociated atoms. Thus, water
-at a temperature of 1,200° is resolved into a mixture
-of oxygen and hydrogen atoms no longer chemically
-united into water-molecules; and iodine-vapour, which
-below 700° degrees consists of molecules of two atoms,
-above that temperature consists of single atoms only.</p>
-
-<p>The subject might be pursued further, but enough
-has been said for the present purpose to show that the
-universe consists of atoms which are endowed with polarity,
-and that as diminished temperature allows these
-atoms to come closer together and form compounds,
-matter in all its forms is built up by the action of polar
-forces.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_76" id="Page_76">[76]</a></span></p>
-
-<h2 id="CHAPTER_VI">CHAPTER VI.<br />
-<span class="smaller">POLARITY IN LIFE.</span></h2>
-
-<div class="chapter">
-
-<p>Contrast of living and dead—Eating and being eaten—Trace matter upwards
-and life downwards—Colloids—Cells—Protoplasm—Monera—Composition
-of protoplasm—Essential qualities of life—Nutrition and
-sensation—Motion—Reproduction—Spontaneous generation—Organic
-compounds—Polar conditions of life.</p>
-
-</div>
-
-<p>Polarity having been established as the universal law
-of the inorganic world, we have now to pass to the
-organic, or world of life. At first sight there seems to
-be a great gulf fixed between the living and the dead
-which no bridge can span. But first impressions are
-very apt to deceive us, and when things are traced up
-to their origins we often find them getting nearer and
-nearer until it is difficult to say where one begins and
-the other ends. Take for instance such an antithesis
-as ‘eating or being eaten.’ If a hunter meets a grizzly
-bear in the Rocky Mountains, one would say that no
-distinction can be sharper than whether the bear eats
-the man, or the man the bear. In the one case there is
-a man, and in the other a bear, less in the world. But
-look through a microscope at a glass of water, and you
-may see two specks of jelly-like substance swimming in
-it. They are living creatures, for they eat and grow,
-and thrust out and retract processes of their formless
-mass, which serve as temporary legs and arms for seizing
-food and for voluntary motion. In short, they are<span class="pagenum"><a name="Page_77" id="Page_77">[77]</a></span>
-each what may be called strictly individual amœbæ,
-forming separate units of the animated creation as much
-as the man and the bear. But if the two happen to
-come in contact, what happens? The two slimy masses
-involve one another and coalesce, and the resulting
-amœba swims away merrily as two gentlemen rolled
-into one.</p>
-
-<p>Now in his case what became of their individualities:
-did amœba A eat amœba B, or <i>vice versâ</i>, and
-is the resulting amœba a survival of A or of B, or of
-both or neither of them? And what becomes of the
-antithesis of ‘eating or being eaten’ which was so clear
-and distinct in the highly specialised forms of life, and is
-so evanescent in the simpler forms? This illustration
-may serve to teach us how necessary it is to trace things
-up to their origins, before expressing too trenchant and
-confident opinions as to their nature and relations.</p>
-
-<p>In the case of the organic and inorganic worlds the
-proper course obviously is, not to draw conclusions from
-extreme and highly specialised instances, but to follow
-life downwards to its simplest and most primitive form,
-and matter upwards to the form which approaches most
-nearly to this form of life. Following matter upwards,
-we find a regular progression from the simple to the
-complex. Take the diamond, which is one of the
-simplest of substances, being merely the crystallised
-form of a single ultimate element, carbon. It is extremely
-hard and extremely stable. Ascending to
-compounds of two, three, or more elements, we get
-substances which are more complex and less stable;
-and at last we arrive at combinations which involve
-many elements and are extremely complex. Among
-these latter substances are some, called colloids, which<span class="pagenum"><a name="Page_78" id="Page_78">[78]</a></span>
-are neither solid, like crystals, nor fluid, like liquids, but
-in an intermediate state, like jelly or the white of an egg,
-in which the molecules have great mobility and are at
-a considerable distance apart, so that water can penetrate
-their mass. These colloids are for the most part
-very complicated compounds of various elements based
-on a nucleus of carbon, which, from its atom having
-four poles with strong mutual attractions, is eminently
-qualified for forming what may be called the inner
-skeleton of these complex combinations. Colloids of
-this description form the last stage of the ascending line
-from inorganic matter to organic life.</p>
-
-<p>Next let us trace life downwards towards matter.
-There is a constant succession from the more to the less
-complex and differentiated: from man, through mammals,
-reptiles, fishes, and a long chain of more simple forms,
-until at its end we come to the two last links, which
-are the same for all animals, all plants, and all forms of
-animated existence. The last link but one is the cell,
-the last of all is protoplasm.</p>
-
-<p>Protoplasm, or, as Huxley calls it, ‘the physical
-basis of life,’ is a colourless jelly-like substance, absolutely
-homogeneous, without parts or structure, in fact
-a mere microscopic speck of jelly.</p>
-
-<p>The cell is the first step in the specialisation of
-protoplasm, the outer layer of which, in contact with the
-surrounding environment, becoming hardened so as to
-form an enclosing cell-wall, while a portion of the enclosed
-protoplasm condenses into a nucleus, in which
-a further condensation makes what is called the nucleolus
-or second smaller nucleus. This constitutes the
-nucleated cell, whose repeated subdivision into other
-similar cells in geometrical progression furnishes the<span class="pagenum"><a name="Page_79" id="Page_79">[79]</a></span>
-raw material out of which all the varied structures of
-the world of life are built up. Plants and animals,
-bones, muscles, and organs of sense, are all composed
-of modified cells, hardened, flattened, or otherwise
-altered, as the case may require. If we trace life up
-to its origin in the individual instead of in the species,
-we arrive at the same result. All plants and animals,
-whether of the lowest or highest forms, fish, reptile,
-bird, mammal, man, begin their individual existence as
-a speck of protoplasm, passing into a nucleated cell,
-which contains in it the whole principle of its subsequent
-evolution into the mature and completed form.</p>
-
-<p>Protoplasm is, therefore, evidently the nearest approach
-of life to matter; and if life ever originated
-from atomic and molecular combinations, it was in this
-form. To suppose that any more complex form of life,
-however humble, could originate from chemical combinations,
-would be a violation of the law of evolution,
-which shows a uniform development from the simple
-to the complex, and never a sudden jump passing at a
-bound over intermediate grades. To understand life,
-therefore, we must understand protoplasm; for protoplasm,
-closely as it approximates to colloid matter, is
-thoroughly alive. A whole family, the Monera, consist
-simply of a living globule of jelly, which has not even
-begun to be differentiated. Every molecule, as in a
-crystal, is of homogeneous chemical composition and an
-epitome of the whole mass. There are no special parts,
-no organs told off for particular functions, and yet all
-life-functions—nutrition, reproduction, sensation, and
-movement—are performed, but each by the whole body.
-The jelly-speck becomes a mouth to swallow, and
-turning inside out, a stomach to digest. It shoots out<span class="pagenum"><a name="Page_80" id="Page_80">[80]</a></span>
-tongues of jelly to move and feel with, and presently
-withdraws them.</p>
-
-<p>With these attributes it is impossible to deny to
-protoplasm the full attributes of life, or to doubt that,
-like the atom in the material world, it is the primary
-element of organic or living existence. Given the atom,
-we can trace up, step by step, the whole evolution of
-matter; so given the protoplasm, we can trace up the
-evolution of life by progressive stages to its highest
-development—man. To understand life, therefore, we
-must begin by trying to understand protoplasm.</p>
-
-<p>What is protoplasm? In its substance it is a nitrogenous
-carbon compound, differing only from other
-similar compounds of the albuminous family of colloid
-by the extremely complex composition of its atoms.
-It consists of five elements, and its average composition
-is said by chemists to be 52·55 per cent. carbon, 21·23
-oxygen, 15·17 nitrogen, 6·7 hydrogen, 1·2 sulphur. Its
-peculiar qualities, therefore, including life, are not the
-result of any new and peculiar atom added to the
-known chemical compounds of the same family, but
-of the manner of grouping and motions of these well-known
-material elements. It has in a remarkable
-degree the faculty of absorbing water, so that its
-molecules seem to float in it in a condition of semi-fluid
-aggregation, which seems to be necessary for the
-complex molecular movements which are the cause or
-accompaniment of life. Thus, many seeds and animalculæ,
-if perfectly dry, may remain apparently as dead
-and as unchanging as crystals, for years, or even, as in
-the case of the mummy wheat, for centuries, to revive
-into life when moistened.</p>
-
-<p>But in addition to those material qualities in which<span class="pagenum"><a name="Page_81" id="Page_81">[81]</a></span>
-protoplasm seems to differ only from a whole group
-of similar compounds of the type of glycerine, by the
-greater complexity and mobility of its molecules, it has
-developed the new and peculiar element which is called
-life. Life in its essence is manifested by the faculties
-of nutrition, sensation, movement, and reproduction.</p>
-
-<p>As regards nutrition there is this essential difference
-between living and non-living matter. The latter, if it
-feeds and grows at all, does so only by taking on fresh
-molecules of its own substance on its outer surface, as
-in the case of a small nucleus-crystal of ice in freezing
-water. If it feeds on foreign matter and throughout its
-mass, it does so only in the way of chemical combination,
-forming a new product. Living matter, on the
-other hand, feeds internally, and works up foreign substances,
-by the process we call digestion, into molecules
-like its own, which it assimilates, rejecting as waste
-any surplus or foreign matter which it cannot incorporate.
-It thus grows and decays as assimilation or
-waste preponderates, remaining always itself. The distinction
-will be clear if we consider what happens when
-water rusts iron. In a certain sense the iron may be
-said to eat the oxygen, reject the hydrogen, and grow, or
-increase in weight by what it feeds on; but the result
-is not a bigger piece of iron, but a new substance, rust,
-or oxide of iron. That living matter should feed internally
-is not so wonderful, for its semi-fluid condition
-may well enable foreign molecules to penetrate its mass
-and come in contact with its own interior molecules;
-but it is an experience different from anything known
-in the inorganic world that it should be able to manufacture
-molecules of protoplasm like its own out of
-these foreign molecules, and thus grow by assimilation.<span class="pagenum"><a name="Page_82" id="Page_82">[82]</a></span>
-For instance, when amœbæ, bacteria, and other low
-organisms live and multiply in chemical solutions
-which contain no protoplasm, but only inorganic compounds
-containing the requisite atoms for making protoplasm,
-or when a plant not only chemically decomposes
-carbonic dioxide, exhaling the oxygen and depositing
-the carbon in its stem and leaves, but also from this
-and other elements drawn from the soil or air manufactures
-the living protoplasm which courses through
-its channels, the result is that life has manufactured life
-out of non-living materials.</p>
-
-<p>If we take sensation, this, in its last analysis, is
-change, or molecular motion, induced in a body by
-the action of its environment. Here there is a certain
-analogy between living and non-living matter, for the
-latter does respond to changes in the surrounding
-environment, as in the case of heat, electricity, and
-otherwise; but living matter is far more sensitive, the
-changes are far more frequent and complex, and in
-certain cases they are accompanied by a sensation of
-what is called consciousness, which in the higher
-organisms rises into a perception of voluntary effort or
-free-will as a factor in the transformation of energies.
-Thus it happens that in the case of dead matter the
-changes produced by a change of conditions follow
-fixed laws and can be predicted and calculated, while
-those of living matter are apparently uncertain and
-capricious. We can tell how much an iron bar will
-expand with heat; but we cannot say whether, if a
-particle of food is brought within reach of an amœba, it
-will or will not shoot out a finger to seize it. If the
-amœba is hungry it probably will; if it is enjoying a
-siesta after a full meal, it probably will not.</p>
-
-<p><span class="pagenum"><a name="Page_83" id="Page_83">[83]</a></span></p>
-
-<p>The case of sensation includes that of motion, which
-is after all only sensation applied in the liberation of
-energy of position which has by some chemical process
-become stored up, either in the living mass, or in some
-special organ of it, such as muscle. Iron, for instance,
-moves when it expands by heat or is attracted by a
-magnet; but it moves, like the planets, by fixed and
-calculable laws: while living matter moves, as might be
-expected from the variable character of its sensation, in
-a manner which often cannot be calculated. There are
-cases, however, of reflex or involuntary motion, where,
-even in the highest living organisms, sensation and
-motion seem to follow change of environment, in a
-fixed and invariable sequence, as in shrinking from
-pain, touching or galvanising a nerve; and it may be
-that the apparent spontaneousness and variability of
-living motion is only the result of the almost infinitely
-greater complexity and mobility of the elements of
-living matter.</p>
-
-<p>Reproduction remains, which is the faculty most
-characteristic of life, and which distinguishes most
-sharply the organic from the inorganic world. In the
-inorganic there is no known process by which dead
-matter reproduces itself, as the cell does when it contracts
-in the middle and splits up into two cells,
-which in their turn propagate an endless number of
-similar cells, increasing in geometrical progression until
-they supply the raw material from which all the countless
-varieties of living organisms are built up, which, in
-their turn, repeat the process and reproduce themselves
-in offspring. This is the real mystery of life; we can
-partly see or suspect how its other faculties might arise
-from an extension of the known qualities and laws of<span class="pagenum"><a name="Page_84" id="Page_84">[84]</a></span>
-matter and of energy; but we can discern no analogy
-between the non-reproductive nitrogenous carbon compound,
-which makes so near an approach to protoplasm
-in its chemical composition, and the reproductive protoplasm,
-which is fertile, increases and multiplies, and
-replenishes the earth. Can the gap be bridged over:
-can protoplasm be manufactured out of chemical elements?
-It is done every day by plants which make
-protoplasm out of inorganic elements, and by the lowest
-forms of life which live and multiply in chemical solutions.
-It is done also in the life-history of all individuals
-whose primitive cell or ovum makes thousands
-or millions of other cells, each containing within its
-enclosing membrane as much protoplasm as there was
-in the unit from which they started. But in all these
-instances there was the living principle to start with,
-existing in the primitive speck of protoplasm, from
-which the rest were developed. Can this primitive
-speck be created; or, in other words, can protoplasm be
-artificially manufactured by chemical processes?</p>
-
-<p>The answer must be, No; not by any process now
-known. The similarity of chemical composition, and
-the increasing conviction of the universality of natural
-law and of evolution, have led to a very general belief
-that such a spontaneous generation of life must be possible,
-and numerous experiments have been made to
-produce it. For a time the balance seemed to be very
-evenly held between the supporters and opponents of
-spontaneous generation. In fact, starting from the
-assumption, which at first was common to both sides,
-that heat equal to the boiling point of water destroyed all
-life organisms, spontaneous generation had the best of
-it: for it was clearly proved that living organisms did<span class="pagenum"><a name="Page_85" id="Page_85">[85]</a></span>
-appear in infusions contained in vessels which had
-been hermetically sealed, after being subjected to this,
-or even a higher degree of heat. But subsequent and
-more careful experiments have shown that the germs
-or spores of bacteria and other animalculæ, which are
-generally floating in the air, can, when dry, withstand a
-greater degree of heat, and that when the experiments
-are made in optically pure air no life ever appears and
-the infusions never putrefy. On questions of this sort
-all who are not themselves expert experimentalists
-must be guided by authority, and we may be content
-to accept the dictum of Huxley that biogenesis, or all
-life from previous life, was ‘victorious along the whole
-line.’ But in doing so we must accept Huxley’s caution,
-‘that with organic chemistry, molecular physics,
-and physiology yet in their infancy, and every day
-making prodigious strides, it would be the height of
-presumption for any man to say that the conditions
-under which matter assumes the qualities called vital,
-may not some day be artificially brought together.’</p>
-
-<p>And further, ‘that as a matter not of proof but of
-probability, if it were given me to look beyond the
-abyss of geologically recorded time, to the still more
-remote period when the earth was passing through
-chemical and physical conditions which it can never see
-again, I should expect to be a witness of the evolution of
-living protoplasms from non-living matter.’ Such is
-the cautious candour with which scientific men approach
-problems upon which theologians dogmatise with the
-unerring intrepidity of ignorance.</p>
-
-<p>In the meantime what may be said as to Huxley’s
-reservations is this: A considerable step has been
-made in the direction indicated, by the success of recent<span class="pagenum"><a name="Page_86" id="Page_86">[86]</a></span>
-chemistry in forming artificially what are called organic
-compounds, that is, substances which were previously
-known only as products of animal or vegetable
-secretions. Urea, for instance, the base of uric acid, with
-which so many are unfortunately familiar in the form
-of gout; indigotine, the principle of the blue colouring
-matter of the indigo plant; and alizarine, that of madder;
-are all now produced artificially, and have even become
-important articles of commerce. If chemists can make
-the indigotine, which the growing plant elaborates at
-the same time as it elaborates protoplasm, may we not
-hope some day to make the latter as well as the former
-product? Now organic compounds of this class are
-being formed artificially every day, and it is said that
-chemists have already succeeded in producing several
-hundreds. But even if this expectation is never fulfilled,
-we may fall back on Huxley’s second reservation
-of the enormous difference of chemical and physical
-conditions in the early stages of the earth’s life from
-anything now known. It has been calculated that the
-earth’s temperature when it first started on its career as
-an independent planet was something like 3,000,000°
-Fahrenheit. At this heat probably all atoms would be
-dissociated; but as the temperature diminished they
-would come closer together, but still with a great deal of
-motion, and making wide excursions, which might bring
-many different atoms together in complex though unstable
-combinations. Moreover, carbon, which is the
-basis of all such combinations of the class of protoplasm,
-was far more abundant in those early days in
-the form of carbonic dioxide gas, before the enormous
-amount of vegetable matter in the form of coal and
-otherwise, had been subtracted from it. In any case<span class="pagenum"><a name="Page_87" id="Page_87">[87]</a></span>
-the first protoplasm must be extremely ancient, for the
-remains of sea-weeds are found in the oldest strata, and
-vegetation of any sort implies the manufacture of protoplasm
-from inorganic matter.</p>
-
-<p>The passage from the organic into the inorganic
-world is best traced by following the line of Pasteur’s
-researches on ferments. How does the world escape
-being choked up by the accumulation of dead organic
-matter throughout innumerable ages? By what are
-called ferments, inducing processes of fermentation and
-putrefaction, by which the course of life is reversed, and
-the organic elements are taken to pieces and restored to
-the inorganic world. Pasteur proved, in opposition to the
-theories of Liebig and other older chemists, that this was
-not done directly by the oxygen of the air, but through
-the intermediate agency of living microbes, whose spores,
-floating in the air, took up their abode and multiplied
-wherever they found an appropriate habitation. Given
-an air purified from germs, or a temperature low enough
-to prevent them from germinating, and putrescible
-substances would keep sweet for ever. The practical
-realisation of this is seen in the enormous commerce in
-canned meats and fruits, and in the imports of frozen
-beef and mutton, causing a fall of rents and much
-lamentation among British landlords and farmers.</p>
-
-<p>But then the question was asked, How are your
-microscopic organisms disposed of? What are the
-ferments of your ferments? For even microscopic
-bacteria and vibrios would, in time, choke up the world
-by their residue if not got rid of. Pasteur answered that
-the ferments are destroyed by a new series of organisms—aerobes—living
-in the air, and these by other aerobes
-in succession until the ultimate products are oxidised.<span class="pagenum"><a name="Page_88" id="Page_88">[88]</a></span>
-‘Thus, in the destruction of what has lived, all is reduced
-to the simultaneous action of the three great natural
-phenomena—fermentation, putrefaction, and slow combustion.
-A living being, animal or vegetable, or the
-<i>débris</i> of either, having just died, is exposed to the air.
-The life that has abandoned it is succeeded by life under
-other forms. In the superficial parts, accessible to the
-air, the germs of the infinitely little aerobes flourish and
-multiply. The carbon, hydrogen, and nitrogen of the
-organic matter are transformed by the oxygen of the air,
-and under the vital activity of the aerobes, into carbonic
-acid, the vapour of water, and ammonia. The combustion
-continues as long as organic matter and air are
-present together. At the same time the superficial combustion
-is going on, fermentation and putrefaction are
-performing their work in the midst of the mass by
-means of the developed germs of the original microbes,
-which, note, do not need oxygen to live, but which
-oxygen causes to perish. Gradually the phenomena of
-destruction are at last accomplished through the work
-of latent fermentation and slow combustion.’</p>
-
-<p>This seems a complete demonstration of the passage
-of the organic into the inorganic world in the way of
-analysis, or taking the puzzle to pieces. In the opposite
-way of synthesis, or putting it together, the nearest
-approach yet made has been in the manufacture of those
-organic compounds already referred to, such as urea, alizarine,
-indigotine and other products which had hitherto
-only been known as products of animal or vegetable
-life. Of these a vast number have been already formed
-from inorganic elements by chemical processes, and
-almost every day announces some fresh discovery.</p>
-
-<p>Under these circumstances it is unsafe to affirm<span class="pagenum"><a name="Page_89" id="Page_89">[89]</a></span>
-either, on the one hand, that the problem has been solved
-and that life has ever been made in a laboratory; or,
-on the other hand, that there is any such great gulf fixed
-between the organic and the inorganic, that we can
-assume a break requiring secondary supernatural interference
-to surmount it, and ignore the good old maxim
-that ‘Natura nihil facit per saltum.’ Positive proof is
-wanting, but the probabilities point here, as they do
-everywhere else throughout the universe, to the truth
-of the theory of ‘original impress’ as opposed to that
-of ‘secondary interference.’</p>
-
-<p>It remains to show how the fundamental law of
-polarity affects the more complex relations of life and
-of its various combinations. And here it is important
-to bear in mind that as the factors of the problem become
-more intricate and complex, so also do the laws
-which regulate their existence and action. Polarity is
-no longer a simple question of attraction and repulsion
-at the two ends of a magnet or at the opposite poles of
-an atom. It appears rather as a general law under
-which as the simple and absolute becomes differentiated
-by evolution into the complex and manifold, it does so
-under the condition of developing contrasts. For every
-<i>plus</i> there is a <i>minus</i>, for every like an unlike; one cannot
-exist without the other; and, although apparently
-antagonistic, harmonious order is only possible by their
-co-existence and mutual balance.</p>
-
-<p>This is so important that it may be well to make the
-idea clearer by an illustration. The earth revolves round
-the sun in its annual orbit under the influence of two
-forces: the centripetal, or force of gravity tending to
-draw it towards the sun; and the centrifugal, tending to
-make it dart away into infinite space. During half the<span class="pagenum"><a name="Page_90" id="Page_90">[90]</a></span>
-orbit the centripetal seems to be gaining ground on the
-centrifugal, and the earth is approaching nearer to the
-sun. If this continued it would revolve ever nearer and
-soon fall into it; but the centrifugal force is gradually
-recruiting its strength from the increased velocity of
-the earth, until it first equals the centripetal, and finally
-outstrips it, and for the remaining half of the orbit it is
-constantly gaining ground. If this went on, the earth
-would fly off into the chilly regions of outer space;
-but the centripetal force in its turn regains the ascendency;
-and thus by the balance of the two forces our
-planet describes the beautiful ellipse, its harmonious
-orbit as a habitable globe; while comets in which one
-or the other force unduly preponderates for long periods
-are alternately drawn into fiery proximity to the sun,
-and sent careering through regions void of heat.</p>
-
-<p>Compare this passage from Herbert Spencer: ‘As
-from antagonist physical forces, as from antagonist
-emotions in each man, so from the antagonist social
-tendencies man’s emotions create, there always results
-not a medium state, but a rhythm between opposite
-states. The one force or tendency is not continuously
-counterbalanced by the other force or tendency; but
-now the one greatly preponderates, and presently by
-reaction there comes a preponderance of the other.’</p>
-
-<p>And again: ‘There is nowhere a balanced judgment
-and a balanced action, but always a cancelling
-of one another by opposite errors. Men pair off in
-insane parties, as Emerson puts it.’</p>
-
-<p>The reader will now begin to understand the sense
-in which polarity applies to these complex conditions
-of an advanced evolution.</p>
-
-<p>To return, however, from this digression to the<span class="pagenum"><a name="Page_91" id="Page_91">[91]</a></span>
-point at which it began, viz. the origin of life, we have
-to show how the law of polarity prevails in the organic
-as well as in the inorganic world. In the first place
-the material to which all life is attached, from the
-speck of protoplasm to the brain of man, is strictly
-a chemical product of atoms and molecules bound
-together by the same polar laws as those of inorganic
-matter.</p>
-
-<p>In like manner all the essential processes by which
-life lives, moves, and has its being, are equally mechanical
-and chemical. If the brain, receiving a telegram
-from without through the optic nerve, sends a reply
-along another nerve which liberates energy stored up
-in a muscle and produces motion, the messages are
-received and transmitted like those sent by a voltaic
-battery along the wires of a telegraph, and the energy
-is stored up by the slow combustion of food in oxygen,
-just as that of the steam-engine is produced by the
-combustion of coal. All this is mechanical, inorganic,
-and therefore polar.</p>
-
-<p>But when we come to the conditions of life proper,
-we find the influence of polarity mainly in this: that as
-it develops from simpler into more complex forms, it
-does so under the law of developing contrasts or opposite
-polarities, which are necessary complements of
-each other’s existence. Thus, as we ascend in the scale
-of life, we find two primitive polarities developed: that
-of plant and animal, and that of male and female.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_92" id="Page_92">[92]</a></span></p>
-
-<h2 id="CHAPTER_VII">CHAPTER VII.<br />
-<span class="smaller">PRIMITIVE POLARITIES—PLANT AND ANIMAL.</span></h2>
-
-<div class="chapter">
-
-<p>Contrast in developed life—Plants producers, animals consumers—Differences
-disappear in simple forms—Zoophytes—Protista—Nummulites—Corals—Fungi—Lichens—Insectivorous
-plants—Geological succession—Primary
-period, Algæ and Ferns—Secondary period, Gymnosperms—Tertiary
-and recent, Angiosperms—Monocotyledons and Dicotyledons—Parallel
-evolution of animal life—Primary, protista, mollusca,
-and fish—Secondary, reptiles—Tertiary and recent, mammals.</p>
-
-</div>
-
-<p>Animals or plants? Judging by first impressions,
-nothing can be more distinct. No one, whether scientific
-or unscientific, could mistake an oak tree for an
-ox. To the unscientific observer the tree differs in
-having no power of free movement, and apparently no
-sensation or consciousness; in fact, hardly any of the
-attributes of life. The scientific observer sees still
-more fundamental differences, in the fact that the plant
-feeds on inorganic ingredients, out of which it manufactures
-living matter, or protoplasm; while the animal
-can only provide itself with protoplasm from that
-already manufactured by the plant. The ox, who
-lives on grass, could not live on what the grass thrives
-on, viz. carbon, oxygen, hydrogen, and nitrogen. The
-contrast is so striking that the vegetable world has
-been called the producer, and the animal world the
-consumer, of nature.</p>
-
-<p>Again, the plant derives the material framework of<span class="pagenum"><a name="Page_93" id="Page_93">[93]</a></span>
-its structure from the air, by breathing in through its
-leaves the carbonic dioxide present in the atmosphere,
-decomposing it, fixing the carbon in its roots, stem,
-and branches, and exhaling the oxygen. The animal
-exactly reverses the process, inhaling the oxygen of
-the air, combining it with the carbon of its food, and
-exhaling carbonic dioxide. Thus, a complete polarity
-is established, as we see in the aquarium, where plant
-and animal life balance each other, and the opposites
-live and thrive, where the existence of either would be
-impossible without the other.</p>
-
-<p>Sharp, however, as the contrast appears to be in
-the more specialised and developed specimens of the
-two worlds, we have here another instance of the difficulty
-of trusting to first impressions, and have to
-modify our conceptions greatly, if we trace animal and
-vegetable life up to their simplest forms and earliest
-origins. In the first place, each individual vegetable or
-animal begins its existence from a simple piece of pure
-protoplasm. This develops in the same way into a
-nucleated cell, by whose repeated subdivision the raw
-material is provided for both structures alike. The
-chief difference at this early stage is that the animal
-cells remain soft and naked, while those of vegetables
-secrete a comparatively solid cell-wall, which makes
-them less mobile and plastic. This gives greater
-rigidity to the frame and tissues of the plant, and
-prevents the development of the finer organs of sensation
-and other vital processes, which characterise the
-animal. But this is a difference of development only,
-and the origination of the future life from the speck of
-protoplasm is the same in both worlds.</p>
-
-<p>If, instead of looking at the origin of individuals, we<span class="pagenum"><a name="Page_94" id="Page_94">[94]</a></span>
-trace back the various forms of animal and vegetable
-life from the more complex to the simpler forms, we
-find the distinctions between the two disappearing,
-until at last we arrive at a vanishing point where it is
-impossible to say whether the organism is an animal or
-a plant.</p>
-
-<p>A whole family, comprising sponges, corals, and
-jelly-fish, are called Zoophytes, or plant-animals, from
-the difficulty of assigning them to one kingdom or
-the other. On the whole they rather more resemble
-animals, and are generally classed with them, though
-they lack many of their most essential qualities, and in
-form often bear a close resemblance to plants. But
-when we descend a step lower in the scale of existence
-we come to a large family—the Protista—of which it is
-impossible to say that they are either plants or animals.
-In fact, scientific observers have classed them sometimes
-as belonging to one and sometimes to the other kingdom;
-and it was an organism of this class, looking at
-which through a microscope Huxley pronounced it to
-be probably a plant, while Tyndall exclaimed that he
-would as soon call a sheep a vegetable. They are
-mostly microscopic, and are the first step in organised
-development from the Monera, which are mere specks of
-homogeneous protoplasm. Small as they are they have
-played an important part in the formation of the earth’s
-crust, for the little slimy mass of aggregated cells has in
-many instances the power of secreting a solid skeleton,
-or a minute and delicate envelope or shell, the petrified
-remains of which form entire mountains. Thus the
-nummulitic limestone, which forms high ranges on the
-Alps and Himalayas, and of which the Pyramids are
-built, consists of the petrified skeletons of a species of<span class="pagenum"><a name="Page_95" id="Page_95">[95]</a></span>
-Radiolaria, or many-chambered shells, forming the complicated
-and elegant mansion with many rooms and
-passages, of the formless, slimy mass which constitutes
-the living organism. Chalk also, and the chalk-like
-formation which is accumulating at the bottom of deep
-oceans, are the results of the long-continued fall of the
-microscopic snowdrift of shells of the Globigenera and
-other protistic forms swimming in the sea; and in a
-higher stage of development the skeletons of corals, one
-of the family of Zoophytes or plant-animals, form the
-coral reefs and islands so numerous in the Pacific and
-Indian Oceans, and are the basis of the vast masses of
-coralline limestone deposited in the coal era and other
-past geological periods.</p>
-
-<p>As development proceeds the distinction between
-plants and animals becomes more apparent, though even
-here the simplest and earliest forms often show signs of
-a common origin by interchanging some of the fundamental
-attributes of the two kingdoms. Thus, the
-essential condition of plant existence is to live on inorganic
-food, which they manufacture into protoplasm,
-by working up simple combinations into others more
-complicated. Their diet consists of water, carbonic
-dioxide, and ammonia; they take in carbonic dioxide
-and give out oxygen, while animals do exactly the
-reverse. But the fungi live, like animals, upon organic
-food consisting of complicated combinations of carbon,
-which they assimilate; and, like animals, they inhale
-oxygen and give out carbonic dioxide.</p>
-
-<p>Lichens afford a very curious instance of the association
-of vegetable and animal functions in the same
-plant. They are really formed of two distinct organisms:
-a body which is a low form of Alga or sea-weed,<span class="pagenum"><a name="Page_96" id="Page_96">[96]</a></span>
-and a parasitic form of fungus, which lives upon it.
-The former has a plant life, living on inorganic matter
-and forming the green cells, or chlorophyll, which are
-the essential property of plants, enabling them under the
-action of the sun’s rays to decompose carbonic dioxide;
-while the parasite lives like an animal on the formed
-protoplasm of the parent stem, forming threads of
-colourless cells which envelop and interlace with the
-original lichen of which they constitute the principal
-mass, as in a tree overgrown with ivy.</p>
-
-<p>Even in existing and highly developed plants we
-find some curious instances of reversion towards animal
-life. Certain plants, for instance, like the Dionæa or
-Venus’ fly-trap, finding it difficult to obtain the requisite
-supply of nitrogenous food in a fluid state from
-the arid or marshy soil in which they grow, have
-acquired a habit of supplying the deficiency by taking
-to an animal diet and eating flies. Conjoined with this
-is a more highly developed sensitiveness, and power of
-what appears to be voluntary motion, and a faculty of
-secreting a sort of gastric juice in which the flies are
-digested. The fundamental property also of decomposing
-carbonic dioxide and exhaling oxygen depends
-on light stimulating a peculiar chemical action of the
-chlorophyll, and at night leaves breathe like lungs,
-exhaling not oxygen, but the carbonic dioxide.</p>
-
-<p>The records of geology, imperfect as they are, show
-a continued progression from these simple and neutral
-organisms to higher and more differentiated forms, both
-in the animal and vegetable worlds. These records are
-imperfect because the soft bodies of the simpler and for
-the most part microscopic forms of protoplasm and cell
-life are not capable of being preserved in petrifactions,<span class="pagenum"><a name="Page_97" id="Page_97">[97]</a></span>
-and it is only when they happen to have secreted shells
-or skeletons that we have a chance of identifying them.
-Still we have a sufficient number of remains in the different
-geological strata to enable us to trace development.
-Thus, in the vegetable world, in the earliest strata, the
-Laurentian, Cambrian, and Silurian, forming the primordial
-period, which forms a thickness of some 70,000
-feet of the earth’s crust—or more than that of the whole
-of the subsequent strata, Primary, Secondary, Tertiary,
-and Quaternary, taken together—we find only vegetable
-remains of the lowest group of plants, that of the
-Tangles or Algæ, which live in water. Forests of these
-sea-weeds, like those of the Aleutian Islands, in some of
-which single tangles stream to the length of sixty feet,
-and floating masses, like those of the Sargasso Sea,
-appear to have constituted the sole vegetation of these
-primæval periods.</p>
-
-<p>The Primary epoch, which comes next, comprises
-the Devonian or Old Red Sandstone, the Carboniferous
-or Coal system, and the Permian, the average thickness
-of the three together amounting to about 42,000 feet.
-In these the family of Ferns predominates, the remains
-of which constitute the bulk of the large strata of coal,
-forming in modern times our great resource for obtaining
-the energy which, in a transformed shape, does so
-much of our work. Pines begin to appear, though
-sparingly, in this epoch.</p>
-
-<p>The Secondary epoch comprises the Triassic, the
-Jurassic, and the Cretaceous or Chalk formation, the
-average thickness of the three amounting to about
-15,000 feet. In this era a higher species of vegetation
-predominates, that of the Gymnosperms, or plants having
-naked seeds, of which the pines, or Coniferæ, and the<span class="pagenum"><a name="Page_98" id="Page_98">[98]</a></span>
-palm-ferns, or Cycadeæ, are the two principal classes.
-As in the case of the former epoch, traces of the
-approaching higher organisation in the form of leaf-bearing
-trees began to appear towards its close.</p>
-
-<p>The Tertiary period extends from the end of the Chalk
-to the commencement of the Quaternary or modern
-period. It is divided into the Eocene or older, the Miocene
-or middle, and the Pliocene or newest Tertiary
-system; though the division is somewhat arbitrary, depending
-on the number of existing species, mostly of shellfish,
-which have been found in each. The average thickness
-of the three together is about 3,000 feet. In this
-formation a still higher class of vegetation of the same
-order as that now existing, which made its first appearance
-in the Chalk period, has become predominant. It
-is that of Angiosperms, or plants with covered seeds,
-forming leafy forests of true trees. This group is
-divided into the two classes of monocotyledons or
-single-seed-lobed plants, and dicotyledons or plants with
-double seed-lobes. The monocotyledons spring from
-a single germ leaf, and are of simpler organisation than
-the other class. They comprise the grasses, rushes,
-lilies, irids, orchids, sea-grasses, and a number of aquatic
-plants, and in their highest form develop into the tree-like
-families of the palms and bananas.</p>
-
-<p>The dicotyledons include all forms of leaf-bearing
-forest trees, almost all fruits and flowers, in fact by far
-the greater part of the vegetable world familiar to man,
-as coming into immediate relation with it, except in the
-case of the cultivated plants, which are developments of
-the monocotyledon grasses.</p>
-
-<p>We see, therefore, in the geological record a confirmation
-of the evolution over immense periods of<span class="pagenum"><a name="Page_99" id="Page_99">[99]</a></span>
-time of the more complex and perfect from the simple
-and primitive.</p>
-
-<p>If we turn to the same geological record to trace the
-development of animal life, we find it running a parallel
-course with that of plants. The earliest known fossil,
-the Eozoon Canadiense, from the Lower Laurentian, is
-that of the chambered shell of a protista of the class
-of Rhizopods, whose soft body consists of mere protoplasm
-which has not yet differentiated into cells. As
-we ascend the scale of the primordial era, traces of
-marine life of the lower organisms begin to appear, until
-in the Silurian they become very abundant, consisting
-however mainly of mollusca and crustacea, and in the
-Upper Silurian we find the first traces of fishes.</p>
-
-<p>In the Primary era the Devonian and Permian
-formations are characterised by a great abundance of
-fishes, of the antique type, which has no true bony
-skeleton, but is clothed in an armour of enamelled scales,
-and whose tail, instead of being bi-lobed or forked, has
-one lobe only—a type of which the sturgeon and garpike
-are the nearest surviving representatives. In the
-Coal formation are found the first remains of land
-animals in the form of insects and a scorpion, and a few
-traces of vertebrate amphibious animals and reptiles;
-while higher up in the Permian are found a few more
-highly developed reptiles, some of which approximate to
-the existing crocodile. Still fishes greatly predominate,
-so that the whole Primary period may be called the age
-of fishes, as truly as, looking at its flora, it may be called
-the age of ferns.</p>
-
-<p>In the Secondary period reptiles predominate, and
-are developed into a great variety of strange and colossal
-forms. The first birds appear, being obviously<span class="pagenum"><a name="Page_100" id="Page_100">[100]</a></span>
-developed from some of the forms of flying lizards, and
-having many reptilian characters. Mammals also put in
-a first feeble appearance, in the form of small, marsupial,
-insectivorous creatures.</p>
-
-<p>In the Tertiary period the class of mammals greatly
-predominates over all other vertebrate animals, and
-we can see the principal types slowly developing and
-differentiating into those at present existing. The
-human type appears plainly in the middle Miocene, in
-the form of a large anthropoid ape, the Dryopithecus,
-and undoubted human remains are found in the
-beginning of the Quaternary, if not, as many distinguished
-geologists believe, in the Pliocene and even in
-the Miocene ages.</p>
-
-<p>So far, therefore, there seems to be a complete
-parallelism between the evolution of animal and
-vegetable life from the earliest to the latest, and from
-the simplest to the most complex forms. These facts
-point strongly to a process of evolution by which the
-animal and vegetable worlds, starting from a common
-origin in protoplasm, the lowest and simplest form of
-living matter, have gradually advanced step by step,
-along diverging lines, until we have at last arrived at
-the sharp antithesis of the ox and the oak tree. It is
-clear, however, that this evolution has gone on under
-what I have called the generalised law of polarity, by
-which contrasts are produced of apparently opposite
-and antagonistic qualities, which however are indispensable
-for each other’s existence. Thus animals
-could not exist without plants to work up the crude
-inorganic materials into the complex and mobile
-molecules of protoplasm, which are alone suited for
-assimilation by the more delicate and complex organisation<span class="pagenum"><a name="Page_101" id="Page_101">[101]</a></span>
-of animal life. Plants, on the other hand, could
-not exist without a supply of the carbonic dioxide,
-which is their principal food, and which animals are
-continually pouring into the air from the combustion of
-their carbonised food in oxygen, which supplies them
-with heat and energy. Thus nature is one huge
-aquarium, in which animal and vegetable life balance
-each other by their contrasted and supplemental action,
-and, as in the inorganic world, harmonious existence
-becomes possible by this due balance of opposing factors.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_102" id="Page_102">[102]</a></span></p>
-
-<h2 id="CHAPTER_VIII">CHAPTER VIII.<br />
-<span class="smaller">PRIMITIVE POLARITIES—POLARITY OF SEX.</span></h2>
-
-<div class="chapter">
-
-<p>Sexual generation—Base of ancient cosmogonies—Propagation non-sexual
-in simpler forms—Amœba and cells—Germs and buds—Anemones—Worms—Spores—Origin
-of sex—Ovary and male organ—Hermaphrodites—Parthenogenesis—Bees
-and insects—Man and woman—Characters
-of each sex—Woman’s position—Improved by civilisation—Christianity
-the feminine pole—Monogamy the law of nature—Tone
-respecting women test of character—Women in literature—In
-society—Attraction and repulsion of sexes—Like attracts unlike—Ideal
-marriage—Woman’s rights and modern legislation.</p>
-
-</div>
-
-<p>‘Male and female created He them.’ At first sight
-this distinction of sex appears as fundamental as that of
-plant and animal. Mankind, and all the higher forms of
-life with which mankind has relations, can only propagate
-their species in one way: by the co-operation of two
-individuals of the species, who are essentially like and yet
-unlike, possessing attributes which are complementary
-of one another, and whose union is requisite to originate
-a new living unit—in other words, by sexual propagation.
-So certain does this appear that all ancient
-religions and philosophies begin by assuming a male
-and female principle for their gods, or first guesses at
-the unknown first causes of the phenomena of nature.
-Thus Ouranos and Gaia, Heaven and Earth; Phœbus
-and Artemis, the Sun and Moon: are all figured by
-the primitive imagination as male and female; and the
-Spirit of God brooding over Chaos and producing the<span class="pagenum"><a name="Page_103" id="Page_103">[103]</a></span>
-world, is only a later edition, revised according to monotheistic
-ideas, of the far older Chaldean legend which
-describes the creation of Cosmos out of Chaos by the
-co-operation of great gods, male and female. Even
-in later and more advanced religions, traces of this ineradicable
-tendency to assume difference of sex as the
-indispensable condition of the creation of new existence
-are found to linger and crop up in cases where they
-are altogether inapplicable. Thus, in the orthodox
-Christian creed we are taught to repeat ‘begotten, not
-made,’ a phrase which is absolute nonsense, or <i>non-sense</i>—that
-is, an instance of using words like counterfeit
-notes, which have no solid value of an idea behind
-them. For ‘begotten’ is a very definite term, which
-implies the conjunction of two opposite sexes to produce
-a new individual. Unless two deities are assumed
-of different sexes the statement has no possible meaning.
-It is a curious instance of atavism, or the way in
-which the qualities and ideas of remote ancestors sometimes
-crop up in their posterity.</p>
-
-<p>Science, however, makes sad havoc with this impression
-of sexual generation being the original and
-only mode of reproduction, and the microscope and
-dissecting knife of the naturalist introduce us to new
-and altogether unsuspected worlds of life. By far the
-larger proportion of living forms, in number at any rate,
-if not in size, have come into existence without the aid
-of sexual propagation. When we begin at the beginning,
-or with those Monera which are simple specks of
-homogeneous protoplasm, we find them multiplying by
-self-division. Amœba A, when it outgrows its natural
-size, contracts in the middle and splits into two Amœbæ,
-B and C, which are exactly like one another and like<span class="pagenum"><a name="Page_104" id="Page_104">[104]</a></span>
-the original A. In fact B contains one half of its
-parent A, and C the other half. They each grow to
-the size of the original A, and then repeat the process of
-splitting and duplicating themselves.</p>
-
-<p>The next earliest stage in the evolution of living
-matter, the nucleated cell, does exactly the same thing.
-The nucleus splits into two, each of which becomes a
-new nucleus for the protoplasmic matter of the original
-cell, and either multiply within it, or burst the old cell-wall
-and become two new cells resembling the first.</p>
-
-<p>The next stage in advance is that of propagation by
-germs or buds, in which the organism does not divide
-into two equal parts, but a small portion of it swells
-out at its surface, and finally parts company and starts
-on a separate existence which grows to the size of
-the parent by its inherent faculty of manufacturing
-fresh protoplasm from surrounding inorganic materials.
-This process may be witnessed any day in an aquarium
-containing specimens of the sea-anemone, where the
-minute new anemones may be seen in every form, both
-before and after they have parted from the parent body.
-It remains one of the principal modes of propagation of
-the vegetable world, where plants are multiplied from
-buds even after they have developed the higher mode
-of sexual propagation by seeds. In some of the lowest
-animals, such as worms, the buds are reduced to a small
-aggregation of cells, which form themselves into distinct
-individuals inside the body of the parent, and
-separate from it when they have attained a certain
-stage of development.</p>
-
-<p>Advancing still further on the road towards sexual
-reproduction, we find these germ-buds reduced to spores,
-or single cells, which are emitted from the parent, and<span class="pagenum"><a name="Page_105" id="Page_105">[105]</a></span>
-afterwards multiply by division until they form a many-celled
-organism, which has the hereditary qualities of
-the original one. This is the general form of propagation
-of the lower plants, such as algæ, mosses, and
-ferns, and also of a number of the lower forms of
-animal-like microscopic organisms, such as bacteria,
-whose spores, floating in the air in enormous quantities,
-and multiplying when they find a fit soil with
-astonishing rapidity, in a few days devastate the potato
-crop of a whole district or bring about an epidemic of
-scarlet-fever or cholera. They have their use however in
-creation, and their action is beneficent as well as the
-reverse, for they are the principal cause of putrefaction,
-the process by which the dead organic matter, which, if
-not removed, would choke up the world, is resolved into
-the inorganic elements from which it sprang, and rendered
-available for fresh combinations.</p>
-
-<p>We are now at the threshold of that system of
-sexual propagation which has become the rule in all
-the higher families of animals and in many plants. It
-may be conceived as originating in the amalgamation of
-some germ-cell or spore with the original cell which was
-about to develop into a germ-bud within the body of
-some individual, and by the union of the two producing a
-new and more vigorous originating cell which modified
-the course of development of the germ-bud and of its resulting
-organism. This organism, having advantages in
-the struggle for life, established itself permanently with
-ever new developments in the same direction, which
-would be fixed and extended in its descendants by heredity,
-and special organs developed to meet the altered
-conditions. Thus at length the distinction would be
-firmly established of a female organ or ovary containing<span class="pagenum"><a name="Page_106" id="Page_106">[106]</a></span>
-the egg or primitive cell from which the new being
-was to be developed, and a male organ supplying the
-fertilising spore or cell, which was necessary to start
-the egg in the evolutionary process by which it developed
-into the germ of an offspring combining qualities
-of the two parents. This is confirmed by a study
-of embryology, which shows that in the human and
-higher animal species the distinction of sex is not
-developed until a considerable progress has been made
-in the growth of the embryo. It is only however in
-the higher and more specialised families that we find
-this mode of propagation by two distinct individuals of
-different sexes firmly established. In the great majority
-of plants, and in some of the lower families of animals—for
-instance, snails and earth-worms—the male and
-female organs are developed within the same being, and
-they are what is called hermaphrodites. Thus, in most
-of the flowering plants the same blossom contains both
-the stamens and anther, which are the male organ, and
-the style and germ, which are the female.</p>
-
-<p>Another transition form is Parthenogenesis, or virginal
-reproduction, in which germ-cells, apparently similar
-in all respects to egg-cells, develop themselves into
-new individuals without any fructifying element. This
-is found to be the case with many species of insects, and
-with this curious result, that those same germ-cells are
-often capable of being fructified, and in that case produce
-very different individuals. Thus, among the common
-bees, male bees or drones arise from the non-fructified
-eggs of the queen bee, while females are produced if the
-egg has been fructified.</p>
-
-<p>In the higher families however of animal life the
-distinction of sex in different individuals has become<span class="pagenum"><a name="Page_107" id="Page_107">[107]</a></span>
-the universal rule, and it produces a polarity or contrast
-which becomes ever more conspicuous as we rise in the
-scale of creation, until it attains its highest development
-in the highest stage hitherto reached, that of civilised
-man and woman. Both physical and mental characteristics
-depend mainly on the fact that the ovary or egg-producing
-organ is developed in the female, and thus
-the whole work of reproduction is thrown on her. To
-perform this a large portion of the vital energy is
-required, which in the male is available for larger and
-more prolonged growth of organs, such as the brain,
-stature, and limbs, by which a more powerful grasp is
-attained of the outward environment. In other words,
-the female comes sooner to maturity and is weaker than
-the male. She is also animated by a much stronger
-love for the offspring, which is part of her own body,
-during the period of infancy; and thus, in addition to
-the physical attributes, such as lacteal glands and larger
-breasts, she inherits qualities of softness, amiability, and
-devotion, which fit her for the office of nurse. Her
-physical weakness, again, has made her, for untold
-ages, and even now in all the less advanced communities,
-and too often even in the most advanced, the slave of
-the stronger male. She has thus inherited many of
-the mental qualities which are essential to such a state:
-the desire to propitiate by pleasing and making herself
-attractive; the gentleness and submissiveness which
-shrink from a contest of brute force in which she is sure
-to be defeated; the clinging to a stronger nature for
-support, which in extreme cases leads to blind admiration
-of power and the spaniel-like attachment to a
-master whether deserving of it or not. As civilisation
-however advances, and as intellectual and moral<span class="pagenum"><a name="Page_108" id="Page_108">[108]</a></span>
-qualities gain ascendency over brute strength and animal
-instincts, the condition of woman improves, and it
-comes more and more to be recognised that she is not
-made to be man’s slave or plaything, but has her own
-personality and character, which, if in some respects
-inferior, are in others better than those of the male
-half of creation. Tennyson, the great poet of modern
-thought, who sums up so many of the ideas and tendencies
-of the age in concise and vigorous verse, writes:—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">For woman is not undeveloped man,</div>
-<div class="verse">Nor yet man’s opposite.</div>
-</div>
-</div>
-
-<p class="noindent">Not opposite, yet different, so that the one supplements
-what is wanting to the other, and the harmonious
-union of the two makes ideal perfection. It is the
-glory of European civilisation to have done so much
-to develop this idea of the equality of the sexes, and to
-have gone so far towards emancipating the weaker half
-of the human species from the tyranny of the stronger
-half.</p>
-
-<p>It would be unfair to omit mention of the great part
-which Christianity has had in this good work; not
-only by direct precept and recognition of religious
-equality, but even more by the embodiment, as its
-ideal, of the feminine virtues of gentleness, humility,
-resignation, self-devotion, and charity. Ideal Christianity
-is, in fact, what may be called the feminine pole
-of conduct and morality, as opposed to the masculine
-one of courage, hardihood, energy, and self-reliance.
-Many of the precepts of Christianity are unworkable,
-and have to be silently dropped in practice. It would
-not answer either for individuals or nations ‘when
-smitten on one cheek to turn the other.’ When an
-appeal is made to <i>fact</i> to decide whether it is a right<span class="pagenum"><a name="Page_109" id="Page_109">[109]</a></span>
-rule to live as the sparrows do, taking no thought for
-the morrow, the verdict of <i>fact</i> is in favour of foresight
-and frugality. Herbert Spencer has stated this polarity
-very strongly as that of the religion of amity and the
-religion of enmity; but I think he states the case too
-adversely for the latter, for the qualities which make
-men and nations good fighters and victorious in the
-struggle for existence, are in their way just as essential
-as the gentler virtues, and both alike become defects
-when pushed to the ‘falsehood of extremes.’ Christianity,
-therefore, whatever may become of its dogmas,
-ought always to be regarded with affection and respect
-for the humanising effect it has produced, especially in
-improving the condition of the female half of creation.</p>
-
-<p>This improvement in the condition of women has
-brought about a corresponding improvement in the
-male sex, for the polarity between the two has come
-to be the most intimate and far-reaching influence of
-modern life. Take the literature of the novel and play,
-which aim at holding up the mirror to human nature
-and contemporary manners, and you will find that they
-nearly all turn upon love. The word ‘immorality’
-has come to signify the one particular breach of the
-laws of morality which arises from the relations of the
-sexes.</p>
-
-<p>In providing for the birth of nearly equal numbers
-of each sex, nature clearly establishes monogamy, or
-union of single pairs, as the condition of things most
-in accordance with natural laws. The family also, the
-first germ of civilisation, is impossible, or can only
-exist in a very imperfect and half-developed state,
-without this permanent union of a single husband and
-wife. Violations of this law lead to such disastrous<span class="pagenum"><a name="Page_110" id="Page_110">[110]</a></span>
-consequences to individuals, and are so deteriorating to
-nations, that they are properly considered as the ‘immorality’
-<i>par excellence</i>, and condemned by all right-minded
-opinion. And yet to observe this law is a
-constant lesson in self-control for a great part of the
-life: a lesson of the utmost value, for it is a virtue
-which is at the root of all other virtues. And it is
-formed and becomes habitual and easy by practice, for
-just as the muscles of the ballet-dancer’s leg or blacksmith’s
-arm acquire strength and elasticity by use, so
-do the finer fibres of the brain improve by exercise and
-become soft and flabby by disuse, so that effort in the
-former case is a pleasure and in the latter a pain. For
-this reason chaste nations are generally strong and
-conquering nations; dissolute Imperial Rome went
-down before the Goths and Germans, and polygamous
-Turkey perishes of dry rot in the midst of the progress
-of the nineteenth century. Indeed, there is no better
-test of the position which either an individual, a class,
-or a nation hold in the scale of civilisation, than the
-tone which prevails among the men with regard to
-women. Wherever Turkish ideas prevail, we may be
-sure that whatever may be the outward varnish of
-manner there is essential snobbishness.</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent10">Up and down</div>
-<div class="verse">Along the scale of life, through all,</div>
-<div class="verse">To him who wears the golden ball,</div>
-<div class="verse">By birth a king, at heart a clown</div>
-</div>
-</div>
-
-<p class="noindent">On the other hand, wherever women are regarded
-with a chivalrous respect and reverence, the heart of a
-true gentleman beats, though it be under the rough
-exterior of one of Bret Harte’s cow-boys or Californian
-miners.</p>
-
-<p><span class="pagenum"><a name="Page_111" id="Page_111">[111]</a></span></p>
-
-<p>Nothing in fact gives one more hope in the progress
-of human society than to find that in the freest countries,
-and those farthest advanced towards modern ideas
-and democratic institutions, the tone with regard to
-women shows the greatest improvement. There is a
-regular <i>crescendo</i> scale of progress from Turkey to
-America. I do not refer so much to the fact that in
-the newer colonies and countries women can travel unprotected
-without fear of insult or injury, as to the
-almost instinctive recognition of their equal rights as
-intelligent and moral beings who have a personality and
-character of their own, which places them on the same
-platform as men though on opposite sides of it.</p>
-
-<p>To understand rightly the real spirit of an age or
-country, it is not enough to study dry statistics or history
-in the form of records of wars and political changes.
-We must study the works of the best poets, novelists,
-and dramatists, who seek to embody types and to hold
-up the mirror to contemporary ideas and manners. A
-careful perusal of such works as those of Dickens,
-Thackeray, Trollope, and George Eliot at home, and
-of Bret Harte, Howells, James, and Mrs. Burnett in the
-United States, will give a truer insight into the inner
-life of the country and period than any number of blue-books
-or consular returns. They show what the writers
-of the greatest genius, that is, of the greatest insight,
-see as types of the actual ideas and characters surrounding
-them; and the fact of their works being popular
-shows that the types are recognised as true. Now it
-is certain that the English literature of fiction and its
-latest development, that of the American novelists, show
-an ever-increasing recognition of the female individual
-as an equal unit with the male in the constitution<span class="pagenum"><a name="Page_112" id="Page_112">[112]</a></span>
-of modern society. Those dear ‘school marms’ of Bret
-Harte’s and Wendell Holmes’, who career so joyously
-through mining camps, receiving courtesy and radiating
-civilising influences among the rough inhabitants;
-or touch the hearts and throw a mellow light over
-the autumn days of middle-aged professors and philosophers,
-are far removed from the slaves of prehistoric
-savages or the inmates of a Turkish harem. So
-also in the more complex relations of a more crowded
-civilisation, in the circles of Washington, New York, and
-Boston, the ideal American woman is always depicted
-as bright, intelligent, and independent, with a character
-and personality of her own, and the suspicion never
-seems to enter the author’s head that she is in any
-respect inferior to the male characters with whom she is
-associated.</p>
-
-<p>The same may be said to a great extent of English
-literature from the time of Shakespeare downwards.
-No better portrait than Portia was ever drawn of the</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Perfect woman, nobly planned</div>
-<div class="verse">To soothe, to comfort, and command;</div>
-<div class="verse">And yet a spirit still, and bright</div>
-<div class="verse">With something of an angel light.</div>
-</div>
-</div>
-
-<p class="noindent">And in the long gallery of good and loveable women,
-from Rosalind and Imogene down to Lucy Roberts and
-Laura Pendennis, we have not one who is a mere non-entity
-or child of passionate impulse. Nor is the recognition
-of woman’s equality less marked in the bad
-characters. Lady Macbeth is of a stronger nature than
-Macbeth; Becky Sharp more clever and full of resources
-than the men with whom she plays like puppets;
-Maggie Tulliver, with all her wild struggles with herself
-and her surroundings, has far more in her than her<span class="pagenum"><a name="Page_113" id="Page_113">[113]</a></span>
-brother Tom. Compare these characters with those of
-the school of modern French novels, which turn mainly
-on adultery and seduction, committed for the most part
-not in any whirlwind of irresistible passion, but to
-gratify some passing caprice or vanity, and it is easy to
-see how wide is the gulf which separates the ideals and
-moral atmosphere of the two countries.</p>
-
-<p>It is not therefore from any wish to indulge in what
-Herbert Spencer calls the ‘unpatriotic bias,’ and depreciate
-my own country, that I am disposed to think
-that the younger English-speaking communities are
-somewhat in advance of ourselves in this matter of the
-relations of the sexes, but simply because I think that
-the feeling is there more widespread and universal. We
-have in English society two strata in which women are
-still considered as inferior beings to men: a lower one,
-where better ideas have not yet permeated the dense
-mass of ignorance and brutality; and a higher one,
-where among a certain portion, let us hope a small
-one, of the gilded youth and upper ten, luxury and
-idleness have blunted the finer susceptibilities, and
-created what may be most aptly called a Turkish tone
-about women. There are many of this class, and unfortunately
-often in high places, where their example
-does widespread mischief, whose ideal might be summed
-up in the words of the Irish ballad:—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">I am one of the ould sort of Bradies,</div>
-<div class="verse indent1">My turn does not lie to hard work;</div>
-<div class="verse">But I’m fond of my pipe and the ladies,</div>
-<div class="verse indent1">And I’d make a most illigant Turk.</div>
-</div>
-</div>
-
-<p class="noindent">And most ‘illigant Turks’ they make, though far
-worse than real Turks who are born and brought up in
-the ideas and surroundings of a lower civilisation; while<span class="pagenum"><a name="Page_114" id="Page_114">[114]</a></span>
-the tone of our English Turks is far more nauseous and
-disgusting, as denoting innate selfishness, sensuality,
-and vulgarity. Of these two classes there seem to be
-fewer in the newer English communities; and if they
-exist, they are in such a small minority that they conceal
-their existence, and pay the homage of vice to
-virtue which is called hypocrisy.</p>
-
-<p>To return, however, to the more scientific aspects of
-the question, the polarity of sex displays itself as conspicuously
-as that of the magnet in the fundamental
-law of repulsion of like for like, and attraction of like
-for unlike. In each case there must be an identity of
-essence developing itself in opposite directions. Thus,
-atoms attract or repel atoms, but not molecules; for if
-they seem to do so, it is only in cases in which the
-molecule contains some atom whose atomicity or polar
-power has not been fully satisfied. So currents of air
-or water do not affect electric currents. But given the
-identity of substance, its differentiation takes place
-under an ever-increasing progression of polarity of
-affinities and repulsions.</p>
-
-<p>A German naturalist, Brahm, discussing the question
-why birds sing, says, ‘the male finds in the female
-those desirable and attractive qualities which are wanting
-in himself. He seeks the opposite to himself with
-the force of a chemical element.’ This is equally true
-of the male and female of the human species. A
-masculine woman and effeminate man are equally unattractive,
-and if the qualities are pushed to an extreme
-extent, the individuals become monstrosities, and, instead
-of attracting, excite vehement disgust and repulsion.
-This, which is true physically, is equally true
-of moral and intellectual characteristics. Each seeks,<span class="pagenum"><a name="Page_115" id="Page_115">[115]</a></span>
-in the happy marriage or perfect ideal union, the
-qualities which are most deficient in themselves: the
-woman, strength, active courage, and the harder qualities;
-the man, gentleness, amiability, and the softer virtues.
-In each individual, as in each union of individuals,
-harmony and perfection depend on the due balance of
-the opposite qualities, and the ‘falsehood of extremes’
-leads up to chaos and insanity. The man in whom
-strength and hardihood are not tempered by gentleness
-and affection becomes brutal and tyrannical; while the
-woman who has no strength of character becomes silly
-and frivolous. Marriage, however, involves the highest
-ideal, for the well-assorted union of the two in one
-gives a more complete harmony and reconciliation of
-opposites than can be attained by the single individual,
-who must always remain more or less within the sphere
-of the polarity of his or her respective sex. But here
-also the same law of polarity operates, for as happy
-marriage affords the highest ideal, so do unhappy and
-ill-assorted unions involve the greatest misery and most
-complete shipwreck of life. Especially to the woman,
-for the man has other pursuits and occupations, and can
-to a great extent withdraw himself from domestic
-troubles; while the woman has no defence against the
-coarseness, selfishness, and vulgarity of the partner to
-whom she is tied, and who may make her life a perpetual
-purgatory, and drag all her finer intellectual and moral
-nature down to a lower level. Fortunately extreme
-cases are rare, and, though the ideal of a perfect union
-may seldom be attained to, the great majority of married
-couples manage to jog on together, and bring
-up families in comparative comfort and respectability.
-Evidently, however, in many cases the weaker party<span class="pagenum"><a name="Page_116" id="Page_116">[116]</a></span>
-does not get fair play, and the laws which are the
-result of centuries of male legislation are often too
-oblivious of the maxim that what is ‘sauce for goose is
-sauce for gander.’ Improvement, however, is coming
-from the growth of the more healthy public opinion
-which stigmatises any invasion of woman’s real rights,
-and any attempt on the part of her natural protector
-to bully and tyrannise, as utterly disgraceful; and the
-waves of this public opinion are slowly but surely
-sapping the cliffs of legal conservatism, and forcing the
-intrenchments of stolid injustice behind ermine robes,
-horsehair wigs, and obsolete Acts of Parliament.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_117" id="Page_117">[117]</a></span></p>
-
-<h2 id="CHAPTER_IX">CHAPTER IX.<br />
-<span class="smaller">PRIMITIVE POLARITIES—HEREDITY AND VARIATION.</span></h2>
-
-<div class="chapter">
-
-<p>Heredity in simple forms of life—In more complex organisms—Pangenesis—Varieties
-how produced—Fixed by law of survival of the
-fittest—Dr. Temple’s view—Examples: triton, axolotl—Variations in
-individuals and species—Lizards into birds—Ringed snakes—Echidna.</p>
-
-</div>
-
-<p>As the earth is kept in an orbit, which makes life possible
-by the balance of the antagonist centripetal and
-centrifugal forces, so is that life evolved and maintained
-by the balance of the two conflicting forces of heredity
-and variation. Heredity, or the principle which makes
-offsprings resemble their parental organisms, may be
-considered as the centripetal force which gives stability
-to species; while variation is like the centrifugal force
-which tends to make them develop into new forms,
-and prevents organic matter from remaining ever consolidated
-into one uniform mass.</p>
-
-<p>As regards heredity, the considerations which have
-been advanced in the last chapter, on the origin of sex,
-will enable the reader to understand the principles on
-which it is based. When a moneron, or living piece of
-pure protoplasm, or its successor the nucleated cell, propagates
-itself by simple division into two equal parts,
-it is obvious that each half must, in its atomic constitution
-and motions, exactly resemble the original. If
-amœba A divides into amœbæ B and C, both B and C<span class="pagenum"><a name="Page_118" id="Page_118">[118]</a></span>
-are exact facsimiles of A and of one another, and so are
-the progeny of B and C through any number of generations.
-They must remain identical repetitions of the
-parent form, unless some of them should happen to
-be modified by different actions of their surrounding
-environment, powerful enough to affect the original
-organisation.</p>
-
-<p>In propagation by germs or buds, the same thing
-must hold true, only, as the offspring carries with it
-not the half, but only a small portion of the parental
-organism, its impress will be less powerful, and the
-new organism will more readily be affected by external
-influences. When we come to propagation by spores or
-single cells, and still more to sexual propagation by the
-union of single cells of two progenitors, it becomes
-more difficult to see how the type of the two parents, and
-of a long line of preceding ancestors, can be maintained
-so perfectly.</p>
-
-<p>Of the fact that it is maintained there can be no
-doubt. Not only do species breed true and remain
-substantially the same for immense periods, but the
-characters of individual parents and their ancestors
-repeat themselves, to a great extent, in their offspring.
-Thus the cross between the white and black varieties
-of the human species perpetuates itself to such an
-extent, that a single cross of black blood leaves traces
-for a number of generations. In the Spanish American
-States and the West Indies, where the distinction is
-closely observed, the term ‘octoroon’ is well known,
-as applied to Creoles who have seven-eighths of white
-to one-eighth of black blood in their composition. In
-the case of what is called ‘atavism,’ this recurrence to
-the characters of ancestors is carried to a much further<span class="pagenum"><a name="Page_119" id="Page_119">[119]</a></span>
-extent. In breeding animals, it is not uncommon to
-find the peculiar features of generations of ancestors
-long since extinct cropping up occasionally in individuals.
-Thus, stripes like those of the ass along the
-back and down the shoulders, occasionally appear on
-horses whose immediate ancestors for many generations
-back showed nothing of the sort; and even stripes
-across the legs like those of the zebra occur quite
-unexpectedly, and testify to the common descent of the
-various species of the horse tribe from a striped ancestor.
-How these ancestral peculiarities can be transmitted
-through many generations, each individual of
-which originated from a single microscopic cell which
-had been fructified by another cell, is one of the greatest
-mysteries of nature. It may assist us in forming
-some idea of the possibility of a solution to remember
-what has been proved as to the dimensions of
-atoms. Their order of magnitude is that of a cricket-ball
-to the earth. In a single microscopic cell, therefore,
-there may be myriads of such atoms circling round
-one another and forming infinitesimal solar systems, of
-infinite complexity and variety. Darwin’s theory of
-‘Pangenesis’ supposes that some of the actual identical
-atoms which formed part of ancestral bodies are thus
-transmitted through their descendants for generation
-after generation, so that we are literally ‘flesh of the
-flesh’ of the primæval creature who was developed
-into man in the later tertiary or early glacial period.
-Haeckel, more plausibly, suggests that not the identical
-atoms, but their peculiar motions and mode of aggregation
-have been thus transmitted: a mode of transmission
-which, with his prevailing tendency to invent
-long and learned names for everything, he calls the<span class="pagenum"><a name="Page_120" id="Page_120">[120]</a></span>
-‘Perigenesis of plastids.’ In any case, however, these
-must be taken not as solutions of the problem, but as
-guesses at the truth which show that its solution is
-not impossible.</p>
-
-<p>The opposite principle to heredity, that of variation,
-is equally important and universal. It is apparent in
-the fact, that although every individual of every species
-reproduces qualities of parents and ancestors, no two
-individuals do so in precisely the same manner; no two
-are exactly alike. This difference, or individuality, becomes
-more marked as the organism is higher. Thus,
-sheep and hounds differ from one another by slight
-differences which require the practised eye of the shepherd
-or huntsman to detect; while human beings are
-so unlike, that of the many millions existing in each
-generation no two exactly resemble one another. The
-reason of this is apparent if we consider that the higher
-the organism the more complex does it become, and the
-less the chance of the whole complicated relations of
-parent and ancestral organisms being transmitted by
-single cells so solidly and completely as to overpower
-and remain uninfluenced by external influences. Variation
-evidently depends mainly on the varying influences
-of environment. If the exterior layer of molecules
-of a lump of protoplasm become differentiated from the
-interior ones and form a cell-wall, it is because they are
-in more immediate contact with the air or other surrounding
-medium. Internal changes depend on conditions
-such as temperature and nutrition. In the case
-of cultivated plants and domestic animals we can see
-most clearly how varieties are produced by adaptation
-to changes of environment. These variations, however,
-would not proceed very far, were it not for the interaction<span class="pagenum"><a name="Page_121" id="Page_121">[121]</a></span>
-of the opposing forces of variation and heredity,
-by which latter the variations appearing in individuals
-are fixed and accumulated in descendants, until they
-become wide and permanent divergencies. This is done
-in the case of cultivated plants and domestic animals by
-man’s artificial selection in pairing individuals who show
-the same variations; and in nature by the struggle for existence,
-giving victory and survival to those forms, and
-in the long run to those forms only, whose variations,
-slight as they may be in each generation, tend to bring
-individuals into better adaptation to their environment.</p>
-
-<p>It is the great glory of Darwin to have established
-this firmly by an immense number of interesting and
-exhaustive instances, and thus placed evolution, or a
-scientific explanation of the development and laws of
-life, on a solid basis. Every day fresh discoveries and experiments
-confirm this great principle, and it has almost
-passed into the same phase as Newton’s law of gravity,
-as a fundamental law accepted as axiomatic by all men
-of science, and as the basis of modern thought, to which
-all religions and philosophies have to conform, accepted
-by nearly all modern thinkers. I may here quote a
-passage from an eminent Anglican divine, Dr. Temple,
-for the double purpose of showing how universal has
-become the acceptance of this Darwinian view of evolution
-among intelligent men; and how little terrible
-are its consequences, even to those who look at the
-facts of the universe through a theological medium and
-retain their belief in accepted creeds.</p>
-
-<p>‘It seems in itself something more majestic, more
-befitting of Him to whom a thousand years are as one
-day, and one day as a thousand years, thus to impress
-His will once for all on this creation, and provide for<span class="pagenum"><a name="Page_122" id="Page_122">[122]</a></span>
-all its countless varieties by this one original impress,
-than by special acts of creation to be perpetually modifying
-what He had previously made.’<a name="FNanchor_1" id="FNanchor_1"></a><a href="#Footnote_1" class="fnanchor">[1]</a></p>
-
-<div class="footnotes">
-
-<div class="footnote">
-
-<p><a name="Footnote_1" id="Footnote_1"></a><a href="#FNanchor_1"><span class="label">[1]</span></a> Dr. Temple, <i>Religion and Science</i>.</p>
-
-</div>
-
-</div>
-
-<p>Scientific men would be content to accept this statement
-of Dr. Temple’s almost in his own words, except
-that they might consider his definition of the Great First
-Cause as somewhat too absolute and confident. Having
-had to deal so much with actual facts and accurate
-knowledge, they are apt to be more modest in assertion
-than even the most enlightened theologian, whose
-studies have lain rather in the direction of phrases and
-ideas, which, from their very nature, are more vague
-and indefinite, and perhaps rather guesses and aspirations
-after truth, than proofs of it. In any case there
-is the authority of a learned and liberal-minded bishop
-for the position that the scientific way of looking at the
-universe is not necessarily profane or irreligious.</p>
-
-<p>To return to variation: the instances of the operation
-of this principle, alone or in conjunction with that
-of heredity, in working out the evolution of species,
-are exceedingly numerous and interesting. Those who
-wish to understand the subject thoroughly must study
-the works of Darwin, Haeckel, Huxley, and other modern
-writers; but for my present purpose it will be sufficient
-to refer to a few of the most marked instances which
-may assist the reader in comprehending how the gradual
-evolution of life and creation of new species may have
-been brought about.</p>
-
-<p>There is an amphibious animal, called the triton or
-water-salamander, akin to the frog, whose normal course
-is to begin life living in the water and breathing by
-gills, and end it on land with gills metamorphosed into<span class="pagenum"><a name="Page_123" id="Page_123">[123]</a></span>
-lungs. If they are shut up in water and kept in a tank
-they never lose their gills, but continue through life in
-the lower stage of development, and reproduce themselves
-in other tritons with gills. Conversely the
-axolotl, a peculiar gilled salamander from the Lake of
-Mexico, has its normal course to live, die, and propagate
-its species in water, breathing by gills; but if an
-axolotl happens to stray from the water and take to
-living on dry land, the gills are modified into lungs and
-the animal gains a place in the class in the school of
-development. This fits in remarkably with the fact
-that the embryo of all vertebrate mammals, including
-man, passes through the gilled stage before arriving at
-the development of lungs, which assists us in understanding
-two facts of primary importance in the history
-of evolution.</p>
-
-<p>First, how terrestrial life may have arisen from
-aquatic life by adaptation to altered conditions.</p>
-
-<p>Secondly, how the evolution of the embryo sums up
-in the individual, in the period of a few days or months,
-the various stages of evolutions which it has taken millions
-of years to accomplish in the species.</p>
-
-<p>As a parallel to the transformation of gills into
-lungs, and of an aquatic into a land animal, if we turn
-to the geological records of the Secondary period we
-may trace the transformation of a water into an air
-population, of sea-lizards into flying-lizards, and of flying-lizards
-into birds. The ‘Hesperornis’ is an actual
-specimen of the transition, being a feathered lizard,
-or rather winged and feathered creature which is half
-lizard and half bird.</p>
-
-<p>A remarkable instance of the great change of functions
-which may be produced by a change of outward<span class="pagenum"><a name="Page_124" id="Page_124">[124]</a></span>
-conditions is afforded by the common ringed snake,
-which in its natural state lays eggs which take three
-weeks to hatch; but if confined in a cage in which no
-sand is strewed it hatches the eggs within its own body,
-and from oviparous becomes viviparous. This may
-help us to understand how the lowest order of mammals,
-which, like the Australian echidna or duck-billed
-mole, lay eggs, may have developed, first into marsupial,
-and finally into placental mammals.</p>
-
-<p>These examples may assist the reader in understanding
-how the infinite diversities of living species may
-have been developed in the course of evolution from
-simple origins, just as the inorganic world was from
-atoms, by the action and reaction of primitive polar
-forces between the organism and its environment, and
-between heredity and variation.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_125" id="Page_125">[125]</a></span></p>
-
-<h2 id="CHAPTER_X">CHAPTER X.<br />
-<span class="smaller">THE KNOWABLE AND UNKNOWABLE—BRAIN AND
-THOUGHT.</span></h2>
-
-<div class="chapter">
-
-<p>Basis of knowledge—Perception—Constitution of brain—White and grey
-matter—Average size and weight of brains—European, negro, and ape—Mechanism
-of perception—Sensory and motor nerves—Separate
-areas of brain—Sensory and motor centres—Abnormal states of brain—Hypnotism—Somnambulism—Trance—Thought-reading—Spiritualism—Reflex
-action—Ideas how formed—Number and space—Creation
-unknowable—Conceptions based on perceptions—Metaphysics—Descartes,
-Kant, Berkeley—Anthropomorphism—Laws of
-nature.</p>
-
-</div>
-
-<p>Before entering on the higher subjects of religions and
-philosophies, it is well to arrive at some precise idea of
-the limits of human knowledge, and of the boundary
-line which separates the knowable from the unknowable.
-The ultimate basis of all knowledge is perception.
-Without an environment to create impressions, and
-an organ to receive them, we should know absolutely
-nothing. What is the environment and what the
-organ of human knowledge? The environment is the
-whole surrounding universe, or, in the last analysis, the
-motions, or changes of motion, by which the objects in
-that universe make impressions on the recipient organ.
-The organ is the grey matter of that large nervous
-agglomeration, the brain. But here I must at the outset
-make two reservations. In the first place I do not
-define how these impressions are made. In all ordinary<span class="pagenum"><a name="Page_126" id="Page_126">[126]</a></span>
-cases they are made through the channels of the senses;
-but it is possible that in certain exceptional cases vibrations
-in the brain, causing perceptions, may be conveyed
-to it through the nerves in other ways. In somnambulism,
-for instance, it seems to be an ascertained fact
-that a somnambulist with closed eyes securely bandaged
-can walk in the dark and avoid obstacles as well as if
-guided by the sight in full daylight. There is a great deal
-of evidence also that in artificial somnambulism, otherwise
-called mesmerism or hypnotism, and also in what
-is called thought-reading, perceptions may be conveyed
-from one brain to another otherwise than by the usual
-methods of speech or writing. But these phenomena,
-however far they may be extended, do not affect the
-position that impressions on the brain are the essential
-condition of thought. If the grey matter of the brain
-is deficient or diseased the mind is affected, and beyond
-a certain point becomes extinct.</p>
-
-<p>The second and more important reservation is, that
-although mind and all its qualities are thus indissolubly
-connected with matter, it by no means follows that
-they are matter or mere qualities of it. In the case of
-the atoms and energies, we know absolutely nothing
-of their real essence, and cannot form even a conception
-of what they are, how they came there, or what will
-become of them. It is the same with mind, soul, or
-self: we feel an instinctive certainty of their existence,
-as we do of that of matter; and we can trace their laws
-and manifestations under the conditions in which they
-are known to us, viz. those of association with matter
-and motion in the brain. But of their real essence or
-existence we know nothing, and it is as unscientific to
-affirm as to deny. Directly we pass beyond the boundary<span class="pagenum"><a name="Page_127" id="Page_127">[127]</a></span>
-of such knowledge as really can be known by
-human faculty, and stand face to face with the mystery
-of the Great Unknown, we can only bow our heads with
-reverence and say with the poet,</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Behold, I know not anything.</div>
-</div>
-</div>
-
-<p class="noindent">I hope thus to steer safely between Scylla and Charybdis—between
-the arid rocks of materialism and the
-whirling eddies of spiritualism. Materialist and spiritualist
-seem to me very like two men disputing as to the
-existence of life in the sun. ‘No,’ argues the former;
-‘for the known conditions there are totally inconsistent
-with any life we can conceive.’ ‘Yes,’ says the other;
-‘for the belief fits in with many things which I earnestly
-wish to believe respecting a Supreme Being and a future
-existence.’ To the first I say, ignorance is not evidence;
-to the second, wishes are not proofs. For myself, while
-not quarrelling with those more favoured mortals who
-have, or fancy they have, superior knowledge, I can
-only say that I really know nothing; and this being the
-case, I see no use in saying that I know, and think it both
-more truthful and more modest to confess the limitation
-of my faculties.</p>
-
-<p>With this caution I return to the field of positive
-knowledge. The brain, spinal marrow, and nerves consist
-of two substances: one white, which constitutes the
-great mass consisting of tubes or fibres; the other grey,
-which is an aggregation of minute cells, so minute that
-it has been computed that there are several millions of
-them in a space no larger than a sixpence. The bulk
-of this grey nerve-tissue is found in the higher animals,
-and especially in man, in the outside rind which covers the
-brain, and its amount is greatly increased by the convolutions<span class="pagenum"><a name="Page_128" id="Page_128">[128]</a></span>
-of that organ giving a greater extent of covering
-surface. In fact the convolutions of the average human
-brain give as much grey matter in a head of average
-size, as would be given by a head of four times the size
-if the brain were a plane surface. The extent of the
-convolutions is, therefore, a sure sign of the extent of
-intellect. They are more numerous and deeper in the
-European than in the negro; in the negro than in the
-chimpanzee; in the anthropoid ape than in the monkey
-or lemur. This grey nerve-tissue is the organ by which
-impressions from without are turned into perceptions,
-volitions, and evolutions of nerve force. The white
-matter is simply the medium of transmission, or we
-may say the telegraph wires by which the impressions
-are conveyed to the head office and the answers sent.
-The cell-tissue of the grey matter is thus emphatically
-the organ of the mind. In fact, if it did not sound too
-materialistic, we might call thought a secretion of the
-grey matter, only in saying so we must bear in mind
-that it is only a mode of expressing the fact that the
-two invariably go together; and that if we say with the
-German philosopher ‘Ohne Phosphor kein Gedank,’ it
-does not mean that thought and phosphorus are identical,
-but simply that the condition on which thought depends
-is that of the existence of a material organ of which
-phosphorus is an ingredient.</p>
-
-<p>That this grey nerve-tissue is really the organ of
-thought has been firmly established by numerous experiments
-both in man and the lower animals. Injuries
-to it, or diseases in it, invariably affect what is called
-the mind; while considerable portions of the white
-matter may be removed without affecting the thinking
-and perceptive powers. A certain amount of it is<span class="pagenum"><a name="Page_129" id="Page_129">[129]</a></span>
-indispensable for the existence of intellect; the more
-there is of it as the brain increases in size and the
-convolutions become deeper, the greater is the intellect;
-when these fall below certain dimensions intellect is
-extinguished and we have idiocy. The average brain
-of the male white European weighs 49½ ounces, of the
-negro a little under 47. The maximum brains which
-have been accurately weighed and measured, are those
-of Cuvier and Daniel Webster, the weight of the former
-being 64⅓ ounces, and the capacity of the latter being
-122 cubic inches; while the average capacity of the
-Teutonic race, including English, Germans, and Americans,
-is 92 inches, of the negro 83, and of the Australian
-and Hottentot 75. The brain of the idiot seldom
-weighs over 23 ounces, and the minimum weight consistent
-with a fair degree of intelligence is about 34
-ounces.</p>
-
-<p>The mechanism by which correspondence is kept
-up between the living individual and the surrounding
-universe is very simple—in reality, as simple as that of
-any ordinary electric circuit. In the most complex
-case, that of man, there are a number of nerve-endings,
-or small lumps of protoplasm, embedded in the tissues
-all over the body, or highly specialised and grouped
-together in separate organs such as the eye and ear,
-from which a nerve-fibre leads direct to the brain, or to
-the spinal cord and so up to the brain. These nerve-endings
-receive the different vibrations by which outward
-energy presents itself, which propagate a current
-or succession of vibrations of nerve-energy along the
-nerve-fibre. This nerve-fibre is a round thread of
-protoplasm covered by a white sheath of fatty matter
-which insulates it like the wire of a submarine telegraph<span class="pagenum"><a name="Page_130" id="Page_130">[130]</a></span>
-coated with gutta-percha. This nerve-wire leads up to
-a nerve-centre, consisting of two corpuscles of protoplasm:
-the first or sensory, a smaller one, which is
-connected by branches with the second, a much larger
-one, called the motor, from which a much larger nerve-fibre
-or wire proceeds, which terminates in a mass of
-protoplasm firmly attached to a muscle. Thus, a sensation
-is propagated along the sensory nerve to the
-sensory nerve-centre, whence it is transmitted to the
-motor-centre, which acts as an accumulator of stored-up
-energy, a large flow of which is sent through the large
-conductor of the motor-nerve to the muscle, which it
-causes to contract and thus produces motion. It is
-thus that the simpler involuntary actions are produced
-by a process which is purely mechanical. In the more
-complex cases, in which consciousness and will are
-involved, the process is essentially the same, though
-more complicated. The message is transmitted to the
-brain, where it is received by a cluster of small sensory
-cells or nerve-centres, which are connected with another
-cluster of fewer and larger motor-centres, often at some
-distance from them, by a network of interlacing fibres.
-But it is always a case of a single circuit of wires,
-batteries, and accumulators, adapted for receiving, recording,
-and transmitting one sort of vibrations caused
-by and producing one sort of energy, and one only.
-The brain does not act as a whole, receiving indiscriminately
-impressions of light, sound, and heat; but by
-separate organs for each, located in separate parts of it.
-It is like a great central office, in one room of which
-you have a printing instrument reading off and recording
-messages sent through an electric telegraph; in
-another a telephone; in a third a self-registering thermometer,<span class="pagenum"><a name="Page_131" id="Page_131">[131]</a></span>
-and so on. And the same for the motor-centres
-and nerves. One set is told off to move the
-muscles of the face, another those of the arms, others
-for the legs and body, and so forth. This is further
-complicated by the fact that the brain like the rest of
-the body has two sides, a right and left, and that in
-some cases the motor-apparatus is doubled, each working
-only on one side, while in others the same battery
-and wires serve for both. As a rule the right hemisphere
-of the brain works the muscles of the left side of
-the body, and <i>vice versâ</i>, so that an injury to one side
-of the brain may paralyse the voluntary motion of the
-limbs on the opposite side, leaving in a perfect condition
-those on its own side.</p>
-
-<p>In the case of the higher functions involving
-thought, the upper part of the brain, which performs
-these functions, seems to be a sort of duplex machine,
-so that we have two brains capable of thinking, just as
-we have two eyes capable of seeing. It is a remarkable
-fact that the areas of the brain which are appropriated
-to the lowest and most instinctive functions, which
-appear first, lie lowest, and as the functions rise the
-position of their nerve-centres rises with them. Thus,
-at the very base of the frontal convolutions at the lowest
-end of the fissure of Rolando, we find the motor areas
-for the lower part of the face, by which the lowest
-animals and the new-born infant perform their solitary
-function of sucking and swallowing. Higher up are the
-centres in the right and left brains for moving the
-upper limbs, that is, for seizing food and conveying it to
-the mouth, which is the next function in the ascending
-scale. Next above these are the centres for moving the
-lower limbs and for co-ordinating the motions of the<span class="pagenum"><a name="Page_132" id="Page_132">[132]</a></span>
-arms and legs, marking the progression of an organism
-which can pursue and catch as well as eat its food.
-And still higher are the centres which regulate the
-motions of the trunk and body in correspondence with
-those of the limbs; while highest of all, at the front
-and hind ends of the enveloping cortex of the brain,
-come the organs of the intellectual faculties.</p>
-
-<p>It is easy to see that this corresponds with the progression
-of the individual, for the infant sucks and cries
-for food from the first day, soon learns to extend its
-hand and grasp objects, but takes some time to learn to
-walk, and still longer to perform exercises like dancing
-or riding, in which the motions of the whole body
-have to be co-ordinated with those of the limbs. And
-as the development of the individual is an epitome of
-the evolution of life from protoplasm, we may well
-suppose that the brain was developed in this order from
-its first origin in a swelling at the end of the spinal
-cord as we find it in the lowest vertebrates.</p>
-
-<p>It is a singular fact that the particular motor area
-which gives the faculty of articulate speech lies in a
-small patch of about one and a half square inches on
-the left side of the lower portion of the first brain. If
-this is injured, the disease called aphasia is produced, in
-which the patient loses the power of expressing ideas
-by connected words. The corresponding area on the
-right side cannot talk; but in left-handed persons this
-state of things is reversed, and the right side, which is
-generally aphasial, can be taught to speak in young
-people, though not in the aged.</p>
-
-<p>Higher up in the cortex, or convoluted envelope of
-the brain, come the areas for hearing and seeing, the
-latter being the more extensive. These areas are filled<span class="pagenum"><a name="Page_133" id="Page_133">[133]</a></span>
-mainly by a great number of sensory nerve-centres or
-cells, connected with one another in a very complicated
-network. These seem to be connected with the multitude
-of ideas which are excited in the brain by perceptions
-derived from the higher senses, especially that
-of sight. The simple movements are produced by a
-few large motor-centres, which have only one idea and
-do only one thing, whether it be to move the leg or the
-arm. But a sensation from sight often calls up a multitude
-of ideas. Suppose you see the face of one with
-whom some fifty years ago you may have had some
-youthful love passages, but your lives drifted apart, and
-you now meet for the first time after these long years,
-how many ideas will crowd on the mind, how many
-nerve-cells will be set vibrating, and how many nerve-currents
-set coursing along intricate paths! No wonder
-that the nerve-corpuscles are numerous and minute,
-and the nerve-channels many and complicated.</p>
-
-<p>When we come to the seats of the intellectual
-faculties the question becomes still more obscure.
-They are probably situated in the hinder and front
-parts of the surface of the brain, and depend on the
-grey matter consisting of an immense number of minute
-sensory cells. It has been computed that there are
-millions in the area of a square inch, and they are all in
-a state of the most delicate equilibrium, vibrating with
-the slightest breath of nervous impression. They depend
-for their activity entirely on the sensory perceptive
-centres, for there is no consciousness in the absence of
-sensory stimulation, as in dreamless sleep. Perception,
-however caused, whether by outward stimulation of real
-objects, or by former perceptions revived by memory,
-sends a stream of energy through the sense-area, which<span class="pagenum"><a name="Page_134" id="Page_134">[134]</a></span>
-expands, like a river divided into numerous channels,
-fertilising the intellectual area, where it is stored up
-by memory, giving us the idea of continual individual
-existence, and by some mysterious and unknown process
-becoming transformed into consciousness and deliberate
-thought. And conversely the process is reversed
-when what we call will is excited, and the small
-currents of the intellectual area are concentrated by an
-effort of attention and sent along the proper nerve-channels
-to the motor-centres, whose function it is to
-produce the desired movement. This mechanical explanation,
-it will be observed, leaves entirely untouched
-the question of the real essence and origin of these intellectual
-faculties, as to which we know nothing more
-than we do of the real essence and origin of life, of
-matter, and of energy.</p>
-
-<p>A very curious light however is thrown on them
-by phenomena which occur in abnormal states of the
-brain, as in trance, somnambulism, and hypnotism. In
-the latter, by straining the attention on a given object
-or idea, such as a coin held in the hand or a black wafer
-on a white wall, the normal action of the brain is, in the
-case of many persons—perhaps one out of every three
-or four—thrown out of gear, and a state induced in which
-the will seems to be annihilated, and the thoughts and
-actions brought into subjection to the will of another
-person. In this state also a cataleptic condition of the
-muscles is often induced, in which they acquire enormous
-strength and rigidity. In somnambulism outward
-consciousness is in a great measure suspended, and
-the somnambulist lives for the time in a walking dream
-which he acts and mistakes for reality. In this state
-old perceptions, scarcely felt at the time, seem to revive,<span class="pagenum"><a name="Page_135" id="Page_135">[135]</a></span>
-as in dreams, with such wonderful vividness and
-accuracy that the somnambulist in acting the dream
-does things altogether impossible in the waking state.
-Thus an ignorant Scotch servant-maid is said to have
-recited half a chapter of the Hebrew version of the Old
-Testament: the explanation being that she had been
-in the service of a Scotch minister, who was studying
-Hebrew, and who used to walk about his room reciting
-this identical passage. It would seem as if the brain
-were like a very delicate photograph plate, which takes
-accurate impressions of all perceptions, whether we
-notice them or not, and stores them up ready to be
-reproduced whenever stronger impressions are dormant
-and memory by some strange caprice breathes on the
-plate.</p>
-
-<p>Most wonderful, however, are some of the phenomena
-of trance. In this case it really seems as if
-two distinct individuals might inhabit the same body.
-Jones falls into a trance and dreams that he is Smith.
-While the trance lasts he acts and talks as Smith,
-he really is Smith, and even addresses his former self
-Jones as a stranger. When he wakes from the trance
-he has no recollection of it, and takes up the thread of
-his own life, just as if he had dozed for a minute instead
-of being in a trance for hours. But if he falls into a
-second trance, days or weeks afterwards, he takes up
-his trance life exactly where he dropped it, absolutely
-forgetting his intermediate real life. And so he may
-go on alternating between two lives, with two separate
-personalities and consciousnesses, being to all intents
-and purposes now Jones and now Smith. If he died
-during a trance, which would he be, Jones or Smith?
-The question is more easily asked than answered; but it<span class="pagenum"><a name="Page_136" id="Page_136">[136]</a></span>
-certainly appears as if with one mode of motion in the
-same brain you might have one mind and personal
-identity associated with it, and with another mode of
-motion different ones.</p>
-
-<p>It would take me too far, and the facts are too
-doubtful, to investigate the large class of cases included
-under the terms thought-reading, telepathy, psychism,
-and spiritualism. It may suffice to say that there is a
-good deal of evidence for the reality of very curious
-phenomena, but none of any real weight for their being
-caused by any spiritualistic or supernatural agency.
-They all seem to resolve themselves into the assertion
-that under special conditions the perceptions of one
-brain can be reproduced in another otherwise than by
-the ordinary medium of the senses, and that in such
-conditions a special sort of cataleptic energy or psychic
-force may be developed. The amount of negative evidence
-is of course enormous, for it is certain that in
-millions upon millions of cases thought cannot be read,
-things are not seen beyond the range of vision, and
-coincidences do not occur between deaths and dreams
-or visions. Neither can tables be turned, nor heavy
-bodies lifted, without some known form of energy and
-a fulcrum at which to apply it.</p>
-
-<p>This borderland of knowledge is, therefore, best left
-to time, which is the best test of truth. That which is
-real will survive, and be gradually brought within the
-domain of science and made to fit in with other facts
-and laws of nature. That which is unreal will pass
-away, as ghosts and goblins have done, and be forgotten
-as the fickle fashion changes of superstitious fancy. In
-the meantime we shall do better to confine ourselves to
-ascertained facts and normal conditions.</p>
-
-<p><span class="pagenum"><a name="Page_137" id="Page_137">[137]</a></span></p>
-
-<p>It is pretty certain that although the brain greatly
-preponderates as an organ of mind in man and the
-higher animals, the grey tissue in the spinal marrow and
-nervous ganglia exercises a limited amount of the
-same functions proportionate to its smaller quantity.
-The reflex or automatic actions, such as breathing, are
-carried on without reference to the brain, and the messages
-are received and transmitted through the local
-offices without going to the head office. This is the case
-with many complicated motions which originated in the
-brain, but have become habitual and automatic, as in
-walking, where thought and conscious effort only intervene
-when something unusual occurs which requires
-a reference to the head office; and in the still more
-complex case of the piano-player, who fingers difficult
-passages correctly while thinking of something else or
-even talking to a bystander.</p>
-
-<p>Indeed, in extreme cases, where experiments on the
-brain have been tried on lower animals, it is found
-that it can be entirely removed without destroying life,
-or affecting many of the actions which require perception
-and volition. Thus, when the brain has been entirely
-removed from a pigeon, it smoothes its feathers
-with its bill when they have been ruffled, and places its
-head under its wing when it sleeps; and a frog under
-the same conditions, if held by one foot endeavours to
-draw it away, and if unsuccessful, places the other foot
-against an obstacle in order to get more purchase in the
-effort to liberate itself.</p>
-
-<p>So much for the organ of mind; the other factor,
-that of outward stimulus, is still more obvious. If
-thought cannot exist without grey nerve-tissue, neither
-can it without impressions to stimulate that tissue. A<span class="pagenum"><a name="Page_138" id="Page_138">[138]</a></span>
-perfect brain, if cut off from all communication with
-the external universe, could no more think and have
-perceptions, than impressions from without could generate
-them without the appropriate nerve-tissue. Once
-generated, the mind can store them up by memory, control
-them by reason, and gradually evolve from them
-ever higher and higher ideas and trains of reasoning,
-both in the individual and the species:—in the individual
-passing from infancy to manhood, partly by
-heredity from ancestors, and partly by education—using
-the word in the large sense of influences of all sorts
-from the surrounding environment; in the species, by a
-similar but much slower development from savagery to
-civilisation.</p>
-
-<p>Thus the whole fabric of arithmetic, algebra, and the
-higher calculi are built up from the primitive perception
-of number. The earliest palæolithic savage must have
-been conscious of a difference between encountering one
-or two cave-bears or mammoths; and some existing
-races of savages have hardly got beyond this primitive
-perception. Some Australian tribes, it is said, have
-not got beyond three numerals, one, two, and a great
-number. But by degrees the perceptions of number
-have become more extensive and accurate, and the
-number of fingers on each hand has been used as a
-standard of comparison. Thus ten, or two-hand, the
-number of fingers on the two hands has gradually
-become the basis of arithmetical numeration, and from
-this up to Sir W. Hamilton’s ‘Quaternions’ the progression
-is regular and intelligible. But Newton could
-never have invented the differential calculus and solved
-the problem of the heavens, if thousands of centuries
-before some primitive human mind had not received the<span class="pagenum"><a name="Page_139" id="Page_139">[139]</a></span>
-perception that two apples or two bears were different
-from one.</p>
-
-<p>In like manner geometry, as its name indicates,
-arises from primitive perceptions of space, applied to the
-practical necessity of land-measuring in alluvial valleys
-like those of the Nile and Euphrates, where annual
-inundations obliterated to a great extent the dividing
-lines between adjoining properties. The first perceptions
-of space would take the form of the rectangle, or so
-many feet or paces, or cubits or arm-lengths, forwards,
-and so many sideways, to give the proper area; but as
-areas were irregular, it would be discovered that the
-triangle was necessary for more accurate measurement.
-Hence the science of the triangle, circle, and other
-regular forms, as we see it developed in Euclid and
-later treatises on geometry, until we see it in its latest
-development in speculations as to space of four dimensions.</p>
-
-<p>But in all these cases we see the same fundamental
-principle as prevails throughout the universe
-under the name of the ‘conservation of energy’; always
-something out of something, never something out of
-nothing.</p>
-
-<p>This, therefore, defines the limit of human knowledge,
-or boundary line between the knowable and the
-unknowable. Whatever is <i>transformation</i> according to
-existing laws is, whether known or unknown, at any
-rate, knowable—whatever is <i>creation</i> is unknowable.
-We have absolutely no faculties to enable us to form
-the remotest conception of what the essence of these
-primary atoms and energies really is, how they came
-there, and how the laws, or invariable sequences, under
-which they act, came to be impressed on them. We<span class="pagenum"><a name="Page_140" id="Page_140">[140]</a></span>
-have no faculties, because we have never had any
-perceptions upon which the mind can work. Reason
-and imagination can no more work without antecedent
-perceptions than a bird can fly in a vacuum.</p>
-
-<p>Thus, for instance, the imagination can invent
-dragons, centaurs, and any number of fabulous monsters,
-by piecing together fragments of perceptions in
-new combinations; but ask it to invent a monster
-whose head shall be that of an inhabitant of Saturn
-and its body that of a denizen of Jupiter, and
-where is it? Of necessity all attempts to define or
-describe things of which we have never had perceptions,
-must be made in terms of things of which
-we have had perceptions, or, in other words, must be
-anthropomorphic.</p>
-
-<p>So far as science gives any positive knowledge as
-to the relations of mind to matter, it amounts to this:
-That all we call mind is indissolubly connected with
-matter through the grey cells of the brain and other
-nervous ganglia. This is positive. If the skull could
-be removed without injury to the living organism, a
-skilful physiologist could play with his finger on the
-human brain, as on that of a dog, pigeon, or other
-animal, and by pressure on different notes, as on the
-keys of a piano, annihilate successively voluntary motion,
-speech, hearing, sight, and finally will, consciousness,
-reasoning power, and memory. But beyond this
-physical science cannot go. It cannot explain how
-molecular motions of cells of nerve-centres can be
-transformed into, or can create, the phenomena of mind,
-any more than it can explain how the atoms and
-energies to which it has traced up the material universe
-were themselves created or what they really are.</p>
-
-<p><span class="pagenum"><a name="Page_141" id="Page_141">[141]</a></span></p>
-
-<p>All attempts to further fathom the depths of the
-unknown follow a different line, that of metaphysics,
-or, in other words, introspection of mind by mind, and
-endeavour to explain thought by thinking. On entering
-into this region we at once find that the solid earth
-is giving way under our feet, and that we are attempting
-to fly in an extremely rare atmosphere, if, indeed, we
-are not idly flapping our wings in an absolute vacuum.
-Instead of ascertained facts which all recognise, and
-experiments which conducted under the same conditions
-always give the same results, we have a dissolving view
-of theories and intuitions, accepted by some, denied by
-others, and changing with the changing conditions of
-the age, and with individual varieties of characters,
-emotions, and wishes. Thus, mind and soul are with
-some philosophers identical, with others mind is a
-product of soul; with some soul is a subtle essence,
-with others absolutely immaterial; with some it has an
-individual, with others a universal, existence; by some
-it is limited to man, by others conceded to the lower
-animals; by some located in the brain, by others in
-the heart, blood, pineal gland, or dura mater; with
-some it is pre-existent and immortal, with others
-created specially for its own individual organism; and
-so on <i>ad infinitum</i>. The greatest philosophers come
-mostly to the conclusion that we really know nothing
-about it. Thus Descartes, after having built up an
-elaborate metaphysical theory as to a spiritual, indivisible
-substance independent of the brain and cognisable
-by self-consciousness alone, ends by honestly
-confessing ‘that by natural reason we can make many
-conjectures about the soul, and have flattering hopes,
-but no assurance.’ Kant also, greatest of metaphysicians<span class="pagenum"><a name="Page_142" id="Page_142">[142]</a></span>
-in demolishing the fallacies of former theories, when he
-comes to define his ‘noumenon,’ has to use the vaguest
-of phrases, such as ‘an indescribable something, safely
-located out of space and time, as such not subject to
-the mutabilities of those phenomenal spheres, ... and
-of whose ontological existence we are made aware by
-its phenomenal projections, or effects in consciousness.’
-The sentence takes our breath away, and makes us
-sympathise with Bishop Berkeley when he says, ‘We
-metaphysicians have first raised a dust, and then
-complain we cannot see.’ It prepares us also for
-Kant’s final admission that nothing can really be proved
-by metaphysics concerning the attributes, or even the
-existence, of the soul; though, on the other hand, as it
-cannot be disproved, its reality may for moral purposes
-be assumed.</p>
-
-<p>It appears, therefore, that the efforts of the sublimest
-transcendentalists do not carry us one step farther than
-the conclusions of the commonest common-sense, viz.
-that there are certain fundamental conditions of thought,
-such as space, time, consciousness, personal identity,
-and freedom of will, which we cannot explain, but cannot
-get rid of. The sublimest speculations of a Plato and a
-Kant bring us back to the homely conclusions of the
-old woman in the nursery ballad, in whose mind grave
-questions as to her personal identity were raised by the
-felonious abstraction of the lower portion of her petticoat.</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">If I be I, as I think I be,</div>
-<div class="verse">I’ve a little dog at home, and he’ll know me.</div>
-</div>
-</div>
-
-<p class="noindent">It is a safe ‘working hypothesis’ that when I go
-home in the afternoon, my wife, children, and little dog
-will recognise me as being ‘I myself I;’ but why or<span class="pagenum"><a name="Page_143" id="Page_143">[143]</a></span>
-how I am I, whether I was I before I was born, or
-shall be so after I am dead, I really know no more
-than the little dog who wags his tail and yelps for joy
-when he recognises my personal identity as something
-distinct from his own, when he sees me coming up the
-walk.</p>
-
-<p>Our conceptions, therefore, are necessarily based on
-our perceptions, and are what is called anthropomorphic.
-The term has almost come to be one of reproach, because
-it has so often been applied to religious conceptions of
-a Deity with human, though often not very humane,
-attributes; but, if considered rightly, it is an inevitable
-necessity of any attempt to define such a being or beings.
-We can only conceive of such as of a magnified man,
-indefinitely magnified no doubt, but still with a will,
-intelligence, and faculties corresponding to our own.
-The whole supernatural or miraculous theory of the
-universe rests on the supposition that its phenomena
-are, in a great many cases, brought about, not by
-uniform law, but by the intervention of some Power,
-which, by the exercise of will guided by intelligent
-design, alters the course of events and brings about
-special effects. As long as the theory is confined to
-knowable transformations of existing things, like those
-which are seen to be affected by human will, it is not
-necessarily inconceivable or irrational. Inferring like
-effects from like causes, the hypothesis was by no means
-unreasonable that thunder and lightning, for instance,
-were caused by some angry invisible power in the clouds.
-On the contrary, the first savage who drew the deduction
-was a natural philosopher who reasoned quite
-justly from his assumed premises. Whether the premises
-were true or not was a question which could only<span class="pagenum"><a name="Page_144" id="Page_144">[144]</a></span>
-be determined centuries later by the advance of accurate
-knowledge.</p>
-
-<p>When do we say we know a thing? Not when we
-know its essence and primary origin, for of these the
-wisest philosopher is as ignorant as the rudest savage;
-but when we know its place in the universe, its relation
-to other things, and can fit it in to that harmonious
-sequence of events which is summed up in what are
-called Laws of Nature. The highest knowledge is when
-we can trace it up to its earliest origin from existing
-matter and energy, and follow it downwards so as to
-be able to predict its results. The force of gravity
-affords a good illustration of this knowledge, both where
-it comes up to, and where it falls short of, perfection.</p>
-
-<p>Newton’s law leaves nothing to be desired as regards
-its universal application and power of prediction;
-but we do not yet fully understand its mode of action
-or its relation to other forms of energy. It is probable
-that some day we may be able to understand how the
-force of gravity appears to act instantaneously at a
-distance, and how all the transformable forces, gravity,
-light, heat, electricity, and molecular or atomic forces,
-are but different manifestations of one common energy.
-But in the meantime we know this for certain, that the
-law of gravity is not a local or special phenomenon, but
-prevails universally from the fixed stars to the atoms,
-from the infinitely great to the infinitely small. This
-is a <i>fact</i> to which all other phenomena, which are true
-facts and not illusions, must conform.</p>
-
-<p>In like manner, if we find in caves or river-gravels,
-under circumstances implying enormous antiquity, and
-associated with remains of extinct animals, rude implements
-so exactly resembling those in use among<span class="pagenum"><a name="Page_145" id="Page_145">[145]</a></span>
-existing savages, that if the collection in the Colonial
-Exhibition of stone celts and arrow-heads used by the
-Bushmen of South Africa were placed side by side
-with one from the British Museum of similar objects
-from Kent’s Cavern or the caves of the Dordogne, no
-one but an expert could distinguish between them, the
-conclusion is inevitable that Devonshire and Southern
-France were inhabited at some remote period by a race
-of men not more advanced than the Bushmen. Any
-theory of man’s origin and evolution which is to hold
-water must take account of this fact and square with
-it. And so of a vast variety of facts which have been
-reduced to law and become certainly known during the
-last half-century. A great deal of ground remains unexplored
-or only partially explored; but sufficient has
-been discovered to enable us to say that what we know
-we know thoroughly, and that certain leading facts and
-principles undoubtedly prevail throughout the knowable
-universe, including not only that which is known, but
-that which is as yet partially or wholly unknown. For
-instance, the law of gravity, the conservation of energy,
-the indestructibility of matter, and the law of evolution,
-or development from the simple to the complex.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_146" id="Page_146">[146]</a></span></p>
-
-<h2 id="CHAPTER_XI">CHAPTER XI.<br />
-<span class="smaller">RELIGIONS AND PHILOSOPHIES</span></h2>
-
-<div class="chapter">
-
-<p>Religions, ‘working hypotheses’—Newman’s illative sense—Origins of
-religions—Ghosts and spirits—Fetishes—Nature-worship—Solar
-myths—Planets—Evolution of nature-worship—Polytheism, pantheism,
-and theism—Evolution of monotheism in the Old Testament—Evolution
-of morality—Natural law and miracle—Evidence for
-miracles—Insufficiency of evidence—Absence of intelligent design—Agnosticism—Origin
-of evil—Can only be explained by polarity—Optimism
-and pessimism—Jesus, the Christian Ormuzd—Christianity
-without miracles.</p>
-
-</div>
-
-<p>Having thus, I may hope, given the reader some precise
-ideas of what are the boundaries and conditions of
-human knowledge, we may proceed to consider their
-application to the highest subjects, religions and philosophies.</p>
-
-<p>In the introductory chapter of this work I have said
-that all religions are in effect ‘working hypotheses,’ by
-which men seek to reconcile the highest aspirations of
-their nature with the facts of the universe, and bring
-the whole into some harmonious concordance. I said
-so for the following reasons. In a discussion at the
-Metaphysical Society on the uniformity of laws of
-nature, recorded in the ‘Nineteenth Century,’ Huxley is
-represented as saying that he considered this uniformity,
-not as an axiomatic truth like the first postulates of
-geometry, but as a ‘working hypothesis’; adding, however,
-that it was an hypothesis which had never been<span class="pagenum"><a name="Page_147" id="Page_147">[147]</a></span>
-known to fail. To this some distinguished advocates
-of Catholic theology replied, that their conviction was
-of a higher nature, for their belief in God was a final
-truth which was the basis of their whole intellectual
-and moral nature, and which it was irrational to question.
-This is in effect Cardinal Newman’s celebrated
-argument of an ‘illative sense,’ based on a complete
-assent of all the faculties, and which was therefore
-a higher authority than any conclusions of science.
-The answer is obvious, that complete assent, so far
-from being a test of truth, is, on the contrary, almost
-always a proof that truth has not been attained, owing
-either to erroneous assumptions as to the premises, or
-to the omission of important factors in the solution of
-the problem. To give an instance, I suppose there
-could not be a stronger case of complete assent than
-that of the Inquisitors who condemned the theories of
-Galileo. They had in support of the proposition that
-the sun revolved round the earth the testimony of the
-senses, the universal belief of mankind in all ages, the
-direct statement of inspired Scripture, the authority of
-the infallible Church. Was all this to be set aside
-because some ‘sophist vainly mad with dubious lore’
-told them, on grounds of some new-fangled so-called
-science, that the earth revolved round its axis and
-round the sun? ‘No; let us stamp out a heresy so contrary
-to our “illative sense,” and so fatal to all the most
-certain and cherished beliefs of the Christian world,
-to the inspiration of the Word of God, and to the
-authority of His Church.’ ‘E pur si muove,’ and yet
-the earth really did move; and the verdict of <i>fact</i> was
-that Galileo and science were right, and the Church and
-the illative sense wrong.</p>
-
-<p><span class="pagenum"><a name="Page_148" id="Page_148">[148]</a></span></p>
-
-<p>In truth the distinction between the conclusions of
-science and those of religious creeds might be more
-properly expressed by saying that the former are
-‘working hypotheses’ which never fail, while the
-latter are ‘working hypotheses’ which frequently fail.
-Thus, the fundamental hypothesis of Cardinal Newman
-and his school of a one infinite and eternal personal
-Deity, who regulates the course of events by frequent
-miraculous interpositions, so far from being a necessary
-and axiomatic truth, has never appeared so to the immense
-majority of the human race: and even at the
-present day, in civilised and so-called Christian countries,
-its principal advocates complain that ninety-nine
-out of every hundred practically ignore it. It is not so
-with the uniformity of the laws of nature. No palæolithic
-savage ever hesitated about putting one foot after
-another in chase of a mammoth from a fear that his
-working hypothesis of uniform law might fail, the support
-of the solid earth give way, and with his next
-step he might find himself toppling over into the abyss
-of an infinite vacuum. In like manner Greeks and
-Romans, Indians and Chinese, monotheists, polytheists,
-pantheists, Jews and Buddhists, Christians and Mahometans,
-all use standard weights in their daily transactions
-without any misgivings that the law of gravity
-may turn out not to be uniform. But religions theories
-vary from time to time and from place to place, and
-we can in a great many cases trace their origins and
-developments like those of other political and social
-organisms.</p>
-
-<p>To trace their origins we must, as in the case of
-social institutions, look first at the ideas prevailing
-among those savage and barbarous races who are the best<span class="pagenum"><a name="Page_149" id="Page_149">[149]</a></span>
-representatives of our early progenitors; and secondly
-at historical records. In the first case we find the earliest
-rudiments of religious ideas in the universal belief
-in ghosts and spirits. Every man is conceived of as
-being a double of himself, and as having a sort of
-shadowy self, which comes and goes in sleep or trance,
-and finally takes leave of the body, at death, to continue
-its existence as a ghost. The air is thus peopled
-with an immense number of ghosts who continue very
-much their ordinary existence, haunt their accustomed
-abodes, and retain their living powers and attributes,
-which are exerted generally with a malevolent desire to
-injure and annoy. Hence among savage races, and by
-survival even among primitive nations of the present day,
-we find the most curious devices to cheat or frighten
-away the ghost, so that he may not return to the house in
-which he died. Thus, the corpse is carried out, not by
-the door, but by a hole made for the purpose in the wall,
-which is afterwards built up, a custom which prevails
-with a number of widely separated races—Greenlanders,
-Hottentots, Algonquins, and Fijians; and the practice
-even survives among more civilised nations, such as the
-Chinese, Siamese, and Thibetans; nor is it wholly
-extinct in some of the primitive parts of Europe.</p>
-
-<p>This idea obviously led to the practice of constructing
-tents or houses for the ghosts to live in, and of depositing
-with them articles of food and weapons to be
-used in their ghostly existence. In the case of great
-chiefs, not only their arms and ornaments are deposited,
-but their horses, slaves, and wives were sacrificed and
-buried with them, so that they might enter spirit-land
-with an appropriate retinue. The early Egyptian tombs
-were as nearly as possible facsimiles of the house in<span class="pagenum"><a name="Page_150" id="Page_150">[150]</a></span>
-which the deceased had lived, with pictures of his geese,
-oxen, and other possessions painted on the walls, evidently
-under the idea that the ghosts of these objects
-would minister to the wants and please the fancy of the
-human ghost whose eternal dwelling was in the tomb
-where his mummy was deposited.</p>
-
-<p>Another development of the belief in spirits is that
-of fetish-worship, in which superstitious reverence is
-paid to some stock or stone, tree or animal, in which a
-mysterious influence is supposed to reside, probably
-owing to its being the chosen abode of some powerful
-spirit. This is common among the negro races, and
-it takes a curious development among many races of
-American Indians, where the tribe is distinguished by
-the totem, or badge of some particular animal, such as
-the bear, the tortoise, or the hare, which is in some way
-supposed to be the patron spirit of the clan, and often
-the progenitor from whom they are descended. This
-idea is so rooted that intermarriage between men and
-women who have the same totem is prohibited as a
-sort of incest, and the daughter of a bear-mother must
-seek for a husband among the sons of the deer or fox.
-Possibly a vestige of the survival of this idea may be
-traced in the coat-of-arms of the Sutherland family, and
-the wild cat may have been the totem of the Clan Chattan,
-while the oak tree was that of the Clan Quoich, with
-whom they fought on the Inch of Perth. Be this as it
-may, it is clearly a most ancient and widespread idea,
-and prevails from Greenland to Australia; while it
-evidently formed the oldest element of the prehistoric
-religion of Egypt, where each separate province had its
-peculiar sacred animal, worshipped by the populace in
-one nome, and detested in the neighbouring one.</p>
-
-<p><span class="pagenum"><a name="Page_151" id="Page_151">[151]</a></span></p>
-
-<p>By far the earliest traces of anything resembling
-religious ideas are those found in burying-places of the
-neolithic period. It is evident that at this remote
-period ideas prevailed respecting ghost or spirit life
-and a future existence very similar to those of modern
-savages. They placed weapons and implements in the
-graves of the dead, and not infrequently sacrificed human
-victims, and held cannibal feasts. Whether this was
-done in the far more remote palæolithic era is uncertain,
-for very few undoubted burials of this period have been
-discovered, and those few have frequently been used again
-for later interments. We can only draw a negative inference
-from the absence of idols which are so abundant
-in the prehistoric abodes explored by Professor
-Schliemann, among the very numerous carvings and
-drawings found in the caves of the reindeer period in
-France and Germany, that the religion of the palæolithic
-men, if they had any, had not reached the stage
-when spirits or deities were represented by images.</p>
-
-<p>For the first traces therefore of anything like what
-is now understood by the term religion, we must look
-beyond the vague superstitions of savages, at the historical
-records of civilised nations. As civilisation advanced
-population multiplied, and rude tribes of hunters
-were amalgamated into agricultural communities and
-powerful empires, in which a leisured and cultured
-class arose, to whom the old superstitions were no
-longer sufficient. They had to enlarge their ‘working
-hypothesis’ from the worship of stocks and stones and
-fear of ghosts, to take in a multitude of new facts and
-ideas, and specially those relating to natural phenomena
-which had roused their curiosity, or become important
-to them as matters of practical utility. The establishment<span class="pagenum"><a name="Page_152" id="Page_152">[152]</a></span>
-of an hereditary caste of priests accelerated this
-evolution of religious ideas, and from time to time recorded
-its progress. The oldest of such records are
-those of Egypt and Chaldæa, where the fertility of
-alluvial valleys watered by great rivers had led to the
-earliest development of a high civilisation. The records
-also of the Chinese, Hindoos, Persians, and other
-nations take us a long way back towards the origins of
-religions.</p>
-
-<p>In all cases we find them identical with the first
-origins of science, and taking the form of attempted
-explanations of natural phenomena, by the theory of
-deified objects and powers of nature. In the Vedas
-we see this in the simplest form, where the gods are
-simply personifications of the heavens, earth, sun, moon,
-dawn, and so forth; and where we should say the red
-glow of morning announces the rising of the sun, they
-express it that Aurora blushes at the approach of her
-lover the mighty Sun-god. It is very interesting to
-observe how the old Chaldæan legend of the creation of
-the world has been modified in the far later Jewish
-edition of it in Genesis, to adapt it to monotheistic ideas.
-The Chaldæan legend begins, like that of Genesis, with
-an ‘earth without form and void,’ and darkness on the
-chaotic deep. In each legend the Spirit of God, called
-Absu in the Chaldæan, moves on the face of the waters,
-and they are gathered together and separated from
-the land. But here a difference begins: in the original
-Chaldæan legend ‘the great gods were then made;
-the gods Lakman and Lakmana caused themselves to
-come forth; the gods Assur and Kesar were made; the
-gods Anu, Bel, and Hea were born.’</p>
-
-<p>The appearance of the gods Lakman and Lakmana<span class="pagenum"><a name="Page_153" id="Page_153">[153]</a></span>
-was the primitive mode of expressing the same idea
-as that which is expressed in Genesis by saying that
-God created the firmament separating the heaven above
-from the earth beneath; Assur and Kesar mean the
-same thing as the hosts of heaven and the earth; the
-god Bel is the sun, and so forth. It is evident that the
-first attempts to explain the phenomena of nature originated
-in the idea that motion and power implied life,
-personality, and conscious will; and therefore that the
-earth, sky, sun, moon, and other grand and striking
-phenomena, must be regarded as separate gods.</p>
-
-<p>As culture advanced astronomy became more and
-more prominent in these early religions, and solar myths
-became a principal part of their mythologies, while
-astrology, or the influence of planets and stars on
-human affairs, became an important part of practical
-life. The Chaldæan legend referred to contains a mass
-of astronomical knowledge, which in the Genesis edition
-is reduced to ‘He made the stars also.’ It describes
-how the constellations were assigned their forms and
-names, the twelve signs of the zodiac established, the
-year divided into twelve months, the equinoxes determined,
-and the seasons set their bounds. Also how
-the moon was made to regulate the months by its disc,
-‘horns shining forth to lighten the heavens, which on
-the seventh day approaches a circle.’</p>
-
-<p>In the still older Egyptian pyramids we find proof
-of the long previous existence of great astronomical
-knowledge and refined methods of observation, for these
-buildings, which are at once the largest and the oldest
-in the world, are laid down so exactly in a meridian
-line, and with such a close approximation to the true
-latitude, as would have otherwise been impossible. In<span class="pagenum"><a name="Page_154" id="Page_154">[154]</a></span>
-fact there is every reason to believe that while they
-were constructed as tombs for kings, they were at the
-same time intended for national observatories, for the
-arrangement of the internal passages as such is to make
-the Great Pyramid serve the purpose of a telescope,
-equatorially mounted, and showing the transits of stars
-and planets over the meridian, by reference to a reflected
-image of what was then the polar star, a knowledge of
-which was essential for accurate calculation of the calendar
-and seasons, for fixing the proper date of religious
-ceremonies, and very probably for astrological purposes.</p>
-
-<p>The prevalence of these solar and astronomical
-myths among a number of different nations separated
-by wide intervals of space and time is very remarkable.
-Egyptians, Indians, Babylonians, Chinese, Mexicans,
-and Peruvians had myths which were strangely similar,
-indeed almost identical, based on the sun’s annual
-passage through the constellations of the zodiac. His
-apparent decline and death as he approached the winter
-solstice, and his return to life when he had passed
-it, gave rise to myths of the murder of the Sun-god
-by some fierce wild boar, or treacherous enemy, and of
-his triumphant resurrection in renewed glory. Hence,
-also, the passage of the winter solstice was a season of
-general rejoicing and festivity, traces of which survive
-when the sirloin and turkey smoke upon the hospitable
-tables of modern Christmas. One remarkable myth
-had a very universal acceptance, that of the birth of the
-infant Sun-god from a virgin mother. It appears to
-have originated from the period, some 6,450 years ago,
-when the sun, which now rises at the winter solstice in
-the constellation of Sagittarius, rose in that of Pisces,
-with the constellation of the Virgin, with upraised arms<span class="pagenum"><a name="Page_155" id="Page_155">[155]</a></span>
-marked by five stars, setting in the north-west. Anyhow,
-this myth of an infant god born of a virgin mother
-holds a prominent place in the religions of Egypt, India,
-China, Chaldæa, Greece, Rome, Siam, Mexico, Peru,
-and other nations. The resemblances are often so close
-that the first Jesuit missionaries to China found that
-their account of the miraculous conception of Christ
-had been anticipated by that of Fuh-ke, born 3468 <span class="smcapuc">B.C.</span>;
-and if an ancient priest of Thebes or Heliopolis could be
-restored to life and taken to the Gallery of Dresden, he
-would see in Raffaelle’s Madonna di San Sisto what
-he would consider to be an admirable representation of
-Horus in the arms of Isis.</p>
-
-<p>The planets also, still more mysterious in their
-movements than the sun, and therefore still more
-endowed with human-like faculties of life, power, and
-purpose, were from an early period believed to exercise
-an influence on human affairs. Of the universality of
-this belief we find traces in the names of the days of
-the week, which are so generally taken from the sun,
-moon, and five visible planets—Mercury, Mars, Jupiter,
-Venus, and Saturn—to whom special days were dedicated.
-If every seventh day is a day of rest, it was
-originally so because it was thought unlucky to undertake
-any work on the Sabbath, Saturday, or day of the
-gloomy and malignant Saturn.</p>
-
-<p>As time rolled on and civilisation advanced, this
-simple nature-worship and deification of astronomical
-phenomena developed into larger and more complex
-conceptions. Following different lines of evolution,
-polytheism, pantheism and monotheism began to emerge
-as religious systems with definite creeds, rituals, and sacred
-books. These lines seem to have been determined<span class="pagenum"><a name="Page_156" id="Page_156">[156]</a></span>
-a good deal by the genius of the race in which the religious
-development took place. The impressions made
-on the human mind by the surrounding universe are
-very various. Suppose ourselves looking up at the
-heavens on a clear starry night, what will be the
-impression? To one, that of awe and reverence, and
-he will feel crushed, as it were, into nothingness, in the
-presence of such a sublime manifestation of majesty and
-glory. Another, of more æsthetic nature, will be charmed
-by the beauty of the spectacle, and tempted to assign
-life to it, and to personify and dramatise its incidents.
-A third, of a scientific turn, will above all things wish
-to understand it.</p>
-
-<p>Thus we find the impression of awe preponderating
-among the Semitic races generally; and as in their
-political relations, so in their religious conceptions, we
-find them prone to prostrate themselves before despotic
-power. With the Greeks again the æsthetic idea almost
-swallowed up the others, and the old astronomical
-myths blossomed into a perfect flower-bed of poetical
-and fanciful legends. The Chinese never got beyond
-a simple pantheism, which looked upon the universe
-as being alive, and saw nothing behind it; while
-the more metaphysical and physically feebler races of
-Hindoos and Buddhists refined their pantheism into a
-system of illusion, in which their own existence and
-the surrounding universe were literally</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent10">such stuff</div>
-<div class="verse">As dreams are made on,</div>
-</div>
-</div>
-
-<p class="noindent">and to be ‘rounded with a sleep’ was the final consummation
-devoutly to be desired.</p>
-
-<p>Monotheism developed itself later, partly from the<span class="pagenum"><a name="Page_157" id="Page_157">[157]</a></span>
-feeling of the unity of nature forcing itself on the more
-philosophical minds; partly from that feeling of reverence
-and awe in presence of the Unknown which
-swallowed up other conceptions; and partly, in the
-earlier stages, from the feeling which exalted the local
-god of the tribe or nation, first into a supremacy over
-other gods, and finally into sole supremacy, degrading
-all other gods into the category of dumb idols made by
-human hands. In the Old Testament we can trace the
-development of this latter idea in its successive stages.
-Until the later days of the Jewish monarchy it is evident
-that the Jews never doubted the existence of other
-gods; and their allegiance oscillated between Jehovah
-and the heathen deities symbolised by the golden calf,
-worshipped in high places, and contending for the
-mastership in the rival sacrifices of Elijah and the
-priests of Baal. But the prophetic element gradually
-introduced higher ideas, and in the reigns of Hezekiah
-and Josiah the worship of Jehovah as the sole God
-became the religion of the State; and old legends and
-documents were re-edited in this sense in the sacred
-book, which was discovered and published for the first
-time in the reign of the latter king. The subsequent
-misfortunes of the nation, their captivity and contact
-with other religions in Babylonia, strengthened this
-monotheism into an ardent, passionate national faith,
-as it has continued to be with this remarkable people up
-to the present day. Christianity and Mahometanism,
-children of Judaism, have spread this form of faith over
-a great part of the civilised world; and of the three
-theories of polytheism, pantheism, and monotheism, it
-may be said that only the two latter survive.</p>
-
-<p>Polytheism was bound to perish first, for slow as<span class="pagenum"><a name="Page_158" id="Page_158">[158]</a></span>
-the advance of science was, the uniformity of most of
-the phenomena, which had been attributed to so many
-separate gods, could not fail to make an impression;
-and as ideas of morality came slowly and tardily to
-be evolved as an element of religion, the cruel rites
-and scandalous fables which so generally accompanied
-polytheistic religions became shocking to an awakening
-conscience.</p>
-
-<p>It is worthy of remark that this element of morality,
-which has now gone so far towards swallowing up the
-others, was the latest to appear. Even in the Jewish
-conception Jehovah was for a long time just as often
-cruel, jealous, and capricious, as just and merciful; and
-St. Paul’s doctrine that because God had the power to
-do as He liked, He was warranted in creating a large
-portion of the human race as ‘vessels of wrath,’ predestined
-to eternal punishment, is as revolting to the
-modern conscience as any sacrifice to Beelzebub or
-Moloch. If we wish to see how little necessary connection
-there is between morality and monotheism, we have
-only to look at Mahometanism, which, in its extremer
-forms, may be called monotheism run mad.</p>
-
-<p>The Wahabite reformer, we are told by Palgrave,
-preached that there were only two deadly sins: paying
-divine honours to any creature of Allah’s, and smoking
-tobacco; and that murder, adultery, and such like trivial
-matters, were minor offences which a merciful Allah
-would condone. He held also that of the whole inhabitants
-of the world all would surely be damned,
-except one out of the seventy-two sects of Mahometans,
-who held the true faith and dwelt in the district of
-Riad. This illustrates the insane extremes into which
-all human speculations run, if a single idea—in this<span class="pagenum"><a name="Page_159" id="Page_159">[159]</a></span>
-case that of awe, reverence, and abject submission in
-presence of an almighty power—is allowed to run its
-course without check and obtain undue preponderance.</p>
-
-<p>Apart from these extreme instances we may say
-that the two religious theories which have survived to
-the present day in the struggle for existence, are monotheism
-and pantheism. Pantheism is, in the main, the
-creed of half the human race—of the teeming millions of
-India, China, Japan, Ceylon, Thibet, Siam, and Burmah.
-How deeply it is rooted in their conceptions was very
-forcibly impressed on me in a conversation I had on
-board one of the P. and O. steamers with an English
-missionary returning from China. He told me how he
-had dined one evening with an intelligent Chinese merchant,
-and after dinner they walked in the garden
-discussing religious subjects, and he tried to impress on
-his host the first principles of the Christian religion.
-It was a starlight night, and for sole reply the Chinese
-gentleman stretched his hand to the heavens and said,
-‘Do you mean to tell me all that is dead—do you take
-me for a fool?’ The Chinese ‘illative sense’ was as
-absolute in its conclusions for pantheism, as that of
-Cardinal Newman for theism. In fact pantheism, though
-not the whole truth, and almost as inconsistent as polytheism
-with the real facts of the universe as disclosed
-by science, has a certain poetical truth in it, to which
-chords of human emotion vibrate responsively, and is
-perhaps not so widely in error as some of the extreme
-theories which treat matter as something base and brutal.
-Wordsworth’s noble lines—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent11">A sense sublime</div>
-<div class="verse">Of something far more deeply interfused,</div>
-<div class="verse">Whose dwelling is the light of setting suns,</div><span class="pagenum"><a name="Page_160" id="Page_160">[160]</a></span>
-<div class="verse">And the round ocean and the living air,</div>
-<div class="verse">And the blue sky, and in the mind of man;</div>
-<div class="verse">A motion, and a spirit that impels</div>
-<div class="verse">All thinking things, all objects of all thoughts,</div>
-<div class="verse">And rolls through all things—</div>
-</div>
-</div>
-
-<p class="noindent">are pure pantheism, and yet we cannot but feel ourselves
-to a great extent in sympathy with them.</p>
-
-<p>So also the well-known lines of a greater than
-Wordsworth, Shakespeare, are pure Buddhism:</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">The cloud-capp’d towers, the gorgeous palaces,</div>
-<div class="verse">The solemn temples, the great globe itself,</div>
-<div class="verse">Yea, all which it inherit, shall dissolve</div>
-<div class="verse">And, like this insubstantial pageant faded,</div>
-<div class="verse">Leave not a rack behind. We are such stuff</div>
-<div class="verse">As dreams are made on, and our little life</div>
-<div class="verse">Is rounded with a sleep.</div>
-</div>
-</div>
-
-<p class="noindent">No one can read these lines without feeling that the
-Buddhist conception is as far as possible from being a
-trivial or vulgar one, and that the triviality and vulgarity
-are rather with those who cannot, up to a certain
-point, understand and sympathise with it.</p>
-
-<p>The religions of the East are very philosophical,
-and have kept very clearly in view this fundamental
-distinction between the knowable and the unknowable.
-In the ‘Century Magazine’ of July 1886, there is an
-interesting account of a conversation between an
-American missionary and the Bozu or chief priest of
-the great temple of the Shin Sect of Buddhists at Kioto
-in Japan. The priest was an intelligent and highly
-educated gentleman who spoke English, and was well
-versed in the speculations of modern philosophy. The
-conversation turned on theological questions, and when
-pressed by the argument for a Divine Creator, from
-design shown in the universe implying intelligence, he
-replied:—</p>
-
-<p><span class="pagenum"><a name="Page_161" id="Page_161">[161]</a></span></p>
-
-<p>‘No; God cannot <i>make</i> matter. Only artificial
-things show design, only things which can be made.
-What do you mean by saying a thing shows design?
-You only mean that by trying a man could make it.’</p>
-
-<p>And he proceeded to illustrate it thus:—</p>
-
-<p>‘You show me a gold ring; the ring shows design,
-but not the gold; gold is an ultimate element, which
-can neither be made nor destroyed. When men can
-make a world, then they can prove that this one shows
-design, for the only way they know of design is by
-what they make.’</p>
-
-<p>He went on to argue for the immortality of the soul,
-and as a consequence for its pre-existence and the transmigration
-of souls, from the conservation of energy;
-and concluded his argument against the creation and
-government of the world by a comprehensible, anthropomorphic
-Creator, by adducing the existence of evil.</p>
-
-<p>‘There is a sickness,’ he said, ‘called fever and
-ague; what do you call the medicine to cure that?’</p>
-
-<p>‘Quinine.’</p>
-
-<p>‘Yes; now we have not found that long; a good
-God would not have let so many people suffer if He
-could have given them that. A man found it by
-chance. The sickness and suffering in this life are for
-wrong done in another life.’</p>
-
-<p>We may not accept this unproved theory of the
-cause of sickness and suffering, but it is very interesting
-to find that candid and intelligent minds, brought
-up in a society and religious beliefs so widely different
-from our own, have arrived practically at the same conclusions
-as John Stuart Mill, Herbert Spencer, and
-other leaders of advanced thought in modern Europe,
-and drawn almost identically the same line between that<span class="pagenum"><a name="Page_162" id="Page_162">[162]</a></span>
-which is knowable and that which is unknowable by
-the human mind.</p>
-
-<p>But, however large-minded we may become in seeing
-the good in other forms of creed, we English of the
-nineteenth century are not going to turn either pantheists
-or Buddhists, and practically the contest of the
-present day is between the supernatural or miraculous,
-and the natural or scientific, hypotheses.</p>
-
-<p>According to the former the operations of the
-universe are carried on to a considerable extent by
-what may be called secondary interferences of a supernatural
-being, who with will, intelligence, and design,
-like human though vastly superior, frequently interposes
-to alter the course of events and bring about
-something which natural law would not have brought
-about. The other hypothesis cannot be stated better
-than in Bishop Temple’s words, that the Great First
-Cause created things so perfect from the first, that no
-such secondary interferences have ever been necessary,
-and everything has been and is evolved from the
-primary atoms and energies in a necessary and invariable
-succession. The supernatural and the natural
-theories of the universe are thus brought into direct
-antagonism.</p>
-
-<p>For the supernatural theory it must be conceded
-that it is quite conceivable, as is proved by the fact that
-it has been the almost universal conception of mankind
-for ages, and remains so still for the greater number.
-It is, as I have said, the inevitable first conception when
-men began to reflect on the phenomena of the universe,
-and to reason from effects to causes. I have always
-thought that Hume went too far in condemning miracles
-as absolutely incredible <i>a priori</i>. It is a question of<span class="pagenum"><a name="Page_163" id="Page_163">[163]</a></span>
-evidence. <i>A priori</i>, I can conceive that the true explanation
-of the universe might have been natural law,
-as the general rule, supplemented by miracles; just as
-readily as that it is law always, and miracle never.
-The verdict must be decided by the weight of evidence.
-The two theories must be called, face to face, before the
-tribunal of <i>fact</i>, and its decision must be respected.
-This is exactly what has been going on for the last two
-centuries, and specially for the last half century, and the
-record of decisions is now a very ample one. In every
-single instance law has carried the day against miracle.</p>
-
-<p>Instance after instance has occurred in which phenomena
-which in former ages were attributed without
-hesitation to supernatural agencies have been conclusively
-proved to be due to natural laws. Take the
-obvious instance of thunder. When Horace wrote:—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Jam satis terris nivis, atque diræ</div>
-<div class="verse">Grandinis misit Pater, et rubente</div>
-<div class="verse">Dextera sacras jaculatus arces</div>
-<div class="verse indent2">Terruit urbem,</div>
-</div>
-</div>
-
-<p class="noindent">he wrote to a public to whom it was an undoubted
-article of faith that thunder and lightning, hail and
-snowstorms, came direct from the Father of the gods in
-the sky. Even to a late period this was the general
-faith, and the prayers in our rubric for rain or fine
-weather remain as a survival of the belief that these
-things, when unusual or in excess, are supernatural
-manifestations. But Benjamin Franklin said, ‘No, there
-is nothing supernatural about lightning. I will bring
-it down from the clouds and manufacture it by turning
-a wheel.’ Appeal being made to <i>fact</i>, the verdict is that
-Franklin was right, and that lightning-conductors protect
-ships and houses better than prayers or incantations.<span class="pagenum"><a name="Page_164" id="Page_164">[164]</a></span>
-Again, when Galileo and the Church joined issue as to
-whether the earth was round or flat, inspiration and
-authority were cited in vain for the received theory;
-<i>fact</i> said it was round, and it was proved to be so by
-men sailing round it. The law of gravity was considered
-a very dangerous heresy, and for a long time
-pious divines held out against its conclusions, and contended
-that it was no better than atheism to doubt that
-comets were signs of God’s anger sent to warn a sinful
-world. But Halley calculated the time of his comet’s
-return according to the laws of gravity, and appeal
-being made to fact, the comet returned true to time.</p>
-
-<p>This has occurred so often that few are left who
-doubt the universal prevalence of law in the material
-universe, where former generations saw miracles at
-every turn. Nor is the defeat of miracle less conspicuous
-in the spiritual world. Where former ages and
-rude races saw, and still see, possession by evil spirits,
-modern doctors see fevers, epilepsies, or insanity. Once
-more appeal being made to <i>fact</i>, the old medicine-men
-administered incantations, the new ones quinine—which
-cure the most patients?</p>
-
-<p>In like manner demonology and witchcraft, with all
-their train of cruelties and horrors, once universally
-believed even by men like Justice Hale, have passed
-into oblivion as completely as the Lamiæ, Phorkyads,
-and other fantastic figures of the classical Walpurgisnight.
-Is the world the better or the worse for this
-triumph of natural law over supernaturalism?</p>
-
-<p>The triumph has been so complete in innumerable
-instances, without a single one to the contrary, that belief
-in the permanence and universality of natural law
-has become almost an instinct in all educated minds,<span class="pagenum"><a name="Page_165" id="Page_165">[165]</a></span>
-and even those who cling to old beliefs must admit that
-the most cogent and irresistible evidence is requisite to
-establish the fact of a real supernatural interference. It
-may be taken as an axiom that wherever a natural explanation
-is possible, a miraculous one is impossible.</p>
-
-<p>Now this is just the point on which, as knowledge
-has increased, the evidence for miracles has become
-weaker, almost in the exact ratio in which the
-necessity for evidence has become stronger.</p>
-
-<p>Take, for instance, the following case recorded by
-Dr. Braid of Glasgow. Miss R. had suffered from ophthalmia
-and was totally blind. She could not discern
-a single letter of the title-page of a book placed close to
-her, though some of the letters were a quarter of an inch
-long. Dr. Braid placed the patient in a condition of
-hypnotism or artificial somnambulism, and directed the
-nervous force, or sustained attention of the mind, to the
-eyes by wafting over them. After a first sitting of
-about ten minutes she was able to read a great part of
-the title-page, and after four more sittings she was able
-to read the smallest-sized print in a newspaper, and was
-quite cured for the rest of her life. In another case,
-that of Mrs. S., blindness of the left eye had occurred
-owing to an attack of rheumatic fever, the structure of
-the eye, both external and internal, being considerably
-injured, and more than half the cornea covered by an
-opaque film. After a few sittings the cornea became
-transparent, and the patient was cured.</p>
-
-<p>In both these cases the blind were made to see by
-processes which were purely mechanical, for hypnotism
-was induced by the simple means of making the patient
-strain her attention on some fixed idea or object, commonly
-on a black wafer stuck on a white wall, and the<span class="pagenum"><a name="Page_166" id="Page_166">[166]</a></span>
-stimulation of the optic nerve to greater activity did the
-rest. And if the blind could be made to see, <i>a fortiori</i>
-the deaf were made to hear, and the lame and halt to
-walk, by the same mechanical process. Here there is
-an explanation of nine-tenths of all recorded miracles by
-purely natural causes.</p>
-
-<p>Again, take the well-known case of the Berlin bookseller,
-Nicolai, who, having fallen into ill-health, for a
-whole year saw, when awake, visions so real and palpable
-that he may be said to have lived in the company of disembodied
-spirits, undistinguishable from actual men and
-women. This is a common phenomenon in vivid dreams,
-but the Berlin case takes us a step farther, and shows
-us how subjective impressions may assume the form of
-objective realities, even in the case of a man wide awake,
-of a sceptical turn of mind, and in full possession of his
-reasoning faculties. Why then should we be driven to
-the alternative of miracle or imposture, to account for
-similar dreams or visions being taken for objective realities
-by enthusiastic minds, living in an atmosphere of
-religious excitement, in an uncritical age, when supernatural
-occurrences were considered to be matters of
-course? And history is full of instances which show
-how any supernatural germ, planted in such a medium,
-propagates itself and extends to millions, almost as
-rapidly as the bacillus germ does in an epidemic of
-small-pox. St. Vitus’s dance, or the dancing mania, ran
-the round of Europe like the potato disease, and even
-yet survives in the hysterical affections of the sect of
-Shakers. The gift of tongues spread like wildfire through
-Irving’s congregation, and only died out because it had
-fallen on the uncongenial soil of the nineteenth century;
-even the story of the tail of the lion over the gateway<span class="pagenum"><a name="Page_167" id="Page_167">[167]</a></span>
-of the old Northumberland House being seen by many
-passers-by to wag because one had asserted it, illustrates
-the contagiousness of nervous sympathy, and the tricks
-which ‘strong imagination’ can play with the senses.</p>
-
-<p>Another great blow has been dealt against the
-miraculous theory by what can only be called the singular
-want of intelligence displayed in the exercise of
-miraculous power as commonly recorded. The <i>raison
-d’être</i>, or effect desired to be produced by miracles, is
-to convert mankind from sin, or to attest a divine
-mission by convincing proofs. Even ordinary human
-intelligence—and how much more so that of a superior
-Being—must see that to attain this end the means must
-be to make the proof convincing. There is no reason
-in itself why it should not be so. The fact that a man
-who was alive and signed a will is now dead, is attested
-as regards the latter proposition by a proper
-medical certificate, and as regards the former by two
-credible witnesses, who are prepared to come into
-court, give their names and addresses, depose on oath
-to the signature, and stand cross-examination. If this
-testimony is required to establish a fact so antecedently
-probable as that one particular man has undergone the
-common fate of millions of millions of other men, that
-is to say, that he has died after being alive, how much
-more must it be requisite to establish the fact so antecedently
-improbable, as that one man among those many
-millions after having died came back to life. And yet
-where is the recorded miracle for which even this
-<i>minimum</i> amount of testimony is forthcoming? Why
-are miracles so constantly performed in holes and
-corners, in obscure localities, among little knots of
-ignorant and enthusiastic adherents, attested by the<span class="pagenum"><a name="Page_168" id="Page_168">[168]</a></span>
-vaguest hearsay evidence of unknown or incompetent
-witnesses, and apparently under circumstances inevitably
-calculated to defeat their object and engender
-doubts in the minds of reasonable and conscientious
-men. Take, for instance, the miracles now said to be
-wrought at Lourdes. The object must be taken to be
-to convert infidel France to the Catholic faith. But
-obviously this object would be far better attained by a
-single undoubted miracle wrought at Paris before a
-commission headed by a man like Pasteur, than by any
-number of miracles scarcely, if at all, distinguishable
-from those of Dr. Braid, alleged to occur at an obscure
-village in the presence of peasants and pilgrims. Or,
-take a higher instance, that of the demand made by the
-Pharisees to Jesus for a sign to attest his Messiahship.
-Consider the circumstances of the case, and see if it is at
-all possible that if he had possessed the power of working
-miracles he should have replied, ‘Why doth this
-generation seek after a sign? verily I say unto you,
-there shall no sign be given unto this generation’
-(St. Mark ix. 12). In the first place the statement throws
-discredit upon all the miracles said to have been
-wrought, by the positive and explicit declaration that
-none should be wrought. But beyond this, the very
-essence of the mission of Jesus was contained in the
-words, ‘Repent ye, for the kingdom of heaven is at
-hand.’ He had a firm conviction that the kingdom of
-heaven, or a millennium of peace and goodwill, was
-close at hand, and its advent only retarded by the sinfulness
-and want of faith of his chosen people. He
-thought it his bounden duty to do all he could to
-remove the obstacle and expedite the coming of the
-kingdom. With this conviction, though fully seeing the<span class="pagenum"><a name="Page_169" id="Page_169">[169]</a></span>
-risk and counting the cost, when he found that he was
-making no decided headway by preaching in a remote
-province, he determined to go to Jerusalem and make
-there one great effort to accomplish his object. Can
-it be doubted that he would use every means in his
-power to carry his mission to a successful conclusion?
-If, having the power to do so by working a miracle, he
-had refused, he would from his point of view have been
-guilty of a great sin—that of preventing the coming of
-the kingdom of heaven.</p>
-
-<p>Again, who were the Pharisees? No doubt there
-were formalists and hypocrites among them, but the
-position of the sect in the Jewish nation was almost
-exactly similar to that of the English Puritans in the
-reign of Charles. They were the embodiment of the
-patriotic and religious spirit of the race, the sons of
-the heroic fathers who fought under Judas Maccabeus
-against Antiochus, the fathers of the equally heroic
-sons who made the last desperate stand against the
-legions of Titus. It was their duty, when a claim to
-Messiahship was advanced, before departing from the
-traditions of their ancestors, to require evidence. The
-universally expected evidence of a temporal deliverer
-being wanting, there remained only the evidence of
-miracles, which, moreover, were assigned as the test
-of a Messiah by all their prophets. To refuse them
-a sign, if a sign were possible, was to do injustice to
-many sincere and conscientious men. Nay, more, it
-was an act of cruelty if leaving them in their old faith
-entailed eternal punishment. The same thing applies
-to all records of miracles. They are never wrought
-under circumstances where they would be the most
-effective means for attaining proposed ends. They are<span class="pagenum"><a name="Page_170" id="Page_170">[170]</a></span>
-never wrought under circumstances which leave them
-clear of the suspicion of being subjective illusions
-or misinterpretations of effects due to natural causes.
-They never convince any but those who are more than
-half convinced already.</p>
-
-<p>It would be easy to multiply instances showing
-the inadequacy of the evidence adduced to establish
-such an exceptional and extraordinary fact as the occurrence
-of a real miracle. But it is unnecessary to do
-so, as all thinking minds have come, or are fast coming,
-to the conclusion of Dr. Temple, that ‘all the countless
-varieties of the universe were provided for by one
-original impress, and not by special acts of creation
-modifying what had previously been made.’</p>
-
-<p>It is only when we look behind the phenomena of
-the universe at this Great First Cause, that I see anything
-to object to in the definition of Dr. Temple, and
-of Christian philosophers generally. They assume it to
-be a personal Deity, who is to a great extent known or
-knowable, and therefore must have attributes conformable
-to human perceptions which are the basis of all
-human knowledge. In other words, however much we
-may purify and enlarge these attributes, He must be
-essentially an anthropomorphic God or magnified man.
-To this theory there seems to me to be this fatal
-objection, that it gives no account of the origin of evil,
-or rather that it makes the Divine Creator directly
-responsible for it. The existence of evil in the world
-is as palpable a fact as the existence of good. There
-are many things which to our human perceptions appear
-to be base, cruel, foul, and ugly, just as clearly as other
-things appear to be noble, merciful, pure, and beautiful.
-Whence come they? If the existence of good proves a<span class="pagenum"><a name="Page_171" id="Page_171">[171]</a></span>
-good Creator, how can we escape the inference that the
-existence of evil proves an evil one? This is never so
-forcibly impressed on me as when I read the arguments
-of those who insist most strongly on the conception of
-a one, anthropomorphic God. When Carlyle says, ‘All
-that is good, generous, wise, right—whatever I deliberately
-and for ever love in others and myself—who or
-what could by any possibility have given it to me but
-One who first had it to give? This is not logic, but
-axiom.’ I cannot but picture to myself the sledgehammer
-force with which, if he had approached the
-question without prepossessions, he would have come
-down on the cant, the insincerity, the treason to the
-eternal veracities, which refused to look facts in the
-face, and apply the same reasoning to the evil. Or if
-Arnold defines the Deity as the ‘Something not ourselves
-which makes for righteousness,’ how of the
-Something not ourselves which makes for unrighteousness?
-The only escape I can find from this dilemma
-is to accept existing facts and not evade them. It is
-a fact that polarity is the law of existence. Why we
-know not, any more than we know the real essence and
-origin of the atoms and energies which are our other
-ultimate facts. But we accept atoms and energies, and
-accept the law of gravity and other laws; why not
-accept also the law of polarity, and admit that it is
-part of the ‘original impress’: one of the fundamental
-conditions under which the evolution of Creation from
-its ultimate elements is necessitated to proceed. This
-the human mind can understand; beyond it is the
-great unknown or unknowable, in presence of which
-we can only feel emotions of reverence and of awe, and
-‘faintly trust the larger hope’ that duality may somehow<span class="pagenum"><a name="Page_172" id="Page_172">[172]</a></span>
-ultimately be merged in unity, evil in good, and ‘every
-winter turn to spring.’</p>
-
-<p>As nations advanced in civilisation there has always
-been a tendency among the higher and purer minds to
-relegate the Great First Cause further and further back
-into the unknown, and to divest it of anthropomorphic
-attributes. When Socrates said, ‘that divinely revealed
-wisdom of which you speak, I deny not, inasmuch as I
-do not know it; I can only understand human reason,’
-he spoke the identical language of Darwin, Spencer,
-Huxley, and those leaders of modern thought whom
-theologians call agnostics. Even in religions based on
-the idea of a single anthropomorphic Deity the same
-tendency often appears among the highest thinkers.
-Thus Emmanuel Deutsch, in his learned work on the
-Talmud, tells us, ‘Its first chapter treats of the Deity
-as conceived by Jewish philosophy. The existence of
-God is, of course, presupposed. But what of His attributes?
-Has He any? Scripture literally taken seems
-to affirm this. Yet taken in a higher sense, as understood
-by the Alexandrines, the Talmud, and the Targum,
-it denies it.’</p>
-
-<p>The great Jewish doctors, Ibn Ezra, Jehuda Hilmi,
-and Maimonides, take this view of a divine origin
-shrouded in ineffable mystery. Maimonides says, ‘If
-you give attributes to a thing, you define this thing,
-and defining a thing means to bring it under some head,
-to compare it with something like it. God is sole of
-His kind. Determine Him, circumscribe Him, and you
-bring Him down to the modes and categories of created
-things.’ Even St. Paul says, ‘O the depths of God.
-How unsearchable are His judgments, and how inscrutable
-His ways’; and the Creed of our own Church, in<span class="pagenum"><a name="Page_173" id="Page_173">[173]</a></span>
-the midst of a string of definitions all implying that
-God is comprehensible, has the words ‘the Father
-incomprehensible.’</p>
-
-<p>It is evident that the reasons why these anticipations
-of the prevailing tendency of modern thought only
-appeared by glimpses, and among a very limited number
-of philosophic minds, arose from the fact that the
-miraculous theory of the universe everywhere prevailed.
-Every unusual occurrence was supposed to be owing to
-the direct supernatural interference of a Being acting in
-the main with human attributes, and therefore to be a
-direct refutation of the theory which denied the possibility
-of defining His attributes, and relegated Him to
-the dim distance of an incomprehensible Creator. With
-the utter breakdown of the miraculous theory, and the
-certainty that all the countless varieties of the universe
-arise, not from special interferences, but from
-one original impress, this theory of a reverent and devout
-agnosticism becomes impregnable and holds the
-field against all rivals. It, and it alone, is consistent
-with the facts of science, the deductions of reason, the
-axioms of morality, while at the same time it denies
-nothing, and leaves an ample background on which
-to paint the visions of faith, and to reflect back to us
-spectral images of our hopes and fears, our longings
-and aspirations.</p>
-
-<p>Some seek for a solution of the mystery, and try to
-reconcile the existence of evil with that of an almighty
-and beneficent Creator, by assuming that in the long
-run everything will come right. Evolution, they say,
-has led constantly to higher and better things, and
-when carried far enough will lead to a state of society
-in which wars will cease, evil passions die out, and<span class="pagenum"><a name="Page_174" id="Page_174">[174]</a></span>
-universal love and charity prevail—in other words, to a
-millennium.</p>
-
-<p>Even if this were true, what of the untold millions of
-the human race who have perished in their sins while
-evolution was slowly working out this tardy millennium?
-Are they the <i>chair à canons</i>, whom a Napoleon-like
-Deity sacrifices with cynical indifference, in the
-calculated moves of the game of Creation? Is this
-their idea of an all-wise and all-merciful Father who is
-in heaven?</p>
-
-<p>And again, is it true that evolution works constantly
-for good and promises to bring about such a
-millennium? It is doubtless true that evolution means
-progress, and the ever-increasing development of the
-more and more complex and differentiated from the simple
-and uniform. But is this all for good, or all for happiness;
-and is not evolution, like everything else, subject
-to the primary and all-pervading law of polarity? We
-have only to ask the question to answer it. In the case
-of the individual, which is the epitome of the history of
-the species, is development from the engaging innocence
-of childhood always in the direction of goodness and
-happiness?</p>
-
-<p>So far is this from being the case that, as individuals
-and societies advance, and become higher and more
-complex in the scale of organisation, the law of polarity
-asserts itself with ever-increasing force, and contrasts
-become sharper. The good become better, the bad
-worse; and as we become less</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Like the beasts with lower pleasures,</div>
-<div class="verse">Like the beasts with lower pains,</div>
-</div>
-</div>
-
-<p class="noindent">if our happiness becomes more intense, so does our
-misery become more intolerable. I refer not merely to<span class="pagenum"><a name="Page_175" id="Page_175">[175]</a></span>
-physical conditions, though here the contrast is most
-apparent. An intelligent traveller who recently circled
-the world, surveying mankind with a keen and impartial
-eye ‘from China to Peru,’ says, as the result of his
-experience, ‘The traveller will not see in all his wanderings
-so much abject repulsive misery among human
-beings in the most heathen lands, as that which startles
-him in his civilised Christian home, for nowhere are the
-extremes of wealth and poverty so painfully presented.’
-This is perfectly true; but it would be a rash conclusion
-to infer that civilised and Christian countries are worse
-than heathen lands, or that those who march in the van
-of progress and succeed in the struggle for life, have a
-larger dose of original sin than the laggards and those
-who fail.</p>
-
-<p>Accumulations of population and accumulations of
-capital are alike causes and effects of progress in an
-industrial age. But you can no more have a north
-without a south pole, than you can have this progress
-without its counterpart of suffering. When an educated
-gentleman was, like the good vicar,</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Passing rich with forty pounds a year,</div>
-</div>
-</div>
-
-<p class="noindent">how many struggles and how many heart-aches were
-avoided. When ‘merry England’ dwelt in rural
-hamlets and villages, the ‘bitter cry’ of East London
-could scarcely have been written. Turn it as you like,
-increase of population means increase of poverty. Say
-that only five per cent. fail in the battle of life, from
-their own or inherited faults; from bad luck, ill-health,
-weakness of mind, adverse surroundings; five per cent.
-on thirty millions is a larger figure than five per cent.
-on ten millions. And the lot of those who fail is<span class="pagenum"><a name="Page_176" id="Page_176">[176]</a></span>
-aggravated by the success of those who succeed. The
-scale of living rises, and the cost of living increases,
-while competition becomes keener. Increase of population
-in a limited area means increased difficulty of
-finding employment; and the complex relations of international
-commerce send panics and crises vibrating
-throughout the world, which throw millions out of
-work, or reduce them to starvation wages. In simple
-forms of society every one accepts the condition in
-which he finds himself as a matter of course, while in
-a more complex civilisation the fiend Envy steps in, and
-teaches the baser natures who are failures, to regard
-every success as an insult and every successful man as
-an enemy. Hence Labour rises in mad revolt against
-Capital; Socialists attack society with dynamite; and
-Utopian theorists preach a millennium to be attained
-by abolishing private property and individual liberty.</p>
-
-<p>If we turn to the moral aspects of the question, it is
-still more clear that evolution does not tend solely to
-the side of virtue. There is doubtless less ferocious
-savagery, less rude and unconscious or half-conscious
-crime, in civilised societies, but there is far more deliberate
-and diabolical wickedness. The very temptations
-and opportunities which, if resisted, lead to higher virtues,
-if succumbed to, lead to greater vice. Even the
-intellectual advance, if perverted, becomes the instrument
-of greater crimes. A chemist discovers nitro-glycerine,
-and dynamite becomes a resource of civilisation.
-There is a saying that there is ‘no blackguard
-so bad as a Scotch blackguard,’ which, as a patriotic
-Scotchman, I take to be a tribute to the generally high
-intellectual and moral character of my countrymen. A
-powerful polarity is powerful, as the case may be, either<span class="pagenum"><a name="Page_177" id="Page_177">[177]</a></span>
-for good or evil. Why then should we believe that
-evolution, which, carried thus far, has developed more
-strongly the contrast between good and evil, will, if
-carried a little farther, extinguish it by annihilating
-the evil?</p>
-
-<p>In fact, the good and evil resulting from the higher
-evolution of society are so equally balanced that it
-depends very much on place, time, and temperament
-whether we are optimists or pessimists. If my liver acts
-properly I am an optimist; if it is out of order, a pessimist.
-Personally I incline to optimism—that is, I think
-that this world, if not exactly ‘the best of all possible
-worlds,’ is yet on the whole a very tolerable world, and
-that life to the majority, and on the average, is worth
-living. I think also that progress is certainly towards
-higher, and very probably towards happier, conditions.
-It seems to me that in the most advanced English-speaking
-communities, the condition of at least one half—viz.
-the female half—of the population is distinctly
-better, and that the working class, who form the majority
-of the male half, though many are worse off than
-formerly, are, on the whole, better fed, better clothed,
-better educated, and better behaved.</p>
-
-<p>This, however, is perhaps very much a matter of
-temperament. Greater minds than mine have seen
-things differently and inclined to pessimism. Buddhism,
-and almost all Oriental religions and philosophies, are
-based upon it, and look to Nirvana or annihilation of
-personal identity as the supreme bliss. Pauline Christianity
-assumes that all mankind, except a few chosen
-vessels, are so hopelessly bad as to be predestined to
-eternal damnation. And even more remarkable, Shakespeare,
-the universal genius, who one would say had as<span class="pagenum"><a name="Page_178" id="Page_178">[178]</a></span>
-happy a temperament and led as successful a life as any
-man, had his moods of despondency in which he could
-say:—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">When in disgrace with fortune and men’s eyes,</div>
-<div class="verse indent1">I all alone bemoan my outcast state;</div>
-<div class="verse">Wearying deaf heaven with my fruitless cries,</div>
-<div class="verse indent1">And look upon myself, and <i>curse my fate</i>.</div>
-</div>
-</div>
-
-<p class="noindent">Or declare with Hamlet that no one would bear the ills
-of life if</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">He himself could his quietus make</div>
-<div class="verse">With a bare bodkin.</div>
-</div>
-</div>
-
-<p class="noindent">With instances like these, and the disgust of life manifested
-in so many modern societies by the increase of
-suicides, and the spread of pessimistic theories like
-those of Schopenhauer and Hartmann, who can deny
-that the great magnet of modern civilisation has a
-south as well as a north pole, and that progress is not
-all towards perfection?</p>
-
-<p>The attempts of theologians to reconcile the existence
-of evil with the goodness of an almighty Creator,
-by relegating the adjustment to a future life, only make
-the fact of this fundamental polarity more apparent, for
-their conceptions of a heaven and a hell obviously do
-not reconcile, but only intensify, the opposite polarities.
-The good are better, the bad worse, the happy happier,
-and the wretched more miserable, in all these attempts
-to define the undefinable and to reconcile divine justice
-with divine mercy. All that remains really clear to
-each individual is that by his efforts in this life he can
-do something to keep the balance of polarities somewhat
-more on the side of good, both in his own individual
-existence, and in that of the aggregate of units, of which
-he is one, which is called society or humanity.</p>
-
-<p><span class="pagenum"><a name="Page_179" id="Page_179">[179]</a></span></p>
-
-<p>The great advantage of this form of religious hypothesis,
-which for want of a better name I call Zoroastrianism,
-is that, in the first place, it gets rid of the
-antagonism between religion and science, for there is no
-possible discovery of science which is irreconcilable with
-the fact that there is a necessary and inevitable polarity
-of good and evil, and in the background a great unknown,
-which may be regarded with those feelings and
-aspirations which are inseparable from human nature.
-And secondly, there is the still greater advantage that
-we can devote ourselves with a whole heart and sincere
-mind to the worship of the good principle, without
-paltering with our moral nature by professing to love
-and adore a Being who is the author of all the evil and
-misery in the world as well as of the good. If it were
-really true that there were such a Being as theologians
-describe, who created the immense majority of the
-human race vessels of wrath doomed to eternal punishment,
-either from pure caprice or to avenge the slight
-offered to Him by the disobedience of a remote ancestor,
-what would be the attitude of every healthy human
-soul towards such a Being? Rather that of Prometheus
-or Satan, than of Gabriel or Michael; of heroic defiance
-than of abject submission. We may gloss this over in
-words, but the fact remains, and it is difficult to overestimate
-the amount of evil which has resulted in the
-world from this confusion of moral sentiments which
-has made good men do devil’s work in the belief that
-it had divine sanction.</p>
-
-<p>The horrors of demonology and witchcraft had their
-origin in texts of the Old Testament; religious wars
-and persecutions arose out of the fundamental error that
-intellectual acceptance of doubtful dogmas was the one<span class="pagenum"><a name="Page_180" id="Page_180">[180]</a></span>
-thing necessary for salvation; and ruthless cruelty was
-justified by an appeal to God’s anger with Saul for
-refusing to hew in pieces the captive Amalekites. A
-follower of Zoroaster would see at once that these were
-works of Ahriman and not of Ormuzd, and that in taking
-part in them he was deserting the standard under
-which he had enlisted, and doing deeds of darkness
-while pretending to serve the Prince of Light. This
-idea of being a soldier enlisted in the army of light
-seems to me to afford one of the strongest practical
-inducements to hate what is evil and cleave to what
-is good. A bad deed or foul thought is felt to be not
-only wrong but dishonourable: a disloyal going over
-to the enemy and abandonment of the chief under
-whom we had enlisted, and of the comrades with
-whom we had served. This is a very strong motive,
-and even in the humble ranks of the Salvation Army
-we can see how powerfully it operates to make men
-true to their banner.</p>
-
-<p>Indeed a great deal of what is best in genuine
-Christianity seems to me to resolve itself very much
-into the worship of Jesus as the Ormuzd or personification
-of the good principle, and determination to try to
-follow his example and do his work. It happens to
-me to receive a good many circulars from the devoted
-men and women who are doing so much charitable
-work to assist the poor and fallen, and I observe that
-the appeals are almost constantly made in the name of
-Jesus. When the Salvation Army made an appeal the
-other day to its members for funds to prosecute their
-campaign, it was touching to read the replies and see
-men parting with an overcoat or giving up their beer,
-and women going without a new bonnet or cup of tea,<span class="pagenum"><a name="Page_181" id="Page_181">[181]</a></span>
-to contribute their mite. But always for the ‘love of
-Jesus,’ for the ‘Saviour’s sake,’ as an offering to the
-‘dear Redeemer.’ Theological Christianity says that
-the one thing needful is to believe in the Catholic Faith
-as defined by the Athanasian Creed, without which
-we shall ‘without doubt perish everlastingly.’ Practical
-Christianity has completely dropped the Holy Ghost
-as a sort of fifth wheel to the coach, and relegated the
-Father into ever vaguer and greater distance; while it
-has fastened more and more on the figure of Jesus of
-Nazareth as the practical living embodiment of the
-good principle of the universe. In a word, Christianity,
-as it has become more reasonable, more charitable,
-more pure, and more elevated, has approximated more
-and more to Zoroastrianism, and for practical purposes
-modern Christians are, to a great extent, without knowing
-it, worshippers of Ormuzd, with Christ for their
-Ormuzd.</p>
-
-<p>To this I see no sort of objection. The tendency
-to personify abstract principles in something which is
-warmer, dearer, nearer to ourselves, is ineradicable in
-human nature; and especially among the great masses
-of mankind who cannot rise to the height of philosophical
-speculations. It is impossible in the present
-age to invent new personifications, or to revive old ones.
-Jesus has the immense advantage of being in possession
-of the field, with all the accumulated love and
-reverence of nineteen centuries of followers. It would
-be difficult to invent a better ideal or a more perfect example.
-No doubt the ideal, like all human conceptions,
-is not absolutely perfect; it is subject to the law of polarity,
-and its excellences, if pushed to the ‘falsehood of
-extremes,’ in many cases become faults. It would not<span class="pagenum"><a name="Page_182" id="Page_182">[182]</a></span>
-do in practice if smitten on one cheek to turn the other,
-or to take no thought for the morrow and live like the
-sparrows. The opposition between the flesh and the
-spirit is also stated so absolutely, that it is apt to lead
-to a barren and ignoble asceticism. But those are elements
-which, practically, are not likely to be pushed to
-excess, and which serve rather to mitigate the tendencies
-of modern civilisation to an undue preponderance
-of the opposite polarities of selfishness, worldliness, and
-sensuality. Courage, hardihood, self-reliance, foresight,
-a love of progress, and a desire to attain independence,
-will always remain prominent virtues, especially of the
-stronger races, and the gentler teachings of Christianity
-will long be wanted as an influence to soften, to elevate,
-and to purify. By all means, therefore, let Christians
-remain Christians, and see in Christ their Ormuzd, or
-personification of the good principle. Only let them
-remember that there are two sides to every question,
-and cease to entertain hard and bitter thoughts towards
-those who follow the truth after a different
-fashion. Let them delight rather to discover unity in
-the spirit than differences in the letter, and instead of
-anathematising with Athanasius those who dissent by
-one hair’s breadth from the Catholic faith, strive with
-St. Paul after that charity which ‘suffereth long and is
-kind: beareth all things, believeth all things, hopeth all
-things, endureth all things.’</p>
-
-<p>This will be easier if they recollect that love and
-reverence for Jesus, as the personification of the good
-principle, is in no way connected with the supernatural
-dogmas and legends which have come down from
-superstitious ages, and which are seen every day, more
-and more clearly, to stand in direct contradiction to the<span class="pagenum"><a name="Page_183" id="Page_183">[183]</a></span>
-real facts and real laws of the universe. He is the
-bright example of the highest ideal of human virtue,
-not on account of miracles, but in spite of them; not
-because he was a transcendental abstraction with attributes
-altogether outside of human experience or conception;
-but because he was a man whom other men
-can love and other men can strive to imitate. The
-dogmas and miracles may quietly fade out of sight, as
-so many articles of the Athanasian Creed have already
-done, like mists before the rising rays of larger knowledge
-and purer morality, and yet the essence of
-Christianity will remain, as a worship of the good and
-beautiful, personified in the brightest example which
-has been afforded—that of Jesus, the son of the carpenter
-of Nazareth.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_184" id="Page_184">[184]</a></span></p>
-
-<h2 id="CHAPTER_XII">CHAPTER XII.<br />
-<span class="smaller">CHRISTIANITY AND MORALS.</span></h2>
-
-<div class="chapter">
-
-<p>Christianity based on morals—Origin of morality—Traced in Judaism—Originates
-in evolution—Instance of murder—Freedom of will—Will
-suspended in certain states of brain—Hypnotism—Mechanical theory—Pre-established
-harmony—Human and animal conscience—Analysis
-of will—Explained by polarity—Practical conclusion.</p>
-
-</div>
-
-<p>The great advantage which Christianity possesses over
-most other religions is that it is based to a much greater
-extent on the solid foundation of an elevated morality.
-The creeds of ancient Egypt, of Buddhism, and of
-Confucianism contain many excellent moral precepts;
-and the injunctions to ‘do unto others as you would be
-done by,’ and to ‘love your neighbour as yourself,’ are
-to be found long before the Sermon on the Mount.
-But these religions in the main followed other lines of
-development, and branched off either into metaphysical
-conceptions or into formal rites and ceremonies. With
-the exception of Judaism, of which Christianity is the
-lineal descendant, no religion has ever to the same extent
-become to the great mass of its adherents a rule
-of conduct and an incentive, strengthened by divine
-sanction, to lead pure and upright lives. This is the
-sense in which Christianity has always been understood
-by the vast majority of Christians, and its corruptions
-have come much more from above than from below;<span class="pagenum"><a name="Page_185" id="Page_185">[185]</a></span>
-from theologians, priests, and politicians, than from the
-instincts of the millions; and this it is which enables
-it to retain such a wonderful vitality even in modern
-times, when faith in dogmas and miracles has been so
-greatly weakened. In order to appreciate the solidity
-of this basis it is necessary to understand the origin
-of morals, and to see that the fundamental precepts of
-moral law are not mere chance inventions of a few exceptional
-minds, or the teachings of doubtful revelations,
-but are the necessary growth and products of human
-nature, in the course of the evolution of society from
-rude beginnings to a high civilisation. This gives them
-a certainty and sanction which could be derived from
-no other source, and makes them what in fact they have
-become—almost primary instincts of the natural and
-normal mind in civilised communities. I proceed, therefore,
-to endeavour to trace shortly the process by which
-moral laws have originated and grown up to their present
-certainty and cogency in the course of evolution.</p>
-
-<p>As I have already said, the element of morality is
-one of the latest to be developed in religious conceptions.
-The first impressions of savage races reflect the feelings
-of vague superstitious terror with which they regard
-unknown phenomena and powers. They are afraid of
-ghosts and afraid of thunder, long before they rise to a
-belief in a future state of rewards and punishments, or
-to the notion of an almighty Being acting by natural
-laws. In a higher state of development they personify
-natural powers in gods, who have no more idea of
-morality than if they were so many parallels of latitude
-or degrees of longitude; and they invent tribal gods,
-who are simply great chiefs, bound by no laws, but
-granting favours when appeased and inflicting injuries<span class="pagenum"><a name="Page_186" id="Page_186">[186]</a></span>
-when angry. By slow degrees, as civilisation advances,
-moral ideas are evolved, and the more enlightened minds
-begin to attribute moral attributes to their deities.
-Earnest men, prophets, and reformers take up these
-ideas and preach them to the world, and, if circumstances
-are favourable and the soil prepared, they take root and
-become popular convictions, surviving in the struggle
-for life, and becoming stronger from generation to
-generation.</p>
-
-<p>This evolution of moral ideas is most clearly traced
-in the religious history of the Jews. In their earlier
-conceptions Jehovah is represented with all the traits
-of a jealous and capricious Oriental sultan. The one
-virtue in his eyes is implicit obedience; the one unpardonable
-crime, anything that looks like disrespect.
-David is the man after God’s own heart, though he
-commits crimes of the foulest description, and treats as
-nullities the moral commandments against adultery and
-murder. But when he takes a census of his people
-Jehovah is offended, and, with a total disregard of
-justice, visits his anger, not on the offender, but on the
-innocent people whom he decimates by a pestilence.
-In like manner, Abraham is favoured because he is
-ready to obey the inhuman command to sacrifice his
-son; while Saul loses Jehovah’s favour because he
-hesitates to massacre his captives in cold blood. The
-first ideas of a higher moral sense appear with the
-prophets in the troubled times of the later kings—when
-poor little Palestine was being ground between the
-upper millstone of Assyria and the nether one of Egypt.
-Sufferings and persecutions, anxieties and tribulations,
-wrought a ferment in the Jewish mind from which new
-ideas were generated. Sacrifices had been duly offered,<span class="pagenum"><a name="Page_187" id="Page_187">[187]</a></span>
-and yet the enemies of Jehovah waxed and his chosen
-people waned. It must be that He was offended with
-them because He required something better than the
-blood of bulls—justice and mercy. So taught the
-popular preachers of the day—men like Isaiah and
-Amos—and by degrees their words found acceptance.
-It was not, however, until the Captivity that these ideas
-of morality were wrought into the Jewish nation so as
-to become, so to speak, flesh of their flesh and blood of
-their blood, as they have remained ever since. Whether
-it was contact with the more advanced moral ideas of
-religions like those of Buddha and Zoroaster, or, more
-probably, their sufferings from the cruelty and injustice
-of their conquerors, the Captivity certainly made them
-a new nation, attached ardently to morality and monotheism—thus
-effecting in a few years, and by purely
-human agencies, what, according to received beliefs,
-centuries of miraculous dispensation had failed to accomplish.
-How speedily and how effectually the work
-was done appears from that most interesting narrative
-of the domestic life of a middle-class Jew of Nineveh,
-the Book of Tobit. The simple piety and homely
-household virtues are almost identically the same as
-those of many a Jewish family living to-day in London
-or Frankfort. From that time forward Jewish
-morality maintains a high level, and in the age immediately
-preceding Christianity it had attained great
-purity and spirituality in the school of the early doctors
-of the Talmud, and of the Jewish colony of Alexandria.
-The Sermon on the Mount, beautiful as it is,
-is but an admirable <i>résumé</i> of maxims which are to be
-found in the works of Philo and other Jewish teachers,
-and which were current in the synagogues of the<span class="pagenum"><a name="Page_188" id="Page_188">[188]</a></span>
-day. Hillel, who was president of the Sanhedrin when
-Christ was born, when asked what was the law, replied,
-‘Do not unto another what thou wouldst not have another
-do unto thee. This is the whole Law, the rest
-is mere commentary.’ And again, ‘Do not judge thy
-neighbour until thou hast stood in his place.’</p>
-
-<p>The Talmud anticipates in a wonderful degree not
-only the moral precepts of the Gospel, but to a great
-extent its phraseology and technical terms. ‘Redemption,’
-‘grace,’ ‘faith,’ ‘salvation,’ ‘Son of man,’ ‘Son of
-God,’ ‘kingdom of heaven,’ were all, as Deutsch shows,
-not invented by Christianity, but were household words
-of contemporary Judaism. In one respect only Christianity
-shows a higher evolution of morality than Judaism—viz.
-its universality. Pure Judaism hardly rises above
-the idea of ‘neighbour,’ or those who were of the same
-race or common faith; while Christianity, as enlarged
-by St. Paul, embraces all mankind, and may truly say:
-‘Humani nihil a me alienum puto.’</p>
-
-<p>The idea that morality and religion are products of
-a slowly developing evolution is denounced by many as
-degrading and materialistic. In many the instinct of the
-‘good’ is so strong that it seems to them sacrilege to
-attempt to explain it. They insist that it is either a
-universal instinct implanted from the first in all mankind,
-or else that it has been so implanted by a divine
-revelation. They forget that, to use the vigorous phraseology
-of Carlyle, ‘It matters not whether you call a
-thing pan-theism or pot-theism; what really concerns
-us is to know whether it is <i>true</i>.’ Now it admits of no
-question that, whether we like it or not, the evolutionist
-theory of morality is the true one. Take an extreme
-instance, that of murder. We feel an instinctive horror<span class="pagenum"><a name="Page_189" id="Page_189">[189]</a></span>
-at the idea, and even a brutal ruffian like Bill Sikes
-becomes an accursed thing to himself and his companions
-when he has transgressed the commandment
-‘Thou shalt do no murder.’ But is it so everywhere,
-and was it so always? By no means; the Fiji islander
-kills and eats a stranger or enemy without scruple;
-the Red Indian and the Dyak are not accounted men
-until they have murdered some one and brought home
-his scalp or his head as a trophy. Even at a late
-period among ourselves murder was considered to be
-rather as a civil injury, to be met by compensation,
-than as a crime; and a regular tariff was established
-of the amount to be paid according as the victim was
-a slave or a freeman.</p>
-
-<p>The origin and progress of the idea that murder is
-a crime can almost be traced step by step. The wife of
-a rude savage does something which offends him; a
-violent perception of anger flashes from the visual organ
-to the perceptive area of the brain, and a reflex action
-flashes from it along the motor nerve to the muscles of
-the arm. He strikes and kills her, almost as unconsciously
-and instinctively as he walks or breathes. But
-other perceptions follow on the act. He finds next day
-that he has no one to cook his food; the image of her
-dying face photographed on his brain is an unpleasant
-one; and thus by degrees a series of secondary perceptions
-get attached to the primary one of striking when
-he feels angry. If he gets another wife who again provokes
-him, the primary perception calls up the secondary
-ones, and the nerve-centres of his brain, instead of being
-solicited only in one direction, are acted on in opposite
-ways by conflicting impressions. He hesitates, and, as
-the primary impulse of passion is probably the more<span class="pagenum"><a name="Page_190" id="Page_190">[190]</a></span>
-evanescent, the restraining impulses prevail, and every
-time they prevail they acquire more strength. Gradually
-they extend to a conviction that it is both inconvenient
-and disagreeable to kill any one with whom he is
-closely related either by family or tribal ties, and that, in
-a word, murder does not pay, and is wrong, unless practised
-on an enemy. This idea accumulates by heredity,
-and evidently those tribes or races in whom it is
-strongest will have an advantage in the struggle for life
-and be most likely to survive.</p>
-
-<p>From this point the idea may be traced historically,
-deepening and widening from generation to generation
-as civilisation advances, until in the higher races it assumes
-the form of an instinctive abhorrence of murder
-in the abstract, as we find it at the present day.</p>
-
-<p>It is a mistake to suppose that the foundations of
-morality are in any way weakened by thus tracing them
-up to their first origins. On the contrary, if we consider
-the matter rightly, they are placed on a much more solid
-and unassailable basis. If we say that moral laws depend
-on a universal instinct implanted in all mankind,
-faith in them is shaken whenever we read in history,
-or hear from the report of travellers, of whole nations,
-constituting from first to last the immense majority of
-the human race, who had none of those ideas which we
-now consider fundamental. If, again, we base them on
-divine precepts miraculously conveyed, every discovery
-of science and development of thought which weakens
-faith in miracles impairs the basis of morals. And on
-this theory, hopeless contradictions arise within the
-sphere of those very moral laws which we seek to
-establish; as in reconciling the justice and mercy of
-the Creator in revealing this inspired code only to<span class="pagenum"><a name="Page_191" id="Page_191">[191]</a></span>
-limited portions of the human race, and under conditions
-which leave large scope for legitimate doubt, and
-which, in point of fact, failed to ensure recognition for
-its moral precepts among His own chosen people for a
-long period after its promulgation.</p>
-
-<p>But on the scientific theory of the evolution of
-morality by natural laws it stands on an impregnable
-footing. No one can deny that, as a matter of fact,
-such instincts do prevail, and have become part of the
-nature of all the best men and best races, and that each
-successive generation tends to fix them more firmly.
-Mathematical laws are not the less certain because they
-can be traced back to counting on the fingers, and moral
-laws will continue to have a certainty and cogency,
-scarcely inferior to the axioms of mathematics, although
-we can trace them back to origins as rude as the
-attempts of the Australian savage to extend his perceptions
-of number beyond ‘one, two, and a great
-many.’</p>
-
-<p>The real difficulty is not in tracing the origin of
-these instincts of morality, but in that fundamental
-difficulty which underlies all theories of reconciling the
-consciousness of free-will with the material attributes
-with which it is indissolubly associated. Without
-freedom of will there can be no conscience, no right or
-wrong in acting in accordance or otherwise with the
-instincts of moral law, however those instincts may
-have been derived. Now it is certain that the will, like
-life, memory, consciousness, and other mental functions,
-is, so far as human knowledge extends, indissolubly
-connected with matter and natural laws, in the form
-of certain motions of the cells which form the grey
-substance of the nerves and of the nervous ganglia of<span class="pagenum"><a name="Page_192" id="Page_192">[192]</a></span>
-which the cortex of the brain is the most considerable.
-This is conclusively proved by experiment. We know
-that, by removing certain portions of the brain of a dog
-or of a pigeon, we can destroy the power of motion
-while preserving the will, and by removing certain other
-portions we can destroy the will while preserving the
-powers of motion. Take away a certain portion of the
-brain of a pigeon, and although it retains the power of
-taking food, it has so totally lost the will to exercise
-this power that it will starve in the midst of abundance,
-though it can be kept alive by placing the food in its
-mouth. In like manner, in the human brain there are
-certain portions which, if destroyed by injury or disease,
-will paralyse the power of giving effect to the will
-by muscular movements, while the destruction of other
-portions will paralyse the will which originates such
-movements. Numerous cases are recorded in medical
-treatises in which the will is completely paralysed for
-the performance of certain functions, and in such cases
-the anatomist can lay his finger on the spot where the
-brain is affected, and when the brain is dissected after
-the death of the patient, it will be found that his prediction
-is verified, and that this region of the brain really
-was diseased. In sleep also, and in abnormal states of
-the brain such as somnambulism, and mesmerism or
-hypnotism, the action of the will is suspended. Hypnotism
-affords the most remarkable instances, for here
-the will seems to be transferred from the Ego or individuality
-of the patient to that of the operator, and the
-currents of nervous energy which induce motion in A
-are set going by impulses in the mind of A, not caused
-by his own will, but by that of B, conveyed by words,
-gestures, or other subtle indications. A ludicrous instance<span class="pagenum"><a name="Page_193" id="Page_193">[193]</a></span>
-of this is recorded by Dr. Braid, in which an old
-lady, who had a true puritanical abhorrence of dancing
-as sinful, being hypnotised, began capering about the
-room when a waltz tune was struck up, on being told
-to do so by the operators.</p>
-
-<p>There are some other curious effects produced by
-hypnotism, in the way of inducing a sort of double
-consciousness and memory, which makes people in this
-condition totally forget things which they remember
-when awake, and remember things which were totally
-forgotten in the waking state.</p>
-
-<p>These and a variety of other instances point to the
-conclusion that man is only a conscious machine. In
-other words, that the original impress, to use Dr.
-Temple’s words, was so perfect that it provided a pre-established
-harmony not only for the innumerable
-phenomena of the material universe as unfolded by
-evolution, but for the still more innumerable phenomena
-of life in all its manifestations and all its complex relations
-to outward environment. I say of <i>life</i>, for we
-clearly cannot confine the theory to human life. A dog,
-who with the two courses before him of doing wrong
-and chasing a rabbit, or doing right and remaining at
-his master’s heel, chooses one of them, is in exactly the
-same position as Hercules between the rival attractions
-of virtue and pleasure. If Hercules acted as a machine,
-yielding to the pre-established preponderance of the
-stronger attraction, so did the dog; but if Hercules
-exerted free-will and felt the approval or blame of
-conscience, so did the retriever. There is no fundamental
-distinction, but merely a question of degree,
-between human conscience and the shame which a dog
-feels when it knows that it has done wrong, and the<span class="pagenum"><a name="Page_194" id="Page_194">[194]</a></span>
-pleasure which it manifests when conscious that it has
-behaved properly.</p>
-
-<p>Shall we thus conclude, as Leibnitz and other
-great philosophers have done, in favour of the mechanical
-theory? But if we do, how are we to account for the
-instinctive ineradicable feeling, which comes home to
-every one with a conviction even stronger than the
-evidence of the senses, that we really have a choice
-between opposite courses, and can decide on our own
-actions—a conviction which is obviously the foundation
-of all conscience and of all morality?</p>
-
-<p>Let us try to analyse more closely what Will really
-means, and under what conditions it is manifested. The
-circuit which connects any one single perception with
-action, through sensory nerve, sensory centre, motor
-centre, motor nerve and muscle, is as purely mechanical
-as that of an electric circuit. Reflex motions such as
-breathing, and even more complex motions which by
-repetition have become reflex or instinctive, are also
-mechanical and involve no exercise of will. But when
-perceptions become complex, and one primary evokes
-a number of secondary perceptions—in other words,
-when the cells of the corresponding portions of grey
-matter in the cortex of the brain are set vibrating by
-a variety of complex and conflicting molecular motions,
-the feeling of free-will inevitably arises. We feel the
-conviction that there is a something which we call soul,
-mind, or in the last analysis, ‘I myself I,’ which sits,
-as Von Moltke might do, in a cabinet receiving conflicting
-telegraphic messages from different generals,
-and deciding then and there what order to flash out
-in reply.</p>
-
-<p>What can we say to this? That it is like space and<span class="pagenum"><a name="Page_195" id="Page_195">[195]</a></span>
-time, one of the categories of thought, or primary
-moulds in which thought is cast. We do not know
-what space and time really are in their essence, or why
-they are the necessary conditions of thought, any more
-than we do in the case of will. They may be illusions,
-but we accept them, and of necessity accept them, as
-facts. For all practical purposes it is the same to us,
-as if we understood their essence and knew them to be
-realities. A man can no more doubt that he is an
-individual being, with a will which, in a great many
-cases, enables him to decide which of a variety of
-impulses shall prevail, than he can hesitate, if he is
-furnishing a room, to regulate his purchase of carpeting
-and paper by space of three dimensions, without regard
-to possible speculations as to quaternions.</p>
-
-<p>Perhaps the principle of polarity may assist us in
-understanding that both theories may be true; or rather
-that matter and spirit, necessity and free-will, may be
-opposite poles of one fundamental truth which is beyond
-our comprehension. We cannot shake off this principle
-of polarity, and arrive at any knowledge, or even conception,
-of the absolute truth in regard to the atoms,
-energies, and natural laws, which make up the universe
-of matter and of all the ordinary and material functions
-of life; why should we expect to do so in the higher
-manifestations of the same life, which have been arrived
-at in the later stages of one unbroken course of evolution
-from monad to man?</p>
-
-<p>This, at any rate, is the theory which best satisfies
-my own mind and enables me to reduce my own individual
-chaos into some sort of a cosmos. I draw from
-it the following conclusions:—</p>
-
-<p>For all practical purposes assume that ‘right is<span class="pagenum"><a name="Page_196" id="Page_196">[196]</a></span>
-right,’ and that the moral instincts, however they have
-been formed, are imperative laws. Assume also that</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Man is man and master of his fate,</div>
-</div>
-</div>
-
-<p class="noindent">and that we have, to a great extent, the power of
-deciding what to do and what not to do. But in doing
-so, keep the mind open to all conclusions of science, and
-admit freely that these assumptions are indissolubly
-connected with natural laws and with material organs,
-and that man is to a very great extent dependent on
-his environment and his place in evolution, both for his
-moral code and for the force of will and conscience
-which enable him to conform to it. Learn therefore the
-lesson of a large toleration and of charity in thought
-and deed, towards those who, from inherited constitution
-or unfortunate conditions of education and outward circumstances,
-fall under the sway of the principle of evil,
-and lead bad, useless, and unlovely lives. Had you
-and I, reader, been in their place, should we have done
-better?</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_197" id="Page_197">[197]</a></span></p>
-
-<h2 id="CHAPTER_XIII">CHAPTER XIII.<br />
-<span class="smaller">ZOROASTRIANISM.</span></h2>
-
-<div class="chapter">
-
-<p>Zoroaster an historical person—The Parsees—Iranian branch of Aryan
-family—Zoroaster a religious reformer—Scene at Balkh—Conversion
-of Gushtasp—Doctrines of the ‘excellent religion’—Monotheism—Polarity—Dr.
-Haug’s description—Ormuzd and Ahriman—Anquetil
-du Perron—Approximation to modern thought—Absence of miracles—Code
-of morals—Its comprehensiveness—And liberality—Special
-rites—Fire-worship—Disposal of dead—Practical results—The Parsees
-of Bombay—Their probity, enterprise, respect for women—Zeal
-for education—Philanthropy and public spirit—Statistics—Death and
-birth rates.</p>
-
-</div>
-
-<p>Zoroastrianism is commonly supposed to derive its
-name from its founder Zoroaster, a Bactrian sage or
-prophet, who lived in the reign of King Gushtasp the
-First. Zoroaster’s name has come down to us from
-antiquity in much the same relation to this form of
-religion as that of Moses to Judaism, or of Sakya-Mouni
-to Buddhism. As in those cases, certain
-learned commentators have endeavoured to show that
-the alleged founder was purely mythical and had no
-real historical existence, basing their argument mainly
-on the fact that a number of supernatural attributes,
-and embodiments of metaphysical and theological ideas,
-became attached to the name, just as a whole cycle of
-solar myths became associated with the name of Hercules.
-But this seems to be carrying scepticism too
-far. Experience shows that religions have generally<span class="pagenum"><a name="Page_198" id="Page_198">[198]</a></span>
-originated in the crystallisation of ideas floating in
-solution at certain periods of the evolution of societies,
-about the nucleus of some powerful personality. Nearly
-all the great religions of the world, such as Buddhism,
-Confucianism, Christianity, and Mahometanism, clearly
-had historical founders, and it would be hypercritical to
-deny that such a man as Jesus of Nazareth really lived
-because many of his sayings and doings may be traced
-to applications, more or less erroneous, of ancient prophecies,
-or because his human nature became transfigured
-into the Logos and other metaphysical conceptions of
-the Alexandrian philosophy.</p>
-
-<p>In the case of Zoroaster, the argument for his historical
-existence seems even stronger, for his name is
-connected with historical reigns and places, and his
-genuine early history contains nothing supernatural or
-improbable. He is represented as simply a deep thinker
-and powerful preacher, like Luther, who gave new form
-and expression to the vague religious and philosophical
-ideas of his age and nation, reformed its superstitions
-and abuses, and converted the leading minds of his day,
-including the monarch, by the earnestness and eloquence
-of his discourses. At any rate, for my purpose
-I shall assume his personality, for my object is not to
-write a critical essay on the origin and development of
-the Zoroastrian religion, but to show that in its fundamental
-ideas and essential spirit it approximates wonderfully
-to those of the most advanced modern thought,
-and gives the outline of a creed which goes further than
-any other to meet the practical wants of the present
-day, and to reconcile the conflict between faith and
-science. This will be most clearly and vividly shown
-by assuming the commonly accepted historical existence<span class="pagenum"><a name="Page_199" id="Page_199">[199]</a></span>
-of Zoroaster to be true, and by confining myself to the
-broad, leading principles of his religion, without dwelling
-on its varying phases, or on the mythical legends
-and ritualistic observances which, as in the case of all
-other old religions, have crystallised about the primitive
-idea and the primitive founder.</p>
-
-<p>Zara-thustra, or, as he is commonly called, Zoroaster,
-and the religion which goes by his name, are known to
-us mainly from the sacred books which have been preserved
-by the modern Parsees. The Parsees, a small
-remnant of the Persians who under Cyrus founded one
-of the mightiest empires of the ancient world, flying
-from their native country to escape from persecution
-after the Mahometan conquest, formed a colony in India,
-and are now settled at Bombay. They form a small
-but highly intelligent community, who have preserved
-their ancient religion, and, fortunately, some considerable
-fragments of their sacred scriptures. The oldest
-of these are written in the Gata dialect of the Avesta
-or Zend language, which is contemporary with Sanskrit,
-and bears much the same relation to it as Latin does
-to Greek. The primitive Aryan family at some very
-remote period became divided into two branches, and
-radiated from their Central Asian home in two directions.
-The Hindoo branch migrated to the south into
-the Punjaub and Hindostan; the Iranian westwards,
-into Bactria and Persia; while other successive waves
-of Aryan migration in prehistoric times rolled still
-further westwards over Europe, obliterating all but a
-few traces of the aboriginal population.</p>
-
-<p>The period of this separation of the Iranian and
-Hindoo races must be very remote, for the Rig-Veda is
-probably at least 4,000 years old, and the divergence<span class="pagenum"><a name="Page_200" id="Page_200">[200]</a></span>
-between its form of Sanskrit and the Gata dialect of the
-Zend is already as great as that between two kindred
-European languages such as Greek and Latin. The
-divergence of religious ideas is also evidently of very
-early date. In the Hindoo, and all other races of the
-primitive Aryan stock, the word used for gods and good
-spirits is taken from the root ‘div,’ to shine. Thus,
-Daeva in Sanskrit, Zeus and Theos in Greek, Deus in
-Latin, Tius in German, Diews in Lutheranism, Dia in
-Irish, Dew in Kymric, all mean the bright or shining
-one represented by the vault of heaven. But in Iranian
-the word has an opposite sense, and the ‘deevs’ correspond
-to our ‘devils.’</p>
-
-<p>The primitive Aryan religions were evidently all
-derived from a contemplation of the powers and phenomena
-of nature. The sky, with its flood of light and
-vault of ethereal blue, was considered to be the highest
-manifestation of a Supreme Power; while the sun and
-moon, the stars and planets, the winds and clouds, the
-earth and waters, were personified, either as symbols of
-the Deity or as subordinate gods. The original simple
-faith was thus apt to degenerate into a system of polytheism,
-and, as the gods came to be represented by
-visible forms, into idolatry.</p>
-
-<p>Zoroaster appears to us, like Mahomet at a later age
-and among a ruder people, as a prophet or reformer
-who abolished these abuses and restored the ancient
-faith in a loftier and more intellectual form, adapted
-to the use of an advanced and civilised society. The
-records of his life and teaching have fortunately been
-preserved in so authentic a form, that distant as he
-is from us we can form a singularly accurate idea of
-who he was and what he taught.</p>
-
-<p><span class="pagenum"><a name="Page_201" id="Page_201">[201]</a></span></p>
-
-<p>Some 3,200 years ago a sight might have been seen
-in the ancient city of Balkh—the famous capital of
-Bactria, the ‘Mother of Cities’—very like that witnessed
-some fourteen centuries later at our own Canterbury.
-The king and his chief nobles and courtiers were
-assembled to hear the discourse of a preacher who proposed
-to teach them a better religion. Gushtasp listened
-to Zoroaster, as Ethelbert listened to Augustine, and in
-each case reason and eloquence carried conviction, and
-the nation became converts to the new doctrine.</p>
-
-<p>This conversion was effected without miracles, for
-it is expressly stated in the celebrated speech of the
-prophet, preserved in the 30th chapter of the Yasna,
-that he relied solely on persuasion and argument.
-Ferdousi, the Persian Homer, thus describes the first
-interview between Zoroaster and Gushtasp: ‘Learn,’
-he said, ‘the rites and doctrines of the religion of excellence.
-For without religion there cannot be any worth
-in a king. When the mighty monarch heard him speak
-of the excellent religion, he accepted from him the
-excellent rites and doctrines.’</p>
-
-<p>The doctrines of this ‘excellent religion’ are extremely
-simple. The leading idea is that of monotheism,
-but the one God has far fewer anthropomorphic
-attributes, and is relegated much farther back
-into the vague and infinite, than the god of any other
-monotheistic religion. Ahura-Mazda, of which the
-more familiar appellation Ormuzd is an abbreviation,
-means the ‘All-knowing Lord;’ he is said sometimes
-to dwell in the infinite luminous space, and sometimes
-to be identical with it. He is, in fact, not unlike the
-inscrutable First Cause, whom we may regard with awe
-and reverence, with love and hope, but whom we cannot<span class="pagenum"><a name="Page_202" id="Page_202">[202]</a></span>
-pretend to define or to understand. But the radical
-difference between Zoroastrianism and other religions is
-that it does not conceive of this one God as an omnipotent
-Creator, who might make the universe as he chose,
-and therefore was directly responsible for all the evil
-in it; but as a Being acting by certain fixed laws, one
-of which was, for reasons totally inscrutable to us, that
-existence implied polarity, and therefore that there could
-be no good without corresponding evil.</p>
-
-<p>Dr. Haug, who is the greatest authority on all questions
-connected with the Zend scriptures, says: ‘Having
-arrived at the grand idea of the unity and indivisibility
-of the Supreme Being, Zoroaster undertook to solve the
-great problem which has engaged the attention of so
-many wise men of antiquity and even in modern times,
-viz. how are the imperfections discernible in the world,
-the various kind of evils, wickedness, and baseness,
-compatible with the goodness, holiness, and justness
-of God? This great thinker of remote antiquity
-solved this difficult question philosophically, by the
-supposition of two primæval causes, which, though different,
-were united, and produced the world of material
-things as well as that of spirit. These two primæval
-principles are the two moving causes in the universe,
-united from the beginning, and therefore called twins.
-They are present everywhere—in the Ahura Mazda, or
-Supreme Deity, as well as in man.’</p>
-
-<p>They are called in the Vendidad Spento Mainyush,
-or the ‘beneficent spirit,’ and Angro Mainyush, or the
-‘hurtful spirit.’ The latter is generally known as
-Ahriman, the Prince of Darkness; and the former as
-Ormuzd, is identified with Ahura Mazda, the good God,
-though, strictly speaking, Ahura Mazda is the great<span class="pagenum"><a name="Page_203" id="Page_203">[203]</a></span>
-unknown First Cause, who comprehends within himself
-both principles as a necessary law of existence, and in
-whom believers may hope that evil and good will ultimately
-be reconciled.</p>
-
-<p>Anquetil du Perron, the first translator of the Zendavesta,
-in his ‘Critical View of the Theological and Ceremonial
-System of Zar-thurst,’ thus sums up the Parsee
-creed: ‘The first point in the theological system of
-Zoroaster is to recognise and adore the Master of all
-that is good, the Principle of all righteousness, Ormuzd,
-according to the form of worship prescribed by him, and
-with purity of thought, of word, and of action, a purity
-which is marked and preserved by purity of body.
-Next, to have a respect, accompanied by gratitude, for
-the intelligence to which Ormuzd has committed the
-care of nature (i.e. to the laws of nature), to take in
-our actions their attributes for models, to copy in our
-conduct the harmony which reigns in the different
-parts of the universe, and generally to honour Ormuzd
-in all that he has produced. The second part of their
-religion consists in detesting the author of all evil,
-moral and physical, Ahriman—his productions, and his
-works; and to contribute, as far as in us lies, to exalt
-the glory of Ormuzd by enfeebling the tyranny which
-the Evil Principle exercises over the world.’</p>
-
-<p>It is evident that this simple and sublime religion is
-one to which, by whatever name we may call it, the best
-modern thought is fast approximating. Men of science
-like Huxley, philosophers like Herbert Spencer, poets
-like Tennyson, might all subscribe to it; and even enlightened
-Christian divines, like Dr. Temple, are not very
-far from it when they admit the idea of a Creator behind
-the atoms and energies, whose original impress,<span class="pagenum"><a name="Page_204" id="Page_204">[204]</a></span>
-given in the form of laws of nature, was so perfect as to
-require no secondary interference. Admit that Christ is
-the best personification of the Spenta Mainyush, or good
-principle in the inscrutable Divine polarity of existence,
-and a man may be at the same time a Christian and a
-Zoroastrian.</p>
-
-<p>The religion of Zoroaster has, however, this great
-advantage in the existing conditions of modern thought,
-that it is not dragged down by such a dead weight of
-traditional dogmas and miracles as still hangs upon the
-skirts of Christianity. Its dogmas are comprised in the
-statement that there is one supreme, unknown, First
-Cause, who manifests himself in the universe under
-fixed laws which involve the principle of polarity.
-This is hardly so much a dogma as a statement of fact,
-or of the ultimate and absolute truth at which it is
-possible for human faculty to arrive. No progress of
-science or philosophy conflicts with it, but rather they
-confirm it, by showing more and more clearly with
-every discovery that this is in very fact and deed the
-literal truth. Religion, or the feeling of reverence and
-love for the Great Unknown which lies beyond the
-sphere of human sense and reason, shines more brightly
-through this pure medium than through the fogs of
-misty metaphysics; and we can worship God in spirit
-and in truth without puzzling our brains as to the precise
-nature of the Logos, or exercising them on the insoluble
-problem how one can be equal to three, and at
-the same time three equal to one.</p>
-
-<p>As regards miracles, which are another millstone
-about the neck of Catholic Christianity, the religion of
-Zoroaster is entirely free from them. There are, it is
-true, a few miraculous myths about him in some of the<span class="pagenum"><a name="Page_205" id="Page_205">[205]</a></span>
-later writings in the Pehlvi language, as of his conception
-by his mother drinking a cup of the sacred Homa,
-but these are of no authority and form no part of the religion.
-On the contrary, the original scriptures which
-profess to record his exact words and precepts disclaim
-all pretension to divine nature or miraculous power, and
-base the claims of the ‘excellent religion’ purely on
-reason. This is an immense advantage in the ‘struggle
-for life,’ when every day is making it more impossible
-for educated men to believe that real miracles ever
-actually occurred, and when the evidence on which
-they were accepted is crumbling to pieces under the
-light of critical enquiry. The Parsee has no reason
-to tremble for his faith if a Galileo invents the telescope
-or a Newton discovers the law of gravity. He
-has no occasion to argue for Noah’s deluge, or for the
-order of Creation described in Genesis. Nay even, he
-may remain undisturbed by that latest and most fatal
-discovery that man has existed on the earth for untold
-ages, and, instead of falling from a high estate, has
-risen continuously by slow and painful progress from
-the rudest origins. How many orthodox Christians
-can say the same, or deny that their faith in their
-sacred books and venerable traditions has been rudely
-shaken?</p>
-
-<p>The code of morality enjoined by the Zoroastrian
-religion is as pure as its theory is perfect. Dr. Haug
-enumerates the following sins denounced by its code,
-and considered as such by the present Parsees: Murder,
-infanticide, poisoning, adultery on the part of men as
-well as women, sorcery, sodomy, cheating in weight
-and measure, breach of promise whether made to a
-Zoroastrian or non-Zoroastrian, telling lies and deceiving,<span class="pagenum"><a name="Page_206" id="Page_206">[206]</a></span>
-false covenants, slander and calumny, perjury, dishonest
-appropriation of wealth, taking bribes, keeping
-back the wages of labourers, misappropriation of religious
-property, removal of a boundary stone, turning
-people out of their property, maladministration and
-defrauding, apostasy, heresy, rebellion. These are positive
-injunctions. The following are condemnable from a
-religious point of view: Abandoning the husband; not
-acknowledging one’s children on the part of the father;
-cruelty towards subjects on the part of a ruler; avarice,
-laziness, illiberality and egotism, envy. In addition
-there are a number of special precepts adapted to the
-peculiar rites of the Zoroastrian religion which aim
-principally at the enforcement of sanitary rules, kindness
-to animals, hospitality to strangers and travellers,
-respect to superiors, and help to the poor and needy.</p>
-
-<p>It is evident that this is the most complete and comprehensive
-code of morals to be found in any system
-of religion. It comprises all that is best in the codes
-of Buddhism, Judaism, and Christianity, with a much
-more ample definition of many vices and virtues which,
-even in the Christian religion, are left to be drawn as
-inferences rather than inculcated as precepts. Thus,
-laziness, cheating, selfishness, and envy are distinctly
-defined as crimes, and their opposites as virtues, and
-not merely left to be inferred from the general maxims
-of ‘loving your neighbour as yourself,’ and ‘doing unto
-others as you would be done by.’ The comprehensiveness
-and liberal spirit of the code is also remarkable,
-for we are repeatedly told that these rules of morality
-apply to non-Zoroastrians as well as to Zoroastrians.
-The application of religious precepts to practical life
-is another distinguishing feature. Thus kindness to<span class="pagenum"><a name="Page_207" id="Page_207">[207]</a></span>
-animals is specially enjoined, and it is considered a sin
-to ill-treat animals of the good creation, such as cattle,
-sheep, horses, or dogs, by starving, beating, or unnecessarily
-killing them. With true practical wisdom,
-however, the ‘falsehood of extremes’ is avoided, and
-this precept is not, as in the case of Brahminism and
-Buddhism, carried so far as to prohibit altogether the
-taking of animal life, which is expressly sanctioned
-when necessary. This sober practical wisdom, or what
-Matthew Arnold calls ‘sweet reasonableness,’ is a very
-characteristic feature of Zoroaster’s religion, and very
-remarkable as having been taught at so early a period
-in the history of civilisation.</p>
-
-<p>Another precept, which might well have been made
-by an English board of health in the nineteenth century,
-is not to pollute water by throwing impure matter
-into it.</p>
-
-<p>The only special Parsee rites which would be unsuited
-for modern European society, are the worship of
-the sacred fire and the disposal of the dead. It is true
-that the former is distinctly understood to be merely a
-symbol of the Deity, and used exactly as water is in
-baptism, or as the ascending flame of candles and smoke
-from swinging incense are in the Catholic ritual, to bring
-more vividly before the minds of the worshippers the
-idea of the spirit soaring upwards towards heaven.
-Still, in modern society fire is too well understood
-as merely a particular form of chemical combination,
-and is too familiar as the strong slave and household
-drudge of man, to acquire a leading place in a religious
-ritual where it has not been hallowed by the usage of
-a long line of ancestors and the traditions of a venerable
-antiquity. All that can be said is, that if religious<span class="pagenum"><a name="Page_208" id="Page_208">[208]</a></span>
-rites and ceremonies are to be maintained in an age
-when science has become the prevailing mode of thought,
-appropriate symbolism, especially that of music, must
-more and more take the place of appeals to the intellect
-on metaphysical questions, and of repetitions of
-traditional formulæ which have lost all living significance.</p>
-
-<p>Another Parsee rite, which is even less adapted for
-general usage, is that of disposing of the dead on
-towers of silence, where the body moulders away or is
-devoured by birds of prey. It originates in a poetical
-motive of not defiling the pure elements, fire, earth, or
-water, by corruption; but it is obviously unsuited for
-the conditions of civilisation and climate which prevail
-in crowded cities under a humid sky.</p>
-
-<p>There is little prospect therefore of any general
-conversion to the sect of Zoroastrians; but what seems
-probable is the gradual transformation of existing
-modes both of religious and secular thought into something
-which is, in principle, very closely akin to the
-‘excellent religion’ taught by the Bactrian prophet.</p>
-
-<p>The miraculous theory of the universe being virtually
-dead, the only theory that can reconcile facts with
-feelings, and the ineradicable emotions and aspirations of
-the human mind with the incontrovertible conclusions
-of science, is that of a remote and more or less unknown
-and incomprehensible First Cause, which has given the
-original atoms and energies so perfect an impress from
-the first, that all phenomena are evolved from them by
-fixed laws, one of the principal of such laws being that
-of polarity, which develops the ever-increasing complexities
-and contrasts of the inorganic and organic worlds, of
-moralities, philosophies, religions, and human societies.<span class="pagenum"><a name="Page_209" id="Page_209">[209]</a></span>
-True religion consists in a recognition of this truth, a
-feeling of reverence in presence of the unknown, and,
-above all, a feeling of love and admiration for the good
-principle in whatever form it is manifested, in the beauties
-of nature and of art, in moral and physical purity and
-perfection, and all else that falls within the domain of the
-Prince of Light, in whose service, whether we conceive
-of him as an abstract principle, or accept some personification
-of him as a living figure, we enlist as loyal
-soldiers, doing our best to fight in his ranks against the
-powers of evil.</p>
-
-<p>The application of the all-pervading principle of
-polarity is exemplified in the realm of art. The glorious
-Greek drama turned mainly on the conflict between resistless
-fate and heroic free-will, and is typified in its
-highest form by Æschylus, when he depicts Prometheus
-chained to the rock hurling defiance at the tyrant of
-heaven. Our own Milton, in like manner, gives us the
-spectacle of the fallen archangel opposing his indomitable
-will and fertile resources to the extremity of adverse
-circumstance and to Almighty power.</p>
-
-<p>The greatest of modern dramas, Goethe’s ‘Faust,’
-turns so entirely on the opposition between the human
-soul striving after the infinite, and the spirit <i>der verneint</i>,
-who combats ideal aspirations with a cynical sneer, that
-it might well be called a Zoroastrian drama. It is a
-picture of the conflict between the two opposite principles
-of good and evil, of affirmation and negation, of
-the beautiful and the ugly, personified in Faust and Mephistopheles,
-and it is painted on a background of the
-great mysterious unknown. ‘Wer darf ihn nennen?’</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Who dares to name Him,</div>
-<div class="verse">Who to say of Him, ‘I believe’?</div><span class="pagenum"><a name="Page_210" id="Page_210">[210]</a></span>
-<div class="verse">Who is there ever with a heart to dare</div>
-<div class="verse">To utter, ‘I believe Him not’?</div>
-</div>
-</div>
-
-<p>So in poetry, Tennyson, the poet of modern thought,
-touches the deepest chords when he asks—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Are God and Nature, then, at strife?</div>
-</div>
-</div>
-
-<p class="noindent">and paints in the sharpest contrast on the background of
-the unknown, the conflict between the faith that</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent6">God is love indeed,</div>
-<div class="verse">And love creation’s final law,</div>
-</div>
-</div>
-
-<p class="noindent">and the harsh realities of nature, which</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent9">Red in tooth and claw</div>
-<div class="verse">With ravine shrieks against the creed;</div>
-</div>
-</div>
-
-<p class="noindent">or again in his later work, ‘The Ancient Sage,’ he
-says—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Thou canst not prove the Nameless, O my son!</div>
-<div class="verse">For nothing worthy proving can be proven,</div>
-<div class="verse">Nor yet disproven.</div>
-</div>
-</div>
-
-<p>In like manner in the works of art which embrace a
-wider range, and hold up the mirror to human nature,
-as in Shakespeare’s plays, and the novels of Walter
-Scott and other great authors, the interest arises mainly
-from the polarity of the various characters. We care
-little for the goody-good heroes or vulgar villains, but
-we recognise a touch of that nature which makes all
-the world akin in a Macbeth drawn by metaphysical
-suggestion to wade through a sea of blood; in Othello’s
-noble nature caught like a lion in the toils by the net of
-circumstances woven by a wily hunter; in Falstaff, a
-rogue, a liar, and a glutton, yet made almost likeable by
-his ready wit, imperturbable good-humour, and fertile
-resources. Shakespeare is, in fact, the greatest of artists,
-because he is the most multipolar. He has poles of<span class="pagenum"><a name="Page_211" id="Page_211">[211]</a></span>
-sympathy in him which, as the poles of carbon attract
-so many elements and form so many combinations,
-enable him to take into his own nature, assimilate, and
-reproduce every varied shade of character from a
-Miranda to a Caliban, from an Imogen to a Lady
-Macbeth, from a Falstaff to an Othello. Sir Walter
-Scott and all our great novelists have the same faculty,
-though in a less degree, and are great in exact proportion
-as they have many poles in their nature, and as
-those are poles of powerful polarity. The characters
-and incidents which affect us strongly and dwell in the
-memory are those in which the clash and conflict of
-opposites are most vividly represented. We feel infinite
-pity for a Maggie Tulliver dashing her young life, like
-a prisoned wild bird, against the bars of trivial and prosaic
-environment which hem her in; or for a Colonel
-Newcome opposing the patience of a gentle nature to
-the buffets of such a fate as meets us in the everyday
-world of modern life, the failure of his bank and the
-naggings of the Old Campaigner. On a higher level of
-art we sympathise with a Lancelot and a Guinevere
-because they are types of what we may meet in many a
-London drawing-room, noble natures drawn by some
-fatal fairy fascination into ignoble acts, but still retaining
-something of their original nobility, and while</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Their honour rooted in dishonour stands,</div>
-</div>
-</div>
-
-<p class="noindent">appearing to ordinary mortals little less than ‘archangels
-ruined.’ Or even if we descend to the lowest level of
-the penny dreadful or suburban drama, we find that
-the polarity between vice and virtue, however coarsely
-delineated, is that which mostly fascinates the uncultured
-mind.</p>
-
-<p><span class="pagenum"><a name="Page_212" id="Page_212">[212]</a></span></p>
-
-<p>The affinity between Zoroastrianism and art is
-easily explained when we consider that in one respect
-it has a manifest advantage over most Christian forms
-of religion. Christianity in its early origins received a
-taint of Oriental asceticism which it never shook off,
-and which in the declining centuries of the Roman
-empire, and in the barbarism and superstition of the
-Middle Ages, developed into what may be almost called
-a devil-worship of the ugly and repulsive. The antithesis
-between the flesh and the spirit was carried
-to such an extreme and false extent, that everything
-that was pleasant and beautiful came to be regarded as
-sinful, and the odour of sanctity was an odour which
-the passer-by would do well to keep on the windward
-side of. This leaven of asceticism is the rock upon
-which Puritanism, monasticism, and many of the highest
-forms of Christian life have invariably split. It
-is contrary to human nature, and directly opposed to
-the spirit of the life and doctrines of the Founder of the
-religion. Jesus, who was ‘a Jew living among Jews
-and speaking to Jews,’ adopted the true Jewish point
-of view of making religion amiable and attractive, and
-denouncing, as all the best Jewish doctors of the
-Talmud did, the pharisaical strictness which insisted
-on ritualistic observances and arbitrary restrictions. In
-no passages of his life does the ‘sweet reasonableness’
-of his character appear more conspicuous than where
-we find him strolling through the fields with his disciples
-and plucking ears of corn on the Sabbath, and
-replying to the formalists who were scandalised, ‘The
-Sabbath was made for man, not man for the Sabbath.’
-The ascetic bias subsequently introduced may have
-been a necessary element in counteracting the corruption<span class="pagenum"><a name="Page_213" id="Page_213">[213]</a></span>
-of Rome; but the pendulum in its reaction swung
-much too far, and when organised in the celibacy of
-the clergy and monastic institutions asceticism became
-the source of great evils. Even at a late period we can
-see in the reaction of the reign of Charles II. how
-antagonistic the puritanical creed, even of men like
-Cromwell and Milton, proved to the healthy natural
-instinct of the great mass of the English nation. And
-at the present day it remains one of the main causes
-of the indifference or hostility to religion which is so
-widely spreading among the mass of the population.
-Children are brought up to consider Sunday as a day of
-penance, and church-going as a disagreeable necessity;
-while grown-up men, especially those of the working
-classes, resent being told that a walk in the country, a
-cricket-match, or a visit to a library or museum on
-their only holiday, is sinful.</p>
-
-<p>In view of the approximation between the Zoroastrian
-religion and the forms of modern thought it is
-interesting to note how the former works among its
-adherents in actual practice. For, after all, the practical
-side of a religion is more important than its speculative
-or philosophical theories. Thus, for instance,
-the Quakers have a faith which is about the most
-reasonable of any of the numerous sects of Christianity
-and nearest to the spirit of its Founder, and yet
-Quakerism remains a narrow sect which is far from
-being victorious in the ‘struggle for life,’ Mahometanism,
-again, while dying out among civilised nations,
-shows itself superior to Christianity in the work of
-raising the barbarous, fetish-worshipping negroes of
-Africa to a higher level. And Mormonism, based on
-the most obvious imposture and absurdity, is the only<span class="pagenum"><a name="Page_214" id="Page_214">[214]</a></span>
-new religion which, in recent times, has taken root and
-to a certain extent flourished.</p>
-
-<p>Tried by this test, Zoroastrianism has made good its
-claim to be called the ‘excellent religion.’ Its followers,
-the limited community of Parsees in India, are honourably
-distinguished for probity, intelligence, enterprise,
-public spirit, benevolence, tolerance, and other good
-qualities. By virtue of these qualities they have raised
-themselves to a prominent position in our Indian empire,
-and take a leading part in its commerce and industrial
-enterprise. The chief shipbuilder at Bombay, the
-first great native railway contractor, the founder of
-cotton factories, are all Parsees, and they are found as
-merchants, traders, and shopkeepers in all the chief
-towns of British India, and distant places such as Aden
-and Zanzibar. Their commercial probity is proverbial,
-and, as in England, they have few written agreements,
-the word of a Parsee, like that of an Englishman, being
-considered as good as his bond. Their high character
-and practical aptitude for business are attested by the
-fact that the first mayor, or chairman of the Corporation
-of Bombay, was a Parsee who was elected by the
-unanimous vote both of Europeans and natives.</p>
-
-<p>The position of women affords perhaps the best
-test of the real civilisation and intrinsic worth of any
-community. Where men consider women as inferior
-creatures it is a sure proof that they themselves are so.
-They are totally wanting in that delicacy and refinement
-of nature which distinguishes the true gentleman
-from the snob or the savage, and are coarse, vulgar
-brutes, however disguised under a veneer of outward
-polish. On the other hand, respect for women implies
-self-respect, nobility of nature, capability of rising to<span class="pagenum"><a name="Page_215" id="Page_215">[215]</a></span>
-high ideals above the sordid level of animal appetite
-and the selfish supremacy of brute force.</p>
-
-<p>The Parsees in this respect stand high, far higher
-than any other Oriental people, and on a level with the
-best European civilisation. The equality of the sexes
-is distinctly laid down in the Zoroastrian scriptures.
-Women are always mentioned as a necessary part of
-the religious community. They have the same religious
-rites as the men. The spirits of deceased women are
-invoked as well as those of men. Long contact with
-the other races of India, and the necessity for some
-outward conformity to the practices of Hindoo and
-Mahometan rulers, did something to impair the position
-of females as regards public appearances, though
-the Parsee wife and mother always remained a principal
-figure in the Parsee household; and latterly, under the
-security of English rule, Parsee ladies may be seen everywhere
-in public, enjoying just as much liberty as the
-ladies of Europe or America. Nor are they at all
-behind their Western sisters in education, accomplishments,
-and, it may be added, in daintiness of fashionable
-attire. In fact, an eager desire for education has become
-a prominent feature among all classes of the Parsee community,
-and they are quite on a par with the Scotch,
-German, and other European races in their efforts to establish
-schools, and in the numbers who attend, and especially
-of those who obtain distinguished places in the higher
-schools and colleges, such as the Elphinstone Institute
-and the Bombay University. Female education is also
-actively promoted, and no prejudices stand in the way
-of attendance at the numerous girls’ schools which have
-been established, or even of studying in medical colleges,
-where Parsee women attend lectures on all branches of<span class="pagenum"><a name="Page_216" id="Page_216">[216]</a></span>
-medical science along with male students. Those who
-know the position of inferiority and seclusion in which
-women are kept among all other Oriental nations can
-best appreciate the largeness and liberality of spirit of a
-religion which, in spite of all surrounding influences,
-has rendered such a thing possible in such a country as
-India.</p>
-
-<p>Another prominent trait of the Parsee character is
-that of philanthropy and public spirit. In proportion
-to their numbers and means they raise more money for
-charitable objects than any other religious sect. And
-they raise it in a way which does the greatest credit to
-their tolerance and liberality. For instance, the Parsees
-were the principal subscribers to a fund raised in Bombay
-in aid of the ‘Scottish Corporation,’ and quite
-recently a Parsee gentleman gave 16,000<i>l.</i> towards the
-establishment of a female hospital under the care of
-lady doctors, although the benefit of such an institution
-would be confined principally to Mahometan and Hindoo
-women, Parsee women having no prejudice against employing
-male doctors.</p>
-
-<p>The public spirit shown by acts like this is the trait by
-which the Parsee community is most honourably distinguished,
-and in respect of which it must be candidly
-confessed it far surpasses not only other Oriental races,
-but most European nations, including our own. Whatever
-the reason may be, the fact is certain that in
-England, while a great deal of money is spent in charity,
-lamentably little is spent from the enormous surplus
-wealth of the country on what may be called public
-objects. There is neither religious influence nor social
-opinion brought to bear on the numerous class who
-have incomes far beyond any possible want, to teach<span class="pagenum"><a name="Page_217" id="Page_217">[217]</a></span>
-them that it should be both a pleasure and a pride to
-associate their names with some act of noble liberality.
-A better spirit we may hope is springing up, and there
-have been occasional instances of large sums applied to
-public purposes, such as parks and colleges, by private
-individuals, principally of the trading and manufacturing
-classes, such as the Salts, Crossleys, Baxters, and
-Holloways; but on the whole the amount contributed is
-miserably small. It is probably part of the price we
-pay for aristocratic institutions that those who inherit
-or accumulate great fortunes consider it their primary
-object to perpetuate or to found great families. Be this
-as it may, a totally different spirit prevails among the
-Parsees of Bombay, where it has been truly stated that
-hardly a year passes without some wealthy Parsee
-coming forward to perform a work of public generosity.
-The instance of Sir Jamsedjee Jijibhoy, who attained a
-European reputation for his noble benevolence, is only
-one conspicuous instance out of a thousand of this
-‘public spirit’ which has become almost an instinctive
-element in Parsee society.</p>
-
-<p>How far the large and liberal religion may be the
-cause of the large and liberal practice, it is impossible
-to say. Other influences have doubtless been at work.
-The Parsees are a commercial people, and commerce is
-always more liberal with its money than land. They
-are the descendants of a persecuted race, and as a rule
-it is better to be persecuted than to persecute. Still,
-after making all allowances, it remains that the tree
-cannot be bad which bears such fruits; the religion
-must be a good one which produces good men and
-women and good deeds.</p>
-
-<p>Statistical facts testify quite as strongly to the high<span class="pagenum"><a name="Page_218" id="Page_218">[218]</a></span>
-standard of the Parsee race, and the practical results
-which follow from the observance of the Zoroastrian
-ritual. A small death-rate and a large proportion of
-children prove the vigorous vitality of a race. The
-Parsees have the lowest death-rate of any of the many
-races who inhabit Bombay. The average for the two
-years 1881 and 1882 per thousand was for Hindoos
-26·11; for Mussulmans 30·46; for Europeans 20·18; for
-Parsees 19·26. The percentage of children under two
-years old to women between fifteen and forty-five was
-30·27 for Parsees, as against Hindoos 22·24, and
-Mussulmans 24·9, showing incontestably greater vitality
-and greater care for human life.</p>
-
-<p>Of 6,618 male and 2,966 female mendicants in the
-city of Bombay, only five male and one female were
-Parsees.</p>
-
-<p>These figures speak for themselves. It is evident
-that a religion in which such results are possible cannot
-be unfavourable to the development of the ‘mens sana
-in corpore sano;’ and that, although we may not turn
-Zoroastrians, we may envy some of the results of a creed
-which inculcates worship of the good, the pure, and the
-beautiful in the concerns of daily life, as well as in
-the abstract regions of theological and philosophical
-speculation.</p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_219" id="Page_219">[219]</a></span></p>
-
-<h2 id="CHAPTER_XIV">CHAPTER XIV.<br />
-<span class="smaller">FORMS OF WORSHIP.</span></h2>
-
-<div class="chapter">
-
-<p>Byron’s lines—Carnegie’s description—Parsee nature-worship—English
-Sunday—The sermon—Appeals to reason misplaced—Music better
-than words—The Mass—Zoroastrianism brings religion into daily life—Sanitation—Zoroastrian
-prayer—Religion of the future—Sermons
-in stones and good in everything.</p>
-
-</div>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent1">Not vainly did the early Persian make</div>
-<div class="verse indent1">His altar the high places and the peak</div>
-<div class="verse indent1">Of earth-o’ergazing mountains, and thus take</div>
-<div class="verse indent1">A fit and unwall’d temple, where to seek</div>
-<div class="verse indent1">The spirit, in whose honour shrines are weak,</div>
-<div class="verse indent1">Uprear’d of human hands. Come, and compare</div>
-<div class="verse indent1">Columns and idol-dwellings, Goth or Greek,</div>
-<div class="verse indent1">With nature’s realms of worship, earth and air,</div>
-<div class="verse">Nor fix on fond abodes to circumscribe thy prayer!</div>
-<div class="verse right"><i>Childe Harold</i>, iii. 91.</div>
-</div>
-</div>
-
-<p>A shrewd Scotch-American ironmaster—Andrew Carnegie—in
-an interesting and instructive record of experiences
-during a voyage round the world, gives the
-following description of the worship of the modern
-Parsees, as actually witnessed by him at Bombay:—</p>
-
-<p>‘This evening we were surprised to see, as we
-strolled along the beach, more Parsees than ever before,
-and more Parsee ladies richly dressed, all wending their
-way towards the sea. It was the first of the new moon,
-a period sacred to these worshippers of the elements;
-and here on the shore of the ocean, as the sun was sinking
-in the sea, and the slender silver thread of the<span class="pagenum"><a name="Page_220" id="Page_220">[220]</a></span>
-crescent moon was faintly shining on the horizon, they
-congregated to perform their religious rites.</p>
-
-<p>‘Fire was there in its grandest form, the setting
-sun, and water in the vast expanse of the Indian Ocean
-outstretched before them. The earth was under their
-feet, and wafted across the sea the air came laden with
-the perfumes of “Araby the blest.” Surely no time or
-place could be more fitly chosen than this for lifting up
-the soul to the realms beyond sense. I could not but
-participate with these worshippers in what was so
-grandly beautiful. There was no music save the solemn
-moan of the waves as they broke into foam on the
-beach. But where shall we find so mighty an organ,
-or so grand an anthem?</p>
-
-<p>‘How inexpressibly sublime the scene appeared to
-me, and how insignificant and unworthy of the unknown
-seemed even our cathedrals “made with human
-hands,” when compared with this looking up through
-nature unto nature’s God! I stood and drank in the
-serene happiness which seemed to fill the air. I have
-seen many modes and forms of worship—some disgusting,
-others saddening, a few elevating when the organ
-pealed forth its tones, but all poor in comparison with
-this. Nor do I ever expect in all my life to witness a
-religious ceremony which will so powerfully affect me
-as that of the Parsees on the beach at Bombay.’</p>
-
-<p>I say Amen with all my heart to Mr. Carnegie.
-Here is an ideal religious ceremony combining all that
-is most true, most touching, and most sublime, in the
-attitude of man towards the Great Unknown. Compare
-it with the routine of an ordinary English Sunday, and
-how poor and prosaic does the latter appear! There is
-nothing which seems to me to have fallen more completely<span class="pagenum"><a name="Page_221" id="Page_221">[221]</a></span>
-out of harmony with its existing environment
-than our traditional form of church service. The
-sermon has been killed by the press and has become an
-anachronism. There was a time when sermons like
-those of Latimer and John Knox were living realities;
-they dealt with all the burning political and personal
-questions of the day, and to a great extent did the work
-now done by platform speeches and leading articles.
-If there are national dangers to be denounced, national
-shortcomings to be pointed out, iniquity in high places
-to be rebuked, we look to our daily newspaper, and not
-to our weekly sermon. The sermon has in a great
-majority of cases become a sort of schoolboy theme, in
-which traditional assumptions and conventional phrases
-are ground out, with as little soul or idea behind them
-as in the Thibetan praying-mill. In the course of a
-long life I have gained innumerable ideas and experienced
-innumerable influences, from contact with the
-world, with fellow-men, and with books; but although
-I have heard a good many sermons, I cannot honestly
-say that I ever got an idea or an influence from one of
-them which made me wiser or better, or different in any
-respect from what I should have been if I had slept
-through them. And this from no fault of the preachers.
-I have heard many who gave me the impression that
-they were good men, and a few who impressed me as
-being able and liberal-minded men—nor do I know that,
-under the conditions in which they are placed, I could
-have done any better myself. But they were dancing
-in fetters, and so tied down by conventionalities that
-it was simply impossible for them to depart from the
-paths of a decorous routine.</p>
-
-<p>The fact is that the whole point of view of our<span class="pagenum"><a name="Page_222" id="Page_222">[222]</a></span>
-religious services, especially in Protestant countries,
-has become a mistaken one. It is far too much an
-appeal to the intellect and to abstract dogmas, and too
-little, one to the realities of actual life and to the vague
-emotions and aspirations which constitute the proper
-field of religion. In the great reaction of the Reformation
-it was perhaps inevitable that an appeal should
-be made to reason against the abuses of an infallible
-Church; and as long as the literal inspiration of the
-Bible and other theological premises were held to be
-undoubted axioms by the whole Christian world, there
-might be a certain interest in hearing them repeated
-over and over again in becoming language, and in
-listening to sermons which explained shortly conclusions
-which might be drawn from these admitted
-axioms. But this is no longer the case. It is impossible
-to touch the merest fringe of the questions now
-raised by the intellectual side of religion in discourses
-of half an hour’s length; even if the preacher were
-perfectly free, and not hampered by the fear of scandalising
-simple, pious souls by plain language. Spoken
-words have to a great extent ceased to be the appropriate
-vehicle for appealing either to religious reason or
-to religious emotion—books for the former, music for
-the latter, are infinitely more effective. Music especially
-seems made to be the language of religion. Not only
-its beauty and harmony, but its vagueness, and its
-power of exciting the imagination and stirring the feelings,
-without anything definite which has to be proved
-and can be contradicted, fit it to be the interpreter of
-those emotions and aspirations which fill the human
-soul in presence of the universe and of the Great Unknown.
-Demonstrate, with St. Thomas Aquinas or<span class="pagenum"><a name="Page_223" id="Page_223">[223]</a></span>
-Duns Scotus, how many angels can stand on the point
-of a needle, and I remain unaffected; but let me hear
-Rossini’s ‘Cujus Animam,’ or Mozart’s ‘Agnus Dei,’
-and I say, ‘Thus the angels sing.’</p>
-
-<p>In this respect the Roman Catholic Church has
-retained a great advantage over reformed churches.
-Whatever we may think of its tenets and principles, its
-forms of worship are more impressive and more attractive.
-The Mass, apart from all dogma and miracle, is
-a mysterious and beautiful religious drama, in which
-appropriate symbolism, vocal and instrumental music,
-all the highest efforts of human art, are united to produce
-feelings of joy and of devoutness. The vestment
-of the priest, his gestures and genuflexions, the Latin
-words chanted in stately recitative, the flame of the
-candles pointing heavenwards, the burning incense
-slowly soaring upwards, the music of great masters,
-not like our dreary and monotonous psalmody, but in
-fullest harmony and richest melody—all combine to
-attune the mind to that state of feeling which is the
-soul of religion.</p>
-
-<p>In this respect, however, what I have called the
-Zoroastrian theory of religion affords great advantages.
-It connects religion directly with all that is good and
-beautiful, not only in the higher realms of speculation
-and of emotion, but in the ordinary affairs of daily life.
-To feel the truth of what is true, the beauty of what is
-beautiful, is of itself a silent prayer or act of worship
-to the Spirit of Light; to make an honest, earnest,
-effort to attain this feeling, is an offering or act of
-homage. Cleanliness of mind and body, order and
-propriety in conduct, civility in intercourse, and all the
-homely virtues of everyday life, thus acquire a higher<span class="pagenum"><a name="Page_224" id="Page_224">[224]</a></span>
-significance, and any wilful and persistent disregard
-of them becomes an act of mutiny against the Power
-whom we have elected to serve. Such moral perversion
-becomes impossible as that which in the Middle Ages
-associated filth with holiness, and adduced as a title to
-canonisation that the saint had worn the same woollen
-shirt until it fell to pieces under the attacks of vermin.
-We laugh at this in more enlightened days, but we
-often imitate it by setting up false religious standards,
-and thinking we can make men better by penning them
-up on Sundays in the foul air and corrupting influences
-of densely peopled cities.</p>
-
-<p>The identification of moral and physical evil, which
-is one of the most essential and peculiar tenets of the
-Zoroastrian creed, is fast becoming a leading idea in
-modern civilisation. Our most earnest philanthropists
-and zealous workers in the fields of sin and misery in
-crowded cities are coming, more and more every day,
-to the conviction that an improvement in the physical
-conditions of life is the first indispensable condition
-of moral and religious progress. More air, more light,
-better lodging, better food, more innocent and healthy
-recreation, are what are wanted to make any real impression
-on the masses who have either been born and
-bred in an evil environment, or have fallen out of the
-ranks and are the waifs and stragglers left behind in
-the rapid progress and intense competition of modern
-society. Hence we see that the devoted individuals and
-charitable institutions who take the lead in works of
-practical benevolence direct their attention more and
-more to the rescue of children from bad surroundings;
-to sending them to new and happier homes in the
-colonies, to country retreats for the sickly, and excursions<span class="pagenum"><a name="Page_225" id="Page_225">[225]</a></span>
-for the healthy; and to providing clubs and
-reading-rooms as substitutes for the gin-palace and
-public-house. The latest development of this idea, that
-of the ‘People’s Palace’ in the East End of London, is
-a noble offering to the ‘Spirit of Light,’ by whatever
-name we choose to call him, in opposition to the ‘Spirit
-of Darkness.’</p>
-
-<p>To the Zoroastrian, prayer assumes the form of a
-recognition of all that is pure, sublime, and beautiful in
-the surrounding universe. He can never want opportunities
-of paying homage to the Good Spirit and of
-looking into the abysses of the unknown with reverence
-and wonder. The light of setting suns, the dome of
-loving blue, the clouds in the might of the tempest or
-resting still as brooding doves, the mountains, the</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent16">Waste</div>
-<div class="verse">And solitary places where we taste</div>
-<div class="verse">The pleasure of believing what we see,</div>
-<div class="verse">Is boundless, as we wish our souls to be;</div>
-</div>
-</div>
-
-<p class="noindent">the ocean lashed by storm, or where it</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">All down the sand</div>
-<div class="verse">Lies breathing in its sleep,</div>
-<div class="verse">Heard by the land—</div>
-</div>
-</div>
-
-<p class="noindent">these are a Zoroastrian’s prayers.</p>
-
-<p>And even if, ‘in populous cities pent,’ he is cut off
-from close communion with nature, opportunities are
-not wanting to him of letting his soul soar aloft with
-purifying aspirations. A glimpse of the starry sky,
-even if seen from a London street, may bear in on him
-the awful yet lovely mystery of the Infinite. Good
-books, good music, true works of art, may all strengthen
-his love of the good and beautiful. A dense fog, or<span class="pagenum"><a name="Page_226" id="Page_226">[226]</a></span>
-drizzling rain may obscure the outward view, but with
-the inner eye he may stand listening to the lark or
-under the vernal sky, and while his</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Heart looks down and up,</div>
-<div class="verse indent1">Serene, secure;</div>
-<div class="verse">Warm as the crocus-cup,</div>
-<div class="verse indent1">As snowdrops pure,</div>
-</div>
-</div>
-
-<p class="noindent">thank the Good Spirit that it has been given to man to
-write, and to him to read, verses of such exquisite perfection
-as Shelley’s ‘Ode to a Skylark’ and Tennyson’s
-‘Early Spring.’ Above all, where men congregate in
-masses, in the great centres of politics, of commerce, of
-literature, science, and art, he can hear best</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">The still sad music of humanity,</div>
-<div class="verse">Not harsh nor grating, but of ample power</div>
-<div class="verse">To chasten and subdue,</div>
-</div>
-</div>
-
-<p class="noindent">and associate himself with movements in which his little
-individual effort is exerted towards making the world
-a little better rather than a little worse than he found it.</p>
-
-<p>This, rather than wrangling with his fellow-mortals
-about creeds and attempts to name the unnameable,
-believe the unbelievable, and define the undefineable,
-seems to me to be the religion of the future. Call it by
-what name you like, I quarrel with no one as long as he
-can find</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Sermons in stones and good in everything.</div>
-</div>
-</div>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_227" id="Page_227">[227]</a></span></p>
-
-<h2 id="CHAPTER_XV">CHAPTER XV.<br />
-<span class="smaller">PRACTICAL POLARITIES.</span></h2>
-
-<div class="chapter">
-
-<p>Fable of the shield—Progress and conservatism—English and French
-colonisation—Law-abidingness—Irish land question—True conservative
-legislation—Ultra-conservatism—Law and education—Patriotism—Jingoism
-and parochialism—True statesmanship—Free trade and
-protection—Capital and labour—Egoism and altruism—Socialism and
-<i>laissez faire</i>—Contracts—Rights and duties of landlords—George’s
-theory—State interference—Railways—Post Office—Telegraphs—National
-defence—Concluding remarks.</p>
-
-</div>
-
-<p>A well-known fable tells how in the olden time two
-knights were riding in opposite directions along a green
-road overarched by the trees of an ancient forest. It
-was a bright morning in early summer, with the green
-leaves freshly bursting in contrasted foliage; the sun
-had just risen over the tops of the trees in clouds of
-golden and crimson glory; dewdrops were glittering
-like diamonds on every twig and blade of grass; and
-the joyous birds carolling their loudest song to greet the
-opening day.</p>
-
-<p>Everything was fresh and cheerful as of a new-born
-earth, and so were the spirits of the two youthful
-knights, who were pricking forth in search of adventures.
-He whose face was turned towards the West, where the
-rising sun had last set, wore a primrose scarf over his
-cuirass, and had on his shield a quaint device, which,<span class="pagenum"><a name="Page_228" id="Page_228">[228]</a></span>
-on closer inspection, might be seen to be a tombstone
-with the inscription,</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">‘I was well, would be better, and here I am.’</div>
-</div>
-</div>
-
-<p class="noindent">He rode along musing on the heroic legends of the past,
-and wishing that he had been a knight of Arthur’s round
-table to ride out with the blameless king against invading
-heathen.</p>
-
-<p>The second knight, whose face was turned towards the
-rising sun, bore an azure shield with a different device.
-On it was depicted the good Sir James Douglass
-charging the serried Paynim army, and, as he charged,
-flinging before him into the hostile ranks the casket
-containing the heart of Robert Bruce, and shouting for
-battle-cry—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Go thou aye forward, as was thy wont.</div>
-</div>
-</div>
-
-<p class="noindent">As he rode his fancy wrought the fairy web of a
-day-dream, in which he saw himself delivering the fair
-princess Liberty from the fiery dragon Prejudice and
-the stolid giant Obstruction.</p>
-
-<p>The knights met just where an ancient oak of mighty
-bulk stretched overhead a huge branch across the path,
-as some aged athlete might stretch out an arm rigid
-with gnarled and knotted muscles, to show younger
-generations how Olympian laurels were won when
-Pollux or Hercules plied the cestus. From this branch
-a shield hung suspended.</p>
-
-<p>‘Good morrow, fair knight,’ said he of the primrose
-scarf; ‘prithee tell me if thou knowest what means this
-golden shield suspended here.’</p>
-
-<p>‘I marvel at it myself, good Sir Knight,’ responded
-the other; ‘but you mistake in calling the shield golden;
-it is of silver.’</p>
-
-<p><span class="pagenum"><a name="Page_229" id="Page_229">[229]</a></span></p>
-
-<p>‘Your eyes must be of the dullest,’ said the first
-knight, ‘if you mistake gold for silver.’</p>
-
-<p>‘Not so dull as yours,’ retorted the other, ‘if you
-mistake silver for gold.’</p>
-
-<p>The argument waxed hot, and, as usual in such
-cases, as tempers grew weak adjectives grew strong.
-Soon, like the old Homeric heroes when Greek met
-Trojan</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Far on the ringing plains of windy Troy,</div>
-</div>
-</div>
-
-<p class="noindent">winged words of fire and fury darted from each mouth,
-and epithets were exchanged, of which ‘stupid old
-Tory’ and ‘low, vulgar Radical’ were among the least
-unparliamentary. At length the fatal words ‘You lie’
-escaped simultaneously from both, and on the instant
-spears were couched, steeds spurred, and, red with
-rage, they encountered each other in full career. Such
-was the momentum that both men and horses rolled
-over, even as the Templar went down before the spear
-of Ivanhoe within the lists of Ashby-de-la-Zouch. But,
-like the redoubted knight Brian de Bois-Guilbert, each
-sprang to his feet and drew his sword, eager to redeem
-the fortune of war in deadly combat. Like two surly
-boars with bristling backs and foaming tusks quarrelling
-for the right of way in Indian jungle, or tawny lions in
-Numidian desert tearing one another to pieces for the
-smiles of a leonine Helen, the heroes clashed together,
-cutting, slashing, parrying, foyning, and traversing, until
-at length, bleeding and breathless, they paused for a
-moment, leaning on their swords to recover second wind.</p>
-
-<p>Just then an aged hermit appeared on the scene,
-drawn thither by the sound of the combat.</p>
-
-<p>‘Pause, my sons,’ he said, ‘and tell me what is the
-cause of this furious encounter.’</p>
-
-<p><span class="pagenum"><a name="Page_230" id="Page_230">[230]</a></span></p>
-
-<p>‘Yonder false villain protests,’ said the one, ‘that
-the shield which hangs there is of gold.’</p>
-
-<p>‘And that lying varlet persists that it is of silver,’
-said the other.</p>
-
-<p>The hermit smiled, and said, ‘Hold your hands, good
-sirs, for a single moment, and use your remaining
-strength to exchange places and look at the opposite
-side of the shield.’</p>
-
-<p>They obeyed his words, and found to their confusion
-that they had been fighting in a quarrel in which
-each was right and each wrong.</p>
-
-<p>‘Father,’ they said, ‘we are fools. Grant us thy
-pardon for our folly and absolution for our sin.’</p>
-
-<p>‘Absolution,’ said the hermit, ‘is soon granted for
-faults which arise from the innate tendency of poor
-human nature. Wiser and older men than you are
-prone to see only their own side of a question. Come,
-then, with me to my humble hermitage; there will
-I dress your wounds and offer you my frugal fare;
-happy if from this lesson you may learn for the rest of
-your lives, before indulging in vehement assertions and
-proceeding to violent extremities, to “look at the other
-side of the shield.”’</p>
-
-<p>The application of this fable to the polarity of politics
-will be obvious to every intelligent reader. As the
-earth is kept in its orbit by the due balance of centripetal
-and centrifugal forces, so is every civilised society
-held together by the opposite influences of conservative
-and progressive tendencies. The conservative tendency
-may be likened to the centripetal force which binds the
-mass together, while the progressive one resembles that
-centrifugal force which prevents it from being concentrated
-in a rigid and inert central body without life or<span class="pagenum"><a name="Page_231" id="Page_231">[231]</a></span>
-motion. As Herbert Spencer truly says, ‘from antagonistic
-social tendencies there always results not a
-medium state, but a rhythm between opposite states.
-Now the one greatly preponderates, and presently, by
-reaction, there comes a preponderance of the other.’
-So it is with the antagonism of conservative and liberal
-tendencies. In the societies of the ancient world, and
-to the present day in the East, the conservative tendency
-unduly preponderates, and they crystallise into inert
-masses in the form of despotisms, and of sacerdotal or
-administrative hierarchies. At times the pent-up forces
-which make for change accumulate, and, as in the
-French Revolution, explode with destructive violence,
-shattering the old and bringing in new eras. But unless
-the balance between liberty and order is tolerably
-preserved in the individual citizens whose aggregate
-forms the society, after a period more or less prolonged
-of violent oscillations they crystallise anew into fresh
-forms, in which another military dynasty, or it may be
-administrative centralisation under the name of a republic,
-again asserts the preponderance of the centripetal
-force.</p>
-
-<p>The happiest nations are those in which the individual
-character of individual citizens supplies the
-requisite balance. An ideal society is one in which
-every citizen is at the same time liberal and conservative;
-law-abiding, and yet with a strong instinct for liberty
-of thought and action, for progress and for individual
-independence. It is among the Teutonic races, especially
-when they are placed in favourable conditions as in new
-countries, or in old countries where for ages</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Freedom has widened slowly down,</div>
-<div class="verse indent1">From precedent to precedent,</div>
-</div>
-</div>
-
-<p><span class="pagenum"><a name="Page_232" id="Page_232">[232]</a></span></p>
-
-<p class="noindent">that this happy ideal is most nearly realised. Hence it
-is that these races are more and more coming to the
-front and surviving in the struggle for existence.</p>
-
-<p>The contrast of English and French colonisation
-affords a striking instance of this difference of races.
-A century and a half ago France stood as well as
-England in the race for colonial supremacy. She had
-the start of us in Canada, and her pioneers had explored
-the Great Lakes, the Mississippi, and a large part of
-the continent of North America west of the Rocky
-Mountains. To-day there are sixty millions of an
-English-speaking population in that continent, while
-French is scarcely spoken beyond the single province of
-Quebec. Political events had doubtless something to
-do with this result; but it has been mainly owing to the
-innate qualities of the two races, for even the genius of
-Chatham might have failed to establish our supremacy
-if it had not been backed by the superior intelligence,
-energy, and staying power of the English colonists.
-The ultimate cause of the triumph of the English over
-the French element in America and India is doubtless
-to be found in the stronger individualism of the former.
-The character of the French is eminently social, they
-like to live in societies, and shrink from encountering
-the hardships and still more the isolation of the life of
-early settlers. They like to be administered, and shrink
-from the responsibility of hewing out, each for themselves,
-their own path in the relations of civil life or in
-the depths of primæval forests.</p>
-
-<p>It is so to the present day, and they fail conspicuously
-in creating a large French population even at
-their own doors in Algeria; while in their more distant
-colonies they conquer and annex, but to see their commerce<span class="pagenum"><a name="Page_233" id="Page_233">[233]</a></span>
-fall into the hands of English, Germans, and
-Chinese, as in Cochin China, or to stagnate as in New
-Caledonia. As a witty French writer puts it, the trade
-of a remote French colony may be summed up as—imports,
-absinthe and cigars; exports, stamped paper
-and red-tape. Individualism in this case has been fairly
-pitted against Socialism, and has beaten it out of the
-field by the verdict of Fact, which is more conclusive
-than any amount of abstract argument.</p>
-
-<p>To return, however, to the field of politics. Where
-the essential quality of being law-abiding is wanting
-in individuals, it is hopeless to look for real liberty.
-The centripetal force in societies, as in planets, must be
-supplied somehow, or they would fly into dissolution;
-and if not by the integration of the tendencies of the
-individual units, then by external restrictions. Socialists
-may be allowed to make inflammatory harangues
-in a non-explosive atmosphere, but hardly to let off
-their fireworks in a powder-magazine. In order, however,
-that a nation shall be law-abiding, it is essential
-that the great majority should feel that, on the whole, the
-law is their friend. It is not in human nature to love
-that which injures, or to respect that which is felt to be
-unjust. The volcanic explosion of the French Revolution
-was due to the feeling of the French nation, with
-the exception of a few courtiers, nobles, and priests,
-that the existing order of things was their enemy, and
-law a tool in the hands of their oppressors. Even
-among English-speaking races we find, in the unfortunate
-instance of Ireland, that under specially unfavourable
-circumstances the same effects may be
-produced by the same causes. What has English law
-practically meant for centuries to an average peasant of<span class="pagenum"><a name="Page_234" id="Page_234">[234]</a></span>
-Kerry or Connemara? It has meant an irresistible
-malevolent power, which comes down on him with
-writs of eviction to compel him to pay a high rent on
-his own improvements. More than half the population
-of Ireland consists of tenants and their families occupying
-small holdings, paying less than 10<i>l.</i> a year of rent.
-Of an immense majority of these small holdings two
-things may be safely asserted: first, that the total gross
-value of the produce is insufficient, after paying the
-rent, to leave a decent subsistence for the cultivator.
-Secondly, that this rent is levied to a great extent on
-the improvements of the tenant or his predecessors.
-Throughout the poorer parts of Ireland the greater
-part of the soil, in its natural state of bog or mountain,
-is not worth a rent of a shilling an acre; but some
-poor peasant, urged by the earth-hunger which results
-from the absence of other sources of employment, squats
-upon it, builds a wretched cottage, delves, drains, fences,
-and reclaims a few acres of land so as to bear a scanty
-crop of oats and potatoes. When he has done so the
-landlord or landlord’s agent comes to him and says,
-‘This land is worth ten or fifteen shillings an acre,
-according to the standard of rents in the district, and
-you must pay it or turn out;’ and the law backs him
-in saying so by writs of eviction and police. Put
-yourself in poor Pat’s place, and say if you would love
-the law and be law-abiding.</p>
-
-<p>It would take me too far from the scope of this
-volume into the field of contemporary politics if I
-attempted to point out who is to blame for this state of
-things, or what are the remedies. It is enough to say
-that this is the real Irish problem, and to point to it as
-an instance of the calamitous effects which inevitably<span class="pagenum"><a name="Page_235" id="Page_235">[235]</a></span>
-follow when the instincts of a whole population are
-brought by an unfavourable combination of circumstances
-into necessary and natural antagonism with the
-laws which they are bound to obey.</p>
-
-<p>Conservative legislation, by whatever party it is introduced,
-really means making the law correspond with
-the common sense and common morality of all except
-the criminal and crotchety classes, so that the majority
-may feel it to be their friend. For instance, the most
-truly conservative measure of recent times was probably
-that which legalised trades’ unions and gave working-men
-full liberty to combine for an increase of wages.
-The old legal maxim, that such combinations were
-illegal as being in restraint of trade, was so obviously
-an invention of the members of the upper caste who
-wore horsehair wigs, to give their fellows of the same
-caste who employed labour an unfair advantage, that it
-could not fail to cause feelings of discontent and exasperation
-among the masses of working-men. By its
-repeal the sting has been taken out of Socialism, and
-the British working-man has come to be, in the main,
-a reasonable citizen, on whom incitements to violence
-in order to inaugurate Utopias, fall as lightly as the
-howlings of the barren east wind on the chimney-tops.
-It has led also to reasonable and peaceful adjustment
-of disputes between employers and labourers by arbitration
-and sliding-scales instead of by strikes and
-lock-outs. In the United States of America the law-abiding
-instinct is even stronger. We find that strikes
-attended with violence are almost always confined
-mainly to the foreign element of recently imported immigrants,
-and that the native-born American citizen<span class="pagenum"><a name="Page_236" id="Page_236">[236]</a></span>
-considers the laws as his own laws, and is determined
-to have them respected.</p>
-
-<p>The balance between the conservative and progressive
-tendencies is, however, at the best, always imperfect,
-and inclines too much sometimes in one
-and sometimes in the other direction. In England
-the conservative tendency has had on the whole too
-much preponderance. I do not speak of political institutions,
-for in these of late years the balance has
-been pretty equally preserved; but in practical matters
-there is still a good deal of old-fashioned stolid obstruction.
-This is most apparent in law and in education.
-The common or judge-made law, though on the
-whole well-intentioned and upright, is fettered by so
-many technicalities and musty precedents, that it fails
-in a great many instances to be, what civil law ought
-to be, a cheap, speedy, and intelligible instrument for
-enforcing honest dealings between man and man. One
-of our greatest railway contractors once said to me,
-‘If I want to make an agreement which shall be absolutely
-binding, I make it myself on a sheet of note-paper;
-if I want to have a loophole, I send it to my
-lawyer to have it drawn up in legal language and engrossed
-on sheets of parchment.’ Another man of large
-experience in commercial and financial matters laid
-down this axiom: ‘If you want to know what is the
-law in a doubtful case, reason out what is the common-sense
-view of it, and assume that the direct opposite is
-probably the law.’ These may be extreme instances, as
-all such epigrammatic sentences generally are, but it is
-undeniable that they have a considerable basis of substantial
-truth; and that law, with its dilatory processes,
-its enormous expense, and its uncertain conclusions, may<span class="pagenum"><a name="Page_237" id="Page_237">[237]</a></span>
-be, and often is, not an instrument of justice, but a
-weapon in the hands of an unscrupulous adventurer
-or of a dishonest rich man, to extort blackmail or to
-defeat just claims.</p>
-
-<p>Again, what nation but England would tolerate
-so long a system of land law, so bristling with antiquated
-technicalities, so tedious, and so expensive, as
-almost to amount to a prohibition of the transfer of land
-in small quantities; or could let the private interests of a
-mere handful of professional lawyers stand in the way
-of a codification of laws and a registration of titles?</p>
-
-<p>Education is another subject which shows how
-difficult it is to move the sluggish ultra-conservative
-instincts of the English mind in the direction of progress,
-when not stimulated by political conflict. What
-is education? The word tells its own story; it is to
-<i>draw out</i>, not to <i>cram in</i>; to unfold the capacities of the
-growing mind, strengthen the reasoning faculty, create
-an interest in the surrounding universe; in a word, to
-excite a love of knowledge and impart the means of acquiring
-it. For the mass of the population, education
-is necessarily confined in a great measure to the latter
-object. The three R’s—reading, writing, and arithmetic—are
-indispensable requisites, and the acquirement of
-these, with perhaps a few elements of history and geography,
-absorbs nearly all the time and opportunity
-that can be afforded for attendance at school. For any
-culture beyond this the great majority must depend on
-themselves in after life. But there are a large number
-of parents of the upper and middle classes who can and
-do keep their children at school for eight or ten years,
-and spend a large sum of money in giving them
-what is called a higher education. What is there to<span class="pagenum"><a name="Page_238" id="Page_238">[238]</a></span>
-show for this time and money, even in the case of the
-highest schools, which ought to give the highest education?
-On the credit side, a little Latin and less Greek,
-plenty of cricket and athletics, good physical training,
-and, best of all, on the whole a manly, honourable, and
-gentlemanlike spirit. But on the debit side, absolute
-ignorance, except in the case of a few unusually clever
-and ambitious boys, of all that a cultivated man of the
-nineteenth century ought to know. No French, no
-German, and, what is worse, no English. The average
-boy can neither write his own language legibly nor
-grammatically, and, if he goes straight from a public
-school into a competitive examination, stands an excellent
-chance of being plucked for spelling. And, what
-is worst of all, he not only knows nothing, but cares to
-know nothing; his reasoning faculty has never been cultivated,
-and his interest in interesting things has never been
-awakened. What is the first lesson he has had to learn?
-‘Propria quæ maribus dicantur mascula dicas,’ that is,
-words appropriated to males are called masculine—a
-lesson which elicits as much reasoning faculty, and
-creates as much interest, as if he had been made to
-commit to memory that things made of gold are called
-golden. Suppose instead of this that the lesson had
-been that two volumes of hydrogen combine with one
-volume of oxygen to form water. The exercise to the
-memory is the same, but how different is the amount
-of thought and interest evoked, especially if the experiment
-is made before the class and each boy has to
-repeat it for himself! How many new subjects of
-interest would this open up in the mind of any lad of
-average intelligence! How strange that there should
-be airs other than the air we breathe, which can be<span class="pagenum"><a name="Page_239" id="Page_239">[239]</a></span>
-weighed and measured, and that two of them by combining
-shall produce their exact weight of a substance so
-unlike them as water! Or if the exercise of a class
-were to look through a microscope at the leaf of a plant
-or wing of an insect, and try who could best draw what
-they had seen and write a description of it in a legible
-hand and in good English, how many faculties would
-this call into play compared with the dull routine of
-parsing a Latin sentence or writing a halting copy of
-Greek iambics! Even grammar, the one thing which is
-supposed to be taught thoroughly, is taught so unintelligently
-that it awakens no interest beyond that of a
-parrot learning by rote. From ‘propria quæ maribus’
-the scholar passes to ‘as in præsenti perfectum format
-in avi,’ without an attempt to explain what language
-really means, how it originates from root-words, and
-how these inflections of ‘as’ and ‘avi’ are part of the
-devices which certain families of mankind, including
-our own, have invented as a mechanism for attaching
-shades of meaning, such as present and past, to the
-primitive root. Even the alphabet intelligently taught
-opens up wide fields of interesting matter as to the
-history of ancient nations, and their successive attempts
-to analyse the component sounds of their spoken words,
-and to pass from primitive picture-writing to phonetic
-symbols. But the instructors of the budding manhood
-of the <i>élite</i> of the nation, like Gallio, ‘care for none
-of these things,’ and the organisation of our higher
-schools seems to be stereotyped on the principle that they
-are made for teachers rather than for scholars, and that
-their chief <i>raison d’être</i> is to enable a limited number of
-highly respectable gentlemen from the Universities to
-realise comfortable incomes with a maximum of holidays<span class="pagenum"><a name="Page_240" id="Page_240">[240]</a></span>
-and a minimum of trouble. And the parents
-support the system because so many of them really
-reverence rank more than knowledge, and are willing
-to compound for their sons growing up ignorant, idle,
-and extravagant, if by any chance they can count a lord
-or two among their acquaintance.</p>
-
-<p>Mr. Francis Galton, in the course of his interesting
-inquiries as to the effect of heredity and education on
-character and attainments, took the very practical course
-of addressing a set of questions to some hundred and
-eighty of our most distinguished men as to the hereditary
-qualities of their ancestors, and the various influences
-which they considered had done most to promote or to
-retard their success in life. Of course he received a
-variety of answers, ‘quot homines tot sententiæ,’ but
-upon one point there was a striking unanimity. ‘They
-almost all expressed a hatred of grammar and the classics,
-and an utter distaste for the old-fashioned system of
-education. There were none who had passed through
-this old high and dry education who were satisfied with
-it. Those who came from the greater schools usually
-did nothing there, and have abused the system heartily.’</p>
-
-<p>And yet the system goes on, and the Eton Latin
-grammar will probably be taught, and hexameters
-written, for another generation. Surely the needle
-swings here too strongly towards the negative or obstructive
-pole.</p>
-
-<p>The instances are so numerous in social and practical
-life in which it is necessary to look at both sides of
-the shield that the difficulty is in selection. Take the
-case of patriotism. Patriotism is beyond all doubt a
-great virtue—in fact, the fertile mother of many of the<span class="pagenum"><a name="Page_241" id="Page_241">[241]</a></span>
-higher and heroic virtues. Who does not sympathise
-with the legends of Wallace and William Tell, and scorn
-with Walter Scott</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse indent3">the man with soul so dead</div>
-<div class="verse">Who never to himself has said,</div>
-<div class="verse">This is my own, my native land?</div>
-</div>
-</div>
-
-<p class="noindent">And yet how thin a line of partition separates it from
-narrow-minded arrogance and insolent ignorance! Reflected
-in the latter form from Paris, in hysterical shouts
-now of ‘À Berlin, À Berlin!’ and now ‘À bas perfide
-Albion!’ we call it ‘Chauvinism,’ and recognise it as an
-unlovely exhibition. But call it ‘Jingoism,’ and let it
-take the form of the bellowings of some stupid bull, as
-the red flag, now of a French and now of a Russian
-scare, crosses his line of vision, and we are blind to its
-deformity. Still there is another side to the shield, for
-even ‘Jingoism,’ which is only another word for patriotism
-run mad, is more respectable than the opposite
-extreme of a sordid and narrow minded parochialism,
-which shrinks behind the ‘silver streak,’ measures everything
-by the standard of pounds, shillings, and pence,
-and, with what Tennyson calls</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">The craven fear of being great,</div>
-</div>
-</div>
-
-<p class="noindent">groans over the responsibilities of extended empire.
-The growth of such a spirit among prominent politicians
-of the advanced Liberal school seems to me one
-of the most alarming symptoms of the day; but I take
-comfort when I reflect that the most democratic community
-in the world, that of the United States, is precisely
-the one which has shown most determination to maintain
-its national greatness, if necessary by the sword,
-and has made the greatest sacrifices for that object. If<span class="pagenum"><a name="Page_242" id="Page_242">[242]</a></span>
-the ‘copperheads’ were a miserable minority in America,
-why should we be afraid of our ‘English copperheads’
-ever becoming a majority in Old England?</p>
-
-<p>In this, as in all similar cases, it is evident that true
-statesmanship consists in hitting the happy mean, and
-doing the right thing at the right time; and that true
-strength stands firm in the middle between the two
-opposite poles, while weakness is drawn by one or other
-of the conflicting attractions into</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">The falsehood of extremes.</div>
-</div>
-</div>
-
-<p>When Sir Robert Peel some forty years ago announced
-his conversion by the unadorned eloquence
-of Richard Cobden, and free trade was inaugurated,
-with results which were attended with the most brilliant
-success, every one expected that the conversion
-of the rest of the civilised world was only a question of
-time, and that a short time. Few would have been
-found bold enough to predict that forty years later
-England would stand almost alone in the world
-in adherence to free-trade principles, and that the
-protectionist heresy would not only be strengthened
-and confirmed among Continental nations such as
-France and Germany, but actually adopted by large
-and increasing majorities in the United States, Canada,
-Australia, and other English-speaking communities.
-Yet such is the actual fact at the present day. In spite
-of the Cobden Club and of arguments which to the
-average English mind appear irresistible, free trade
-has been steadily losing ground for the last twenty
-years, and nation after nation, colony after colony, sees
-its protectionist majority increasing and its free-trade
-minority dwindling.</p>
-
-<p><span class="pagenum"><a name="Page_243" id="Page_243">[243]</a></span></p>
-
-<p>It is evident there must be some real cause for such
-a universal phenomenon. In countries like France and
-Russia we may attribute it to economical ignorance and
-the influence of cliques of manufacturers and selfish
-interests; but the people of Germany, and still more of
-the United States, Canada, and Australia, are as intelligent
-as ourselves, and quite as shrewd in seeing where
-those interests really lie. They are fettered by no traditional
-prejudices, and their political instincts rather
-lie towards freedom and against the creation of anything
-like an aristocracy of wealthy manufacturers. And yet,
-after years of free discussion, they have become more
-and more hardened in their protectionist heresies.</p>
-
-<p>What does this prove? That there are two sides
-to the shield, and not, as we fancied in our English
-insularity, only one.</p>
-
-<p>Free trade is undoubtedly the best, or rather the
-only possible, policy for a country like England, with
-thirty millions of inhabitants, producing food for less
-than half the number, and depending on foreign trade
-for the supplies necessary to keep the other half alive.
-It is the best policy also for a country which, owing
-to its mineral resources, its accessibility by sea to markets,
-its accumulated capital, and the inherited qualities,
-physical and moral, of its working population, has
-unrivalled advantages for cheap production. Nor can
-any dispassionate observer dispute that in England,
-which is such a country, free trade has worked well.
-It has not worked miracles, it has not introduced an
-industrial millennium, the poor are still with us, and it
-has not saved us from our share of commercial depressions.
-But, on the whole, national wealth has greatly
-increased, and, what is more important, national well-being<span class="pagenum"><a name="Page_244" id="Page_244">[244]</a></span>
-has increased with it, the mass of the population,
-and especially the working classes, get better wages,
-work shorter hours, and are better fed, better clothed,
-and better educated than they were forty years ago.</p>
-
-<p>This is one side of the shield, and it is really a
-golden and not an illusory one. But look at the other
-side. Take the case of a country where totally opposite
-conditions prevail: where there is no surplus population,
-unlimited land, limited capital, labour scarce and
-dear, and no possibility of competing in the foreign or
-even in the home market with the manufactures which,
-with free trade, would be poured in by countries like
-England, in prior possession of all the elements of
-cheap production. It is by no means so clear that
-protection, to enable native industries to take root and
-grow, may not in such cases be the wisest policy.</p>
-
-<p>Take as a simple illustration the case of an Australian
-colony imposing an import duty on foreign boots
-and shoes. There is not a doubt that this is practically
-taxing the immense majority of colonists who wear and
-do not make these articles. But, on the other hand, it
-makes the colony a possible field for emigration for all
-the shoemakers of Europe, and shoemaking a trade to
-which any Australian with a large family can bring up
-one of his sons. Looking at it from the strict point of
-view of the most rigid political economist, the maximum
-production of wealth, which is the better policy? The
-production of wealth, we must recollect, depends on
-labour, and productive labour depends on the labourer
-finding his tools—that is, employment at which he can
-work. A labourer who cannot find work at living
-wages is worse than a zero: he is a negative quantity as
-far as the accumulation of wealth is concerned. On the<span class="pagenum"><a name="Page_245" id="Page_245">[245]</a></span>
-other hand, every workman who finds work, even if it
-may not be of the ideally best description, is a wealth-producing
-machine. What he spends on himself and
-his family gives employment to other workmen, and
-the work must be poor indeed if the produce of a year’s
-labour is not more than the cost of a year’s subsistence.
-The surplus adds to the national capital, and thus
-capital and population go on increasing in geometrical
-progression. The first problem, therefore, for a new or
-a backward country is to find ‘a fair day’s wages for a
-fair day’s work,’ for as many hands as possible. The
-problem of making that employment the most productive
-possible is a secondary one, which will solve itself
-in each case rather by actual practice than by abstract
-theory.</p>
-
-<p>This much, however, is pretty clear, that in order to
-secure the maximum of employment it must be varied.
-All are not fit for agricultural work, and, even if they
-were, if the conditions of soil and climate favour large
-estates and sheep or cattle runs rather than small farms,
-a large amount of capital may provide work for only
-a small number of labourers. On social and moral
-grounds, also, apart from dry considerations of political
-economy, progress intelligence and a higher standard
-of life are more likely to be found with large cities,
-manufactures, and a variety of industrial occupations
-than with a dead level of a few millionaires and a few
-shepherds, or of a few landlords and a dense population
-of poor peasants. If protection is the price which must
-be paid to render such a larger life possible, it may be
-sound policy to pay it, and the result seems to show
-that neither it nor free trade is inconsistent with rapid
-progress, while, on the other hand, neither of them<span class="pagenum"><a name="Page_246" id="Page_246">[246]</a></span>
-affords an absolute immunity from the evils that dog the
-footsteps of progress, and from the periods of reaction
-and depression which accompany vicissitudes of trade.</p>
-
-<p>Here, as in other cases, there are two sides of the
-shield, and true statesmanship consists in seeing both,
-and doing the right thing, at the right place, and at the
-right time. If free trade is, as we believe, ultimately
-to prevail, it will be an affair of time. The real trial
-of protection comes when it has stimulated production
-to a point which gluts the home market and leaves a
-surplus which must be exported. Exports of articles
-the cost of which has been artificially raised by protection,
-cannot compete in the world’s market with
-the cheaper products of free-trade countries. Vicissitudes
-therefore of prosperity and depression must
-tend to become more frequent and more severe, and, if
-production goes on, a point must be reached where, at
-whatever cost, it must either be arrested or made
-capable of competing in the wider market. The United
-States are probably not far from such a point, and it
-would have been already reached but for the immense
-and unexhausted resources of that vast continent. In
-France the point has apparently been reached, and we
-find that, with a lower scale of wages than in England,
-it is becoming more and more difficult every day to
-maintain that lower scale, and the export trade of its
-manufactured goods to foreign markets.</p>
-
-<p>Protection, leading to higher wages and profits than
-can be permanently maintained, and artificially enhancing
-the cost of living to the working classes, threatens,
-more and more every day, to introduce strained relations
-between capital and labour in most countries of Europe.</p>
-
-<p>The relation between capital and labour affords a good<span class="pagenum"><a name="Page_247" id="Page_247">[247]</a></span>
-instance of the inevitable error of applying hard and
-fast logical conclusions to the complex and ever-varying
-problems of actual life. Ricardo and other distinguished
-writers on political economy have assumed that
-the two constitute a fundamental antagonistic polarity.
-Wealth, they say, is the joint product of capital and
-labour, and, as in the case of a cake which has to be
-divided between C and L, the more C gets the less is
-left for L, and <i>vice versâ</i>. The theory sounds plausible:
-but what says fact? In the most unmistakable manner it
-pronounces, as the outcome of practical experience, that
-the profits of capital and the wages of labour rise and fall
-together. High profits mean high wages, rising profits
-rising wages, falling profits falling wages. It has been
-proved so in a thousand instances, and not one can be
-quoted where the one factor has varied in an inverse,
-and not in a direct, ratio with the other. It is obvious
-that there must be some fallacy in Ricardo’s argument.
-The fallacy is this: he assumes the cake to be of fixed
-dimensions, whereas in point of fact it varies, sometimes
-diminishing to zero, or even to a negative quantity, at
-others expanding to many times its original size. A
-new gold-field is discovered in a remote country, and
-forthwith profits rise to cent. per cent., and wages to a
-pound a day; a bad season and depression of trade
-overtake an old country, and the gross value of the produce
-of many a farm is insufficient to cover expenses
-and depreciation, even if the labourers worked for nothing.
-The polarity is therefore confined to the limited
-and temporary case of the division of the profit, where
-there is a profit, in particular trades and in individual
-instances. And this is regulated mainly by the accustomed
-scale of wages and standard of living of the workmen,<span class="pagenum"><a name="Page_248" id="Page_248">[248]</a></span>
-and their opportunities of finding employment
-elsewhere if dissatisfied with the terms offered to them.
-On the whole, it may be said that capital has the best of
-it on a rising, and wages on a falling, market. A manufacturer
-or mine-owner’s profit may rise from five to
-twenty per cent. without quadrupling the rate of
-wages; but, on the other hand, it may fall from twenty
-per cent. to five, or even for a time below zero, without
-a proportionate diminution in the price paid for labour.
-Capital is, in fact, the great insurer of labour, the flywheel
-which regulates the motion of the industrial
-machine. This will be best illustrated by a practical
-instance. The Brighton Railway Company for several
-consecutive years paid no dividend, or only a trifling
-amount, on the shareholders’ capital, but during the
-whole of this time it gave steady employment at good
-wages to upwards of ten thousand workmen. The
-Blaenavon Coal and Iron Company in South Wales was
-for many years a losing concern, and successive capitalists
-lost the best part of a million pounds in it, until at
-length it was reorganised with a small capital and became
-a fairly prosperous concern. During the whole
-of this time it gave employment at fair wages to several
-thousand workmen. Which had the best of it in these
-two cases, capital or labour, and where would the workmen
-have been on any communistic or co-operative system?
-In fact it will be apparent to any one who will
-study dispassionately the statistics of any line of inquiry,
-such as the scale of wages, the price of provisions,
-the accumulations of savings banks and provident
-societies, &amp;c., for the last twenty years, that the working
-classes have had the lion’s share of the vast increase
-which has taken place in the wealth and income of<span class="pagenum"><a name="Page_249" id="Page_249">[249]</a></span>
-the nation. I am glad that it is so, for it is better,
-both morally and politically, that the condition of the
-masses should be improved, and their standard of living
-raised, than that capital should accumulate too exclusively
-in large masses.</p>
-
-<p>Still there is a good deal to be said for such large
-accumulations. Let us go to the United States of
-America for an illustration, where everything is on a
-large scale, and colossal fortunes have been made in a
-few years. The <i>modus operandi</i> by which most of these
-fortunes have been made may be described according
-to the way we look at it, either as railway jobbing or
-as pioneering the way in useful enterprise. The construction
-of the first railway across the continent to
-California is a typical instance. A clique or syndicate
-of wealthy speculators make surveys and estimates of a
-line across deserts and over mountain ranges, and ascertain
-pretty accurately what it will cost. They form a
-company with a capital of double that cost, and by
-subventions from the Government, grants of land, and
-sale of mortgage bonds, raise the half really required,
-and hold the other half in shares as profit in paper.
-The line is made, and if the traffic turns out well,
-and there is a period of speculation in the money
-market, the paper is turned into dollars, and, if the line
-really costs, say, 10,000,000<i>l.</i> or 20,000,000<i>l.</i>, the promoters
-realise an equal amount as profit.</p>
-
-<p>This has two sides to it: it is doubtless bad for the
-public to have to pay rates which give a return on twice
-the actual cost, and the possession of a close monopoly
-in the hands of a few millionaires may be abused to
-the detriment of individual traders. But, on the other
-hand, the railway could not have been made in any<span class="pagenum"><a name="Page_250" id="Page_250">[250]</a></span>
-other way. If it had been necessary to wait until the
-slow growth of population insured such a traffic as
-would induce the ordinary public to subscribe for shares
-at par, you might have waited for twenty years before a
-single mile of railway was made west of the Mississippi.
-Nor is this all: the enormous profit realised in the first
-of these enterprises led to a rush of rich speculators
-into the lottery of pushing railways ahead of traffic, in
-which there were such magnificent prizes. The continent
-was covered by new railways built to create new
-traffic rather than to provide for that which already
-existed. And the traffic was created, though, as the
-lottery contained blanks as well as prizes, many of the
-original promoters were ruined. The second great line
-spanning the continent—the Northern Pacific—ruined
-two successive sets of promoters, and is only now beginning
-to be moderately successful.</p>
-
-<p>But the final result has been that while British
-India, which went on what may be called the respectable
-system of getting a pound’s worth of work for
-every pound raised, has only 12,000 miles of railway,
-the United States, under the speculative system, has
-got 120,000 miles. I cannot doubt that the national
-wealth of America is greater at the present day than
-if there had been no Jay Goulds or Vanderbilts, and the
-construction of her railways had been delayed on the
-average for twenty years.</p>
-
-<p>The contrast between labour and capital or free
-trade and protection is only a particular case of the
-larger polarity between what is called in scientific
-language egoism and altruism, or, in more popular
-phraseology, individualism and socialism. According
-to one theory, the best result is obtained by leaving<span class="pagenum"><a name="Page_251" id="Page_251">[251]</a></span>
-individuals as free as possible to act on their own suggestions
-of their duties and interests, and confining the
-intervention of the State to enforcing laws for the protection
-of life and property, and such measures as are
-obviously necessary for the safety of society. According
-to the other theory, the State ought to interfere
-wherever the results of individual liberty lead to abuses,
-and should endeavour to create a society as near to
-ideal perfection as possible, by administering and regulating
-the public and private affairs of its citizens. It
-is obvious that the question has two sides, that extreme
-conclusions in either direction are, as is always the case,
-invariably false. Individualism carried too far would
-disintegrate society. It would be impossible to leave
-it to the short-sighted selfishness of every citizen to
-say whether an army and navy should be maintained
-for national defence, and taxes should be levied for their
-support.</p>
-
-<p>Individualism also easily passes over into a hard
-and cruel selfishness, which recognises no obligation
-beyond the letter of the law, and acts practically on
-the principle of ‘Every one for himself, and the devil
-take the hindmost.’ It is this phase of individualism
-which makes enthusiasts and men of strong moral and
-religious sympathies declaim so vehemently against
-<i>laissez faire</i>, and cry aloud, like Carlyle, for a hero or
-benevolent despot who is to scourge humanity into the
-practice of all the virtues.</p>
-
-<p>On the other hand, Socialism, if not confined within
-rigid limits of experience and common sense, is even
-more destructive in its consequences. Civilised society
-is based on the security of private property and the
-observance of contracts. If these are liable, not merely<span class="pagenum"><a name="Page_252" id="Page_252">[252]</a></span>
-to be regulated in extreme and exceptional cases, but
-to be absolutely condemned in principle, as by Socialists
-of the Proudhon school, who declare, ‘La propriété
-c’est le vol;’ or overruled and set aside whenever they
-are thought to conflict with humanitarian scruples or
-sentimental aspirations, society would be dissolved into
-its elements, to crystallise anew about some military
-dictator or other strong form of repressive government,
-who could restore it to a state of stable equilibrium in
-accordance with these fundamental laws.</p>
-
-<p>No society based on the community of goods has
-ever existed, except on a very limited scale and for a
-very short time, under some strong temporary influence
-such as religious excitement. In the early Christian
-Church it only existed as long as its members were a
-handful of humble individuals who were impressed with
-the idea that the end of the world was close at hand,
-and that sacrifices made on earth would be repaid at
-an early day with compound interest in heaven. They
-acted on what was almost as much a principle of
-enlightened selfishness as if they had placed their
-money on the best possible security at the highest
-possible interest.</p>
-
-<p>The only existing society, as far as I am aware,
-which has everything in common, is a small sect of
-Shakers in the United States, which owes its limited
-success to two conditions—first, that there is no marrying
-or giving in marriage; secondly, that a member invented
-a patent rat-trap—conditions which are hardly
-likely to survive in the struggle for life and become a
-type for general adoption.</p>
-
-<p>The nearest approach to Communism in practical
-operation on a large scale is that of the village communities<span class="pagenum"><a name="Page_253" id="Page_253">[253]</a></span>
-of Russia and parts of India, which certainly
-show no signs of being progressive types destined to
-gain ground. On the contrary, they fail to fulfil what
-is the first condition of an agricultural community, that
-of obtaining a fair average produce from the soil, and
-the more enterprising and intelligent moujiks or ryots
-invariably seek to obtain something which they can
-call their own and are not obliged to share with the
-idle and improvident. A conclusive objection to all
-schemes of Socialism or Communism is, that they not
-only crush out all individual initiative and enterprise in
-material life, but that they also destroy all incentives to
-individual charity and benevolence. Why make sacrifices
-to help others, if they are already helped at your
-expense by the State? This is no theoretical objection,
-but has been proved practically by the history of the
-poor laws. What scope for individual charity was
-there in a parish like that in Buckinghamshire, where
-under the old poor law the rate had risen to twenty
-shillings in the pound, and the cultivation of the soil
-was abandoned? Or even in less extreme cases, any
-one who is acquainted with remote rural parishes inhabited
-by cotters and small farmers must be aware
-that the poor law operates strongly to destroy the
-feeling of manly independence and family affection
-which induced the poor to support their own aged and
-infirm relatives.</p>
-
-<p>In many parts of Scotland with which I am personally
-acquainted men who a generation ago would have
-thought it a disgrace to ask for help to support an aged
-father or mother, now think it only fair play, after
-having contributed for years to the poor rate, to try
-and get something out of it in return.</p>
-
-<p><span class="pagenum"><a name="Page_254" id="Page_254">[254]</a></span></p>
-
-<p>Altruism, as Herbert Spencer well puts it, if carried
-to excess, defeats itself, for in annihilating egoistic vices
-it annihilates egoistic virtues, and the result is zero—a
-result which, as ‘nature abhors a vacuum,’ can happily
-never be attained, and the precepts of the Sermon on
-the Mount must always remain maxims of private
-morality, rather than of State regulation.</p>
-
-<p>It is of little use, however, to deal with such generalities;
-as long as we confine ourselves to extreme
-instances on either side, it is as easy as it is idle to
-refute them. Profitable discussion only begins when
-we enter on the wide intermediate space which lies between
-the extreme frontier provinces, and, instead of
-arguing for absolute conclusions, endeavour to discover
-the happy mean in doubtful cases, where there really
-are limitations of time and circumstance, and a good
-deal which may be reasonably said on each side of the
-question.</p>
-
-<p>Take for instance the case of contract, which has
-been so much discussed with reference to the Irish question.
-Nothing can be clearer than that the enforcement
-of contracts is one of the principal duties of a government.
-The principle of <i>caveat emptor</i> may occasionally
-lead to results not altogether consistent with strict
-morality; but there will always be fools in the world,
-and it is better they should pay for their folly than that
-the State should be perpetually interfering in the vain
-attempt to protect them. The bargain may be a bad
-one, but it is far better that men should be held to their
-bargains than that every loser should have a loophole
-provided to escape by appealing to some legal quibble
-or State-provided tribunal of arbitration.</p>
-
-<p>But there are limits to this salutary principle. The<span class="pagenum"><a name="Page_255" id="Page_255">[255]</a></span>
-contract must be a free one, freely entered into by
-parties who meet on equal terms. If it is a compulsory
-one, which the weaker party has practically no option
-of refusing, the case is altered. Thus, in the case of
-children, it is absurd to say that they are free agents in
-contracting for the disposal of their labour, and the
-State properly interferes by Factory Acts to limit the
-number of hours for which they are to work. So in the
-relations between landlord and tenant, whenever they
-meet on equal terms, and the tenant has an option of
-either taking or refusing to take a farm at the rent
-asked, both sides must be held to their bargain, however
-disadvantageous it may turn out for either of them.
-But if the landlord is practically omnipotent, and the
-tenant has no alternative but to promise to pay an
-impossible rent or to be turned out on the roadside
-and die of starvation, it is by no means so clear that
-the State should enforce the bargain unless the landlord
-submits to equitable terms. Or again, if the rent
-is not due to the intrinsic value of the land, but is
-a confiscation of the tenant’s improvements, it is far
-from being self-evident that the law should look only
-at landlords’ rights and forget all about landlords’
-duties.</p>
-
-<p>It is a question rather of fact than of argument or
-assertion, whether such a state of things does or does
-not prevail at any particular time in any particular
-country. If the contracts were fair bargains entered
-into by free agents, they ought to be enforced whether
-prices have risen or fallen, leaving it to the humanity
-and self-interest of landlords to make reasonable reductions.
-But if they were no more equal bargains
-than those of slaves or factory-children, the State might<span class="pagenum"><a name="Page_256" id="Page_256">[256]</a></span>
-fairly interfere to attach equitable conditions to the
-enforcement of inequitable contracts.</p>
-
-<p>The antithesis between the rights and duties of property,
-especially in the case of land, is one which raises
-many nice and difficult questions. Some theorists, like
-Henry George, are for solving it by ignoring the rights
-altogether. According to them, private property in
-land is the source of all the evils that afflict modern
-society; poverty, depressions of trade, low profits, and
-low wages are caused by the constant drift towards high
-rents, due to the possession by a small section of the
-community of a monopoly in that which is as much a
-necessity of existence as air or water. Abolish private
-property in land, and straightway you will have the
-millennium.</p>
-
-<p>In this extreme form the fallacy of the argument is
-obvious. You cannot stop at land, but must have the
-courage of your opinion, and go the full length, with
-Proudhon, of denouncing all property as robbery. For
-if the right of individual property is the first condition of
-civilised society, you can hardly exclude that form of it
-which, in all ages and all countries, has been practically
-the most powerful incentive to progress and civilisation.</p>
-
-<p>Compare the United States of America under their
-homestead laws, with Russia under a system of village
-communes; or the California of to-day with that of fifty
-years ago under the Jesuit padres; and you will see
-that the desire to acquire property in land has been
-what may be called the high-pressure steam supplying
-the motive power to reclaim continents and multiply
-population.</p>
-
-<p>Nor in principle is there any argument for the confiscation
-of land which would not equally apply to the<span class="pagenum"><a name="Page_257" id="Page_257">[257]</a></span>
-confiscation of any other sort of property, when theorists,
-philanthropic at other people’s expense, thought
-that the owner had more than was good for him, or had
-acquired it as an unearned increment, without working
-for it. Suppose two men, A and B, employed as engine-drivers
-on an American railway, have each saved a
-hundred dollars. The railway has been a failure: intended
-to reach a distant terminus, it has stopped halfway
-in a desert, for want of funds, and for years has
-paid no dividend. The hundred-dollar shares are only
-worth ten, and the land at the distant terminus is only
-worth ten dollars an acre. But A and B are sharp
-fellows, and see that if speculation ever revives the line
-will probably be completed, and both shares and land
-will become valuable. A buys ten shares with his
-hundred dollars, and B ten acres of land. The boom
-comes, the capital is found, the line completed, and the
-shares rise to par, and the land to a hundred dollars
-an acre. A and B have each realised nine hundred
-dollars by what may be described, as you like to put
-it, either as an unearned increment or as providence
-and foresight. On what principle can you confiscate
-B’s nine hundred dollars because it is in land, and leave
-A’s untouched because it is in shares?</p>
-
-<p>On the other hand, there is no doubt that when we
-come to more complex cases, in which land is held in
-large masses, fenced in, not by the natural right of a
-man to the produce of his own exertions, but by artificial
-legal systems of inheritance and settlement, we are
-on neutral ground, where fair discussion is possible as
-to the limitations and conditions under which the State
-may afford its protection. Landed property is more
-the creature of law, and runs greater risks in case of<span class="pagenum"><a name="Page_258" id="Page_258">[258]</a></span>
-revolution or communistic legislation, than personal
-property, which is more easily concealed or transferred.
-It is not unreasonable, therefore, that it should pay a
-higher insurance in the form of taxation, and especially
-when it passes by inheritance or settlement, when the
-new owner’s title is to a great extent artificial and the
-creation of the law. No one can dispute the abstract
-justice of a succession duty on all property, landed or
-personal, in proportion to its amount, passing by operation
-of law: the only question can be as to the amount,
-and the expediency of confining it within limits that
-shall not trench on confiscation or impair the desire to
-accumulate capital. And in the case of land, there is
-no doubt that there are a good many instances in which
-the question of the ‘unearned increment’ is raised more
-forcibly than in the case of ordinary property. Take a
-practical instance within my own knowledge, for an
-illustration is often better than an argument. There
-was a mountain property in Wales which, as a sheep or
-cattle farm, might be worth at the outside 800<i>l.</i> a year.
-Coal and iron were discovered under it, capitalists sank
-pits and erected works, two or three sets lost their
-money; but the works were carried on, a large amount
-of labour was employed, and in course of time a town
-of some eight or nine thousand inhabitants, sprang
-up. The proprietor’s 800<i>l.</i> a year grew into 8,000<i>l.</i>
-from fixed rents and royalties, which he has enjoyed
-for the last thirty years, through good times and bad,
-without being called on to contribute a penny towards
-schools, churches, roads, sewers, water, or any of the
-local objects necessary for the civilised existence of the
-population of eight thousand whose labour has added
-to his wealth. I do not blame him: the law told him<span class="pagenum"><a name="Page_259" id="Page_259">[259]</a></span>
-to do what he liked with his own, and it probably
-never occurred to him that he was under any moral
-obligation to go beyond the law. But I do think that
-the law would have been more just, and better for the
-interests of the community, if it had made some portion
-of this unearned increment of 7,000<i>l.</i> a year liable for
-a contribution towards the sanitary and other objects
-essential for the decent existence of the town which had
-grown up on this property and given it this increased
-value. I cannot help thinking that centuries of landlord
-legislation, and of a public opinion based mainly on
-that of the wealthy and specially of the landed classes,
-have made our laws in many respects too favourable to
-the predominant interests, and that the swing of the
-pendulum now is, and properly is, in the direction of
-recognising the duties as well as the rights of property.</p>
-
-<p>We must take care, however, not to let it swing too
-far in this direction, for of the two evils it is better to
-put up with occasional cases of hardship and oppression
-on the part of bad landlords than to endanger the security
-of property by reforms pushed to extremes at the
-dictation of impulsive masses, designing demagogues,
-or sentimental philanthropists.</p>
-
-<p>Herbert Spencer, in his works on Sociology, often
-dwells with great force on the evils which arise from
-State interference. There can be no doubt that it is
-very undesirable that the State should become a sort of
-Jack-of-all-trades, and undertake branches of business
-which can be conducted by private enterprise. It is
-undesirable for two reasons: first, because the work is
-certain to cost more and be worse done; secondly, for
-the still more important reason that it tends to extinguish
-individual enterprise, strangle progress with red-tape,<span class="pagenum"><a name="Page_260" id="Page_260">[260]</a></span>
-and teach a nation to look, like children to outside
-guidance, rather than, like men to their own. Still the
-question has two sides. Whatever individual enterprise
-can do should be left to it; but there are, in the complex
-conditions of modern society, a number of things
-which cannot be done by individuals, and which must
-either be left undone or done by the State, or by some
-local authority, joint-stock company, or other quasi-monopoly
-sanctioned by the State. Thus, if it were a
-question of bringing coals from Newcastle by sea, no
-one would suggest that the State should interfere with
-the private enterprise of individual shipowners. But
-to bring them by land requires railways, and railways
-can only be built by capitals beyond the reach of private
-individuals. If the State had not delegated a portion of
-its powers to joint-stock companies, not a ton of coal
-would ever have been brought by land to London.</p>
-
-<p>And if the State may thus occasionally delegate its
-powers with advantage to the community, there are
-cases in which it may, with equal advantage, undertake
-itself branches of the nation’s business. For instance,
-the Postal Service. The advantages of a cheap and
-uniform system for the collection and delivery of letters
-throughout the whole kingdom are so great that they
-far outweigh any theoretical objections to State interference.
-Possibly some of the larger towns might have
-been as well or better served by private enterprise, but
-no non-paying district would have had a post-office,
-and the enormous commercial and educational benefits
-of the penny post would have been in a great measure
-lost to the community.</p>
-
-<p>The case of telegraphs is not so clear. Probably, on
-the whole, the advantages of a uniform State management<span class="pagenum"><a name="Page_261" id="Page_261">[261]</a></span>
-preponderate, but there are drawbacks which
-make it doubtful. Even at a sixpenny rate a great deal
-of the telegraphic communication of the large towns and
-active centres of business is taxed to make up for the
-deficiency of the rest of the kingdom. And invention
-and improvement in telegraphy are no doubt checked
-to a considerable extent by creating a State monopoly
-whose first duty it is to try to satisfy its masters at the
-Treasury by making the system pay.</p>
-
-<p>When we come to railways we are on debateable
-ground, and it is fairly arguable that they should be
-worked by the State for the public good. But the
-objections here outweigh the advantages. Every one
-who has any practical experience of the working of railways
-must be aware that the simplicity and uniformity
-of the penny postal system are totally inapplicable, and
-that the traffic of the country requires, above all things,
-great freedom and elasticity in meeting, day by day, the
-varying contingencies which arise. Here is an illustration:
-In a certain town in France, on a railway worked
-by the State, it was determined to have a <i>fête</i> in order to
-raise funds for a hospital, and, as an attraction, to bring
-down from Paris a small troop of actors and have a play
-in the evening. The question turned on the railway
-consenting to give them a reduced fare for the return
-journey. The manager of the railway was quite willing,
-but said that he had no power to alter the tariff without
-permission from the Minister of Public Works. The
-permission was applied for, and the result was that it
-arrived exactly on the day twelve months after the <i>fête</i>
-had been held.</p>
-
-<p>Contrast this with the case of the general manager
-of the London and North Western Railway sitting in<span class="pagenum"><a name="Page_262" id="Page_262">[262]</a></span>
-his office at Euston and receiving half a dozen telegrams
-asking him to quote special rates, one perhaps for beef
-from Chicago to London, another for emigrants from
-Hamburg to New York <i>via</i> Liverpool, and all requiring
-telegraphic answers then and there, if the business is to
-be done at all.</p>
-
-<p>Again, if railways had been in the hands of the
-State, I do not suppose that we should have had half
-our present mileage; for the Treasury would never have
-sanctioned the outlay of public money on lines which
-could not show the prospect of a fair return on the
-capital, and it would have vetoed any multiplication of
-trains or reduction of rates which threatened loss to
-the exchequer. I can speak with some authority on
-this point, for I have been both Chairman of a railway
-company and Secretary of the Treasury, and I am certain
-that, in the former capacity, I have introduced important
-innovations, such as excursion trains and cheap
-periodical tickets, by which the public have greatly
-benefited, which I should have vetoed in the latter
-capacity.</p>
-
-<p>Still there may be exceptional cases, as that of Ireland,
-where an unreasonable number of poor companies,
-in a poor country, wrangling among themselves, and
-giving a bad service at an excessive cost, intensify social
-and political evils, where the arguments in favour of a
-State purchase may outweigh the objections; and the
-extent and nature of State control over British railways
-is always a question fairly open to discussion.</p>
-
-<p>In other departments, the supply of articles such
-as water and gas, and the enforcement of sanitary
-conditions, are probably best left to local authorities: in
-the latter case, under some central supervision to see<span class="pagenum"><a name="Page_263" id="Page_263">[263]</a></span>
-that the duty is not evaded. Wherever neglect involves
-danger to others, as in the case of small-pox and other
-contagious epidemics, it is clear that the decision cannot
-be left to individuals, and the State is bound to interfere
-to enforce rational precautions.</p>
-
-<p>So also the State is bound to undertake trades which
-are essential for the protection of the nation against
-foreign enemies. Our dockyards and arsenals may, and
-doubtless do, often make mistakes and turn out expensive
-work; but we could not safely leave the building
-of ironclads and supply of cannon solely to private
-enterprise, for there is no such large and steady demand
-for such articles as would induce a number of private
-firms to erect works and keep up establishments adequate
-to supply the wants which might arise in an
-emergency. In all such matters, therefore, of national
-defence we must put up with a certain amount of
-drawbacks incidental to State management, and confine
-ourselves to endeavouring to reduce them to a minimum.
-And this is to a great extent within the power of the
-nation and its Parliament, by applying common-sense
-principles of business to national expenditure, and
-seeing that while on the one hand we get as nearly as
-possible a pound’s worth of work for every pound
-spent, on the other hand we do not spend nineteen
-shillings uselessly, because some Chancellor of the
-Exchequer wants to gain momentary popularity by the
-‘penny wise and pound foolish’ economy of docking
-the extra shilling off the necessary estimates. In
-private life a man gets on by knowing when to spend
-as well as when not to spend, and true economy has no
-greater foe than spasmodic parsimony alternating almost
-certainly with spasmodic extravagance. It would be<span class="pagenum"><a name="Page_264" id="Page_264">[264]</a></span>
-easy to multiply instances, for there are few phases
-of political and practical life to which the principle of
-polarity does not apply, where extremes are not false,
-and where there is not a good deal to be said on both
-sides of the question. But the very obviousness of the
-principle makes it difficult to deal with it generally
-without degenerating into commonplace, while to trace
-its application exhaustively in any one instance would
-require a volume. Those who wish to pursue the
-subject further will do well to study the works of
-Herbert Spencer, where they will find the application
-of general principles to all the problems of sociology
-treated with a depth of philosophic insight and an
-abundance and aptness of illustration which I cannot
-pretend to equal. My ambition is of a humbler nature.
-I do not expect to set the Thames on fire, or to produce
-a revolution in modern thought; but I do hope that the
-views which I have endeavoured to express may do
-somewhat to make some readers more tolerant and
-charitable in their judgments, less bitter and one-sided
-in controversy; and that whatever truth there may be
-in my ideas will contribute to form a small part, neither
-more nor less than it deserves, of the great body of truth
-which is handed down from the present to succeeding
-generations, and which becomes, long after I am there
-to witness it, the inheritance of the human race in the
-course of its evolution.</p>
-
-<p>And now, before I take my final leave of the reader,
-let me for a few moments throw the reins on the neck
-of fancy, and suppose myself standing with that group
-of Parsees by the shore of the Indian Ocean, listening to
-its murmured rhythm, inhaling the balmy air, watching
-the silver crescent of the new moon, and musing<span class="pagenum"><a name="Page_265" id="Page_265">[265]</a></span>
-on the wise sayings of the ancient sage; the sum of
-the reflections which I have tried to embody in the
-preceding pages would take form and crystallise in the
-following sonnet:—</p>
-
-<div class="poetry-container">
-<div class="poetry">
-<div class="verse">Hail! gracious Ormuzd, author of all good,</div>
-<div class="verse">Spirit of beauty, purity, and light;</div>
-<div class="verse">Teach me like thee to hate dark deeds of night,</div>
-<div class="verse">And battle ever with the hellish brood</div>
-<div class="verse">Of Ahriman, dread prince of evil mood—</div>
-<div class="verse">Father of lies, uncleanness, envious spite,</div>
-<div class="verse">Thefts, murders, sensual sins that shun the light,</div>
-<div class="verse">Unreason, ugliness, and fancies lewd—</div>
-<div class="verse">Grant me, bright Ormuzd, in thy ranks to stand,</div>
-<div class="verse">A valiant soldier faithful to the end;</div>
-<div class="verse">So when I leave this life’s familiar strand,</div>
-<div class="verse">Bound for the great Unknown, shall I commend</div>
-<div class="verse">My soul, if soul survive, into thy hand—</div>
-<div class="verse">Fearless of fate if thou thine aid will lend.</div>
-</div>
-</div>
-
-<p><span class="pagenum"><a name="Page_266" id="Page_266">[266]</a></span></p>
-
-<hr />
-
-<p><span class="pagenum"><a name="Page_267" id="Page_267">[267]</a></span></p>
-
-<h2>INDEX.</h2>
-
-<ul>
-
-<li class="ifrst">Abraham, <a href="#Page_186">186</a>.</li>
-
-<li class="indx">Accumulator, the electric, <a href="#Page_63">63</a>, <a href="#Page_64">64</a>.</li>
-
-<li class="indx">Acetic ether, <a href="#Page_73">73</a>, <a href="#Page_74">74</a>.</li>
-
-<li class="indx">Acids, <a href="#Page_69">69</a>, <a href="#Page_70">70</a>.</li>
-
-<li class="indx">Aerobes, <a href="#Page_87">87</a>, <a href="#Page_88">88</a>.</li>
-
-<li class="indx">Affinities, chemical, <a href="#Page_51">51</a>, <a href="#Page_52">52</a>, <a href="#Page_55">55</a>, <a href="#Page_68">68</a>;</li>
-<li class="isub1">of Zoroastrianism and art, <a href="#Page_212">212</a>.</li>
-
-<li class="indx">Agriculture, <a href="#Page_245">245</a>.</li>
-
-<li class="indx">Ahriman, <a href="#Page_4">4</a>, <a href="#Page_180">180</a>, <a href="#Page_202">202</a>, <a href="#Page_203">203</a>, <a href="#Page_265">265</a>.</li>
-
-<li class="indx">Air, a cubic centimetre of, <a href="#Page_20">20</a>;</li>
-<li class="isub1">pressure of, <a href="#Page_24">24</a>, <a href="#Page_25">25</a>.</li>
-
-<li class="indx">Aleutian Islands, <a href="#Page_97">97</a>.</li>
-
-<li class="indx">Alga, <a href="#Page_95">95</a>, <a href="#Page_105">105</a>;</li>
-<li class="isub1">forests of the, <a href="#Page_97">97</a>.</li>
-
-<li class="indx">Algonquins, funeral custom, <a href="#Page_149">149</a>.</li>
-
-<li class="indx">Alizarine manufactured, <a href="#Page_86">86</a>.</li>
-
-<li class="indx">Alkalies, <a href="#Page_69">69</a>, <a href="#Page_70">70</a>.</li>
-
-<li class="indx">America, woman in, <a href="#Page_111">111</a>, <a href="#Page_112">112</a>;</li>
-<li class="isub1">respect for law in, <a href="#Page_235">235</a>.</li>
-
-<li class="indx">Amœba, <a href="#Page_76">76</a>, <a href="#Page_77">77</a>, <a href="#Page_82">82</a>;</li>
-<li class="isub1">propagation of the, <a href="#Page_103">103</a>, <a href="#Page_104">104</a>, <a href="#Page_117">117</a>.</li>
-
-<li class="indx">Amos, <a href="#Page_187">187</a>.</li>
-
-<li class="indx">Anemone, sea, <a href="#Page_104">104</a>.</li>
-
-<li class="indx">Angiosperms, <a href="#Page_98">98</a>.</li>
-
-<li class="indx">Animal life, <a href="#Page_92">92</a>, <a href="#Page_93">93</a>;</li>
-<li class="isub1">Zoroaster enjoins kindness to, <a href="#Page_207">207</a>.</li>
-
-<li class="indx">Aquarium, <a href="#Page_93">93</a>;</li>
-<li class="isub1">nature one huge, <a href="#Page_101">101</a>.</li>
-
-<li class="indx">Arnold, Matthew, <a href="#Page_207">207</a>;</li>
-<li class="isub1">definition of the Deity by, <a href="#Page_171">171</a>.</li>
-
-<li class="indx">Aryan race, divisions of the, <a href="#Page_199">199</a>;</li>
-<li class="isub1">religion of the, <a href="#Page_200">200</a>;</li>
-<li class="isub1">language, <a href="#Page_200">200</a>.</li>
-
-<li class="indx">Assur, <a href="#Page_153">153</a>.</li>
-
-<li class="indx">Astronomy, <a href="#Page_5">5</a>;</li>
-<li class="isub1">in early religions, <a href="#Page_153">153</a>.</li>
-
-<li class="indx">Athanasian Creed, <a href="#Page_181">181-183</a>.</li>
-
-<li class="indx">Atlantic cable, <a href="#Page_60">60</a>, <a href="#Page_61">61</a>.</li>
-
-<li class="indx">Atoms, <a href="#Page_5">5</a>, <a href="#Page_10">10</a>, <a href="#Page_14">14</a>;</li>
-<li class="isub1">weight of, <a href="#Page_15">15-17</a>;</li>
-<li class="isub1">theory of, <a href="#Page_16">16</a>;</li>
-<li class="isub1">elementary, <a href="#Page_18">18</a>;</li>
-<li class="isub1">and their laws, <a href="#Page_19">19</a>, <a href="#Page_22">22</a>, <a href="#Page_25">25</a>;</li>
-<li class="isub1">vibrations of, <a href="#Page_26">26</a>;</li>
-<li class="isub1">and ether, <a href="#Page_32">32</a>;</li>
-<li class="isub1">and the vortex theory, <a href="#Page_33">33</a>, <a href="#Page_34">34</a>, <a href="#Page_36">36</a>;</li>
-<li class="isub1">action of heat on, <a href="#Page_43">43</a>;</li>
-<li class="isub1">and chemical energy, <a href="#Page_50">50</a>;</li>
-<li class="isub1">affinities and repulsions of, <a href="#Page_51">51</a>;</li>
-<li class="isub1">the primary element of matter, <a href="#Page_66">66</a>, <a href="#Page_67">67</a>;</li>
-<li class="isub1">polarity of, <a href="#Page_68">68</a>;</li>
-<li class="isub1">in hydrates, <a href="#Page_69">69</a>;</li>
-<li class="isub1">of hydrogen in acids, <a href="#Page_69">69</a>, <a href="#Page_70">70</a>;</li>
-<li class="isub1">of oxygen, <a href="#Page_70">70</a>;</li>
-<li class="isub1">multipolar, <a href="#Page_71">71</a>;</li>
-<li class="isub1">magnetic, <a href="#Page_72">72</a>;</li>
-<li class="isub1">dimensions of, <a href="#Page_119">119</a>.</li>
-
-<li class="indx">Augustin, <a href="#Page_201">201</a>.</li>
-
-<li class="indx">Australia, free trade in, <a href="#Page_242">242</a>, <a href="#Page_245">245</a>.</li>
-
-<li class="indx">Authorities to whom the author is indebted, <a href="#Page_x">x.</a></li>
-
-<li class="indx">Atavism, <a href="#Page_103">103</a>, <a href="#Page_118">118</a>.</li>
-
-<li class="indx">Avogadro, law of, <a href="#Page_13">13</a>.</li>
-
-<li class="indx">Axolotl, <a href="#Page_123">123</a>.</li>
-
-<li class="ifrst">Bacteria, <a href="#Page_85">85</a>, <a href="#Page_105">105</a>.</li>
-
-<li class="indx">Balkh, Zoroaster at, <a href="#Page_201">201</a>.</li>
-
-<li class="indx">Bees, reproduction of, <a href="#Page_106">106</a>.</li>
-
-<li class="indx">Bel, <a href="#Page_152">152</a>, <a href="#Page_153">153</a>.</li>
-
-<li class="indx">Berkeley, Bishop, <a href="#Page_142">142</a>.</li>
-
-<li class="indx">Berlin, spirit-seeing in, <a href="#Page_166">166</a>.</li>
-
-<li class="indx">Blindness cured by hypnotism, <a href="#Page_165">165</a>.</li>
-
-<li class="indx">Bombay, death rate in, 1881, 1882, <a href="#Page_218">218</a>.</li>
-
-<li class="indx">Books, the best mirrors of an age, <a href="#Page_111">111</a>, <a href="#Page_112">112</a>;</li>
-<li class="isub1">modern French novels, <a href="#Page_113">113</a>.</li>
-
-<li class="indx">Bozu, Buddhist priest upon the Divine Creator, <a href="#Page_160">160</a>, <a href="#Page_161">161</a>.</li>
-
-<li class="indx">Brahm, <a href="#Page_114">114</a>.</li>
-
-<li class="indx">Brahminism, <a href="#Page_207">207</a>.</li>
-
-<li class="indx"><span class="pagenum"><a name="Page_268" id="Page_268">[268]</a></span>Braid, Dr., cures by hypnotism, <a href="#Page_165">165</a>, <a href="#Page_168">168</a>, <a href="#Page_193">193</a>.</li>
-
-<li class="indx">Brain, the, <a href="#Page_125">125</a>, <a href="#Page_126">126</a>;</li>
-<li class="isub1">tissue of the, <a href="#Page_127">127</a>;</li>
-<li class="isub1">average weight of the human, <a href="#Page_129">129</a>;</li>
-<li class="isub1">organs of the, <a href="#Page_130">130</a>, <a href="#Page_131">131</a>;</li>
-<li class="isub1">areas of speech, hearing, and sight in the, <a href="#Page_132">132</a>;</li>
-<li class="isub1">intellectual faculties in the, <a href="#Page_133">133</a>;</li>
-<li class="isub1">abnormal state of the, <a href="#Page_134">134</a>, <a href="#Page_135">135</a>;</li>
-<li class="isub1">action of the grey tissue of the, <a href="#Page_137">137</a>;</li>
-<li class="isub1">of the higher animals, <a href="#Page_137">137</a>, <a href="#Page_138">138</a>;</li>
-<li class="isub1">cells of the, <a href="#Page_140">140</a>;</li>
-<li class="isub1">action in a murder, <a href="#Page_189">189</a>;</li>
-<li class="isub1">organ of will in the, <a href="#Page_191">191</a>, <a href="#Page_192">192</a>;</li>
-<li class="isub1">effect of injuries to the, <a href="#Page_192">192</a>;</li>
-<li class="isub1">effect of will on the, <a href="#Page_194">194</a>.</li>
-
-<li class="indx">Bret Harte, <a href="#Page_110">110</a>, <a href="#Page_112">112</a>.</li>
-
-<li class="indx">Bruce, legend of the heart of, <a href="#Page_228">228</a>.</li>
-
-<li class="indx">Buddha, <a href="#Page_187">187</a>.</li>
-
-<li class="indx">Buddhism, <a href="#Page_156">156</a>;</li>
-<li class="isub1">in Shakespeare, <a href="#Page_160">160</a>;</li>
-<li class="isub1">the Divine Creator in, <a href="#Page_160">160</a>, <a href="#Page_161">161</a>;</li>
-<li class="isub1">morality of, <a href="#Page_160">160</a>, <a href="#Page_184">184</a>;</li>
-<li class="isub1">based upon pessimism, <a href="#Page_177">177</a>, <a href="#Page_197">197</a>, <a href="#Page_198">198</a>, <a href="#Page_206">206</a>, <a href="#Page_207">207</a>.</li>
-
-<li class="indx">Burial of the dead, <a href="#Page_149">149</a>;</li>
-<li class="isub1">prehistoric, <a href="#Page_151">151</a>;</li>
-<li class="isub1">Parsee avoidance of, <a href="#Page_208">208</a>.</li>
-
-<li class="indx">Butyric acid, <a href="#Page_73">73</a>, <a href="#Page_74">74</a>.</li>
-
-<li class="indx">Byron on the Parsees, <a href="#Page_219">219</a>.</li>
-
-<li class="ifrst">Calculus, the differential, <a href="#Page_6">6</a>, <a href="#Page_28">28-32</a>, <a href="#Page_138">138</a>.</li>
-
-<li class="indx">California, <a href="#Page_256">256</a>.</li>
-
-<li class="indx">Canterbury, Augustin at, <a href="#Page_201">201</a>.</li>
-
-<li class="indx">Capital and labour, <a href="#Page_176">176</a>, <a href="#Page_246">246-248</a>.</li>
-
-<li class="indx">Carbon, <a href="#Page_16">16</a>, <a href="#Page_18">18</a>, <a href="#Page_71">71</a>;</li>
-<li class="isub1">in dynamite, <a href="#Page_50">50</a>;</li>
-<li class="isub1">radicals of, <a href="#Page_73">73</a>, <a href="#Page_74">74</a>, <a href="#Page_77">77</a>;</li>
-<li class="isub1">in the protoplasm, <a href="#Page_80">80</a>;</li>
-<li class="isub1">early abundance of, <a href="#Page_86">86</a>;</li>
-<li class="isub1">in a dead body, <a href="#Page_88">88</a>;</li>
-<li class="isub1">plant life and, <a href="#Page_93">93</a>.</li>
-
-<li class="indx">Carbonic dioxide, <a href="#Page_16">16</a>, <a href="#Page_51">51</a>, <a href="#Page_82">82</a>, <a href="#Page_83">83</a>, <a href="#Page_92">92</a>, <a href="#Page_95">95</a>, <a href="#Page_96">96</a>;</li>
-<li class="isub1">in plant life, <a href="#Page_101">101</a>.</li>
-
-<li class="indx">Carlyle, <a href="#Page_171">171</a>, <a href="#Page_188">188</a>, <a href="#Page_251">251</a>.</li>
-
-<li class="indx">Carnegie, Andrew, on modern worship, <a href="#Page_219">219</a>.</li>
-
-<li class="indx">Catholic theology, <a href="#Page_147">147</a>.</li>
-
-<li class="indx">Cause, the Great First, <a href="#Page_122">122</a>, <a href="#Page_162">162</a>;</li>
-<li class="isub1">Dr. Temple’s definition of, <a href="#Page_170">170</a>;</li>
-<li class="isub1">evolution of the idea of, <a href="#Page_172">172</a>, <a href="#Page_201">201</a>, <a href="#Page_203">203</a>;</li>
-<li class="isub1">Zoroaster and, <a href="#Page_204">204</a>;</li>
-<li class="isub1">the only reasonable theory, <a href="#Page_208">208</a>.</li>
-
-<li class="indx">Cell, the first step in organisms, <a href="#Page_78">78</a>, <a href="#Page_79">79</a>;</li>
-<li class="isub1">the nucleated multiplication of the, <a href="#Page_104">104</a>.</li>
-
-<li class="indx">Centrifugal force, <a href="#Page_89">89</a>, <a href="#Page_90">90</a>, <a href="#Page_117">117</a>.</li>
-
-<li class="indx">Centripetal force, <a href="#Page_89">89</a>, <a href="#Page_90">90</a>, <a href="#Page_117">117</a>;</li>
-<li class="isub1">in societies, <a href="#Page_233">233</a>.</li>
-
-<li class="indx">Chaldean legends, <a href="#Page_152">152</a>, <a href="#Page_153">153</a>;</li>
-<li class="isub1">of the Creation, <a href="#Page_193">193</a>.</li>
-
-<li class="indx">Chalk, formation of, <a href="#Page_95">95</a>.</li>
-
-<li class="indx">Chemical energy in electricity, <a href="#Page_60">60</a>.</li>
-
-<li class="indx">Chemistry, <a href="#Page_5">5</a>, <a href="#Page_14">14</a>, <a href="#Page_25">25</a>;</li>
-<li class="isub1">elementary substances in, <a href="#Page_17">17</a>, <a href="#Page_18">18</a>, <a href="#Page_74">74</a>;</li>
-<li class="isub1">energy in, <a href="#Page_47">47</a>;</li>
-<li class="isub1">a modern law of change, <a href="#Page_75">75</a>;</li>
-<li class="isub1">and the protoplasm, <a href="#Page_84">84</a>.</li>
-
-<li class="indx">Chinese funeral custom, <a href="#Page_149">149</a>;</li>
-<li class="isub1">religion, origin of the, <a href="#Page_152">152</a>;</li>
-<li class="isub1">religion, <a href="#Page_156">156</a>, <a href="#Page_159">159</a>;</li>
-<li class="isub1">myths, <a href="#Page_164">164</a>;</li>
-<li class="isub1">faith in a virgin mother, <a href="#Page_155">155</a>.</li>
-
-<li class="indx">Chlorine, <a href="#Page_16">16</a>, <a href="#Page_70">70</a>, <a href="#Page_71">71</a>.</li>
-
-<li class="indx">Christianity, <a href="#Page_157">157</a>, <a href="#Page_198">198</a>;</li>
-<li class="isub1">the position of women influenced by, <a href="#Page_108">108</a>, <a href="#Page_109">109</a>;</li>
-<li class="isub1">Pauline, <a href="#Page_177">177</a>;</li>
-<li class="isub1">the creed of, <a href="#Page_180">180</a>, <a href="#Page_181">181</a>;</li>
-<li class="isub1">impractical, <a href="#Page_182">182</a>;</li>
-<li class="isub1">morality of, <a href="#Page_184">184</a>, <a href="#Page_185">185</a>, <a href="#Page_188">188</a>;</li>
-<li class="isub1">influenced by Oriental asceticism, <a href="#Page_212">212</a>.</li>
-
-<li class="indx">Clausius, <a href="#Page_19">19</a>.</li>
-
-<li class="indx">Cleanliness and religion, <a href="#Page_223">223</a>, <a href="#Page_224">224</a>.</li>
-
-<li class="indx">Clerk Maxwell, <a href="#Page_19">19</a>.</li>
-
-<li class="indx">Coal, <a href="#Page_45">45</a>, <a href="#Page_49">49</a>, <a href="#Page_97">97</a>;</li>
-<li class="isub1">heat in burning, <a href="#Page_61">61</a>, <a href="#Page_62">62</a>;</li>
-<li class="isub1">land animals found in, <a href="#Page_99">99</a>.</li>
-
-<li class="indx">Cobden, Richard, <a href="#Page_242">242</a>.</li>
-
-<li class="indx">Colloids, <a href="#Page_77">77</a>, <a href="#Page_78">78</a>, <a href="#Page_80">80</a>.</li>
-
-<li class="indx">Comets, <a href="#Page_25">25</a>;</li>
-<li class="isub1">supernatural dread of, <a href="#Page_164">164</a>.</li>
-
-<li class="indx">Communism, <a href="#Page_252">252</a>, <a href="#Page_253">253</a>.</li>
-
-<li class="indx">Conceptions, our, <a href="#Page_143">143</a>.</li>
-
-<li class="indx">Confucianism, <a href="#Page_184">184</a>, <a href="#Page_198">198</a>.</li>
-
-<li class="indx">Conservative legislation, <a href="#Page_230">230</a>;</li>
-<li class="isub1">in England, <a href="#Page_235">235</a>.</li>
-
-<li class="indx">Contract, law of, <a href="#Page_254">254</a>, <a href="#Page_255">255</a>.</li>
-
-<li class="indx">Creation, unknown, <a href="#Page_19">19</a>;</li>
-<li class="isub1">early myths of the, <a href="#Page_152">152</a>, <a href="#Page_153">153</a>.</li>
-
-<li class="indx">Cromwell, <a href="#Page_213">213</a>.</li>
-
-<li class="indx">Crystals, <a href="#Page_10">10</a>, <a href="#Page_26">26-28</a>.</li>
-
-<li class="indx">Cumming, Dr., <a href="#Page_47">47</a>.</li>
-
-<li class="ifrst">Darwin, <a href="#Page_6">6</a>, <a href="#Page_122">122</a>, <a href="#Page_172">172</a>;</li>
-<li class="isub1">his theory of Pangenesis, <a href="#Page_119">119</a>;</li>
-<li class="isub1">his theory of evolution, <a href="#Page_121">121</a>.</li>
-
-<li class="indx">David, <a href="#Page_186">186</a>.</li>
-
-<li class="indx">Descartes, <a href="#Page_141">141</a>.</li>
-
-<li class="indx">Deus, derivation of the word, <a href="#Page_200">200</a>.</li>
-
-<li class="indx">Deutsch, Emmanuel, on the Talmud, <a href="#Page_172">172</a>, <a href="#Page_188">188</a>.</li>
-
-<li class="indx"><span class="pagenum"><a name="Page_269" id="Page_269">[269]</a></span>Diamond, the, <a href="#Page_74">74</a>, <a href="#Page_77">77</a>.</li>
-
-<li class="indx">Dionæa, <a href="#Page_96">96</a>.</li>
-
-<li class="indx">Dog, will in a, <a href="#Page_39">39</a>, <a href="#Page_40">40</a>;</li>
-<li class="isub1">sense of right and wrong in a, <a href="#Page_193">193</a>.</li>
-
-<li class="indx">Drummond, Professor, <a href="#Page_3">3</a>.</li>
-
-<li class="indx">Dryopithecus, <a href="#Page_100">100</a>.</li>
-
-<li class="indx">Dynamite, <a href="#Page_48">48</a>, <a href="#Page_50">50</a>, <a href="#Page_74">74</a>, <a href="#Page_176">176</a>.</li>
-
-<li class="indx">Dynamo, the, <a href="#Page_61">61-63</a>.</li>
-
-<li class="ifrst">Earth, structure of the, <a href="#Page_51">51</a>, <a href="#Page_52">52</a>;</li>
-<li class="isub1">first temperature of the, <a href="#Page_86">86</a>;</li>
-<li class="isub1">orbit of the, <a href="#Page_22">22</a>, <a href="#Page_89">89</a>, <a href="#Page_117">117</a>.</li>
-
-<li class="indx">Echidna, the, <a href="#Page_124">124</a>.</li>
-
-<li class="indx">Education, <a href="#Page_237">237-240</a>.</li>
-
-<li class="indx">Egypt, ancient tombs in, <a href="#Page_149">149</a>, <a href="#Page_150">150</a>;</li>
-<li class="isub1">animal worship in, <a href="#Page_150">150</a>;</li>
-<li class="isub1">priests in, <a href="#Page_152">152</a>;</li>
-<li class="isub1">astronomy in, <a href="#Page_153">153</a>, <a href="#Page_154">154</a>;</li>
-<li class="isub1">a virgin mother worshipped in, <a href="#Page_155">155</a>;</li>
-<li class="isub1">religious morality in, <a href="#Page_184">184</a>.</li>
-
-<li class="indx">Electric energy, <a href="#Page_47">47</a>;</li>
-<li class="isub1">light currents, effects of, <a href="#Page_57">57-59</a>;</li>
-<li class="isub1">telegraph, <a href="#Page_59">59</a>, <a href="#Page_60">60</a>;</li>
-<li class="isub1">accumulator, <a href="#Page_61">61</a>;</li>
-<li class="isub1">light, <a href="#Page_56">56</a>, <a href="#Page_57">57</a>, <a href="#Page_61">61</a>;</li>
-<li class="isub1">engines, <a href="#Page_62">62</a>, <a href="#Page_63">63</a>.</li>
-
-<li class="indx">Electricity, <a href="#Page_2">2</a>, <a href="#Page_14">14</a>;</li>
-<li class="isub1">ether in, <a href="#Page_25">25</a>;</li>
-<li class="isub1">nature of, <a href="#Page_52">52-55</a>;</li>
-<li class="isub1">in pith balls, <a href="#Page_52">52</a>, <a href="#Page_53">53</a>, <a href="#Page_71">71</a>, <a href="#Page_72">72</a>;</li>
-<li class="isub1">velocity of the current in, <a href="#Page_56">56</a>;</li>
-<li class="isub1">and magnets, <a href="#Page_58">58</a>, <a href="#Page_59">59</a>;</li>
-<li class="isub1">storage of, <a href="#Page_64">64</a>.</li>
-
-<li class="indx">Embryology, <a href="#Page_106">106</a>.</li>
-
-<li class="indx">Emerson, <a href="#Page_vii">vii.</a></li>
-
-<li class="indx">Energy, <a href="#Page_2">2</a>;</li>
-<li class="isub1">nature of, <a href="#Page_35">35</a>, <a href="#Page_36">36</a>, <a href="#Page_38">38</a>, <a href="#Page_66">66</a>, <a href="#Page_67">67</a>;</li>
-<li class="isub1">of motion and position, <a href="#Page_37">37</a>, <a href="#Page_48">48</a>;</li>
-<li class="isub1">transformation of, <a href="#Page_41">41</a>, <a href="#Page_42">42</a>;</li>
-<li class="isub1">in heat and light, <a href="#Page_43">43</a>, <a href="#Page_44">44</a>, <a href="#Page_47">47</a>;</li>
-<li class="isub1">variations of, <a href="#Page_47">47</a>, <a href="#Page_48">48</a>;</li>
-<li class="isub1">molecular, <a href="#Page_49">49</a>;</li>
-<li class="isub1">chemical, <a href="#Page_50">50</a>;</li>
-<li class="isub1">in electricity, <a href="#Page_54">54-57</a>;</li>
-<li class="isub1">cost of, obtained from zinc, <a href="#Page_61">61</a>, <a href="#Page_62">62</a>;</li>
-<li class="isub1">conservation of, <a href="#Page_62">62</a>, <a href="#Page_63">63</a>, <a href="#Page_139">139</a>.</li>
-
-<li class="indx">England, conservatism in, <a href="#Page_236">236</a>, <a href="#Page_237">237</a>;</li>
-<li class="isub1">education in, <a href="#Page_237">237-239</a>;</li>
-<li class="isub1">free trade in, <a href="#Page_243">243</a>.</li>
-
-<li class="indx">English literature, <a href="#Page_111">111</a>;</li>
-<li class="isub1">woman in, <a href="#Page_112">112</a>, <a href="#Page_113">113</a>;</li>
-<li class="isub1">colonisation, <a href="#Page_232">232</a>.</li>
-
-<li class="indx">Eozoon Canadiense, <a href="#Page_99">99</a>.</li>
-
-<li class="indx">Ethelbert, <a href="#Page_201">201</a>.</li>
-
-<li class="indx">Ether, <a href="#Page_22">22</a>, <a href="#Page_36">36</a>;</li>
-<li class="isub1">density of, <a href="#Page_24">24</a>, <a href="#Page_25">25</a>;</li>
-<li class="isub1">waves, <a href="#Page_26">26</a>, <a href="#Page_43">43</a>;</li>
-<li class="isub1">vibrations of, <a href="#Page_27">27</a>;</li>
-<li class="isub1">attempt to identify, with atoms, <a href="#Page_32">32</a>, <a href="#Page_35">35</a>;</li>
-<li class="isub1">nature of, <a href="#Page_66">66</a>.</li>
-
-<li class="indx">Evil, origin of, <a href="#Page_170">170</a>, <a href="#Page_173">173</a>;</li>
-<li class="isub1">attempts to reconcile it with good, <a href="#Page_178">178</a>;</li>
-<li class="isub1">consistent with theory of God, <a href="#Page_173">173</a>, <a href="#Page_202">202</a>;</li>
-<li class="isub1">modern treatment of, <a href="#Page_224">224</a>.</li>
-
-<li class="indx">Evolution, <a href="#Page_6">6</a>, <a href="#Page_8">8</a>, <a href="#Page_121">121</a>;</li>
-<li class="isub1">of religion, <a href="#Page_4">4</a>, <a href="#Page_155">155</a>, <a href="#Page_156">156</a>, <a href="#Page_185">185</a>, <a href="#Page_186">186</a>;</li>
-<li class="isub1">of matter, <a href="#Page_80">80</a>;</li>
-<li class="isub1">of life, <a href="#Page_100">100</a>;</li>
-<li class="isub1">important facts in the history of, <a href="#Page_123">123</a>;</li>
-<li class="isub1">does not tend to virtue, <a href="#Page_173">173</a>, <a href="#Page_176">176</a>;</li>
-<li class="isub1">of moral ideas, <a href="#Page_186">186</a>, <a href="#Page_191">191</a>;</li>
-<li class="isub1">of the horror of murder, <a href="#Page_189">189</a>, <a href="#Page_190">190</a>.</li>
-
-<li class="ifrst">Fable of the shield, <a href="#Page_227">227-230</a>;</li>
-<li class="isub1">applied to politics, <a href="#Page_230">230</a>;</li>
-<li class="isub1">to commerce, <a href="#Page_243">243</a>, <a href="#Page_244">244</a>.</li>
-
-<li class="indx">“Faust” a Zoroastrian drama, <a href="#Page_209">209</a>.</li>
-
-<li class="indx">Ferdousi, <a href="#Page_201">201</a>.</li>
-
-<li class="indx">Fermentation, <a href="#Page_87">87</a>, <a href="#Page_88">88</a>.</li>
-
-<li class="indx">Ferns in the primary epoch, <a href="#Page_97">97</a>.</li>
-
-<li class="indx">Fetish worship, <a href="#Page_150">150</a>.</li>
-
-<li class="indx">Fiji, <a href="#Page_149">149</a>, <a href="#Page_189">189</a>.</li>
-
-<li class="indx">Fire, primitive means of obtaining, <a href="#Page_41">41</a>;</li>
-<li class="isub1">worship, <a href="#Page_207">207</a>, <a href="#Page_220">220</a>.</li>
-
-<li class="indx">Fish shells in the Tertiary epoch, <a href="#Page_98">98</a>;</li>
-<li class="isub1">in the Silurian epoch, <a href="#Page_99">99</a>.</li>
-
-<li class="indx">Fungi, <a href="#Page_95">95</a>.</li>
-
-<li class="indx">France, protection in, <a href="#Page_246">246</a>;</li>
-<li class="isub1">state railways in, <a href="#Page_261">261</a>.</li>
-
-<li class="indx">Franklin, Benjamin, <a href="#Page_163">163</a>.</li>
-
-<li class="indx">French Revolution, <a href="#Page_231">231</a>, <a href="#Page_233">233</a>;</li>
-<li class="isub1">colonisation, <a href="#Page_232">232</a>;</li>
-<li class="isub1">trade in a colony, <a href="#Page_233">233</a>.</li>
-
-<li class="indx">Frog with the brain removed, <a href="#Page_137">137</a>.</li>
-
-<li class="ifrst">Galileo, <a href="#Page_147">147</a>, <a href="#Page_164">164</a>, <a href="#Page_205">205</a>.</li>
-
-<li class="indx">Gallio, <a href="#Page_239">239</a>.</li>
-
-<li class="indx">Gas in dynamite, <a href="#Page_51">51</a>.</li>
-
-<li class="indx">Gases, law of, <a href="#Page_11">11-13</a>;</li>
-<li class="isub1">in water, <a href="#Page_14">14</a>;</li>
-<li class="isub1">kinetic theory of, <a href="#Page_14">14</a>, <a href="#Page_33">33</a>;</li>
-<li class="isub1">substances reduced to, <a href="#Page_44">44</a>;</li>
-<li class="isub1">expansion of, <a href="#Page_45">45</a>.</li>
-
-<li class="indx">Galton, Mr. F., <a href="#Page_240">240</a>.</li>
-
-<li class="indx">Genesis, the Creation in, <a href="#Page_152">152</a>, <a href="#Page_153">153</a>.</li>
-
-<li class="indx">Geology, <a href="#Page_5">5</a>;</li>
-<li class="isub1">records of, <a href="#Page_96">96</a>;</li>
-<li class="isub1">earliest strata of, <a href="#Page_97">97</a>;</li>
-<li class="isub1">vegetable records in, <a href="#Page_96">96-98</a>;</li>
-<li class="isub1">animal records in, <a href="#Page_99">99</a>, <a href="#Page_100">100</a>.</li>
-
-<li class="indx">Geometry, <a href="#Page_139">139</a>.</li>
-
-<li class="indx">George, Henry, <a href="#Page_256">256</a>.</li>
-
-<li class="indx">Ghosts, universal belief in, <a href="#Page_149">149-151</a>.</li>
-
-<li class="indx">Glass, <a href="#Page_49">49</a>, <a href="#Page_53">53</a>.</li>
-
-<li class="indx">Globigerena, <a href="#Page_95">95</a>.</li>
-
-<li class="indx">God, Buddhist idea of, <a href="#Page_161">161</a>;</li>
-<li class="isub1">a magnified man, <a href="#Page_170">170</a>, <a href="#Page_171">171</a>;</li>
-<li class="isub1">Carlyle on, <a href="#Page_171">171</a>;</li>
-<li class="isub1">Arnold’s definition of, <a href="#Page_171">171</a>;</li>
-<li class="isub1"><span class="pagenum"><a name="Page_270" id="Page_270">[270]</a></span>Jewish doctors on, <a href="#Page_172">172</a>;</li>
-<li class="isub1">prevalent idea of miraculous intervention by, <a href="#Page_173">173</a>;</li>
-<li class="isub1">the author of good and evil, <a href="#Page_179">179</a>;</li>
-<li class="isub1">primitive Aryan word for, <a href="#Page_200">200</a>.</li>
-
-<li class="indx">Grammar, <a href="#Page_239">239</a>, <a href="#Page_240">240</a>.</li>
-
-<li class="indx">Gravity, the law of, <a href="#Page_5">5</a>, <a href="#Page_16">16</a>, <a href="#Page_48">48</a>, <a href="#Page_49">49</a>, <a href="#Page_121">121</a>, <a href="#Page_144">144</a>;</li>
-<li class="isub1">atoms subject to the, <a href="#Page_34">34</a>;</li>
-<li class="isub1">universal confidence in the, <a href="#Page_148">148</a>;</li>
-<li class="isub1">a dangerous heresy, <a href="#Page_164">164</a>.</li>
-
-<li class="indx">Greeks, religion amongst the, <a href="#Page_155">155</a>, <a href="#Page_156">156</a>.</li>
-
-<li class="indx">Gushtasp, <a href="#Page_201">201</a>.</li>
-
-<li class="indx">Gymnosperms, <a href="#Page_97">97</a>, <a href="#Page_98">98</a>.</li>
-
-<li class="ifrst">Haeckel, <a href="#Page_119">119</a>, <a href="#Page_122">122</a>.</li>
-
-<li class="indx">Hale, Justice, <a href="#Page_164">164</a>.</li>
-
-<li class="indx">Halley, <a href="#Page_164">164</a>.</li>
-
-<li class="indx">Haug, Dr., <a href="#Page_202">202</a>, <a href="#Page_205">205</a>.</li>
-
-<li class="indx">Heat, produced by work, <a href="#Page_41">41</a>, <a href="#Page_42">42</a>;</li>
-<li class="isub1">nature of, <a href="#Page_43">43</a>;</li>
-<li class="isub1">performs work, <a href="#Page_44">44</a>, <a href="#Page_47">47</a>;</li>
-<li class="isub1">and electricity, <a href="#Page_54">54</a>, <a href="#Page_61">61</a>;</li>
-<li class="isub1">and the stability of substances, <a href="#Page_74">74</a>;</li>
-<li class="isub1">in chemistry, <a href="#Page_75">75</a>.</li>
-
-<li class="indx">Helmholz, <a href="#Page_32">32</a>.</li>
-
-<li class="indx">Hercules, <a href="#Page_193">193</a>, <a href="#Page_197">197</a>.</li>
-
-<li class="indx">Heredity, the principle of, <a href="#Page_117">117-121</a>;</li>
-<li class="isub1">in education, <a href="#Page_240">240</a>.</li>
-
-<li class="indx">Hesperornis, <a href="#Page_123">123</a>.</li>
-
-<li class="indx">Hillel, morality of, <a href="#Page_188">188</a>.</li>
-
-<li class="indx">Hindoo religion, <a href="#Page_152">152</a>, <a href="#Page_156">156</a>;</li>
-<li class="isub1">migration, <a href="#Page_199">199</a>.</li>
-
-<li class="indx">Horace, <a href="#Page_163">163</a>.</li>
-
-<li class="indx">Horse, <a href="#Page_119">119</a>.</li>
-
-<li class="indx">Human remains in Tertiary period, <a href="#Page_100">100</a>;</li>
-<li class="isub1">implements, prehistoric, <a href="#Page_144">144</a>, <a href="#Page_145">145</a>.</li>
-
-<li class="indx">Hume, <a href="#Page_162">162</a>.</li>
-
-<li class="indx">Huxley, Professor, <a href="#Page_v">v.</a>, <a href="#Page_vi">vi.</a>, <a href="#Page_78">78</a>, <a href="#Page_86">86</a>, <a href="#Page_122">122</a>, <a href="#Page_172">172</a>, <a href="#Page_203">203</a>;</li>
-<li class="isub1">on spontaneous generation, <a href="#Page_85">85</a>;</li>
-<li class="isub1">on the protista, <a href="#Page_94">94</a>;</li>
-<li class="isub1">on the uniformity of law in Nature, <a href="#Page_146">146</a>.</li>
-
-<li class="indx">Hydrates, <a href="#Page_69">69</a>.</li>
-
-<li class="indx">Hydrochloric acid, <a href="#Page_16">16</a>, <a href="#Page_70">70</a>, <a href="#Page_71">71</a>.</li>
-
-<li class="indx">Hydrogen, <a href="#Page_11">11</a>, <a href="#Page_13">13</a>, <a href="#Page_16">16-18</a>, <a href="#Page_70">70</a>, <a href="#Page_71">71</a>, <a href="#Page_74">74</a>, <a href="#Page_75">75</a>;</li>
-<li class="isub1">composition of, <a href="#Page_15">15</a>;</li>
-<li class="isub1">in the sun, <a href="#Page_26">26</a>;</li>
-<li class="isub1">in dynamite, <a href="#Page_50">50</a>;</li>
-<li class="isub1">in water, <a href="#Page_52">52</a>, <a href="#Page_68">68</a>, <a href="#Page_238">238</a>;</li>
-<li class="isub1">in the accumulator, <a href="#Page_63">63</a>;</li>
-<li class="isub1">in acids, <a href="#Page_69">69</a>;</li>
-<li class="isub1">in the protoplasm, <a href="#Page_80">80</a>;</li>
-<li class="isub1">in a dead body, <a href="#Page_88">88</a>.</li>
-
-<li class="indx">Hypnotism, <a href="#Page_134">134</a>, <a href="#Page_192">192</a>;</li>
-<li class="isub1">blindness cured by, <a href="#Page_165">165</a>, <a href="#Page_166">166</a>;</li>
-<li class="isub1">an old lady dancing through, <a href="#Page_193">193</a>.</li>
-
-<li class="ifrst">Ibn Ezra, <a href="#Page_172">172</a>.</li>
-
-<li class="indx">India, British railways in, <a href="#Page_250">250</a>.</li>
-
-<li class="indx">Indians, North American, totem of the, <a href="#Page_150">150</a>;</li>
-<li class="isub1">murder amongst the, <a href="#Page_189">189</a>.</li>
-
-<li class="indx">Indigotine, <a href="#Page_86">86</a>.</li>
-
-<li class="indx">Induction, phenomena of, <a href="#Page_58">58</a>.</li>
-
-<li class="indx">Intellectual faculties, the seat of the, <a href="#Page_133">133</a>, <a href="#Page_134">134</a>.</li>
-
-<li class="indx">Iodine vapour, <a href="#Page_75">75</a>.</li>
-
-<li class="indx">Iranian migration, <a href="#Page_199">199</a>;</li>
-<li class="isub1">language, <a href="#Page_200">200</a>.</li>
-
-<li class="indx">Ireland, popular ignorance of the land question in, <a href="#Page_9">9</a>;</li>
-<li class="isub1">rents in, <a href="#Page_233">233</a>, <a href="#Page_234">234</a>;</li>
-<li class="isub1">contracts in, <a href="#Page_254">254</a>;</li>
-<li class="isub1">railways in, <a href="#Page_262">262</a>.</li>
-
-<li class="indx">Iron, filings and a magnet, <a href="#Page_1">1</a>, <a href="#Page_10">10</a>, <a href="#Page_11">11</a>, <a href="#Page_27">27</a>;</li>
-<li class="isub1">contraction of, <a href="#Page_49">49</a>, <a href="#Page_50">50</a>;</li>
-<li class="isub1">bar and a magnet, <a href="#Page_68">68</a>;</li>
-<li class="isub1">rust, <a href="#Page_68">68</a>, <a href="#Page_81">81</a>;</li>
-<li class="isub1">motion of, <a href="#Page_83">83</a>.</li>
-
-<li class="indx">Irving, Edward, <a href="#Page_166">166</a>.</li>
-
-<li class="indx">Isaiah, <a href="#Page_187">187</a>.</li>
-
-<li class="indx">Isomerism, <a href="#Page_74">74</a>.</li>
-
-<li class="indx">Istar, <a href="#Page_vi">vi.</a></li>
-
-<li class="ifrst">Jehovah, gradual conception of, <a href="#Page_157">157</a>, <a href="#Page_158">158</a>, <a href="#Page_186">186</a>.</li>
-
-<li class="indx">Jehuda Hilmi, <a href="#Page_172">172</a>.</li>
-
-<li class="indx">Jesus, on miracles, <a href="#Page_168">168</a>, <a href="#Page_169">169</a>;</li>
-<li class="isub1">the personification of Ormuzd, <a href="#Page_180">180-183</a>, <a href="#Page_204">204</a>;</li>
-<li class="isub1">an historical personage, <a href="#Page_198">198</a>;</li>
-<li class="isub1">adopted a Jewish view of religion, <a href="#Page_212">212</a>.</li>
-
-<li class="indx">Jewish doctors on God, <a href="#Page_172">172</a>;</li>
-<li class="isub1">gradual development of the, religion, <a href="#Page_157">157</a>;</li>
-<li class="isub1">morality in the, religion, <a href="#Page_186">186</a>, <a href="#Page_187">187</a>.</li>
-
-<li class="indx">Jijibhoy, Jamsedjee, Sir, <a href="#Page_217">217</a>.</li>
-
-<li class="indx">“Jingoism,” <a href="#Page_241">241</a>.</li>
-
-<li class="indx">Joule, Dr., <a href="#Page_42">42</a>, <a href="#Page_46">46</a>.</li>
-
-<li class="indx">Jupiter, the planet, <a href="#Page_22">22</a>, <a href="#Page_25">25</a>.</li>
-
-<li class="ifrst">Kant, <a href="#Page_141">141</a>, <a href="#Page_142">142</a>.</li>
-
-<li class="indx">Kesar, <a href="#Page_152">152</a>, <a href="#Page_153">153</a>.</li>
-
-<li class="indx">Knowledge, limits of our, <a href="#Page_125">125-127</a>, <a href="#Page_136">136</a>, <a href="#Page_139">139-141</a>.</li>
-
-<li class="indx">Knox, John, <a href="#Page_221">221</a>.</li>
-
-<li class="ifrst">Lakman and Lakmana, <a href="#Page_152">152</a>.</li>
-
-<li class="indx">Latimer, <a href="#Page_221">221</a>.</li>
-
-<li class="indx">Law in Nature, <a href="#Page_6">6</a>, <a href="#Page_144">144</a>, <a href="#Page_145">145</a>, <a href="#Page_164">164</a>, <a href="#Page_171">171</a>;</li>
-<li class="isub1">common, <a href="#Page_236">236</a>.</li>
-
-<li class="indx"><span class="pagenum"><a name="Page_271" id="Page_271">[271]</a></span>Lead, <a href="#Page_63">63</a>.</li>
-
-<li class="indx">Leibnitz, <a href="#Page_194">194</a>.</li>
-
-<li class="indx">Lichens, <a href="#Page_95">95</a>, <a href="#Page_96">96</a>.</li>
-
-<li class="indx">Light, waves, <a href="#Page_19">19</a>, <a href="#Page_23">23</a>, <a href="#Page_24">24</a>, <a href="#Page_26">26-28</a>, <a href="#Page_43">43</a>;</li>
-<li class="isub1">velocity of, <a href="#Page_21">21</a>, <a href="#Page_22">22</a>;</li>
-<li class="isub1">energy in, <a href="#Page_47">47</a>;</li>
-<li class="isub1">electric, <a href="#Page_56">56</a>, <a href="#Page_57">57</a>, <a href="#Page_61">61</a>.</li>
-
-<li class="indx">Lightning conductors, <a href="#Page_163">163</a>.</li>
-
-<li class="indx">Lourdes, miracles at, <a href="#Page_168">168</a>.</li>
-
-<li class="indx">Luther, 198</li>
-
-<li class="ifrst">Magnet, the, <a href="#Page_1">1</a>, <a href="#Page_2">2</a>, <a href="#Page_27">27</a>, <a href="#Page_68">68</a>, <a href="#Page_70">70</a>, <a href="#Page_71">71</a>;</li>
-<li class="isub1">nature of, <a href="#Page_58">58</a>.</li>
-
-<li class="indx">Magnetism, <a href="#Page_vii">vii.</a></li>
-
-<li class="indx">Mahometanism, <a href="#Page_157">157</a>, <a href="#Page_158">158</a>, <a href="#Page_198">198</a>, <a href="#Page_213">213</a>.</li>
-
-<li class="indx">Maimonides on God, <a href="#Page_172">172</a>.</li>
-
-<li class="indx">Manuals in geology, <a href="#Page_100">100</a>.</li>
-
-<li class="indx">Manufacturers, generous, <a href="#Page_217">217</a>.</li>
-
-<li class="indx">Marriage, <a href="#Page_115">115</a>.</li>
-
-<li class="indx">Mass, the, <a href="#Page_223">223</a>.</li>
-
-<li class="indx">Matter, <a href="#Page_10">10</a>;</li>
-<li class="isub1">nature of, <a href="#Page_66">66</a>, <a href="#Page_67">67</a>.</li>
-
-<li class="indx">Meat, frozen, <a href="#Page_45">45</a>, <a href="#Page_87">87</a>.</li>
-
-<li class="indx">Mechanical action in life, <a href="#Page_39">39</a>, <a href="#Page_40">40</a>, <a href="#Page_91">91</a>;</li>
-<li class="isub1">power, <a href="#Page_41">41</a>;</li>
-<li class="isub1">process in nerve action, <a href="#Page_129">129</a>, <a href="#Page_130">130</a>.</li>
-
-<li class="indx">Menai Bridge, <a href="#Page_50">50</a>.</li>
-
-<li class="indx">Mercury, <a href="#Page_17">17</a>, <a href="#Page_44">44</a>.</li>
-
-<li class="indx">Metrical system, the, <a href="#Page_42">42</a>.</li>
-
-<li class="indx">Mexican myths, <a href="#Page_154">154</a>, <a href="#Page_155">155</a>.</li>
-
-<li class="indx">Microcrith, <a href="#Page_15">15</a>.</li>
-
-<li class="indx">Microscope, <a href="#Page_11">11</a>, <a href="#Page_239">239</a>.</li>
-
-<li class="indx">Mill, John Stuart, <a href="#Page_161">161</a>.</li>
-
-<li class="indx">Milton, <a href="#Page_209">209</a>, <a href="#Page_213">213</a>.</li>
-
-<li class="indx">Miracles, <a href="#Page_6">6</a>;</li>
-<li class="isub1">a question of evidence, <a href="#Page_162">162</a>, <a href="#Page_163">163</a>;</li>
-<li class="isub1">early belief in, <a href="#Page_164">164</a>;</li>
-<li class="isub1">uselessness of ordinary, <a href="#Page_167">167</a>, <a href="#Page_170">170</a>;</li>
-<li class="isub1">not found in Zoroastrianism, <a href="#Page_204">204</a>.</li>
-
-<li class="indx">Molecules, <a href="#Page_5">5</a>, <a href="#Page_10">10</a>, <a href="#Page_12">12</a>, <a href="#Page_22">22</a>, <a href="#Page_25">25</a>;</li>
-<li class="isub1">weight of, <a href="#Page_13">13</a>;</li>
-<li class="isub1">in chemistry, <a href="#Page_14">14</a>;</li>
-<li class="isub1">of oxygen and hydrogen, <a href="#Page_15">15</a>;</li>
-<li class="isub1">composition of, <a href="#Page_18">18</a>;</li>
-<li class="isub1">in a cubic centimetre of air, <a href="#Page_20">20</a>;</li>
-<li class="isub1">vibrations of, <a href="#Page_26">26</a>;</li>
-<li class="isub1">the vortex theory of, <a href="#Page_33">33</a>, <a href="#Page_34">34</a>;</li>
-<li class="isub1">action of heat on, <a href="#Page_43">43-46</a>;</li>
-<li class="isub1">of nitrogen, <a href="#Page_50">50</a>;</li>
-<li class="isub1">nature of, <a href="#Page_67">67</a>;</li>
-<li class="isub1">complex, <a href="#Page_73">73</a>;</li>
-<li class="isub1">of monera, <a href="#Page_79">79</a>;</li>
-<li class="isub1">of the protoplasm, <a href="#Page_80">80</a>, <a href="#Page_81">81</a>.</li>
-
-<li class="indx">Molecular energies, <a href="#Page_47">47</a>, <a href="#Page_49">49</a>.</li>
-
-<li class="indx">Monera, <a href="#Page_79">79</a>, <a href="#Page_94">94</a>;</li>
-<li class="isub1">reproduction of the, <a href="#Page_103">103</a>, <a href="#Page_117">117</a>.</li>
-
-<li class="indx">Monogamy, <a href="#Page_109">109</a>.</li>
-
-<li class="indx">Monotheism, <a href="#Page_156">156</a>.</li>
-
-<li class="indx">Moon, worship of the, <a href="#Page_102">102</a>, <a href="#Page_153">153</a>;</li>
-<li class="isub1">Parsee worship of the, <a href="#Page_219">219</a>.</li>
-
-<li class="indx">Morality, in religions, <a href="#Page_108">108</a>, <a href="#Page_184">184-188</a>;</li>
-<li class="isub1">in nations, <a href="#Page_110">110</a>;</li>
-<li class="isub1">origin of, <a href="#Page_190">190</a>, <a href="#Page_191">191</a>.</li>
-
-<li class="indx">Mormonism, <a href="#Page_213">213</a>.</li>
-
-<li class="indx">Motion, of living beings, <a href="#Page_83">83</a>;</li>
-<li class="isub1">independent of will in the brain, <a href="#Page_137">137</a>, <a href="#Page_192">192</a>.</li>
-
-<li class="indx">Music in religion, <a href="#Page_222">222</a>.</li>
-
-<li class="indx">Murder, <a href="#Page_189">189</a>, <a href="#Page_190">190</a>.</li>
-
-<li class="ifrst">Nerves, <a href="#Page_129">129</a>, <a href="#Page_130">130</a>;</li>
-<li class="isub1">divisions of the, <a href="#Page_131">131</a>;</li>
-<li class="isub1">channels of the, <a href="#Page_133">133</a>.</li>
-
-<li class="indx">Newcome, Colonel, <a href="#Page_211">211</a>.</li>
-
-<li class="indx">Newman, Cardinal, <a href="#Page_147">147</a>, <a href="#Page_148">148</a>, <a href="#Page_159">159</a>.</li>
-
-<li class="indx">Newton, <a href="#Page_16">16</a>, <a href="#Page_17">17</a>, <a href="#Page_28">28</a>, <a href="#Page_121">121</a>, <a href="#Page_138">138</a>, <a href="#Page_144">144</a>, <a href="#Page_205">205</a>.</li>
-
-<li class="indx">Nickel, a magnet, <a href="#Page_68">68</a>.</li>
-
-<li class="indx">Nicolai, visions seen by, <a href="#Page_166">166</a>.</li>
-
-<li class="indx">Nitric acid, <a href="#Page_69">69</a>.</li>
-
-<li class="indx">Nitrogen, <a href="#Page_18">18</a>, <a href="#Page_69">69</a>, <a href="#Page_88">88</a>;</li>
-<li class="isub1">in dynamite, <a href="#Page_50">50</a>, <a href="#Page_51">51</a>;</li>
-<li class="isub1">in the protoplasm, <a href="#Page_80">80</a>.</li>
-
-<li class="indx">Nitro-glycerine (dynamite), <a href="#Page_50">50</a>, <a href="#Page_51">51</a>.</li>
-
-<li class="indx">Nitrous oxide, <a href="#Page_51">51</a>.</li>
-
-<li class="indx">Northumberland House, lion on, <a href="#Page_167">167</a>.</li>
-
-<li class="indx">Novelists, English, <a href="#Page_111">111</a>.</li>
-
-<li class="indx">Nummulitic limestone, <a href="#Page_94">94</a>, <a href="#Page_95">95</a>.</li>
-
-<li class="indx">Nursery rhymes, <a href="#Page_142">142</a>.</li>
-
-<li class="indx">Nutrition, <a href="#Page_81">81</a>.</li>
-
-<li class="ifrst">Octoroon, <a href="#Page_118">118</a>.</li>
-
-<li class="indx">Oersted, <a href="#Page_59">59</a>.</li>
-
-<li class="indx">Optimism, <a href="#Page_176">176</a>.</li>
-
-<li class="indx">Ormuzd, <a href="#Page_3">3</a>, <a href="#Page_4">4</a>;</li>
-<li class="isub1">Jesus the modern, <a href="#Page_180">180-182</a>;</li>
-<li class="isub1">a definition of, <a href="#Page_201">201</a>, <a href="#Page_202">202</a>;</li>
-<li class="isub1">homage due to, <a href="#Page_203">203</a>;</li>
-<li class="isub1">sonnet to, <a href="#Page_265">265</a>.</li>
-
-<li class="indx">Oxide of iron, <a href="#Page_43">43</a>, <a href="#Page_81">81</a>.</li>
-
-<li class="indx">Oxygen, <a href="#Page_11">11</a>, <a href="#Page_13">13</a>, <a href="#Page_14">14</a>, <a href="#Page_18">18</a>, <a href="#Page_57">57</a>, <a href="#Page_238">238</a>;</li>
-<li class="isub1">composition of, <a href="#Page_15">15</a>;</li>
-<li class="isub1">is universal, <a href="#Page_16">16</a>;</li>
-<li class="isub1">weight of an atom of, <a href="#Page_16">16</a>;</li>
-<li class="isub1">and iron, <a href="#Page_43">43</a>;</li>
-<li class="isub1">in dynamite, <a href="#Page_50">50</a>;</li>
-<li class="isub1">affinities of, <a href="#Page_52">52</a>;</li>
-<li class="isub1">in the accumulator, <a href="#Page_63">63</a>;</li>
-<li class="isub1">in water, <a href="#Page_68">68</a>, <a href="#Page_75">75</a>;</li>
-<li class="isub1">bipolar, <a href="#Page_70">70</a>;</li>
-<li class="isub1">in the protoplasm, <a href="#Page_80">80</a>;</li>
-<li class="isub1">in contact with dead bodies, <a href="#Page_88">88</a>;</li>
-<li class="isub1">and animal life, <a href="#Page_93">93</a>, <a href="#Page_96">96</a>;</li>
-<li class="isub1">in plant life, <a href="#Page_101">101</a>.</li>
-
-<li class="ifrst">Palgrave, <a href="#Page_158">158</a>.</li>
-
-<li class="indx">Pangenesis, <a href="#Page_119">119</a>.</li>
-
-<li class="indx">Pantheism, in China, <a href="#Page_156">156</a>;</li>
-<li class="isub1"><span class="pagenum"><a name="Page_272" id="Page_272">[272]</a></span>prevalence of, <a href="#Page_159">159</a>, <a href="#Page_160">160</a>.</li>
-
-<li class="indx">Paris, <a href="#Page_241">241</a>.</li>
-
-<li class="indx">Parsees, the, <a href="#Page_199">199</a>;</li>
-<li class="isub1">creed of the, <a href="#Page_205">205</a>;</li>
-<li class="isub1">rites of the, <a href="#Page_207">207</a>, <a href="#Page_208">208</a>;</li>
-<li class="isub1">the distinguishing characteristics of the, <a href="#Page_214">214-216</a>;</li>
-<li class="isub1">women amongst, <a href="#Page_215">215</a>, <a href="#Page_216">216</a>;</li>
-<li class="isub1">a commercial people, <a href="#Page_217">217</a>;</li>
-<li class="isub1">death rate amongst the, <a href="#Page_218">218</a>;</li>
-<li class="isub1">Byron on the, <a href="#Page_219">219</a>;</li>
-<li class="isub1">modern worship of the, <a href="#Page_219">219</a>, <a href="#Page_264">264</a>.</li>
-
-<li class="indx">Parthenogenesis, <a href="#Page_106">106</a>.</li>
-
-<li class="indx">Pasteur, <a href="#Page_87">87</a>.</li>
-
-<li class="indx">Patriotism, <a href="#Page_240">240</a>, <a href="#Page_241">241</a>.</li>
-
-<li class="indx">Peel, Sir Robert, <a href="#Page_242">242</a>.</li>
-
-<li class="indx">Pendulum, <a href="#Page_37">37</a>.</li>
-
-<li class="indx">Perceptions, the basis of knowledge, <a href="#Page_125">125</a>, <a href="#Page_140">140</a>.</li>
-
-<li class="indx">Permian formation, <a href="#Page_97">97</a>;</li>
-<li class="isub1">reptiles in the, <a href="#Page_99">99</a>.</li>
-
-<li class="indx">Perron, Anquetil du, <a href="#Page_203">203</a>.</li>
-
-<li class="indx">Peruvian myths, <a href="#Page_154">154</a>, <a href="#Page_155">155</a>.</li>
-
-<li class="indx">Pessimism, <a href="#Page_177">177</a>, <a href="#Page_178">178</a>.</li>
-
-<li class="indx">Pharisees, <a href="#Page_168">168</a>, <a href="#Page_169">169</a>.</li>
-
-<li class="indx">Philo, <a href="#Page_187">187</a>.</li>
-
-<li class="indx">Philosophy, and the unknown, <a href="#Page_141">141</a>;</li>
-<li class="isub1">in Eastern religion, <a href="#Page_160">160</a>.</li>
-
-<li class="indx">Physical conditions and religious progress, <a href="#Page_224">224</a>.</li>
-
-<li class="indx">Pigeon with the brain removed, <a href="#Page_137">137</a>, <a href="#Page_192">192</a>.</li>
-
-<li class="indx">Pith-balls, electricity in, <a href="#Page_52">52</a>, <a href="#Page_53">53</a>, <a href="#Page_71">71</a>, <a href="#Page_72">72</a>.</li>
-
-<li class="indx">Planet worship, <a href="#Page_155">155</a>.</li>
-
-<li class="indx">Plant life, <a href="#Page_82">82</a>, <a href="#Page_92">92</a>, <a href="#Page_93">93</a>;</li>
-<li class="isub1">reproduction of, <a href="#Page_84">84</a>, <a href="#Page_105">105</a>;</li>
-<li class="isub1">food, <a href="#Page_95">95</a>;</li>
-<li class="isub1">fly-eating, <a href="#Page_96">96</a>;</li>
-<li class="isub1">gradual appearance in geology of, <a href="#Page_97">97</a>;</li>
-<li class="isub1">in the chalk, <a href="#Page_98">98</a>.</li>
-
-<li class="indx">Plato, <a href="#Page_142">142</a>.</li>
-
-<li class="indx">Polarity, law of, <a href="#Page_v">v.</a>, <a href="#Page_vii">vii.</a>, <a href="#Page_1">1-4</a>, <a href="#Page_10">10</a>, <a href="#Page_65">65</a>;</li>
-<li class="isub1">in crystals, <a href="#Page_27">27</a>, <a href="#Page_28">28</a>;</li>
-<li class="isub1">in wave motion, <a href="#Page_38">38</a>;</li>
-<li class="isub1">in will, <a href="#Page_40">40</a>, <a href="#Page_195">195</a>;</li>
-<li class="isub1">of chemical elements, <a href="#Page_68">68</a>, <a href="#Page_70">70</a>;</li>
-<li class="isub1">electrical differs from magnetic, <a href="#Page_72">72</a>;</li>
-<li class="isub1">is the clue to the construction of the world, <a href="#Page_74">74</a>;</li>
-<li class="isub1">in life, <a href="#Page_76">76</a>, <a href="#Page_89">89</a>, <a href="#Page_93">93</a>;</li>
-<li class="isub1">in the organic world, <a href="#Page_91">91</a>;</li>
-<li class="isub1">in evolution, <a href="#Page_100">100</a>;</li>
-<li class="isub1">in sex, <a href="#Page_107">107</a>, <a href="#Page_109">109</a>, <a href="#Page_114">114</a>, <a href="#Page_115">115</a>;</li>
-<li class="isub1">a law of existence, <a href="#Page_171">171</a>;</li>
-<li class="isub1">asserts itself in society, <a href="#Page_174">174</a>;</li>
-<li class="isub1">in moral life, <a href="#Page_178">178</a>;</li>
-<li class="isub1">in art and fiction, <a href="#Page_209">209-211</a>;</li>
-<li class="isub1">in politics, <a href="#Page_230">230</a>, <a href="#Page_231">231</a>;</li>
-<li class="isub1">in political economy, <a href="#Page_247">247-250</a>.</li>
-
-<li class="indx">Polytheism, <a href="#Page_157">157</a>.</li>
-
-<li class="indx">Poor laws, the, <a href="#Page_253">253</a>.</li>
-
-<li class="indx">Population, effects of the accumulation of, <a href="#Page_175">175</a>, <a href="#Page_176">176</a>.</li>
-
-<li class="indx">Postal service, <a href="#Page_260">260</a>.</li>
-
-<li class="indx">Potassic hydrates, <a href="#Page_69">69</a>.</li>
-
-<li class="indx">Pramantha, <a href="#Page_41">41</a>, <a href="#Page_42">42</a>.</li>
-
-<li class="indx">Prayer, Zoroastrian, <a href="#Page_223">223</a>, <a href="#Page_225">225</a>.</li>
-
-<li class="indx">Prehistoric faith in spirits, <a href="#Page_151">151</a>.</li>
-
-<li class="indx">Priesthood, first records of a, <a href="#Page_52">52</a>.</li>
-
-<li class="indx">Primary period, the, <a href="#Page_97">97</a>;</li>
-<li class="isub1">fish in the, <a href="#Page_99">99</a>.</li>
-
-<li class="indx">Principles, Zoroaster’s two great, <a href="#Page_202">202</a>.</li>
-
-<li class="indx">Progress, modern, <a href="#Page_7">7</a>.</li>
-
-<li class="indx">Prometheus, <a href="#Page_42">42</a>, <a href="#Page_209">209</a>.</li>
-
-<li class="indx">Propagation of life by germs, <a href="#Page_104">104</a>, <a href="#Page_118">118</a>;</li>
-<li class="isub1">of the lower plants, <a href="#Page_105">105</a>.</li>
-
-<li class="indx">Property in land, <a href="#Page_255">255</a>, <a href="#Page_256">256</a>.</li>
-
-<li class="indx">Protection, <a href="#Page_244">244-246</a>.</li>
-
-<li class="indx">Protista, <a href="#Page_94">94</a>.</li>
-
-<li class="indx">Protoplasm, the, <a href="#Page_78">78</a>, <a href="#Page_79">79</a>, <a href="#Page_81">81</a>, <a href="#Page_84">84</a>;</li>
-<li class="isub1">nature of the, <a href="#Page_80">80</a>;</li>
-<li class="isub1">the first, <a href="#Page_87">87</a>;</li>
-<li class="isub1">the origin of all life, <a href="#Page_93">93</a>;</li>
-<li class="isub1">in nerve-endings, <a href="#Page_129">129</a>.</li>
-
-<li class="indx">Proudhon, <a href="#Page_256">256</a>.</li>
-
-<li class="indx">Putrefaction, <a href="#Page_87">87</a>, <a href="#Page_88">88</a>.</li>
-
-<li class="indx">Pyramids, the, <a href="#Page_10">10</a>;</li>
-<li class="isub1">astronomical value of the, <a href="#Page_153">153</a>, <a href="#Page_154">154</a>.</li>
-
-<li class="ifrst">Quakers, the, <a href="#Page_213">213</a>.</li>
-
-<li class="indx">Quantivalence of substances, <a href="#Page_71">71</a>, <a href="#Page_72">72</a>.</li>
-
-<li class="ifrst">Radiolaria, <a href="#Page_95">95</a>.</li>
-
-<li class="indx">Railway, companies, <a href="#Page_248">248</a>;</li>
-<li class="isub1">profits of companies, <a href="#Page_249">249</a>, <a href="#Page_250">250</a>;</li>
-<li class="isub1">working of a State, <a href="#Page_261">261</a>, <a href="#Page_262">262</a>.</li>
-
-<li class="indx">Religion, <a href="#Page_4">4</a>;</li>
-<li class="isub1">nature of, <a href="#Page_146">146</a>;</li>
-<li class="isub1">origin of, <a href="#Page_148">148</a>, <a href="#Page_149">149</a>, <a href="#Page_151">151</a>;</li>
-<li class="isub1">early, <a href="#Page_152">152</a>;</li>
-<li class="isub1">universal faith in a virgin mother, <a href="#Page_154">154</a>, <a href="#Page_155">155</a>;</li>
-<li class="isub1">planet worship, <a href="#Page_155">155</a>;</li>
-<li class="isub1">gradual evolution of, <a href="#Page_155">155</a>, <a href="#Page_156">156</a>;</li>
-<li class="isub1">philosophical in the East, <a href="#Page_160">160</a>;</li>
-<li class="isub1">nature in, <a href="#Page_163">163</a>;</li>
-<li class="isub1">wars of, <a href="#Page_179">179</a>;</li>
-<li class="isub1">amongst savages, <a href="#Page_185">185</a>;</li>
-<li class="isub1">Jewish, <a href="#Page_186">186</a>;</li>
-<li class="isub1">and morality, <a href="#Page_188">188</a>;</li>
-<li class="isub1">Aryan, <a href="#Page_200">200</a>;</li>
-<li class="isub1">of Zoroaster, <a href="#Page_201">201</a>, <a href="#Page_208">208</a>, <a href="#Page_223">223</a>;</li>
-<li class="isub1">probable form of modern, <a href="#Page_203">203</a>, <a href="#Page_209">209</a>;</li>
-<li class="isub1">music the language of, <a href="#Page_222">222</a>, <a href="#Page_223">223</a>.</li>
-
-<li class="indx">Roman Church, the, <a href="#Page_223">223</a>.</li>
-
-<li class="indx">Reproduction of species, <a href="#Page_83">83</a>;</li>
-<li class="isub1">of worms, <a href="#Page_104">104</a>;</li>
-<li class="isub1"><span class="pagenum"><a name="Page_273" id="Page_273">[273]</a></span>sexual, <a href="#Page_105">105</a>, <a href="#Page_106">106</a>, <a href="#Page_118">118</a>.</li>
-
-<li class="indx">Reptiles, <a href="#Page_99">99</a>.</li>
-
-<li class="indx">Ricardo, <a href="#Page_247">247</a>.</li>
-
-<li class="indx">Russia, <a href="#Page_243">243</a>;</li>
-<li class="isub1">communism in, <a href="#Page_253">253</a>.</li>
-
-<li class="ifrst">Sabbath, the, <a href="#Page_212">212</a>;</li>
-<li class="isub1">origin of the, <a href="#Page_155">155</a>;</li>
-<li class="isub1">in England, <a href="#Page_212">212</a>, <a href="#Page_220">220</a>.</li>
-
-<li class="indx">Saint Paul, his doctrine of predestination, <a href="#Page_158">158</a>;</li>
-<li class="isub1">on God, <a href="#Page_172">172</a>;</li>
-<li class="isub1">Christianity of, <a href="#Page_177">177</a>, <a href="#Page_188">188</a>;</li>
-<li class="isub1">on charity, <a href="#Page_182">182</a>.</li>
-
-<li class="indx">—— Vitus’s dance, <a href="#Page_166">166</a>.</li>
-
-<li class="indx">Salt, <a href="#Page_52">52</a>, <a href="#Page_70">70</a>.</li>
-
-<li class="indx">Salvation Army, the, <a href="#Page_180">180</a>.</li>
-
-<li class="indx">Sanskrit, <a href="#Page_199">199</a>, <a href="#Page_200">200</a>.</li>
-
-<li class="indx">Sargasso Sea, <a href="#Page_97">97</a>.</li>
-
-<li class="indx">Saul, <a href="#Page_180">180</a>, <a href="#Page_186">186</a>.</li>
-
-<li class="indx">Savages, and numbers, <a href="#Page_138">138</a>, <a href="#Page_191">191</a>;</li>
-<li class="isub1">religion amongst, <a href="#Page_149">149-151</a>, <a href="#Page_185">185</a>;</li>
-<li class="isub1">murder amongst, <a href="#Page_189">189</a>, <a href="#Page_190">190</a>.</li>
-
-<li class="indx">Schliemann, Professor, <a href="#Page_151">151</a>.</li>
-
-<li class="indx">Scotland, virtue in, <a href="#Page_176">176</a>;</li>
-<li class="isub1">the poor rate in, <a href="#Page_253">253</a>.</li>
-
-<li class="indx">Scott, Sir Walter, <a href="#Page_210">210</a>, <a href="#Page_211">211</a>, <a href="#Page_241">241</a>.</li>
-
-<li class="indx">Secondary epoch, the, <a href="#Page_97">97</a>;</li>
-<li class="isub1">reptiles and birds in the, <a href="#Page_99">99</a>;</li>
-<li class="isub1">transformation of a water into an air population, <a href="#Page_123">123</a>.</li>
-
-<li class="indx">Semitic races, religion amongst the, <a href="#Page_156">156</a>.</li>
-
-<li class="indx">Sermons, <a href="#Page_220">220-222</a>;</li>
-<li class="isub1">on the mount, <a href="#Page_184">184</a>, <a href="#Page_187">187</a>, <a href="#Page_254">254</a>.</li>
-
-<li class="indx">Sex in ancient creeds, <a href="#Page_102">102</a>, <a href="#Page_103">103</a>.</li>
-
-<li class="indx">Shakers, the, <a href="#Page_166">166</a>, <a href="#Page_252">252</a>.</li>
-
-<li class="indx">Shakespeare, on women, <a href="#Page_112">112</a>;</li>
-<li class="isub1">Buddhism in, <a href="#Page_160">160</a>;</li>
-<li class="isub1">despondency of, <a href="#Page_178">178</a>;</li>
-<li class="isub1">polarity of character in, <a href="#Page_210">210</a>, <a href="#Page_211">211</a>.</li>
-
-<li class="indx">Shelley, <a href="#Page_19">19</a>, <a href="#Page_226">226</a>.</li>
-
-<li class="indx">Snakes, changes from oviparous to viviparous, <a href="#Page_124">124</a>.</li>
-
-<li class="indx">Soap bubbles, <a href="#Page_19">19</a>;</li>
-<li class="isub1">a clue to the dimensions of light, <a href="#Page_33">33</a>.</li>
-
-<li class="indx">Socialism, <a href="#Page_251">251</a>, <a href="#Page_252">252</a>.</li>
-
-<li class="indx">Society, <a href="#Page_231">231</a>.</li>
-
-<li class="indx">Sociology, H. Spencer on, <a href="#Page_259">259</a>.</li>
-
-<li class="indx">Socrates on religion, <a href="#Page_172">172</a>.</li>
-
-<li class="indx">Sodium, <a href="#Page_52">52</a>, <a href="#Page_70">70</a>.</li>
-
-<li class="indx">Solar myths, <a href="#Page_152">152-154</a>;</li>
-<li class="isub1">system worshipped by the Aryans, <a href="#Page_200">200</a>.</li>
-
-<li class="indx">Somnambulism, <a href="#Page_126">126</a>, <a href="#Page_134">134</a>, <a href="#Page_135">135</a>, <a href="#Page_192">192</a>.</li>
-
-<li class="indx">Sonnet to Ormuzd, <a href="#Page_265">265</a>.</li>
-
-<li class="indx">Soul, the, <a href="#Page_194">194</a>.</li>
-
-<li class="indx">Sound waves, velocity of, <a href="#Page_24">24</a>.</li>
-
-<li class="indx">Species, <a href="#Page_118">118</a>, <a href="#Page_119">119</a>.</li>
-
-<li class="indx">Spectroscope, <a href="#Page_25">25</a>, <a href="#Page_26">26</a>.</li>
-
-<li class="indx">Spectrum of sun-rays, <a href="#Page_43">43</a>.</li>
-
-<li class="indx">Spencer, Herbert, <a href="#Page_x">x.</a>, <a href="#Page_113">113</a>, <a href="#Page_161">161</a>, <a href="#Page_203">203</a>;</li>
-<li class="isub1">on antagonistic forces, <a href="#Page_90">90</a>;</li>
-<li class="isub1">on polarity in religion, <a href="#Page_109">109</a>, <a href="#Page_172">172</a>;</li>
-<li class="isub1">on politics, <a href="#Page_231">231</a>;</li>
-<li class="isub1">on altruism, <a href="#Page_254">254</a>;</li>
-<li class="isub1">on sociology, <a href="#Page_259">259</a>;</li>
-<li class="isub1">works of, <a href="#Page_264">264</a>.</li>
-
-<li class="indx">Spiritualism, <a href="#Page_136">136</a>.</li>
-
-<li class="indx">Spontaneous generation, <a href="#Page_84">84</a>, <a href="#Page_89">89</a>.</li>
-
-<li class="indx">State interference, <a href="#Page_253">253</a>, <a href="#Page_255">255</a>, <a href="#Page_257">257</a>;</li>
-<li class="isub1">railways, <a href="#Page_261">261</a>, <a href="#Page_262">262</a>;</li>
-<li class="isub1">trade for national defence, <a href="#Page_263">263</a>.</li>
-
-<li class="indx">Steam, action of, <a href="#Page_45">45</a>, <a href="#Page_49">49</a>;</li>
-<li class="isub1">engine, <a href="#Page_45">45</a>, <a href="#Page_61">61</a>.</li>
-
-<li class="indx">Stone-throwing, brain action in, <a href="#Page_38">38</a>, <a href="#Page_39">39</a>.</li>
-
-<li class="indx">Substances, quality and grouping of, <a href="#Page_73">73</a>;</li>
-<li class="isub1">stability of, <a href="#Page_74">74</a>, <a href="#Page_75">75</a>.</li>
-
-<li class="indx">Succession duty, <a href="#Page_258">258</a>.</li>
-
-<li class="indx">Sun, <a href="#Page_26">26</a>;</li>
-<li class="isub1">heat of the, <a href="#Page_45">45</a>.</li>
-
-<li class="indx">Sutherland family, crest of the, <a href="#Page_150">150</a>.</li>
-
-<li class="ifrst">Tait, Professor, <a href="#Page_32">32</a>.</li>
-
-<li class="indx">Talmud, the, <a href="#Page_172">172</a>, <a href="#Page_212">212</a>;</li>
-<li class="isub1">morality in the, <a href="#Page_187">187</a>, <a href="#Page_188">188</a>.</li>
-
-<li class="indx">Telephone, the, <a href="#Page_60">60</a>.</li>
-
-<li class="indx">Temple, Dr., <a href="#Page_162">162</a>;</li>
-<li class="isub1">on evolution, <a href="#Page_121">121</a>;</li>
-<li class="isub1">on a Creator, <a href="#Page_170">170</a>, <a href="#Page_203">203</a>;</li>
-<li class="isub1">on man, <a href="#Page_193">193</a>.</li>
-
-<li class="indx">Tennyson, <a href="#Page_203">203</a>, <a href="#Page_210">210</a>, <a href="#Page_226">226</a>, <a href="#Page_241">241</a>.</li>
-
-<li class="indx">Tertiary epoch, <a href="#Page_98">98</a>;</li>
-<li class="isub1">mammals in the, <a href="#Page_100">100</a>.</li>
-
-<li class="indx">Thomson, Sir W., <a href="#Page_19">19</a>, <a href="#Page_21">21</a>, <a href="#Page_32">32</a>.</li>
-
-<li class="indx">Tobit, the Book of, <a href="#Page_187">187</a>.</li>
-
-<li class="indx">Trade, free, <a href="#Page_242">242-245</a>.</li>
-
-<li class="indx">Trance, phenomena of, <a href="#Page_135">135</a>.</li>
-
-<li class="indx">Traveller, a, on misery in Christian lands, <a href="#Page_175">175</a>.</li>
-
-<li class="indx">Triton, the, <a href="#Page_122">122</a>.</li>
-
-<li class="indx">Tulliver, Maggie, <a href="#Page_112">112</a>, <a href="#Page_211">211</a>.</li>
-
-<li class="indx">Turkey, <a href="#Page_110">110</a>, <a href="#Page_111">111</a>;</li>
-<li class="isub1">woman in, <a href="#Page_112">112</a>.</li>
-
-<li class="indx">Turks, English, <a href="#Page_113">113</a>, <a href="#Page_114">114</a>.</li>
-
-<li class="indx">Tyndall, <a href="#Page_94">94</a>.</li>
-
-<li class="ifrst">United States, the, <a href="#Page_241">241</a>, <a href="#Page_242">242</a>;</li>
-<li class="isub1">protection in the, <a href="#Page_242">242</a>, <a href="#Page_243">243</a>, <a href="#Page_246">246</a>;</li>
-<li class="isub1">homestead laws in the, <a href="#Page_256">256</a>, <a href="#Page_257">257</a>.</li>
-
-<li class="indx">Unknown, the Great, <a href="#Page_126">126</a>, <a href="#Page_127">127</a>.</li>
-
-<li class="indx">Urea, <a href="#Page_86">86</a>.</li>
-
-<li class="ifrst"><span class="pagenum"><a name="Page_274" id="Page_274">[274]</a></span>Variations of species, principle of, <a href="#Page_120">120</a>.</li>
-
-<li class="indx">Vedas, the Hindoo, <a href="#Page_152">152</a>;</li>
-<li class="isub1">antiquity of the, <a href="#Page_199">199</a>.</li>
-
-<li class="indx">Vendidad, the, <a href="#Page_202">202</a>.</li>
-
-<li class="indx">Virgin mother, prevalence of faith in a, <a href="#Page_154">154</a>, <a href="#Page_155">155</a>.</li>
-
-<li class="indx">Voltaic battery, the, <a href="#Page_14">14</a>, <a href="#Page_55">55</a>, <a href="#Page_61">61</a>.</li>
-
-<li class="indx">Volume, variations of, <a href="#Page_12">12</a>.</li>
-
-<li class="indx">Vortex theory, <a href="#Page_33">33</a>, <a href="#Page_34">34</a>.</li>
-
-<li class="ifrst">Wales, coal in, <a href="#Page_258">258</a>.</li>
-
-<li class="indx">Wahabite reformer, <a href="#Page_158">158</a>.</li>
-
-<li class="indx">Water, formation of, <a href="#Page_11">11</a>, <a href="#Page_12">12</a>, <a href="#Page_14">14</a>, <a href="#Page_15">15</a>, <a href="#Page_52">52</a>;</li>
-<li class="isub1">and electricity, <a href="#Page_14">14</a>, <a href="#Page_53">53</a>;</li>
-<li class="isub1">a cubic inch of, magnified, <a href="#Page_21">21</a>;</li>
-<li class="isub1">becomes vapour, <a href="#Page_45">45</a>, <a href="#Page_46">46</a>, <a href="#Page_75">75</a>;</li>
-<li class="isub1">freezing, <a href="#Page_81">81</a>.</li>
-
-<li class="indx">Waves, motion, <a href="#Page_23">23</a>, <a href="#Page_24">24</a>, <a href="#Page_48">48</a>;</li>
-<li class="isub1">light, <a href="#Page_19">19-24</a>, <a href="#Page_26">26-28</a>, <a href="#Page_43">43</a>;</li>
-<li class="isub1">sound, <a href="#Page_24">24</a>.</li>
-
-<li class="indx">Wheat, mummy, <a href="#Page_80">80</a>.</li>
-
-<li class="indx">Will, free, <a href="#Page_191">191</a>;</li>
-<li class="isub1">nature of the, <a href="#Page_194">194</a>.</li>
-
-<li class="indx">Witchcraft, <a href="#Page_164">164</a>, <a href="#Page_179">179</a>.</li>
-
-<li class="indx">Woman, natural office of the, <a href="#Page_107">107</a>, <a href="#Page_108">108</a>;</li>
-<li class="isub1">position of, a test of civilisation, <a href="#Page_110">110</a>, <a href="#Page_111">111</a>;</li>
-<li class="isub1">in modern books, <a href="#Page_111">111</a>, <a href="#Page_112">112</a>;</li>
-<li class="isub1">rights of, <a href="#Page_116">116</a>;</li>
-<li class="isub1">amongst the Parsees, <a href="#Page_214">214-216</a>.</li>
-
-<li class="indx">Wood, burning, <a href="#Page_75">75</a>.</li>
-
-<li class="indx">Wordsworth, pantheism in, <a href="#Page_159">159</a>, <a href="#Page_160">160</a>.</li>
-
-<li class="indx">Worms, reproduction of, <a href="#Page_104">104</a>.</li>
-
-<li class="ifrst">Zend, dialect, <a href="#Page_199">199</a>, <a href="#Page_200">200</a>;</li>
-<li class="isub1">scriptures, <a href="#Page_201">201</a>, <a href="#Page_202">202</a>;</li>
-<li class="isub1">Avesta, <a href="#Page_203">203</a>.</li>
-
-<li class="indx">Zinc, in electricity, <a href="#Page_61">61</a>.</li>
-
-<li class="indx">Zodiac, the, <a href="#Page_153">153</a>.</li>
-
-<li class="indx">Zoophytes, <a href="#Page_94">94</a>, <a href="#Page_95">95</a>.</li>
-
-<li class="indx">Zoroaster, <a href="#Page_4">4</a>, <a href="#Page_187">187</a>;</li>
-<li class="isub1">theory of, <a href="#Page_7">7</a>, <a href="#Page_179">179</a>, <a href="#Page_197">197</a>, <a href="#Page_202">202</a>, <a href="#Page_203">203</a>, <a href="#Page_223">223</a>;</li>
-<li class="isub1">history of, <a href="#Page_197">197</a>, <a href="#Page_198">198</a>;</li>
-<li class="isub1">known by his book, <a href="#Page_199">199</a>;</li>
-<li class="isub1">a reformer, <a href="#Page_200">200</a>;</li>
-<li class="isub1">at Balkh, <a href="#Page_201">201</a>;</li>
-<li class="isub1">his creed not weighted by tradition, <a href="#Page_204">204</a>;</li>
-<li class="isub1">miraculous conception of, <a href="#Page_205">205</a>.</li>
-
-<li class="indx">Zoroastrian, a modern, <a href="#Page_3">3</a>;</li>
-<li class="isub1">creed of a, <a href="#Page_180">180</a>;</li>
-<li class="isub1">morality, <a href="#Page_205">205</a>, <a href="#Page_206">206</a>.</li>
-
-<li class="indx">Zoroastrianism and art, <a href="#Page_212">212</a>;</li>
-<li class="isub1">and modern thought, <a href="#Page_213">213</a>.</li>
-
-</ul>
-
-<p class="titlepage">THE END.</p>
-
-
-
-
-
-
-
-
-<pre>
-
-
-
-
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