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+The Project Gutenberg EBook of The Natural Philosophy of William Gilbert
+and His Predecessors, by W. James King
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: The Natural Philosophy of William Gilbert and His Predecessors
+
+Author: W. James King
+
+Release Date: April 15, 2010 [EBook #31999]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK NATURAL PHILOSOPHY--WILLIAM GILBERT ***
+
+
+
+
+Produced by Chris Curnow, Joseph Cooper and the Online
+Distributed Proofreading Team at https://www.pgdp.net
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+
+
+                                                    CONTRIBUTIONS FROM
+
+                                 THE MUSEUM OF HISTORY AND TECHNOLOGY:
+
+                                                               PAPER 8
+
+
+                                             THE NATURAL PHILOSOPHY OF
+                                  WILLIAM GILBERT AND HIS PREDECESSORS
+
+                                                       _W. James King_
+
+
+
+
+                                                      By W. James King
+
+                      THE NATURAL PHILOSOPHY OF
+                           WILLIAM GILBERT
+                         AND HIS PREDECESSORS
+
+    Until several decades ago, the physical sciences were
+    considered to have had their origins in the 17th
+    century--mechanics beginning with men like Galileo Galilei
+    and magnetism with men like the Elizabethan physician and
+    scientist William Gilbert.
+
+    Historians of science, however, have traced many of the 17th
+    century's concepts of mechanics back into the Middle Ages.
+    Here, Gilbert's explanation of the loadstone and its powers
+    is compared with explanations to be found in the Middle Ages
+    and earlier.
+
+    From this comparison it appears that Gilbert can best be
+    understood by considering him not so much a herald of the new
+    science as a modifier of the old.
+
+    THE AUTHOR: W. James King is curator of electricity, Museum
+    of History and Technology, in the Smithsonian Institution's
+    United States National Museum.
+
+
+The year 1600 saw the publication by an English physician, William
+Gilbert, of a book on the loadstone. Entitled _De magnete_,[1] it has
+traditionally been credited with laying a foundation for the modern
+science of electricity and magnetism. The following essay is an
+attempt to examine the basis for such a tradition by determining what
+Gilbert's original contributions to these sciences were, and to make
+explicit the sense in which he may be considered as being dependent
+upon earlier work. In this manner a more accurate estimate of his
+position in the history of science may be made.
+
+    [1] William Gilbert, _De magnete, magneticisque corporibus
+    et de magno magnete tellure; physiologia nova, plurimis &
+    argumentis, & experimentis, demonstrata_, London, 1600, 240
+    pp., with an introduction by Edward Wright. All references to
+    Gilbert in this article, unless otherwise noted, are to the
+    American translation by P. Fleury Mottelay, 368 pp.,
+    published in New York in 1893, and are designated by the
+    letter M. However, the Latin text of the 1600 edition has
+    been quoted wherever I have disagreed with the Mottelay
+    translation.
+
+    A good source of information on Gilbert is Dr. Duane H. D.
+    Roller's doctoral thesis, written under the direction of Dr.
+    I. B. Cohen of Harvard University. Dr. Roller, at present
+    Curator of the De Golyer Collection at the University of
+    Oklahoma, informed me that an expanded version of his
+    dissertation will shortly appear in book form. Unfortunately
+    his researches were not known to me until after this article
+    was completed.
+
+One criterion as to the book's significance in the history of science
+can be applied almost immediately. A number of historians have pointed
+to the introduction of numbers and geometry as marking a watershed
+between the modern and the medieval understanding of nature. Thus
+A. Koyré considers the Archimedeanization of space as one of the
+necessary features of the development of modern astronomy and
+physics.[2] A. N. Whitehead and E. Cassirer have turned to measurement
+and the quantification of force as marking this transition.[3]
+However, the obvious absence[4] of such techniques in _De magnete_
+makes it difficult to consider Gilbert as a founder of modern
+electricity and magnetism in this sense.
+
+    [2] Alexandre Koyré, _Études galiléennes_, Paris, 1939.
+
+    [3] Alfred N. Whitehead, _Science and the modern world_, New
+    York, 1925, ch. 3; Ernst Cassirer, _Das Erkenntnisproblem_,
+    ed. 3, Berlin, 1922, vol. 1, pp. 314-318, 352-359.
+
+    [4] However, see M: pp. 161, 162, 168, 335.
+
+[Illustration: Figure 1.--WILLIAM GILBERT'S BOOK ON THE LOADSTONE,
+TITLE PAGE OF THE FIRST EDITION, FROM A COPY IN THE LIBRARY OF
+CONGRESS. (_Photo courtesy of the Library of Congress._)]
+
+There is another sense in which it is possible to contend that
+Gilbert's treatise introduced modern studies in these fields. He has
+frequently been credited with the introduction of the inductive method
+based upon stubborn facts, in contrast to the methods and content of
+medieval Aristotelianism.[5] No science can be based upon faulty
+observations and certainly much of _De magnete_ was devoted to the
+destruction of the fantastic tales and occult sympathies of the
+Romans, the medieval writers, and the Renaissance. However, let us
+also remember that Gilbert added few novel empirical facts of a
+fundamental nature to previous observations on the loadstone.
+Gilbert's experimental work was in large part an expansion of Petrus
+Peregrinus' _De magnete_ of 1269,[6] and a development of works like
+Robert Norman's _The new attractive_,[7] in which the author discussed
+how one could show experimentally the declination and inclination of a
+magnetized needle, and like William Borough's _Discourse on the
+variation of the compass or magnetized needle_,[8] in which the author
+suggested the use of magnetic declination and inclination for
+navigational purposes but felt too little was known about it. That
+other sea-going nations had been considering using the properties of
+the magnetic compass to solve their problems of navigation in the same
+manner can be seen from Simon Stevin's _De havenvinding_.[9]
+
+    [5] For example, William Whewell, _History of the inductive
+    sciences_, ed. 3, New York, 1858, vol. 2, pp. 192 and 217;
+    Charles Singer, _A short history of science to the nineteenth
+    century_, Oxford, 1943, pp. 188 and 343; and A. R. Hall, _The
+    scientific revolution_, Boston, 1956, p. 185.
+
+    [6] _Petri Peregrini maricurtenis, de magnete, seu rota
+    perpetui motus, libellus_, a reprint of the 1558 Angsburg
+    edition in J. G. G. Hellmann, _Rara magnetica_, Berlin, 1898,
+    not paginated. A number of editions of Peregrinus, work, both
+    ascribed to him and plagiarized from him, appeared in the
+    16th century (see Heinz Balmer, _Beiträge zur Geschichte der
+    Erkenntnis des Erdmagnetismus_, Aarau, 1956, pp. 249-255).
+
+    [7] Hellmann, _ibid._, Robert Norman, _The newe attractive,
+    containyng a short discourse of the magnes or lodestone, and
+    amongest other his vertues, of a newe discovered secret and
+    subtill propertie, concernyng the declinyng of the needle,
+    touched therewith under the plaine of the horizon. Now first
+    founde out by Robert Norman Hydrographer_. London, 1581. The
+    possibility is present that Norman's work was a direct
+    stimulus to Gilbert, for Wright's introduction to _De
+    magnete_ stated that Gilbert started his study of magnetism
+    the year following the publication of Norman's book.
+
+    [8] Hellman, _ibid._, William Borough, _A discourse of the
+    variation of the compasse, or magneticall needle. Wherein
+    is mathematically shewed, the manner of the observation,
+    effects, and application thereof, made by W. B. And is to
+    be annexed to the newe attractive of R. N._ London, 1596.
+
+    [9] Hellman, _ibid._, Simon Stevin, _De havenvinding_,
+    Leyden, 1599. It is interesting to note that Wright
+    translated Stevin's work into English.
+
+Instead of new experimental information, Gilbert's major contribution
+to natural philosophy was that revealed in the title of his book--a
+new philosophy of nature, or physiology, as he called it, after the
+early Greeks. Gilbert's attempt to organize the mass of empirical
+information and speculation that came from scholars and artisans, from
+chart and instrument makers, made him "the father of the magnetic
+Philosophy."[10]
+
+    [10] As Edward Wright was to call him in his introduction.
+
+Gilbert's _De magnete_ was not the first attempt to determine the
+nature of the loadstone and to explain how it could influence other
+loadstones or iron. It is typical of Greek philosophy that one of the
+first references we have to the loadstone is not to its properties but
+to the problem of how to explain these properties. Aristotle[11]
+preserved the solution of the first of the Ionian physiologists:
+"Thales too ... seems to suppose that the soul is in a sense the cause
+of movement, since he says that a stone has a soul because it causes
+movement to iron." Plato turned to a similar animistic explanation in
+his dialogue, _Ion_.[12] Such an animistic solution pervaded many of
+the later explanations.
+
+    [11] Aristotle, _On the soul_, translated by W. S. Hett, Loeb
+    Classical Library, London, 1935, 405a20 (see also 411a8:
+    "Some think that the soul pervades the whole universe, whence
+    perhaps came Thales' view that everything is full of gods").
+
+    [12] Plato, _Ion_, translated by W. R. M. Lamb, Loeb
+    Classical Library, London, 1925, 533 (see also 536).
+
+That a mechanical explanation is also possible was shown by Plato
+in his _Timaeus_.[13] He argued that since a vacuum does not exist,
+there must be a plenum throughout all space. Motion of this plenum
+can carry objects along with it, and one could in this manner explain
+attractions like that due to amber and the loadstone.
+
+    [13] Plato, _Timaeus_, translated by R. G. Bury, Loeb
+    Classical Library, London, 1929, 80. It is difficult to
+    determine which explanation Plato preferred, for in both
+    cases the speaker may be only a foil for Plato's opinion
+    rather than an expression of these opinions.
+
+Another mechanical explanation was based upon a postulated tendency
+of atoms to move into a vacuum rather than upon the latter's
+non-existence. Lucretius restated this Epicurean explanation in his
+_De rerum natura_.[14] Atoms from the loadstone push away the air and
+tend to cause a vacuum to form outside the loadstone. The structure of
+iron is such that it, unlike other materials, can be pushed into this
+empty space by the thronging atoms of air beyond it.
+
+    [14] Lucretius, _De rerum natura_, translated by W. H. D.
+    Rouse, Loeb Classical Library, London, 1924, bk. VI, lines
+    998-1041.
+
+Galen[15] returned to a quasi-animistic solution in his denial of
+Epicurus' argument, which he stated somewhat differently from
+Lucretius. One can infer that Galen held that all things have, to a
+greater or lesser degree, a sympathetic faculty of attracting its
+specific, or proper, quality to itself.[16] The loadstone is only an
+inanimate example of what one finds in nutritive organs in organic
+beings.
+
+    [15] Galen, _On the natural faculties_, translated by A. S.
+    Brock, Loeb Classical Library, London, 1916, bk. 1 and bk. 3.
+    A view similar to this appeared in Plato, _Timaeus_, 81 (see
+    footnote 13).
+
+    [16] This same concept was to reappear in the Middle Ages as
+    the _inclinatio ad simile_.
+
+One of the few writers whose explanations of the loadstone Gilbert
+mentioned with approval is St. Thomas Aquinas. Although the medieval
+scholastic philosophy of St. Thomas seems foreign to our way of
+thinking, it formed a background to many of Gilbert's concepts, as
+well as to those of his predecessors, and it will assist our
+discussion to consider briefly Thomist philosophy and to make its
+terminology explicit at this point.[17]
+
+    [17] The background for much of the following was derived
+    from Annaliese Maier, _An der Grenze von Scholastik und
+    Naturwissenchaft_, ed 2, Rome, 1952.
+
+In scholastic philosophy, all beings and substances are a coalescence
+of inchoate matter and enacting form. Form is that which gives being
+to matter and which is responsible for the "virtus" or power to cause
+change, since matter in itself is inert. Moreover, forms can be
+grasped intellectually, whence the nature of a being or a substance
+can be known. Any explanation of phenomena has to be based upon these
+innate natures, for only if the nature of a substance is known can
+its properties be understood. Inanimate natures are determined by
+observation, abstraction, and induction, or by classification.[18]
+
+    [18] St. Thomas' epistemology for the natural inanimate world
+    was based upon Aristotle's dictum: that which is in the mind
+    was in the senses first.
+
+The nature of a substance is causally prior to its properties; while
+the definition of the nature is logically prior to these properties.
+Thus, what we call the theory of a substance is expressed in its
+definition, and its properties can be deduced from this definition.
+
+The world of St. Thomas is not a static one, but one of the
+Aristotelian motions of quantity (change of size), of quality
+(alteration), and of place (locomotion). Another kind of change is
+that of substance, called generation and corruption, but this is a
+mutation, occurring instantly, rather than a motion, that requires
+time. In mutation the essential nature is replaced by a new
+substantial form.
+
+All these changes are motivated by a causal hierarchy that extends
+from the First Cause, the "Dator Formarum," or Creator, to separate
+intellectual substances that may be angels or demons, to the celestial
+bodies that are the "generantia" of the substantial forms of the
+elements and finally to the four prime qualities (dry and wet, hot and
+cold) of the substantial forms. Accidental forms are motivated by the
+substantial forms through the instrumentality of the four prime
+qualities, which can only act by material contact.
+
+The only causal agents in this hierarchy that are learned through the
+senses are the tangible qualities. Usually the prime qualities are not
+observed directly, but only other qualities compounded of them. One of
+the problems of scholastic philosophy was the incorporation, into this
+system of efficient agents, of other qualities, such as the qualities
+of gravity and levity that are responsible for upward and downward
+motion.
+
+Besides the causal hierarchy of forms, the natural world of St. Thomas
+existed in a substantial and spatial hierarchy. All substances whether
+an element or a mixture of elements have a place in this hierarchy by
+virtue of their nature. If the material were removed from its proper
+place, it would tend to return. In this manner is obtained the natural
+downward motion of earth and the natural upward motion of fire.
+
+Local motion can also be caused by the "virtus coeli" generating a new
+form, or through the qualitative change of alteration. Since each
+element and mixture has its own natural place in the hierarchy of
+material substances, and this place is determined by its nature,
+changes of nature due to a change of the form can produce local
+motion. If before change the substance is in its natural place, it
+need not be afterwards, and if not, would then tend to move to its
+new natural place.
+
+It will be noted that the scholastic explanation of inanimate motion
+involved the action and passion of an active external mover and a
+passive capacity to be moved. Whence the definition of motion that
+Descartes[19] was later to deride, "motus est actus entis in potentia
+prout quod in potentia."
+
+    [19] René Descartes, _Oeuvres_, Charles Adam and Paul
+    Tannery, Paris, 1897-1910, vol. 2, p. 597 (letter to
+    Mersenne, 16 Oct., 1639), and vol. 11 (Le Monde), p. 39. The
+    original definition can be found in Aristotle, _Physics_,
+    translated by P. H. Wickstead and F. M. Cornford, Loeb
+    Classical Library, London, 1934, 201a10. Aquinas rephrases
+    the definition as "_Motus est actus existentis in potentia
+    secundum quod huius modi._" See St. Thomas Aquinas, _Opera
+    omnia_, Antwerp, 1612, vol. 2, _Physicorum Aristotelis
+    expositio_, lib. 3, lect. 2, cap. a, p. 29.
+
+We have seen above that the "motor essentialis" for terrestial change
+is the "virtus coeli." Thus the enacting source of all motion and
+change is the heavens and the heavenly powers, while the earth and its
+inhabitants becomes the focus or passive recipient of these actions.
+In this manner the scholastic restated in philosophical terms the
+drama of an earth-centered universe.
+
+Although change or motion is normally effected through the above
+mentioned causal hierarchy, it is not always necessary that
+actualization pass from the First Cause down through each step of the
+hierarchy to terminate in the qualities of the individual being. Some
+of the steps could be by-passed: for instance man's body is under the
+direct influence of the celestial bodies, his intellect under that of
+the angels and his will under God.[20] Another example of effects
+not produced through the tangible prime qualities is that of the
+tide-producing influence of the moon on the waters of the ocean or the
+powers of the loadstone over iron. Such causal relations, where some
+members of the normal causal chain have been circumvented, are called
+occult.[21]
+
+    [20] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 9,
+    _Summa contra gentiles_, lib. 3, cap. 92 (Quo modo dicitur
+    aliquis bene fortunatus et quo modo adjuvatur homo ex
+    superioribus causis), p. 343.
+
+    [21] St. Thomas Aquinas, op. cit. (footnote 19), vol. 17
+    _Opuscula, De operationibus occultis naturae ad queindam
+    militem ultramontem_, pp. 213-224.
+
+While St. Thomas referred to the loadstone in a number of places as
+something whose nature and occult properties are well known, it was
+always as an example or as a tangential reference. One does not find
+a systematic treatment of the loadstone in St. Thomas, but there are
+enough references to provide a fairly explicit statement of what he
+considered to be the nature of the magnet.
+
+In one of his earliest writings, St. Thomas argued that the magnet
+attracts iron because this is a necessary consequence of its
+nature.[22]
+
+    Respondeo dicendum, quod omnibus rebus naturaliter insunt
+    quaedam principia, quibus non solum operationes proprias
+    efficere possunt, sed quibus etiam eas convenientes fini suo
+    reddant, sive sint actiones quae consequantur rem aliquam ex
+    natura sui generis, sive consequantur ex natura speciei, ut
+    magneti competit ferri deorsum ex natura sui generis, et
+    attrahere ferrum ex natura speciei. Sicut autem in rebus
+    agentibus ex necessitate naturae sunt principia actionum
+    ipsae formae, a quibus operationes proprie prodeunt
+    convenientes fini....
+
+Due to its generic form, the loadstone is subject to natural motion
+of place of up and down. However, the "virtus" of its specific form
+enabled it to produce another kind of motion--it could draw iron to
+itself.
+
+Normally the "virtus" of a substance is limited to those contact
+effects that could be produced by the form operating through the
+active qualities of one substance, on the relatively passive qualities
+of another. St. Thomas asserted the loadstone to be one of these
+minerals, the occult powers of whose form goes beyond those of the
+prime qualities.[23]
+
+    Forma enim elementi non habet aliquam operationem nisi quae
+    fit per qualitates activas et passivas, quae sunt
+    dispositiones materiae corporalis. Forma autem corporis
+    mineralis habet aliquam operationem excedentem qualitates
+    activas et passivas, quae consequitur speciem ex influentia
+    corporis coelestis, ut quod magnes attrahit ferrum, et quod
+    saphirus curat apostema.
+
+That this occult power of the loadstone is a result of the direct
+influence of the "virtus coeli" was expounded at greater length in
+his treatise on the soul.[24]
+
+    Quod quidem ex propriis formarum operationibus perpendi
+    potest. Formae enim elementorum, quae sint infimae et
+    materiae propinquissime, non habent aliquam operationem
+    excedentem qualitates activas et passivas, ut rarum et
+    densum, et aliae huiusmodi, qui videntur esse materiae
+    dispositiones. Super has autem sunt formae mistorum quae
+    praeter praedictas operationes, habent aliquam operationem
+    consequentem speciem, quam fortiuntur ex corporibus
+    coelestibus; sicut quod magnes attrahit ferrum non propter
+    calorem aut frigiis, aut aliquid huiusmodi; sed ex quadam
+    participatione virtutis coelestis. Super has autem formas
+    sint iterum animae plantarum, quae habent similitudinem non
+    solum ad ipsa corpora coelestia, sed ad motores corporum
+    coelestium, inquantum sunt principia cuiusdam motus,
+    quibusdam seipsa moventibus. Super has autem ulterius sunt
+    animae brutorum, quae similitudinem iam habent ad substantiam
+    moventem coelestia corpora, non solum in operatione qua
+    movent corpora, sed etiam in hoc quod in seipsis
+    cognoscitivae sunt, licet brutorum cognitio sit materialium
+    tantum et materialiter....
+
+St. Thomas placed the form of the magnet and its powers in the
+hierarchy of forms intermediate between the forms of the inanimate
+world and the forms of the organic world with its hierarchy of plant,
+animal and rational souls. The form of the loadstone is then superior
+to that of iron, which can only act through its active and passive
+qualities, but inferior to the plant soul, that has the powers of
+growth from the "virtus coeli." This is similar to Galen's comparison
+of the magnet's powers to that of the nutritive powers of organic
+bodies.
+
+In his commentary on Aristotle's _Physics_, St. Thomas explained how
+iron is moved to the magnet. It is moved by some quality imparted to
+the iron by the magnet.[25]
+
+    Illud ergo trahere dicitur, quod movet alterum ad seipsum.
+    Movere autem aliquid secundum locum ad seipsum contingit
+    tripliciter. Uno modo sicut finis movet; unde et finis
+    dicitur trahere, secundum illud poetate: "trahit sua quemque
+    voluptas": et hoc modo potest dici quod locus trahit id, quod
+    naturaliter movetur ad locum. Alio modo potest dici aliquid
+    trahere, quia movet illud ad seipsum alterando aliqualiter,
+    ex qua alteratione contingit quod alteratum moveatur secundum
+    locum: et hoc modo magnes dicitur trahere ferrum. Sicut enim
+    generans movet gravia et levia, inquantum dat eis formarum
+    per quam moventur ad locum, ita et magnes dat aliquam
+    qualitatem ferro, per quam movetur ad ipsum. Et quod hoc sit
+    verum patet ex tribus. Primo quidem quia magnes non trahit
+    ferrum ex quacumque distantia, sed ex propinquo; si autem
+    ferrum moveretur ad magnetem solum sicut ad finem, sicut
+    grave ad suum locum, ex qualibet distantia tenderet ad ipsum.
+    Secundo, quia, si magnes aliis perungatur, ferrum attrahere
+    non potest; quasi aliis vim alterativam ipsius impedientibus,
+    aut etiam in contrarium alterantibus. Tertio, quia ad hoc
+    quod magnes attrahat ferrum, oportet prius ferrum liniri cum
+    magnete, maxime si magnes sit parvus; quasi ex magnete
+    aliquam virtutem ferrum accipiat ut ad eum moveatur. Sic
+    igitur magnes attrahit ferrum non solum sicut finis, sed
+    etiam sicut movens et alterans. Tertio modo dicitur aliquid
+    attrahere, quia movet ad seipsum motu locali tantum. Et sic
+    definitur hic tractio, prout unum corpus trahit alteram, ita
+    quod trahens simul moveatur cum eo quod trahitur.
+
+As the "generans" of terrestrial change moves what is light and heavy
+to another place by implanting a new form in a substance, so the
+magnet moves the iron by impressing upon it the quality by which it is
+moved. By virtue of the new quality, the iron is not in its natural
+place and moves accordingly. St. Thomas proved that the loadstone acts
+as a secondary "generans" in three ways: (1) the loadstone produces an
+effect not from any distance but only from a nearby position (showing
+that this motion is due to more than place alone), (2) rubbing the
+loadstone with garlic acts as if it impedes or alters the "virtus
+magnetis," and (3) the iron must be properly aligned with respect to
+the loadstone in order to be moved, especially if the loadstone is
+small. Thus the iron is moved by the magnet not only to a place, but
+also by changing and altering it: one has not only the change of
+locomotion but that of alteration. Moreover the source of this
+alteration in the iron is not the heavens but the loadstone.
+Accordingly the loadstone could cause change in another substance
+because it could influence the nature of the other substance.
+
+    [22] St. Thomas Aquinas, _op. cit._ (footnote 19), vol 7,
+    _Scriptum in quartum librum sententiarum magistri Petri
+    Lombardi_, lib. 4, disq. 33 (De diversis coniugii legibus),
+    art. 1 (Utrum habere plures uxores sit contra legem naturae),
+    p. 168. The same statement occurs in one of his most mature
+    works, _op. cit._ vol. 20, _Summa theologica_, pars 3
+    (supplementum), quaestio 65 (De pluralitate uxorum in quinque
+    articulos divisa), art. 1 (Utrum habere plures uxores sit
+    contra legem naturae), p. 107.
+
+    [23] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 8,
+    _Quaestio unica: de spiritualibus creaturis_, art. 2 (Utrum
+    substantia spiritualis possit uniri corpori), p. 404. See
+    also vol. 9, _Summa contra gentiles_, lib. 3, cap. 92
+    (Quomodo dicitur aliquis bene fortunatus, et quomodo
+    adjuvatur homo ex superioribus causis), p. 344; and vol. 17,
+    _Opuscula, De operationibus occultis naturae ad queindam
+    militem ultramontem_, pp. 213-214.
+
+    [24] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 8,
+    _Quaestio unica: de anima_, art. 1 (Utrum anima humana possit
+    esse forma et hoc aliquid), p. 437. See also vol. 8,
+    _Quaestio: De veritate_, quaestio 5 (De providentia), art. 10
+    (Utrum humani actus a divina providentia gubernentur mediis
+    corporibus coelestibus), p. 678.
+
+    [25] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 2,
+    _Physicorum Aristotelis expositio_, lib. 7, lect. 3, cap. g
+    (Probatur in motu locali quod movens et motum oportet esse
+    simul), p. 97 (quoted in Gilbert, M: p. 104).
+
+About the time that St. Thomas was writing his letter _De
+operationibus occultis naturae_ to a certain knight, Petrus Peregrinus
+was writing from a military camp a letter in which he showed how
+certain relatively new effects could be produced by the loadstone.
+He was more interested in what he could do with the magnet than in
+explaining these effects. However, he discussed it at sufficient
+length for one to find that his explanation of magnetic phenomena was
+basically similar to that of his contemporary, St. Thomas.
+
+Peregrinus based his discussion of the loadstone upon its nature and
+analyzed magnetic phenomena in terms of the change of alteration. In
+magnetic attraction, the nature of the iron is altered by having a new
+quality impressed upon it,[26] and the loadstone is the agent that
+makes the iron the same species as the stone.[27]
+
+    ... Oportet enim quod illud quod iam conversum est ex duobus
+    in unum, sit in eadem specie cum agente; quod non esset, si
+    natura istud impossible eligeret.
+
+This impressed similarity to the agent, Peregrinus realized, is not
+a pole of the same polarity but one opposite to that of the inducing
+pole. To produce this effect, the virtue of the stronger agent
+dominates the weaker patient and impresses the virtue of the stronger
+on the weaker so that they are made similar.[28]
+
+    ... In cuius attractione, lapis fortioris virtutis agens est;
+    debilioris vero patiens.
+
+A further instance of alteration occurs in the reversal of polarity of
+magnetized iron when one brings two similar poles together. Again, the
+stronger agent dominates the weaker patient and the iron is left with
+a similarity to the last agent.[29]
+
+    ... Causa huis est impressio ultimi agentis, confundentis et
+    alterantis virtutem primi.
+
+In this assimilation of the agent to the patient, another effect is
+produced: the agent not only desires to assimilate the patient to
+itself, but to unite with it to become one and the same. Speaking of
+the motion to come together, he says:[30]
+
+    Huius autem rei causam per hanc viam fieri existimo: agens
+    enim intendit suum patiens non solum sibi assimilare, sed
+    unire, ut ex agente et patiente fiat unum, per numerum. Et
+    hoc potes experiri in isto lapide mirabili in hunc modum....
+    Agens ergo, ut vides experimento, intendit suum paciens sibi
+    unire; hoc autem fit ratione similitudinis inter ea. Oportet
+    ergo ... virtute attractionis, fiat una linea, ex agente et
+    patiente, secundum hunc ordinem ...
+
+The nature of the magnet, as an active cause, tends to enact, and
+since it acts in the best manner in which it is able, it acts so as
+to preserve the similarities of opposite poles.[31]
+
+    Natura autem, que tendet ad esse, agit meliori modo quo
+    potest, eligit primum ordinem actionis, in quo melius
+    salvatur idemptitas, quam in secundo ...
+
+Thus unlike poles tend to come together when a dissected magnet is
+reassembled.
+
+Like St. Thomas, Peregrinus argued that the magnet receives its powers
+from the heavens. But he further specified this by declaring that
+different virtues from the different parts of the heavens flow into
+their counterpart in the loadstone--from the poles of the heavens the
+virtue flows into the poles of the magnet,[32]
+
+    Praeterea cum ferrum, vel lapis, vertatur tarn ad partem
+    meridionalem quam ad partem septemtrionalem ... existima
+    cogimur, non solum a partem septemtrionali, verum etiam a
+    meridionali virtutem influi in polos lapidis, magis quam a
+    locis minere ... Omnes autem orbes meridiani in polis mundi
+    concurrent; quare, a polis mundi, poli magnetis virtutem
+    recipiunt. Et ex hoc apparet manifeste quod non ad stellam
+    nauticam movetur, cum ibi non concurrant orbes meridiani, sed
+    in polis; stella enim nautica, extra orbem meridianum
+    cuiuslibet regionis semper invenitur, nisi bis, in completa
+    firmanenti revolutione. Ex hiis ergo manifestum est quod a
+    partibus celi, partes magnetis virtutem recipiunt.
+
+and similarly for the other parts of the heavens and the other parts
+of the loadstone.[33]
+
+    Ceteras autem partes lapidis merito estimare potes,
+    influentiam a reliquis celi partibus retinere, ut non sic
+    solum polos lapidis a polis mundi, sed totum lapidem a toto
+    celo, recipere influentiam et virtutem, estimes.
+
+Physical proof for such influences was adduced by Peregrinus from the
+motions of the loadstone. That the poles of the loadstone receive
+their virtue from the poles of the heavens follows experimentally from
+north-south alignment of a loadstone. That not only the poles but the
+entire loadstone receives power from corresponding portions of the
+heavens follows from the fact that a spherical loadstone, when
+"properly balanced," would follow the motion of the heavens.[34]
+
+    Quod tibi tali modo consulo experire: ... Et si tunc lapis
+    moveatur secundum celi motum, gaudeas te esse assecutum
+    secretum mirabile; si vero non, imperitie tue, potiusquam
+    nature, defectus imputetur. In hoc autem situ, seu modo
+    positionis, virtutes lapidis huius estimo conservari proprie,
+    et in reliquis sitibus celi virtutem eius obsecari, seu
+    ebetari, potiusquam conservari puto. Per hoc autem
+    instrumentum excusaberis ab omni horologio; nam per ipsum
+    scire poteris Ascensus in quacumque hora volueris, et omnes
+    alias celi dispositiones, quas querunt Astrologi.
+
+As the heavens move eternally, so the spherical loadstone must be a
+"perpetuum mobile".
+
+Another of the scholars whose explanation of the loadstone Gilbert
+noted with approval was Cardinal Nicholas of Cusa.[35] The latter's
+references to it were not as direct as those of St. Thomas, but he did
+use it as an image several times to provide a microcosmic example of
+the relation of God to his creation. From this one can infer that he
+explained the preternatural motion of the magnet and the iron by
+impressed qualities, the heavens being the agent for the loadstone,
+and the loadstone, the agent for iron.
+
+    [26] Hellmann, _op. cit._ (footnote 6), Peregrinus, pt. 1,
+    ch. 8. The magnet attracts the iron "secundum naturalem
+    appetitum lapidis ... sine resistentia." There is no natural
+    resistence to this motion since it is no longer contrary to
+    the nature of the iron. The nature of the iron has changed.
+
+    [27] _Ibid._, pt. 1, ch. 9.
+
+    [28] _Ibid._, pt. 1, ch. 9.
+
+    [29] _Ibid._, pt. 1, ch. 8.
+
+    [30] _Ibid._, pt. 1, ch. 9.
+
+    [31] _Ibid._, pt. 1, ch. 9. See also footnote 27.
+
+    [32] _Ibid._, pt. 1, ch. 10. See also ch. 4.
+
+    [33] _Ibid._, pt. 1, ch. 10. See also ch. 4.
+
+    [34] _Ibid._, pt. 1, ch. 10.
+
+    [35] However, he may not always have approved of him. See
+    M:74; "Overinquisitive theologians, too, seek to light up
+    God's mysteries and things beyond man's understanding by
+    means of the loadstone and amber."
+
+In the _Idiota de sapientia_ the Cardinal used the image of the magnet
+and the iron to provide a concrete instance of his "coincidentia
+oppositorum," to illustrate how eternal wisdom, in the Neoplatonic
+sense, could, at the same time, be principle or cause of being, its
+complement and also its goal.[36]
+
+    Si igitur in omni desiderio vitae intellectualis attenderes,
+    a quo est intellectus, per quod movetur et ad quod, in te
+    comperires dulcedinem sapientiae aeternae illam esse, quae
+    tibi facit desiderium tuum ita dulce et delectabile, ut in
+    inerrabili affectu feraris ad eius comprehensionem tanquam ad
+    immortalitatem vitae tue, quasi ad ferrum et magnetem
+    attendas. Habet enim ferrum in magnete quoddam sui effluxus
+    principium; et dum magnes per sui praesentiam excitat ferrum
+    grave et ponderosum, ferrum mirabili desiderio fertur etiam
+    supra motum naturae, quo secundum gravitatem deorsum tendere
+    debet, et sursum movetur se in suo principio uniendo. Nisi
+    enim in ferro esset quaedam praegustatio naturalis ipsius
+    magnetis, non moveretur plus ad magnetem quam ad alium
+    lapidem; et nisi in lapide esset major inclinatio ad ferrum
+    quam cuprum, non esset illa attractio. Habet igitur spiritus
+    noster intellectualis ab aeterna sapientia principium sic
+    intellectualiter essendi, quod esse est conformius sapientae
+    quam aliud non intellectuale. Hinc irraditio seu immissio in
+    sanctam animam est motus desideriosus in excitatione.
+
+By virtue of the principle that flows from the magnet to the
+iron--which principle is potentially in the iron, for the iron already
+has a foretaste for it--the excited iron could transcend its gravid
+nature and be preternaturally moved to unite with its principle.
+Reciprocally, the loadstone has a greater attraction to the iron than
+to other things. Just as the power of attraction comes from the
+loadstone, so the Deity is the source of our life. Just as the
+principle implanted in the magnet moves the iron against its heavy
+nature, so the Deity raises us above our brutish nature so that we may
+fulfill our life. As the iron moves to the loadstone, so we move to
+the Deity as to the goal and end of our life.
+
+In _De pace fidei_, Cusa[37] again used the iron and magnet as an
+example of motion contrary to and transcending nature. He explained
+this supernatural motion as being due to the similarity between the
+nature of the iron and the magnet, and this in turn is analogous to
+the similarity between human spiritual nature and divine spiritual
+nature. As the iron can move upward to the loadstone because both have
+similar natures, so man can transcend his own nature and move towards
+God when his potential similitude to God is realized. Another image
+used by Cusa was the comparison of Christ to the magnetic needle that
+takes its power from the heavens and shows man his way.[38]
+
+    [36] Nicholas of Cusa (Nicolaus Cusaneus), _Nicolaus von
+    Cues, Texte seiner philosophischen Schriften_, ed. A.
+    Petzelt, Stuttgart, 1949, bk. 1, _Idiota de sapientia_, p.
+    306 (quoted in Gilbert, M:104). It is interesting that Cusa
+    held that the loadstone has an inclination to iron, as well
+    as the converse!
+
+    [37] Cusa, _Cusa Schriften_, vol. 8, _De pace fidei_,
+    translated by L. Mohler, Leipzig, 1943, ch. 12, p. 127.
+
+    [38] Cusa, _Exercitationes_, ch. 7, 563 and 566, quoted in,
+    F. A. Scharpff, _Des Cardinals und Bischofs Nicolaus Von Cusa
+    Wichtigste Schriften in Deutscher Uebersetzung_, Freiburg,
+    1862, p. 435. See also Martin Billinger, _Das Philosophische
+    in Den Excitationen Des Nicolaus Von Cues_, Heidelberg, 1938,
+    and _Cusa Schriften_ (see footnote 37), vol. 8, p. 209, note
+    105. Gilbert (M: p. 223) called the compass "the finger of
+    God."
+
+The Elizabethan Englishman Robert Norman also turned to the Deity to
+explain the wonderful effects of the loadstone.[39]
+
+    Now therefore ... divers have whetted their wits, yea, and
+    dulled them, as I have mine, and yet in the end have been
+    constrained to fly to the cornerstone: I mean God: who ...
+    hath given Virtue and power to this Stone ... to show one
+    certain point, by his own nature and appetite ... and by the
+    same vertue, the Needle is turned upon his own Center, I mean
+    the Center of his Circular and invisible Vertue ... And
+    surely I am of opinion, that if this would be found in a
+    Sphericall form, extending round about the Stone in Great
+    Compass, and the dead body Stone in the middle therof: Whose
+    center is the center of his aforesaid Vertue. And this I have
+    partly proved, and made visible to be seen in the same
+    manner, and God sparing me life, I will herein make further
+    Experience.
+
+Again, one can infer that the heavens impart a guiding principle
+to the iron which acts under the influence of this Superior Cause.
+
+One of the points made in St. Thomas' argument on motion due to the
+loadstone was that there is a limit to the "virtus" of the loadstone,
+but he did not specify the nature of it. Norman refined the Thomist
+concept of a bound by making it spherical in form, foreshadowing
+Gilbert's "orbis virtutis."
+
+Gilbert's philosophy of nature does not move far from scholastic
+philosophy, except away from it in logical consistency. As the concern
+of Aristotle and of St. Thomas was to understand being and change by
+determining the nature of things, so Gilbert sought to write a logos
+of the physis, or nature, of the loadstone--a physiology.[40] This
+physiology was not formally arranged into definitions obtained by
+induction from experience, but nevertheless there was the same search
+for the quiddity of the loadstone. Once one knew this nature then all
+the properties of the loadstone could be understood.
+
+    [39] Hellmann, _op. cit._ (footnote 6), Norman, bk. 1, ch. 8.
+
+    [40] M: p. 14.
+
+Gilbert described the nature of the loadstone in the terms of being
+that were current with his scholarly contemporaries. This was the same
+ontology that scholasticism had taught for centuries--the doctrine of
+form and matter that we have already found in St. Thomas and Nicholas
+of Cusa. Thus we find Richard Hooker[41] remarking that form gives
+being and that "form in other creatures is a thing proportionable unto
+the soul in living creatures." Francis Bacon,[42] in speaking of the
+relations between causes and the kinds of philosophy, said: "Physics
+is the science that deals with efficient and material causes while
+Metaphysics deals with formal and final causes." John Donne[43]
+expressed the problem of scholastic philosophy succinctly:
+
+  This twilight of two yeares, not past or next,
+    Some embleme is of me, ...
+  ... of stuffe and forme perplext,
+    Whose _what_ and _where_, in disputation is ...
+
+As we shall see, Gilbert continued in the same tradition, but his
+interpretation of form and formal cause was much more anthropomorphic
+than that of his predecessors.
+
+Gilbert began his _De magnete_ by expounding the natural history of
+that portion of the earth with which we are familiar.[44]
+
+    Having declared the origin and nature of the loadstone, we
+    hold it needful first to give the history of iron also ...
+    before we come to the explication of difficulties connected
+    with the loadstone ... we shall better understand what iron
+    is when we shall have developed ... what are the causes and
+    the matter of metals ...
+
+His treatment of the origin of minerals and rocks agreed in the main
+with that of Aristotle,[45] but he departed somewhat from the
+peripatetic doctrine of the four elements of fire, air, water, and
+earth.[46] Instead, he replaced them by a pair of elements.[47] (If
+the rejection of the four Aristotelian elements were clearer, one
+might consider this a part of his rejection of the geocentric universe
+but he did not define his position sufficiently.)[48]
+
+    [41] Richard Hooker. _Of the laws of ecclesiastical polity_,
+    bk. 1, ch. 3, sect. 4 (_Works_, Oxford, Clarendon Press,
+    1865, vol. 1, p. 157)
+
+    [42] Francis Bacon, _De augmentis scientiarum_, bk. 3, ch. 4,
+    in _Works_, ed. J. Spedding, R. L. Ellis, and D. D. Heath,
+    Boston, n.d. (1900?), vol. 2, p. 267.
+
+    [43] _The poems of John Donne_, ed. H. J. C. Grierson,
+    London, Oxford University Press, 1933, p. 175 ("To the
+    Countesse of Bedford, On New Yeares Day").
+
+    [44] M: pp. 33, 34.
+
+    [45] M: pp. 34, 35. Aristotle, _Works_, ed. W. D. Ross,
+    Oxford, 1908--1952, vol. 2, _De generatione et corruptione_,
+    translated by H. H. Joachim, 1930, vol. 3, _Meteorologica_,
+    translated by E. W. Webster, 1931.
+
+    [46] M: pp. 34, 35, 64, 65, 69, 81. Dr. H. Guerlac has kindly
+    brought to my attention the similarity between the
+    explanation given in Gilbert and that given in the
+    _Meteorologica_, bk. 3, ch. 6. p. 378.
+
+    [47] M: p. 83.
+
+    [48] A statement of the relation between Aristotle's four
+    elements and place can be found in Maier, _op. cit._
+    (footnote 17), pp. 143-182.
+
+According to Gilbert the primary source of matter is the interior of
+the earth, where exhalations and "spiritus" arise from the bowels of
+the earth and condense in the earth's veins.[49] If the condensations,
+or humors, are homogeneous, they constitute the "materia prima" of
+metals.[50] From this "materia prima," various metals may be
+produced,[51] according to the particular humor and the specificating
+nature of the place of condensation.[52] The purest condensation is
+iron: "In iron is earth in its true and genuine nature."[53] In other
+metals, we have instead of earth, "condensed and fixed salts, which
+are efflorescences of the earth."[54] If the condensed exhalation is
+mixed in the vein with foreign earths already present, it forms ores
+that must be smelted to free the original metal from dross by
+fire.[55] If these exhalations should happen to pass into the open
+air, instead of being condensed in the earth, they may return to the
+earth in a (meteoric) shower of iron.[56]
+
+    [49] M: pp. 21, 34, 35, 36, 45.
+
+    [50] M: pp. 35, 36, 38, 69; see, however, pp. 42-43: "Iron
+    ore, therefore, as also manufactured iron, is a metal
+    slightly different from the homogenic telluric body because
+    of the metallic humor it has imbibed ..."
+
+    [51] M: pp. 19, 34, 36, 37, 42, 69.
+
+    [52] M: pp. 35, 36, 37, 38.
+
+    [53] M: pp. 38, 63, 69, 84; on p. 34 he says that iron is
+    "more truly the child of the earth than any other metal"; it
+    is the hardest because of "the strong concretion of the more
+    earthy substance."
+
+    [54] M: pp. 21, 35, 37, 38.
+
+    [55] M: pp. 35, 63.
+
+    [56] M: pp. 45, 46.
+
+Gilbert was indeed writing a new physiology, both in the ancient
+sense of the word and the modern. The process of the formation of
+metals had many biological overtones, for it was a kind of metallic
+epigenesis.[57] "Within the globe are hidden the principles of metals
+and stones, as at the earth's surface are hidden the principles of
+herbs and plants."[58] In all cases, the "spiritus" acts as semen and
+blood that inform and feed the proper womb in the generation of
+animals.[59] "The brother uterine of iron,"[60] the loadstone, is
+formed in this manner. As the embryo of a certain species is the
+result of the specificating nature of the womb in which the generic
+seed has been placed, so the kind of metal is the result of a certain
+humor condensing in a particular vein in the body of the earth.
+
+    [57] Gilbert's terminology strongly suggests that he was
+    familiar with alchemical literature, as well as that of
+    medical chemistry. He has been credited as being highly
+    skilled in chemistry. See Sir Walter Langdon-Brown, "William
+    Gilbert: his place in the medical world," _Nature_, vol. 154,
+    pp. 136-139, 1944.
+
+    [58] _Ibid._, p. 37.
+
+    [59] M: pp. 35, 36, 53, 59. See also Galen, _op. cit._
+    (footnote 15) bk. 2, ch. 3.
+
+    [60] M: pp. 16, 59.
+
+Gilbert developed this biological analogy further by ascribing to
+metals a process of decay after reaching maturity. Once these solid
+materials have been formed, they will degenerate unless protected,
+forming earths of various kinds as a result.[61] The "rind of the
+earth"[62] is produced by this process of growth and decay. If these
+earths are soaked with humors, transparent materials are formed.[63]
+
+    [61] M: pp. 20, 21, 32, 61, 63, 66, 70.
+
+    [62] M: p. 59.
+
+    [63] M: p. 84.
+
+As we shall see below, the ultimate cause of this internal and
+superficial life is the motion of the earth, which animation is the
+expression of the magnetic soul of this sphere.[64] As the life of
+animals results from the constant working of the heart and
+arteries,[65] so the daily motion of the earth results in a constant
+generation of mineral life within the earth. In contrast to
+Aristotle's[66] making the motion of the heavens the cause of
+continuous change, Gilbert made that of the earth the remote
+cause.[67] However, unlike the constant cyclical transmutation of
+substances in Aristotle, there is only generation and decay.
+
+    [64] M: pp. 310, 311, 312.
+
+    [65] M: p. 338. A somewhat different opinion, although not
+    necessarily inconsistent is expressed on p. 66, where he says
+    the surface is due to the action of the atmosphere, the
+    waters, and the radiations and other influences of heavenly
+    bodies.
+
+    [66] Aristotle, _op. cit._ (footnote 45), _De generatione et
+    corruptione_, bk. 2, ch. 10.
+
+    [67] M: pp. 311, 334, 338.
+
+Gilbert made a number of successive generalizations in order to arrive
+at the induction that the form of the loadstone is a microcosmic
+"anima" of that of the earth.[68] After comparing the properties of
+the loadstone and of iron, his first step in this induction was that
+the two materials, found everywhere,[69] are consanguineous:[70]
+"These two associated bodies possess the true, strict form of one
+species, though because of the outwardly different aspect and the
+inequality of the selfsame innate potency, they have hitherto been
+held to be different ..." Good iron and good loadstone are more
+similar than a good and a poor loadstone, or a good and a poor iron
+ore.[71] Moreover, they have the same potency,[72] for the innate
+potency of one can be passed to the other:[73] "The stronger
+invigorates the weaker, not as if it imparted of its own substances or
+parted with aught of its own strength, nor as if it injected into the
+other any physical substance; but rather the dormant power of the one
+is awakened by the other's without expenditure." In addition, the
+potency can be passed only to the other.[74] Finally they both have
+the same history:
+
+    We see both the finest magnet and iron ore visited as it were
+    by the same ills and diseases, acting in the same way and
+    with the same indications, preserved by the same remedies and
+    protective measures, and so retaining their properties ...
+    they are both impaired by the action of acrid liquids as
+    though by poison[75] ... each is saved from impairment by
+    being kept in the scrapings of the other. [So] ... form,
+    essence and appearance are one.[76]
+
+Any difference between the loadstone proper and the iron proper is due
+to a difference in the actual power of the magnetic virtue:[77] "Weak
+loadstones are those disfigured with dross metallic humors and with
+foreign earth admixtures, [hence one may conclude] they are further
+removed from the mother earth and are more degenerate."
+
+    [68] M: pp. xlvii, 309, 328.
+
+    [69] M: pp. 18, 20, 44, 46, 69.
+
+    [70] M: pp. 59, 61, 63.
+
+    [71] M: pp. 60, 63.
+
+    [72] M: p. 110.
+
+    [73] M: pp. 60, 61.
+
+    [74] M: p. 62.
+
+    [75] M: p. 63.
+
+    [76] M: p. 60.
+
+    [77] M: pp. 19, 21, 43, 53, 61, 63, 184.
+
+Gilbert's second induction was that they are "true and intimate parts
+of the globe,"[78] that is, that they are piece of the "materia prima"
+of all we see about us. For they "seem to contain within themselves
+the potency of the earth's core and of its inmost viscera."[79]
+Whence, in Gilbert's philosophy, the earthy matter of the elements was
+not passive or inert[80] as it was in Aristotle's, but already had the
+magnetic powers of loadstone. Being endowed with properties, it was,
+in peripatetic terms, a simple body.
+
+    [78] M: p. 61.
+
+    [79] M: pp. 66, 67.
+
+    [80] M: p. 69. Gilbert is confusing Aristotelian matter and
+    an element. He includes cold and dry, with formless and
+    inert! See also Maier, _op. cit._ (footnote 17).
+
+If these pieces of earth proper, before decay, are loadstones, then
+one may pass to the next induction that the earth itself is a
+loadstone.[81] Conversely, a terrella has all the properties of the
+earth:[82] "Every separate fragment of the earth exhibits in
+indubitable experiments the whole impetus of magnetic matter; in its
+various movements it follows the terrestial globe and the common
+principle of motion."[83]
+
+    [81] M: p. 63; bk. 1, ch. 17.
+
+    [82] M: pp. 67, 181-183, 235-240, 281-289, 313-314.
+
+    [83] M: p. 71. See also pp. 314 and 331. It is not clear,
+    at this point, whether he believed a "properly balanced"
+    terrella would be a _perpetuum mobile_.
+
+The next induction that Gilbert made was that as the magnet possesses
+verticity and turns towards the poles, so the loadstone-earth
+possesses a verticity and turns on an axis fixed in direction.[84] He
+could now discuss the motions of a loadstone in general, in terms of
+its nature, just as an Aristotelian discussed the motion of the
+elements in terms of their nature.
+
+    [84] M: pp. 68, 70-71, 97, 129, 179-180, 311, 315, 317-335
+    Gilbert implied (M: p. 166), that a terrella does not rotate
+    as Peregrinus said, due to resistance (M: p. 326), or due to
+    the mutual nature of coition (M: p. 166); or even to the
+    rotation of the earth (M: p. 332). However (M: p. 129), he
+    also mentioned that a terrella would revolve by itself!
+
+But before reaching this point in his argument, Gilbert digressed to
+classify the different kinds of attractions and motions which the
+elements produce. In particular, he distinguished electric attraction
+from magnetic coition, and pointed out the main features of electrical
+attraction. Since the resultant motions were different, the essential
+natures of electric and magnetic substances had to differ.
+
+Gilbert introduced his treatment of motion by discussing the
+attraction of amber. All sufficiently light solids[85] and even
+liquids,[86] but not flame or air[87] are attracted by rubbed amber.
+Heat from friction,[88] but not from alien sources like the sun[89] or
+the flame,[90] produce this "affection." By the use of a detector
+modeled after the magnetic needle, which we would call an electroscope
+but which he called a "versorium,"[91] Gilbert was able to extend the
+list of substances that attract like amber.[92] These Gilbert called
+"electricae."[93]
+
+    [85] M: pp. 78, 82, 84, 86.
+
+    [86] M: pp. 78, 89, 91.
+
+    [87] M: pp. 89, 95.
+
+    [88] M: pp. 83, 86.
+
+    [89] M: pp. 81, 86, 87.
+
+    [90] M: pp. 80, 81, 86, 87.
+
+    [91] M: p. 79.
+
+    [92] M: pp. 77-78, 79.
+
+    [93] M: p. 78. The definition Gilbert gave of an electric
+    in the glossary at the beginning of his treatise was not an
+    experimental one: "Electricae, quae attrahunt eadem ratione
+    ut electrum."
+
+Possibly as a result of testing experimentally statements like that of
+St. Thomas, on the effect of garlic on a loadstone, Gilbert discovered
+that the interposition of even the slightest material (except a fluid
+like olive oil) would screen the attraction of electrics.[94] Hence
+the attraction is due to a material cause, and, since it is invisible,
+it is due to an effluvium.[95] It must be much rarer than air,[96] for
+if its density were that of air or greater, it would repel rather than
+attract.[97]
+
+    [94] M: pp. 86, 91, 135.
+
+    [95] M: pp. 96, 135.
+
+    [96] M: p. 89.
+
+    [97] M: pp. 90, 92, 95.
+
+The source of the effluvia could be inferred from the properties of
+the electrics. Many but not all of the electrics are transparent, but
+all are firm and can be polished.[98] Since they retain the appearance
+and properties of a fluid in a firm solid mass,[99] Gilbert concluded
+that they derived their growth mostly from humors or were concretions
+of humors.[100] By friction, these humors are released and produce
+electrical attraction.[101]
+
+    [98] M: pp. 83, 84, 85.
+
+    [99] M: p. 84.
+
+    [100] M: pp. 84, 89. See also Aristotle, _op. cit._ (footnote
+    45), _Meteorologica_, bk. 4.
+
+    [101] M: p. 90.
+
+This humoric source of the effluvia was substantiated by Gilbert in a
+number of ways. Electrics lose their power of electrical attraction
+upon being heated, and this is because the humor has been driven
+off.[102] Bodies that are about equally constituted of earth and
+humor, or that are mostly earth, have been degraded and do not show
+electrical attraction.[103] Bodies like pearls and metals, since they
+are shiny and so must be made of humors, must also emit an effluvium
+upon being rubbed, but it is a thick and vaporous one without any
+attractive powers.[104] Damp weather and moist air can weaken or even
+prevent electrical attraction, for it impedes the efflux of the humor
+at the source and accordingly diminishes the attraction.[105] Charged
+bodies retain their powers longer in the sun than in the shade, for in
+the shade the effluvia are condensed more, and so obscure
+emission.[106]
+
+    [102] M: pp. 84, 85.
+
+    [103] M: p. 84.
+
+    [104] M: p. 90. See also p. 95.
+
+    [105] M: pp. 78, 85-86, 91. (see particularly the heated
+    amber experiment described on p. 86).
+
+    [106] M: p. 87.
+
+All these examples seemed to justify the hypothesis that the nature of
+electrics is such that material effluvia are emitted when electrics
+are rubbed, and that the effluvia are rarer than air. Gilbert realized
+that as yet he had not explained electrical attraction, only that the
+pull can be screened. The pull must be explained by contact
+forces,[107] as Aristotle[108] and Aquinas[109] had argued.
+Accordingly, he declared, the effluvia, or "spiritus,"[110] emitted
+take "hold of the bodies with which they unite, enfold them, as it
+were, in their arms, and bring them into union with the
+electrics."[111]
+
+    [107] M: p. 92.
+
+    [108] Aristotle, _Physics_, translated by P. H. Wicksteed and
+    F. M. Cornford, Loeb Classical Library, London, 1934, bk. 7,
+    ch. 1, 242b25.
+
+    [109] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 2,
+    _Physicorum Aristotelis expositio_, lib. 7, lect. 2 (In
+    moventibus et motis non potest procedi in infinitum, sed
+    oportet devenire ad aliquid primum movens immobile), cap. d,
+    p. 96.
+
+    [110] M: p. 94.
+
+    [111] M: p. 95.
+
+It can be seen how this uniting action is effected if objects floating
+on water are considered, for solids can be drawn to solids through the
+medium of a fluid.[112] A wet body touching another wet body not only
+attracts it, but moves it if the other body is small,[113] while wet
+bodies on the surface of the water attract other wet bodies. A wet
+object on the surface of the water seeks union with another wet object
+when the surface of the water rises between both: at once, "like drops
+of water, or bubbles on water, they come together."[114] On the other
+hand, "a dry body does not move toward a wet, nor a wet to a dry, but
+rather they seem to go away from one another."[115] Moreover, a dry
+body does not move to the dry rim of the vessel while a wet one runs
+to a wet rim.[116]
+
+    [112] M: p. 93.
+
+    [113] M: pp. 92, 93.
+
+    [114] M: p. 93.
+
+    [115] M: p. 94.
+
+    [116] M: p. 94.
+
+By means of the properties of such a fluid, Gilbert could explain the
+unordered coming-together that he called coacervation.[117] Different
+bodies have different effluvia, and so one has coacervation of
+different materials. Thus, in Gilbert's philosophy air was the earth's
+effluvium and was responsible for the unordered motion of objects
+towards the earth.[118]
+
+    [117] M: p. 97.
+
+    [118] M: p. 92 (see also p. 339). Although Gilbert does not
+    make it explicit, this would solve the medieval problem of
+    gravitation without resorting to a Ptolemaic universe. In
+    addition, since coacervation is electric, and electric forces
+    can be screened, it should have been possible to reduce the
+    downward motion of a body by screening!
+
+The analogy between electric attraction and fluids is a most concrete
+one, yet lying beneath this image is a hypothesis that is difficult to
+fix into a mechanical system based upon contact forces. This is the
+assumption that under the proper conditions bodies tend to move
+together in order to participate in a more complete unity.[119] The
+steps in electrical attraction were described as occurring on two
+different levels of abstraction: first one has physical contact
+through an effluvium or "spiritus" that connects the two objects
+physically. Then, as a result of this contact, the objects somehow
+sense[120] that a more intimate harmony is possible, and move
+accordingly. Gilbert called the motion that followed contact,
+attraction. However, this motion did not connote what we would call a
+force:[121] it did not correspond directly to a push or pull, but it
+followed from what one might term the apprehension of the possibility
+of a more complete participation in a formal unity. The physical unity
+due to the "spiritus" was the prelude to a formal organic unity, so
+that _humor_ is "rerum omnium unitore." Gilbert's position can be best
+seen in the following:[122]
+
+    Spiritus igitur egrediens ex corpora, quod ab humore aut
+    succo aqueo concreverat, corpus attrahendum attingit,
+    attactum attrahenti unitur; corpus peculiari effluviorum
+    radio continguum, unum effecit ex duobus: unita confluunt in
+    conjunctissimam convenientiam, quae attractio vulgo dicitur.
+    Quae unitas iuxta Pythagorae opinionem rerum omnium
+    principium est, per cuius participationem unaquaeque res una
+    dicitur. Quoniam enim nullo actio a materia potest nisi per
+    contactum, electrica haec non videntur tangere, sed ut
+    necesse erat demittitur aliquid ab uno ad aliud, quod proxime
+    tangat, et eius incitationis principium sit. Corpora omnia
+    uniuntur & quasi ferruminantur quodammodo humore ...
+    Electrica vero effi via peculiaria, quae humoris fusi
+    subtilissima sunt materia, corpuscula allectant. Aër (commune
+    effluvium telluris) & partes disjunctis unit, & tellus
+    mediante aëre ad se revocat corpora; aliter quae in
+    superioribus locis essent corpora, terram non ita avide
+    appelerent.
+
+    Electrica effluvia ab aëre multum differunt, & u aër telluris
+    effluvium est, ita electrica suahabent effluvia & propria;
+    peculiaribus effluviis suus cuique; est singularis ad
+    unitatem ductus, motus ad principium, fontem, & corpus
+    effluvia emittens.
+
+A similar hypothesis will reappear in his explanation of magnetic
+attraction.
+
+    [119] M: pp. 91, 92: "This unity is, according to Pythagoras,
+    the principle, through participation, in which a thing is
+    said to be one" (see footnotes 30 and 122).
+
+    [120] "Sense" is probably too strong a term, and yet the
+    change following contact is difficult to describe in
+    Gilbert's phraseology without some such subjective term. See
+    Gilbert's argument on the soul and organs of a loadstone, M:
+    pp. 309-313.
+
+    [121] M: pp. 112, 113.
+
+    [122] Gilbert, _De magnete_, London, 1600, bk. 2, ch. 2, pp.
+    56-57.
+
+Following the tradition of the medieval schoolmen Gilbert started his
+examination of the nature of the loadstone by pointing out the
+different kinds of motion due to a magnet. The five kinds (other than
+up and down) are:[123]
+
+    (1) coitio (vulgo attractio, dicta) ad unitatem magneticam
+    incitatio.
+
+    (2) directio in polos telluris, et telluris in mundi
+    destinatos terminos verticitas et consistentia.
+
+    (3) variatio, a meridiano deflexio, quem motum nos depravatum
+    dicimus.
+
+    (4) declinatio, infra horizontem poli magnetici descensus.
+
+    (5) motus circularis, seu revolutio.
+
+Of the five he initially listed, three are not basic ones. Variation
+and declination he later explained as due to irregularities of the
+surface of the earth, while direction or verticity is the ordering
+motion that precedes coition.[124] This leaves only coition and
+revolution as the basic motions. How these followed from "the
+congregant nature of the loadstone can be seen when the effusion of
+forms has been considered."
+
+Coition (he did not take up revolution at this point) differed from
+that due to other attractions. There are two and only two kinds of
+bodies that can attract: electric and magnetic.[125] Gilbert refined
+his position further by arguing that one does not even have magnetic
+attraction[126] but instead the mutual motion to union that he called
+coition.[127] In electric attraction, one has an action-passion
+relation of cause and effect with an external agent and a passive
+recipient; while in magnetic coition, both bodies act and are acted
+upon, and both move together.[128] Instead of an agent and a patient
+in coition,[129] one has "conactus." Coition, as the Latin origin of
+the term denoted, is always a concerted action. [130] This can be seen
+from the motions of two loadstones floating on water.[131] The mutual
+motion in coition was one of the reasons for Gilbert's rejection of
+the perpetual motion machine of Peregrinus.[132]
+
+    [123] _Ibid._, ch. 1, pp. 45-46.
+
+    [124] M: pp. 110, 314.
+
+    [125] M: pp. 82, 105, 170, 172, 217.
+
+    [126] M: p. 98.
+
+    [127] M: pp. 100, 112, 113, 143, 148. It need hardly be
+    pointed out that coitus is not an impersonal term.
+
+    [128] M: p. 110.
+
+    [129] M: p. 110.
+
+    [130] M: pp. 109, 115, 148, 149, 155, 166, 174.
+
+    [131] M: pp. 110, 155.
+
+    [132] M: pp. 166, 332. See also footnote 84.
+
+Magnetic coition, unlike electric attraction, cannot be screened.[133]
+Hence it cannot be corporeal for it travels freely through bodies[134]
+and especially magnetic bodies;[135] one can understand the action of
+the armature on this basis.[136] Since coition cannot be prevented by
+shielding, it must have an immaterial cause.[137]
+
+    [133] M: pp. 90, 106, 107, 108, 113, 132, 135, 136, 158. This
+    is, of course, contrary to modern experience.
+
+    [134] M: pp. 106, 107, 108, 114, 134, 136, 140, 162.
+
+    [135] M: pp. 106, 109, 114, 159, 162.
+
+    [136] M: pp. 137-140.
+
+    [137] M: p. 109.
+
+Yet, unless one has the occult action-at-a-distance, change must be
+caused by contact forces. Gilbert resolved the paradox of combining
+contact forces with forces that cannot be shielded, by passing to a
+higher level of abstraction for the explanation of magnetic phenomena:
+he saw the contact as that of a form with matter.
+
+Although Gilbert remarked that the cause of magnetic phenomena did
+not fall within any of the categories of the formal causes of the
+Aristotelians, he did not renounce for this reason the medieval
+tradition. Actually there are many similarities between Gilbert's
+explanation of the loadstone's powers and that of St. Thomas. Magnetic
+coition is not due to any of the generic or specific forms of the
+Aristotelian elements, nor is it due to the primary qualities of any
+of their elements, nor is it due to the celestial "generans" of
+terrestrial change.[138]
+
+    Relictis aliorum opinionibus de magnetis attractione; nunc
+    coitionis illius rationem, et motus illius commoventem
+    naturam docebimus. Cum vero duo sint corporum genera, quae
+    manifestis sensibus nostris motionibus corpora allicere
+    videntur, Electrica et Magnetica; Electrica naturalibus ab
+    humore effluviis; Magnetica formalibus efficientiis, seu
+    potius primariis vigoribus, incitationes faciunt. Forma ilia
+    singularis est, et peculiaris, non Peripateticorum causa
+    formalis, et specifica in mixtis, est secunda forma, non
+    generantium corporum propagatrix; sed primorum et praeciporum
+    globorum forma; et partium eorum homogenearum, non
+    corruptarum, propria entitas et existentia, quam nos
+    primariam, et radicalem, et astream appellare possumus
+    formam; non formam primam Aristotelis; sed singularem illam,
+    quae globum suum proprium tuetur et disponit. Talis in
+    singulis globis, Sole, lunas et astris, est una; in terra
+    etiam una, quae vera est ilia potentia magnetica, quam nos
+    primarium vigorem appellamus. Quare magnetica natura est
+    telluris propria, eiusque omnibus verioribus partibus,
+    primaria et stupenda ratione, insita; haec nec a caelo toto
+    derivatur procreaturve, per sympathiam, per influentiam, aut
+    occultiores qualitates; nec peculiari aliquo astro: est enim
+    suus in tellure magneticus vigor, sicut in sole et luna suae
+    formae; frustulumque; lunae, lunatice ad eius terminos, et
+    formam componit se; solarque; ad solem, sicut magnes ad
+    tellurem, et ad alterum magnetem, secundum naturam sese
+    inclinando et alliciendo. Differendum igitur de tellure quae
+    magnetica, et magnes; tum etiam de partibus eius verioribus,
+    quae magneticae sunt; et quomodo ex coitione difficiuntur.
+
+Instead, he declared it to be due to a form that is natural and proper
+to that element that he made the primary component of the earth.[139]
+
+To understand his argument, let us briefly recall the peripatetic
+theory of the elements. In this philosophy of nature each element or
+simple body is a combination of a pair of the four primary qualities
+that informs inchoate matter. These qualities are the instruments of
+the elemental forms and determine the properties of the element. Thus
+the element fire is a compound of the qualities hot and dry, and the
+substantial form of fire acts through these qualities. Similarly for
+the other elements, earth, water, and air: their forms determine a
+proper place for each element, and a motion to that place natural to
+each element.[140]
+
+    [138] M: p. 105, and Gilbert, _De magnete_, London, 1600, bk.
+    2 ch. 4, p. 65.
+
+    [139] M: p. 105.
+
+    [140] M: pp. 289, 322.
+
+Gilbert had previously declared that the primary substance of the
+earth is an element. Since it is an element, it has a motion natural
+to it, and this motion is magnetic coition. As an Aristotelian
+considered the substantial form of the element, fire, to act through
+the qualities of hot and dry, and to cause an upward motion; so
+Gilbert argued that the substantial form of his element, pure
+loadstone, acts through the magnetic qualities and causes magnetic
+coition. This motion is due to its primary form, and is natural to the
+element earth.[141] It is instilled in all proper and undegenerate
+parts of the earth,[142] but in no other element.[143]
+
+    [141] M: pp. 26, 68, 105, 179, 198, 307, 335, 343. For
+    rotation, see footnote 147.
+
+    [142] M: pp. 67, 71. That each part is informed with the
+    properties of the whole is an argument favoring an animistic
+    explanation of the nature of this form.
+
+    [143] M: p. 109.
+
+To the medieval philosopher, the "generantia" of the occult powers of
+the loadstone are the heavenly bodies. Gilbert, however, endowed the
+earth with these heavenly powers which were placed in the earth in the
+beginning[144] and caused all magnetic materials to conform with it
+both physically and formally.[145] Such magnetic powers are the
+property of all parts of the earth;[146] they give the earth its
+rotating motion[147] and hold the earth together in spite of this
+motion.[148]
+
+    [144] M: pp. 111, 188.
+
+    [145] M: pp. 67, 105, 179, 183.
+
+    [146] M: pp. 101, 105, 217.
+
+    [147] M: pp. 179, 304, 305, 311, 322, 326, 328, 330-334,
+    338-343.
+
+    [148] M: pp. 142, 179; see also electric attraction, p. 97.
+
+Indeed, each of the main stellar bodies, sun, moon, stars, and earth,
+has such a form or principle unique to itself that causes its parts
+not only to conform with itself but to revolve.[149] Thus, if one
+removes a piece of the moon from this body, it will tend to align
+itself with the moon and then to return to its proper place; and a
+fragment of the sun would similarly tend to return after proper
+orientation.[150] Moreover, there is a farther-ranging, though weaker,
+mutual action of the heavenly bodies so that one has a causal
+hierarchy of these specific conforming powers. The form of the sun is
+superior to that of the inferior globes and is responsible for the
+order and regularity of planetary orbits.[151] In like manner, the
+moon is responsible for the tides of the ocean.[152]
+
+    [149] M: pp. 308, 317-343.
+
+    [150] M: pp. 106, 340.
+
+    [151] M: pp. 308, 309, 311, 330, 333, 344, 347.
+
+    [152] M: pp. 136, 334, 345.
+
+By virtue of the causal hierarchy of forms, the loadstone acquires its
+magnetic powers from the earth.[153] As the earth has its natural
+parts, so has the stone.[154] Although the geometrical center of a
+terrella is the center of the magnetic forces,[155] objects do not
+tend to move to the center but to its poles,[156] where the magnetic
+energy is most conspicuous.[157] However, in a sense, the energy is
+everywhere equal: the virtue is spread throughout the entire mass of
+the loadstone,[158] and all the parts direct the forces to the
+poles.[159] The poles become the "thrones" of the magnetic
+powers.[160] On the other hand, the directive force is stronger where
+coition is weaker and accordingly, verticity is most prominent at the
+equator.[161]
+
+    [153] M: pp. 184-186, 190, 232. This is not quite the same
+    argument as that the powers of the loadstone are identical
+    with those of the earth. See footnote 78.
+
+    [154] M: pp. 125, 180.
+
+    [155] M: p. 151.
+
+    [156] M: pp. 121, 150.
+
+    [157] M: pp. 115, 151, 165.
+
+    [158] M: pp. 106, 118, 151, 191, 205, 221, 243.
+
+    [159] M: pp. 116, 117, 119, 131, 183, 188, 221.
+
+    [160] M: p. 31.
+
+    [161] M: pp. 116, 151, 200.
+
+The strength of a loadstone depends upon its shape and mass. A bar
+magnet has greater powers than a spherical one because it tends to
+concentrate the magnetic powers more in the ends.[162] For a given
+purity and shape, the heavier the loadstone, the greater its
+strength.[163] A loadstone has a maximum degree of magnetic force that
+cannot be increased.[164] However, weaker ones can be strengthened by
+stronger ones.[165] Similarly, the shape and weight of the iron
+determine the magnetic force in coition.[166]
+
+    [162] M: pp. 131, 132, 153-158.
+
+    [163] M: pp. 141, 152, 153, 158, 161, 191, 222.
+
+    [164] M: p. 146.
+
+    [165] M: p. 165.
+
+    [166] M: p. 153.
+
+The formal forces of a loadstone emanate in all directions from
+it,[167] but there is a bound to it that Gilbert called the "orbis
+virtutis."[168] The shape of this "orbis virtutis" is determined by
+the shape of the stone.[169] This insensible effusion is analogous
+to the spreading of light that reveals its presence only by opaque
+bodies.[170] Similarly, the magnetic forms are effused from the
+stone,[171] and can only reveal their presence by coition with
+another loadstone or by "awakening" magnetic bodies within the
+"orbis virtutis."[172] Unmagnetized iron that comes within the "orbis
+virtutis" is altered, and the magnetic virtue renews a form that is
+already potentially in the iron.[173] The formal energy is drawn not
+only from the stone but from the iron.[174] This is not generation, or
+alteration in the sense of a new impressed quality, but alteration in
+the sense of the entelechy or the activation of a form potentially
+present.[175] Those bodies magnetized by coming within the "orbis
+virtutis" have in turn an efflux of their own.[176] Iron can also
+receive verticity directly from the earth without the intervention of
+an ordinary loadstone.[177] Such verticity can be expelled and
+annulled by the presence of another loadstone.[178]
+
+    [167] M: pp. 121, 123, 124, 304, 305, 306, 307, 309.
+
+    [168] Gilbert defined the _orbis virtutis_ in the glossary at
+    the beginning of his treatise as, "... totum illud spatium,
+    per quod quaevis magnetis virtus extenditur." This is the
+    core of the difference between electric and magnetic forces.
+    The substantial form of an electric could not be "effused,"
+    but was "imprisoned" in matter (as the Neoplatonic soul in
+    the human body); while the primary form of a magnet did not
+    require a material carrier and its effusion was similar to
+    the propagation of a species in light.
+
+    [169] M: pp. 124, 150, 151.
+
+    [170] M: pp. 123, 307.
+
+    [171] M: pp. 304-307. See also p. 310, where it is stated
+    that the sun and earth could awaken souls.
+
+    [172] M: pp. 101, 110, 112, 123, 148, 149, 304, 305. This
+    awakening of the iron within the "orbis virtutis" is
+    comparable (pp. 216, 350) to the birth of a child under the
+    influence of the stars.
+
+    [173] M: pp. 110, 111, 112, 189, 216, 217. See also footnote
+    36.
+
+    [174] M: p. 106.
+
+    [175] M: pp. 106, 109, 110.
+
+    [176] M: pp. 113, 114.
+
+    [177] M: pp. 190, 192, 210-216.
+
+    [178] M: p. 209.
+
+Although one does not normally find iron to be magnetized, a loadstone
+always has some magnetism. That two bodies such as iron and loadstone
+should have different properties is the result of the loss of a form
+by the iron, but this form is still potentially present in the iron.
+The iron that has been obtained from an ore has been deformed,[179]
+for it has been placed "outside its nature" by the fire.[180] The
+nature has not been removed, since, once the iron has cooled, the
+confused form can be reformed by a loadstone. [181] The latter
+"awakens" the proper form of iron.[182] After smelting, the magnetized
+iron may manifest stronger powers than a loadstone of equal weight,
+but this is because the primary matter of the earth is purer in the
+iron than in the loadstone.[183] If fire does not deform a loadstone
+too much, it can be remagnetized,[184] but a burnt loadstone cannot be
+reformed.[185] Corruption from external causes may also deform a
+loadstone or iron so that it can not be magnetized.[186] Bodies mixed
+with the degenerate substance of the earth or with aqueous humor
+spoilt by contamination with earth, do not show either electric
+attraction or magnetic coition.[187]
+
+    [179] M: pp. 107, 110, 111.
+
+    [180] M: p. 108.
+
+    [181] M: pp. 111, 112, 113.
+
+    [182] M: pp. 109, 111, 112, 148, 149.
+
+    [183] M: pp. 112, 149.
+
+    [184] M: pp. 142, 189.
+
+    [185] M: p. 190.
+
+    [186] M: pp. 85, 105, 113, 143, 226.
+
+    [187] M: p. 84.
+
+In a manner suggestive of Peregrinus, Gilbert wrote that, "magnetic
+bodies seek formal unity."[188] Thus a dissected loadstone not only
+tends to come back together, as in the unordered coacervation of
+electric attraction, but to restore the organization it had before
+dissection.[189] Accordingly, opposite poles appear on the interfaces
+of the sections, not "from an opposition" but from "a concordance and
+a conformance."[190] This ensures that when the parts are joined
+together again, they have the same orientation as before. Gilbert
+compared this power of restoring the original loadstone with that of a
+plant's vital power under the process of cutting and grafting; the
+plant can be revived only when the parts are in a certain order.[191]
+
+    [188] M: p. 186.
+
+    [189] M: pp. 185-188. See also footnote 31.
+
+    [190] M: pp. 186, 193.
+
+    [191] M: pp. 199-200.
+
+A hypothesis similar to that used to explain electric attraction lay
+beneath the explanation of magnetic coition: that bodies brought into
+contact will move together. In electric attraction, the contact is
+material and due to the "spiritus" from the electric body; in magnetic
+coition, it is formal and depends on the action of a primary form that
+spreads from a magnetized body to its limit of effusion, the "orbis
+virtutis." If iron is inside the "orbis virtutis," the two bodies
+"enter into alliance and are one and the same"[192] for within it
+"they have absolute continuity, and are joined by reason of their
+accordance, albeit the bodies themselves be separated."[193]
+
+Gilbert's treatment of coition can be analyzed into the same two steps
+as can electric attraction. First occurs a contact, which in this case
+is not physical but formal, and from this initial formal contact
+follows movement to a more complete unity. Both the contact and the
+movement to unity are described on the same level of abstraction,
+instead of on two different levels as in electric attraction. Again
+one does not find any clear-cut concept of force as a push or
+pull,[194] but instead, a motion to a formal unity, this time a
+cooperative motion. The parts of a magnetic body are in greater
+harmony when they are assembled in a certain pattern and so they move
+accordingly.
+
+    [192] M. p. 111.
+
+    [193] M: p. 112.
+
+    [194] See, however, M: pp. 112, 113.
+
+As to the nature of the primary form itself, Gilbert agreed with
+Thales that it is like a soul,[195] "for the power of self-movement
+seems to betoken a soul."[196] With Galen and St. Thomas he placed the
+form of the loadstone superior to that of inanimate matter.[197] In a
+sense, Gilbert even made it superior to organic matter, for it is
+incapable of error.[198] Like the soul, the primary form cannot be
+fragmented; when a loadstone is divided, one does not separate the
+poles but each part acquires its own poles and an equator.
+
+    [195] M: pp. 109, 312.
+
+    [196] M: p. 109.
+
+    [197] M: p. 309.
+
+    [198] M: pp. 311-312.
+
+Like the soul, fire does not destroy it.[199] Like the soul of astral
+bodies, and of the earth itself, it produces complex but regular
+motions; the motion of two loadstones on water offers such an
+example.[200] Like the soul of a newborn child, whose nature depends
+on the configuration of the heavens, the properties in the newly
+awakened iron depend upon its position in the "orbis virtutis."[201]
+
+Whence Gilbert declared:
+
+    ... the earth's magnetic force and the animate form of the
+    globes, that are without senses, but without error ... exert
+    an unending action, quick, definite, constant, directive,
+    motive, imperant, harmonious through the whole mass of
+    matter; thereby are the generation and the ultimate decay of
+    all things on the superficies propagated.[202] The bodies of
+    the globes ... to the end that they might be in themselves,
+    and in their nature endure, had need of souls to be conjoined
+    to them, for else there were neither life, nor prime act, nor
+    movement, nor unition, nor order, nor coherence, nor
+    _conactus_, nor _sympathia_, nor any generation nor
+    alteration of seasons, and no propagation; but all were in
+    confusion....[203] Wherefore, not with reason, Thales ...
+    declares the loadstone to be animate, a part of the animate
+    mother earth and her beloved offspring.[204]
+
+Gilbert ended book 5 of his treatise on the magnet with a persuasive
+plea for his magnetic philosophy of the cosmos, yet his conceptual
+scheme was not too successful an induction in the eyes of his
+contemporaries. In particular the man from whom the Royal Society took
+the inspiration for their motto, "Nullius in verba," did not value his
+magnetic philosophy very highly. Whether Francis Bacon was alluding to
+Gilbert when he expounded his parable of the spider and the ant[205]
+is not explicit, but he certainly had him in mind when he wrote of
+the Idols of the Cave and the Idols of the Theater.[206]
+
+    [199] M: p. 108.
+
+    [200] M: p. 110.
+
+    [201] M: p. 216.
+
+    [202] M: p. 311.
+
+    [203] M: pp. 310, 311.
+
+    [204] M: p. 312.
+
+    [205] Francis Bacon, _op. cit._ (footnote 42), vol. 1,
+    _Novum organum_, bk. 1, ch. 95, p. 306.
+
+    [206] _Ibid._, ch. 54 and ch. 64 (pp. 259 and 267).
+
+Few of the subsequent experimenters and writers on magnetism turned to
+Gilbert's work to explain the effects they discussed. Although both
+his countrymen Sir Thomas Browne[207] and Robert Boyle[208] described
+a number of the experiments already described by Gilbert and even used
+phrases similar to his in describing them, they tended to ignore
+Gilbert and his explanation of them. Instead, both turned to an
+explanation based upon magnetic effluvia or corpuscles. The only
+direct continuation of Gilbert's _De magnete_ was the _Philosophia
+magnetica_ of Nicolaus Cabeus.[209] The latter sought to bring
+Gilbert's explanation of magnetism more directly into the fold of
+medieval substantial forms.
+
+    [207] Sir Thomas Browne, _Pseudodoxia epidemica_, ed. 3,
+    London, 1658, bk. 2, ch. 2, 3, 4.
+
+    [208] Robert Boyle, _Experiments and notes about the
+    mechanical production of magnetism_, London, 1676.
+
+    [209] Nicolaus Cabeaus, _Philosophia magnetica_, Ferarra,
+    1629.
+
+However, Gilbert's efforts towards a magnetic philosophy did find
+approval in two of the men that made the seventeenth century
+scientific revolution. While Galileo Galilei[210] was critical of
+Gilbert's arguments as being unnecessarily loose, he nevertheless saw
+in them some support for the Copernican world-system. Johannes
+Kepler[211] found in Gilbert's explanation of the loadstone-earth a
+possible physical framework for his own investigations on planetary
+motions.
+
+    [210] Galileo Galilei, _Dialogue on the great world systems_,
+    in the translation of T. Salusbury, edited and corrected by
+    G. de Santillana, University of Chicago Press, 1953, pp.
+    409-423.
+
+    [211] Cassirer, _op. cit._ (footnote 3), vol. 1, p. 359-367.
+
+Yet Galileo and Kepler had moved beyond Gilbert's world of
+intellectual experience. They were no longer concerned with
+determining the nature of material things in order to explain their
+qualities. Instead, they had passed into the realm of the mathematical
+relations of kinematics: quantitative law had replaced qualitative
+experience of cause and effect. Gilbert had some intimations of the
+former, but he was primarily concerned with explaining magnetism in
+terms of substance and attribute. He had to ascertain the nature of
+the loadstone and of the earth in order to explain their properties
+and their motions. He even went further and explained the nature of
+the form of the loadstone.
+
+His method of determining the nature of a substance was a rather
+primitive one--it was not by a process of induction and deduction, nor
+by synthesis and analysis, nor by "resolutio" and "compositio," but by
+the use of analogies. He compared the natural history of metals and
+rocks with that of plants, and gave the two former the same kind of
+principle as the last. He determined the nature of the entity behind
+electric attraction by finding that such attractions could be
+screened, and hence it had to be corporeal. After comparing this
+"corporeal" attraction with that of the surface forces of a fluid, he
+concluded that the entity was a subtle fluid. He determined the nature
+of the entity behind magnetic coition by (incorrectly) finding that it
+cannot be screened, and hence the cause had to be a formal one. Since
+both stars and the loadstone can carry out regular motions, and stars
+had souls, the form of the loadstone had to be a soul. The method of
+analogy was used again in his comparison of the properties of a
+magnetized needle placed over a terrella with the properties of a
+compass placed over the earth, whence he concluded the earth to be a
+giant loadstone. Since the earth resembled the other celestial globes,
+it had to have, the circular inertia of these globes.[212] As for his
+magnetic experiments to show physically that the earth moved, and his
+unbridled speculations on the "animae" of the celestial globes, one is
+inclined to agree with Bacon's estimate of his magnetic philosophy.
+
+One might consider Gilbert's book as a Renaissance recasting of
+Aristotle's _De caelo_ with the earth in the role of a heavenly body.
+So it might well be, for Gilbert was still concerned with
+distinguishing the nature of the heavenly body, earth, that caused the
+coitional and revolving motions, from those natures for which up and
+down, and coacervation were the natural motions. Because the natural
+motions were different, the natures had to be different, and these
+different natures led to a universe and a concept of space neither of
+which were Aristotelian. One no longer had a central reference point
+for absolute space; there was no "motor essentialis" focused upon the
+earth but one had only the mutual motion of the heavenly bodies. The
+natural distinction between heaven and earth was gone, for the earth
+was no longer an inert recipient but a source of wonder, and so the
+stage was set for the universe of Giordano Bruno.[213] The
+Aristotelian philosophy of nature was used to justify a new cosmology,
+but there was no break with the past such as one finds in Galileo and
+Kepler. Instead he followed the chimera of the world organism, as
+Paracelsus had, and of the world soul, as Bruno had. Consequently
+Gilbert's physiology did not enter into the main stream of science.
+
+    [212] Because the earth has the same nature as a celestial
+    globe, its revolution and circular inertia require no more
+    explanation than those of any other heavenly body.
+
+    [213] One wonders if Bruno might not have been another of the
+    stimuli for Gilbert. The latter's interest in magnetism began
+    shortly before Bruno visited England and lectured on his
+    interpretation of the Copernican theory.
+
+Yet this is not to deny Gilbert's services to natural philosophy.
+Although not all of his experimental distinction between electric and
+magnetic forces has been retained, still, some of it has. His "orbis
+virtutis" was to become a field of force, and his class of electrics,
+insulators of electricity. His practice of arming a loadstone was to
+be of considerable importance in the period before the invention of
+the electromagnet. His limited recognition of the mutual nature of
+forces and their quantitative basis in mass was ultimately to appear
+in Newton's second and third laws of motion. In spite of the
+weaknesses of the method of analogy, Gilbert's experimental model of
+the terrella to interpret the earth's magnetism was as much a
+contribution to scientific method as to the theory of magnetism.
+
+Consequently, in spite of an explanation of electricity and magnetism
+that one would be amused to find in a textbook today, we can still
+read his _De magnete_ with interest and profit. But more important
+than his scientific speculations, is the insight he can give us into a
+Renaissance philosophy of nature and its relation to medieval thought.
+One does not find in _De magnete_ a prototype of modern physical
+science in the same sense one can in the writings of Galileo and
+Kepler. Instead one finds here a full-fledged example of an earlier
+kind of science, and this is Gilbert's main value to the historian
+today.
+
+
+
+
+
+End of the Project Gutenberg EBook of The Natural Philosophy of William
+Gilbert and His Predecessors, by W. James King
+
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+The Project Gutenberg EBook of The Natural Philosophy of William Gilbert
+and His Predecessors, by W. James King
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
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+Title: The Natural Philosophy of William Gilbert and His Predecessors
+
+Author: W. James King
+
+Release Date: April 15, 2010 [EBook #31999]
+
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+*** START OF THIS PROJECT GUTENBERG EBOOK NATURAL PHILOSOPHY--WILLIAM GILBERT ***
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+
+
+
+<p><span class='pagenum'><a name="Page_121" id="Page_121">[Pg 121]</a></span></p>
+
+
+<p style='text-align:right;'><big><span class="smcap">Contributions from<br /><br />
+
+the Museum of History and Technology:<br /><br />
+
+Paper 8<br /><br /><br /></span></big></p>
+
+
+<p style='text-align:right;'><big><span class="smcap">The Natural Philosophy of<br />
+William Gilbert and His Predecessors</span><br /><br />
+
+<i>W. James King</i><br /><br /></big></p>
+
+<hr style="width: 65%;" />
+<p><span class='pagenum'><a name="Page_122" id="Page_122">[Pg 122]</a></span></p>
+<p style='text-align:right;'><big>By W. James King</big></p>
+<h2>THE NATURAL PHILOSOPHY OF</h2>
+
+<h1>WILLIAM GILBERT</h1>
+
+<h2>AND HIS PREDECESSORS</h2>
+
+<div class="blockquot"><p><big><i>Until several decades ago, the physical sciences were
+considered to have had their origins in the 17th century&mdash;mechanics
+beginning with men like Galileo Galilei and
+magnetism with men like the Elizabethan physician and
+scientist William Gilbert.<br /><br />
+
+Historians of science, however, have traced many of the
+17th century's concepts of mechanics back into the Middle
+Ages. Here, Gilbert's explanation of the loadstone and
+its powers is compared with explanations to be found in
+the Middle Ages and earlier.<br /><br />
+
+From this comparison it appears that Gilbert can best
+be understood by considering him not so much a herald
+of the new science as a modifier of the old.</i><br /><br />
+
+<span class="smcap">The Author</span>: <i>W. James King is curator of electricity,
+Museum of History and Technology, in the Smithsonian
+Institution's United States National Museum.</i></big></p></div>
+
+<p>The year 1600 saw the publication by an English
+physician, William Gilbert, of a book on the
+loadstone. Entitled <i>De magnete</i>,<a name="FNanchor_1_1" id="FNanchor_1_1"></a><a href="#Footnote_1_1" class="fnanchor">[1]</a> it has traditionally
+been credited with laying a foundation for the
+modern science of electricity and magnetism. The
+following essay is an attempt to examine the basis
+for such a tradition by determining what Gilbert's
+original contributions to these sciences were, and
+to make explicit the sense in which he may be considered
+as being dependent upon earlier work. In
+this manner a more accurate estimate of his position
+in the history of science may be made.</p>
+
+<div class="figcenter" style="width: 700px;">
+<p><span class='pagenum'><a name="Page_123" id="Page_123">[Pg 123]</a></span></p>
+<img src="images/title.jpg" width="700" height="1000" alt="William Gilbert's Book on the Loadstone" title="William Gilbert's Book on the Loadstone" />
+<span class="caption">Figure 1.&mdash;<span class="smcap">William Gilbert's Book on the Loadstone, Title Page of the First Edition,
+from a Copy in the Library of Congress.</span> (<i>Photo courtesy of the Library of Congress.</i>)</span>
+</div>
+
+<p>One criterion as to the book's significance in the
+history of science can be applied almost immediately.
+A number of historians have pointed to the introduction
+of numbers and geometry as marking a
+watershed between the modern and the medieval
+understanding of nature. Thus A. Koyr&eacute; considers
+the Archimedeanization of space as one of the necessary
+features of the development of modern astronomy
+and physics.<a name="FNanchor_2_2" id="FNanchor_2_2"></a><a href="#Footnote_2_2" class="fnanchor">[2]</a>
+A. N. Whitehead and E. Cassirer have turned to measurement
+and the quantification of force as marking this
+transition.<a name="FNanchor_3_3" id="FNanchor_3_3"></a><a href="#Footnote_3_3" class="fnanchor">[3]</a>
+However, the<span class='pagenum'><a name="Page_124" id="Page_124">[Pg 124]</a></span>
+obvious absence<a name="FNanchor_4_4" id="FNanchor_4_4"></a><a href="#Footnote_4_4" class="fnanchor">[4]</a>
+of such techniques in <i>De magnete</i> makes it difficult to consider
+Gilbert as a founder of modern electricity and magnetism in this
+sense.</p>
+
+<p>There is another sense in which it is possible to
+contend that Gilbert's treatise introduced modern
+studies in these fields. He has frequently been
+credited with the introduction of the inductive
+method based upon stubborn facts, in contrast to
+the methods and content of medieval Aristotelianism.<a name="FNanchor_5_5" id="FNanchor_5_5"></a><a href="#Footnote_5_5" class="fnanchor">[5]</a>
+No science can be based upon faulty observations
+and certainly much of <i>De magnete</i> was devoted to the
+destruction of the fantastic tales and occult sympathies
+of the Romans, the medieval writers, and the
+Renaissance. However, let us also remember that
+Gilbert added few novel empirical facts of a
+fundamental nature to previous observations on the
+loadstone. Gilbert's experimental work was in large
+part an expansion of Petrus Peregrinus' <i>De magnete</i>
+of 1269,<a name="FNanchor_6_6" id="FNanchor_6_6"></a><a href="#Footnote_6_6" class="fnanchor">[6]</a> and a development of works like Robert Norman's
+<i>The new attractive</i>,<a name="FNanchor_7_7" id="FNanchor_7_7"></a><a href="#Footnote_7_7" class="fnanchor">[7]</a> in which the author discussed
+how one could show experimentally the declination and
+inclination of a magnetized needle, and like William
+Borough's <i>Discourse on the variation of the compass or
+magnetized needle</i>,<a name="FNanchor_8_8" id="FNanchor_8_8"></a><a href="#Footnote_8_8" class="fnanchor">[8]</a> in which the author suggested the
+use of magnetic declination and inclination for navigational
+purposes but felt too little was known about
+it. That other sea-going nations had been considering
+using the properties of the magnetic compass to solve
+their problems of navigation in the same manner can
+be seen from Simon Stevin's <i>De havenvinding</i>.<a name="FNanchor_9_9" id="FNanchor_9_9"></a><a href="#Footnote_9_9" class="fnanchor">[9]</a></p>
+
+<p>Instead of new experimental information, Gilbert's
+major contribution to natural philosophy was that
+revealed in the title of his book&mdash;a new philosophy
+of nature, or physiology, as he called it, after the
+early Greeks. Gilbert's attempt to organize the mass
+of empirical information and speculation that came
+from scholars and artisans, from chart and instrument
+makers, made him "the father of the magnetic
+Philosophy."<a name="FNanchor_10_10" id="FNanchor_10_10"></a><a href="#Footnote_10_10" class="fnanchor">[10]</a></p>
+
+<p>Gilbert's <i>De magnete</i> was not the first attempt to
+determine the nature of the loadstone and to explain
+how it could influence other loadstones or iron. It
+is typical of Greek philosophy that one of the first
+references we have to the loadstone is not to its
+properties but to the problem of how to explain these
+properties. Aristotle<a name="FNanchor_11_11" id="FNanchor_11_11"></a><a href="#Footnote_11_11" class="fnanchor">[11]</a> preserved the solution of the
+first of the Ionian physiologists: "Thales too ...
+seems to suppose that the soul is in a sense the cause
+of movement, since he says that a stone has a soul
+because it causes movement to iron." Plato turned
+to a similar animistic explanation in his dialogue,
+<i>Ion</i>.<a name="FNanchor_12_12" id="FNanchor_12_12"></a><a href="#Footnote_12_12" class="fnanchor">[12]</a> Such an animistic solution pervaded many of
+the later explanations.</p>
+
+<p>That a mechanical explanation is also possible was
+shown by Plato in his <i>Timaeus</i>.<a name="FNanchor_13_13" id="FNanchor_13_13"></a><a href="#Footnote_13_13" class="fnanchor">[13]</a> He argued that
+since a vacuum does not exist, there must be a
+plenum throughout all space. Motion of this
+plenum can carry objects along with it, and one
+could in this manner explain attractions like that due
+to amber and the loadstone.</p>
+
+<p>Another mechanical explanation was based upon
+a postulated tendency of atoms to move into a vacuum
+rather than upon the latter's non-existence.
+Lucretius restated this Epicurean explanation in his
+<span class='pagenum'><a name="Page_125" id="Page_125">[Pg 125]</a></span>
+<i>De rerum natura</i>.<a name="FNanchor_14_14" id="FNanchor_14_14"></a><a href="#Footnote_14_14" class="fnanchor">[14]</a> Atoms from the loadstone push
+away the air and tend to cause a vacuum to form
+outside the loadstone. The structure of iron is such
+that it, unlike other materials, can be pushed into
+this empty space by the thronging atoms of air beyond
+it.</p>
+
+<p>Galen<a name="FNanchor_15_15" id="FNanchor_15_15"></a><a href="#Footnote_15_15" class="fnanchor">[15]</a>
+returned to a quasi-animistic solution in his denial of Epicurus'
+argument, which he stated somewhat differently from Lucretius. One can
+infer that Galen held that all things have, to a greater or lesser
+degree, a sympathetic faculty of attracting its specific, or proper,
+quality to itself.<a name="FNanchor_16_16" id="FNanchor_16_16"></a><a href="#Footnote_16_16" class="fnanchor">[16]</a>
+The loadstone is only an inanimate example of what one finds in
+nutritive organs in organic beings.</p>
+
+<p>One of the few writers whose explanations of the
+loadstone Gilbert mentioned with approval is St.
+Thomas Aquinas. Although the medieval scholastic
+philosophy of St. Thomas seems foreign to our way
+of thinking, it formed a background to many of Gilbert's
+concepts, as well as to those of his predecessors,
+and it will assist our discussion to consider briefly
+Thomist philosophy and to make its terminology
+explicit at this point.<a name="FNanchor_17_17" id="FNanchor_17_17"></a><a href="#Footnote_17_17" class="fnanchor">[17]</a></p>
+
+<p>In scholastic philosophy, all beings and substances
+are a coalescence of inchoate matter and enacting
+form. Form is that which gives being to matter and
+which is responsible for the "virtus" or power to cause
+change, since matter in itself is inert. Moreover,
+forms can be grasped intellectually, whence the
+nature of a being or a substance can be known. Any
+explanation of phenomena has to be based upon
+these innate natures, for only if the nature of a substance
+is known can its properties be understood.
+Inanimate natures are determined by observation,
+abstraction, and induction, or by classification.<a name="FNanchor_18_18" id="FNanchor_18_18"></a><a href="#Footnote_18_18" class="fnanchor">[18]</a></p>
+
+<p>The nature of a substance is causally prior to its
+properties; while the definition of the nature is logically
+prior to these properties. Thus, what we call
+the theory of a substance is expressed in its definition,
+and its properties can be deduced from this
+definition.</p>
+
+<p>The world of St. Thomas is not a static one, but
+one of the Aristotelian motions of quantity (change
+of size), of quality (alteration), and of place (locomotion).
+Another kind of change is that of substance,
+called generation and corruption, but this is a mutation,
+occurring instantly, rather than a motion, that
+requires time. In mutation the essential nature is
+replaced by a new substantial form.</p>
+
+<p>All these changes are motivated by a causal hierarchy
+that extends from the First Cause, the "Dator
+Formarum," or Creator, to separate intellectual substances
+that may be angels or demons, to the celestial
+bodies that are the "generantia" of the substantial
+forms of the elements and finally to the four prime
+qualities (dry and wet, hot and cold) of the substantial
+forms. Accidental forms are motivated by the substantial
+forms through the instrumentality of the four
+prime qualities, which can only act by material
+contact.</p>
+
+<p>The only causal agents in this hierarchy that are
+learned through the senses are the tangible qualities.
+Usually the prime qualities are not observed directly,
+but only other qualities compounded of them. One
+of the problems of scholastic philosophy was the
+incorporation, into this system of efficient agents,
+of other qualities, such as the qualities of gravity
+and levity that are responsible for upward and downward
+motion.</p>
+
+<p>Besides the causal hierarchy of forms, the natural
+world of St. Thomas existed in a substantial and spatial
+hierarchy. All substances whether an element or a
+mixture of elements have a place in this hierarchy
+by virtue of their nature. If the material were removed
+from its proper place, it would tend to return.
+In this manner is obtained the natural downward
+motion of earth and the natural upward motion
+of fire.</p>
+
+<p>Local motion can also be caused by the "virtus coeli"
+generating a new form, or through the qualitative
+change of alteration. Since each element and mixture
+has its own natural place in the hierarchy of material
+substances, and this place is determined by its nature,
+changes of nature due to a change of the form can
+produce local motion. If before change the substance
+is in its natural place, it need not be afterwards,
+and if not, would then tend to move to its new
+natural place.</p>
+
+<p>It will be noted that the scholastic explanation of
+<span class='pagenum'><a name="Page_126" id="Page_126">[Pg 126]</a></span>
+inanimate motion involved the action and passion
+of an active external mover and a passive capacity
+to be moved. Whence the definition of motion that
+Descartes<a name="FNanchor_19_19" id="FNanchor_19_19"></a><a href="#Footnote_19_19" class="fnanchor">[19]</a> was later to deride, "motus est actus
+entis in potentia prout quod in potentia."</p>
+
+<p>We have seen above that the "motor essentialis"
+for terrestial change is the "virtus coeli." Thus the
+enacting source of all motion and change is the
+heavens and the heavenly powers, while the earth
+and its inhabitants becomes the focus or passive
+recipient of these actions. In this manner the scholastic
+restated in philosophical terms the drama of an
+earth-centered universe.</p>
+
+<p>Although change or motion is normally effected
+through the above mentioned causal hierarchy, it is
+not always necessary that actualization pass from the
+First Cause down through each step of the hierarchy
+to terminate in the qualities of the individual being.
+Some of the steps could be by-passed: for instance
+man's body is under the direct influence of the
+celestial bodies, his intellect under that of the angels
+and his will under God.<a name="FNanchor_20_20" id="FNanchor_20_20"></a><a href="#Footnote_20_20" class="fnanchor">[20]</a> Another example of effects
+not produced through the tangible prime qualities
+is that of the tide-producing influence of the moon
+on the waters of the ocean or the powers of the loadstone
+over iron. Such causal relations, where some
+members of the normal causal chain have been
+circumvented, are called occult.<a name="FNanchor_21_21" id="FNanchor_21_21"></a><a href="#Footnote_21_21" class="fnanchor">[21]</a></p>
+
+<p>While St. Thomas referred to the loadstone in a
+number of places as something whose nature and
+occult properties are well known, it was always as
+an example or as a tangential reference. One does
+not find a systematic treatment of the loadstone in
+St. Thomas, but there are enough references to
+provide a fairly explicit statement of what he considered
+to be the nature of the magnet.</p>
+
+<p>In one of his earliest writings, St. Thomas argued
+that the magnet attracts iron because this is a necessary
+consequence of its nature.<a name="FNanchor_22_22" id="FNanchor_22_22"></a><a href="#Footnote_22_22" class="fnanchor">[22]</a></p>
+
+<div class="blockquot"><p>Respondeo dicendum, quod omnibus rebus naturaliter
+insunt quaedam principia, quibus non solum operationes
+proprias efficere possunt, sed quibus etiam eas convenientes
+fini suo reddant, sive sint actiones quae consequantur rem
+aliquam ex natura sui generis, sive consequantur ex natura
+speciei, ut magneti competit ferri deorsum ex natura sui
+generis, et attrahere ferrum ex natura speciei. Sicut autem
+in rebus agentibus ex necessitate naturae sunt principia
+actionum ipsae formae, a quibus operationes proprie prodeunt
+convenientes fini....</p></div>
+
+<p>Due to its generic form, the loadstone is subject to natural motion of
+place of up and down. However, the "virtus" of its specific form
+enabled it to produce another kind of motion&mdash;it could draw iron
+to itself.</p>
+
+<p>Normally the "virtus" of a substance is limited to those contact
+effects that could be produced by the form operating through the
+active qualities of one substance, on the relatively passive qualities
+of another. St. Thomas asserted the loadstone to be one of these
+minerals, the occult powers of whose form goes beyond those of the
+prime qualities.<a name="FNanchor_23_23" id="FNanchor_23_23"></a><a href="#Footnote_23_23" class="fnanchor">[23]</a></p>
+
+<div class="blockquot"><p>Forma enim elementi non habet aliquam operationem
+nisi quae fit per qualitates activas et passivas, quae sunt
+dispositiones materiae corporalis. Forma autem corporis
+mineralis habet aliquam operationem excedentem qualitates
+activas et passivas, quae consequitur speciem ex influentia
+corporis coelestis, ut quod magnes attrahit ferrum, et quod
+saphirus curat apostema.</p></div>
+
+<p>That this occult power of the loadstone is a result
+of the direct influence of the "virtus coeli" was
+<span class='pagenum'><a name="Page_127" id="Page_127">[Pg 127]</a></span>
+expounded at greater length in his treatise on the
+soul.<a name="FNanchor_24_24" id="FNanchor_24_24"></a><a href="#Footnote_24_24" class="fnanchor">[24]</a></p>
+
+<div class="blockquot"><p>Quod quidem ex propriis formarum operationibus
+perpendi potest. Formae enim elementorum, quae sint
+infimae et materiae propinquissime, non habent aliquam
+operationem excedentem qualitates activas et passivas, ut
+rarum et densum, et aliae huiusmodi, qui videntur esse
+materiae dispositiones. Super has autem sunt formae
+mistorum quae praeter praedictas operationes, habent
+aliquam operationem consequentem speciem, quam fortiuntur
+ex corporibus coelestibus; sicut quod magnes attrahit
+ferrum non propter calorem aut frigiis, aut aliquid huiusmodi;
+sed ex quadam participatione virtutis coelestis.
+Super has autem formas sint iterum animae plantarum,
+quae habent similitudinem non solum ad ipsa corpora
+coelestia, sed ad motores corporum coelestium, inquantum
+sunt principia cuiusdam motus, quibusdam seipsa moventibus.
+Super has autem ulterius sunt animae brutorum,
+quae similitudinem iam habent ad substantiam moventem
+coelestia corpora, non solum in operatione qua movent
+corpora, sed etiam in hoc quod in seipsis cognoscitivae sunt,
+licet brutorum cognitio sit materialium tantum et materialiter....</p></div>
+
+<p>St. Thomas placed the form of the magnet and its
+powers in the hierarchy of forms intermediate between
+the forms of the inanimate world and the
+forms of the organic world with its hierarchy of plant,
+animal and rational souls. The form of the loadstone
+is then superior to that of iron, which can only act
+through its active and passive qualities, but inferior
+to the plant soul, that has the powers of growth from
+the "virtus coeli." This is similar to Galen's comparison
+of the magnet's powers to that of the nutritive
+powers of organic bodies.</p>
+
+<p>In his commentary on Aristotle's <i>Physics</i>, St. Thomas
+explained how iron is moved to the magnet. It is
+moved by some quality imparted to the iron by
+the magnet.<a name="FNanchor_25_25" id="FNanchor_25_25"></a><a href="#Footnote_25_25" class="fnanchor">[25]</a></p>
+
+<div class="blockquot"><p>Illud ergo trahere dicitur, quod movet alterum ad
+seipsum. Movere autem aliquid secundum locum ad
+seipsum contingit tripliciter. Uno modo sicut finis movet;
+unde et finis dicitur trahere, secundum illud poetate:
+"trahit sua quemque voluptas": et hoc modo potest dici quod
+locus trahit id, quod naturaliter movetur ad locum. Alio
+modo potest dici aliquid trahere, quia movet illud ad
+seipsum alterando aliqualiter, ex qua alteratione contingit
+quod alteratum moveatur secundum locum: et hoc modo
+magnes dicitur trahere ferrum. Sicut enim generans
+movet gravia et levia, inquantum dat eis formarum per
+quam moventur ad locum, ita et magnes dat aliquam
+qualitatem ferro, per quam movetur ad ipsum. Et quod
+hoc sit verum patet ex tribus. Primo quidem quia magnes
+non trahit ferrum ex quacumque distantia, sed ex propinquo;
+si autem ferrum moveretur ad magnetem solum sicut
+ad finem, sicut grave ad suum locum, ex qualibet distantia
+tenderet ad ipsum. Secundo, quia, si magnes aliis perungatur,
+ferrum attrahere non potest; quasi aliis vim
+alterativam ipsius impedientibus, aut etiam in contrarium
+alterantibus. Tertio, quia ad hoc quod magnes attrahat
+ferrum, oportet prius ferrum liniri cum magnete, maxime
+si magnes sit parvus; quasi ex magnete aliquam virtutem
+ferrum accipiat ut ad eum moveatur. Sic igitur magnes
+attrahit ferrum non solum sicut finis, sed etiam sicut movens
+et alterans. Tertio modo dicitur aliquid attrahere, quia
+movet ad seipsum motu locali tantum. Et sic definitur hic
+tractio, prout unum corpus trahit alteram, ita quod trahens
+simul moveatur cum eo quod trahitur.</p></div>
+
+<p>As the "generans" of terrestrial change moves what
+is light and heavy to another place by implanting
+a new form in a substance, so the magnet moves the
+iron by impressing upon it the quality by which it
+is moved. By virtue of the new quality, the iron is
+not in its natural place and moves accordingly.
+St. Thomas proved that the loadstone acts as a
+secondary "generans" in three ways: (1) the loadstone
+produces an effect not from any distance
+but only from a nearby position (showing that this
+motion is due to more than place alone), (2) rubbing
+the loadstone with garlic acts as if it impedes or
+alters the "virtus magnetis," and (3) the iron must
+be properly aligned with respect to the loadstone in
+order to be moved, especially if the loadstone is small.
+Thus the iron is moved by the magnet not only to a
+place, but also by changing and altering it: one has
+not only the change of locomotion but that of alteration.
+Moreover the source of this alteration in the
+iron is not the heavens but the loadstone. Accordingly
+the loadstone could cause change in another substance
+because it could influence the nature of the
+other substance.</p>
+
+<p>About the time that St. Thomas was writing his
+letter <i>De operationibus occultis naturae</i> to a certain
+knight, Petrus Peregrinus was writing from a military
+camp a letter in which he showed how certain relatively
+new effects could be produced by the loadstone.
+<span class='pagenum'><a name="Page_128" id="Page_128">[Pg 128]</a></span>
+He was more interested in what he could do with
+the magnet than in explaining these effects. However,
+he discussed it at sufficient length for one to find that
+his explanation of magnetic phenomena was basically
+similar to that of his contemporary, St. Thomas.</p>
+
+<p>Peregrinus based his discussion of the loadstone
+upon its nature and analyzed magnetic phenomena
+in terms of the change of alteration. In magnetic
+attraction, the nature of the iron is altered by having
+a new quality impressed upon it,<a name="FNanchor_26_26" id="FNanchor_26_26"></a><a href="#Footnote_26_26" class="fnanchor">[26]</a> and the loadstone
+is the agent that makes the iron the same species as
+the stone.<a name="FNanchor_27_27" id="FNanchor_27_27"></a><a href="#Footnote_27_27" class="fnanchor">[27]</a></p>
+
+<div class="blockquot"><p>... Oportet enim quod illud quod iam conversum est ex
+duobus in unum, sit in eadem specie cum agente; quod
+non esset, si natura istud impossible eligeret.</p></div>
+
+<p>This impressed similarity to the agent, Peregrinus
+realized, is not a pole of the same polarity but one
+opposite to that of the inducing pole. To produce
+this effect, the virtue of the stronger agent dominates
+the weaker patient and impresses the virtue of the
+stronger on the weaker so that they are made similar.<a name="FNanchor_28_28" id="FNanchor_28_28"></a><a href="#Footnote_28_28" class="fnanchor">[28]</a></p>
+
+<div class="blockquot"><p>... In cuius attractione, lapis fortioris virtutis agens est;
+debilioris vero patiens.</p></div>
+
+<p>A further instance of alteration occurs in the reversal
+of polarity of magnetized iron when one brings two
+similar poles together. Again, the stronger agent
+dominates the weaker patient and the iron is left
+with a similarity to the last agent.<a name="FNanchor_29_29" id="FNanchor_29_29"></a><a href="#Footnote_29_29" class="fnanchor">[29]</a></p>
+
+<div class="blockquot"><p>... Causa huis est impressio ultimi agentis, confundentis et
+alterantis virtutem primi.</p></div>
+
+<p>In this assimilation of the agent to the patient,
+another effect is produced: the agent not only desires
+to assimilate the patient to itself, but to unite with
+it to become one and the same. Speaking of the
+motion to come together, he says:<a name="FNanchor_30_30" id="FNanchor_30_30"></a><a href="#Footnote_30_30" class="fnanchor">[30]</a></p>
+
+<div class="blockquot"><p>Huius autem rei causam per hanc viam fieri existimo:
+agens enim intendit suum patiens non solum sibi assimilare,
+sed unire, ut ex agente et patiente fiat unum, per numerum.
+Et hoc potes experiri in isto lapide mirabili in hunc modum....
+Agens ergo, ut vides experimento, intendit suum paciens
+sibi unire; hoc autem fit ratione similitudinis inter ea.
+Oportet ergo ... virtute attractionis, fiat una linea, ex
+agente et patiente, secundum hunc ordinem ...</p></div>
+
+<p>The nature of the magnet, as an active cause, tends
+to enact, and since it acts in the best manner in which
+it is able, it acts so as to preserve the similarities of
+opposite poles.<a name="FNanchor_31_31" id="FNanchor_31_31"></a><a href="#Footnote_31_31" class="fnanchor">[31]</a></p>
+
+<div class="blockquot"><p>Natura autem, que tendet ad esse, agit meliori modo quo
+potest, eligit primum ordinem actionis, in quo melius
+salvatur idemptitas, quam in secundo ...</p></div>
+
+<p>Thus unlike poles tend to come together when a
+dissected magnet is reassembled.</p>
+
+<p>Like St. Thomas, Peregrinus argued that the magnet
+receives its powers from the heavens. But he further
+specified this by declaring that different virtues from
+the different parts of the heavens flow into their
+counterpart in the loadstone&mdash;from the poles of the
+heavens the virtue flows into the poles of the magnet,<a name="FNanchor_32_32" id="FNanchor_32_32"></a><a href="#Footnote_32_32" class="fnanchor">[32]</a></p>
+
+<div class="blockquot"><p>Praeterea cum ferrum, vel lapis, vertatur tarn ad partem
+meridionalem quam ad partem septemtrionalem ...
+existima cogimur, non solum a partem septemtrionali,
+verum etiam a meridionali virtutem influi in polos lapidis,
+magis quam a locis minere ... Omnes autem orbes
+meridiani in polis mundi concurrent; quare, a polis mundi,
+poli magnetis virtutem recipiunt. Et ex hoc apparet
+manifeste quod non ad stellam nauticam movetur, cum
+ibi non concurrant orbes meridiani, sed in polis; stella enim
+nautica, extra orbem meridianum cuiuslibet regionis semper
+invenitur, nisi bis, in completa firmanenti revolutione. Ex
+hiis ergo manifestum est quod a partibus celi, partes
+magnetis virtutem recipiunt.</p></div>
+
+<p>and similarly for the other parts of the heavens and
+the other parts of the loadstone.<a name="FNanchor_33_33" id="FNanchor_33_33"></a><a href="#Footnote_33_33" class="fnanchor">[33]</a></p>
+
+<div class="blockquot"><p>Ceteras autem partes lapidis merito estimare potes,
+influentiam a reliquis celi partibus retinere, ut non sic
+solum polos lapidis a polis mundi, sed totum lapidem a toto
+celo, recipere influentiam et virtutem, estimes.</p></div>
+
+<p>Physical proof for such influences was adduced by
+Peregrinus from the motions of the loadstone. That
+the poles of the loadstone receive their virtue from
+the poles of the heavens follows experimentally from
+north-south alignment of a loadstone. That not
+only the poles but the entire loadstone receives power
+from corresponding portions of the heavens follows
+from the fact that a spherical loadstone, when
+"properly balanced," would follow the motion of
+the heavens.<a name="FNanchor_34_34" id="FNanchor_34_34"></a><a href="#Footnote_34_34" class="fnanchor">[34]</a></p>
+
+<p><span class='pagenum'><a name="Page_129" id="Page_129">[Pg 129]</a></span></p>
+<div class="blockquot"><p>Quod tibi tali modo consulo experire: ... Et si tunc
+lapis moveatur secundum celi motum, gaudeas te esse
+assecutum secretum mirabile; si vero non, imperitie tue,
+potiusquam nature, defectus imputetur. In hoc autem
+situ, seu modo positionis, virtutes lapidis huius estimo
+conservari proprie, et in reliquis sitibus celi virtutem eius
+obsecari, seu ebetari, potiusquam conservari puto. Per
+hoc autem instrumentum excusaberis ab omni horologio;
+nam per ipsum scire poteris Ascensus in quacumque hora
+volueris, et omnes alias celi dispositiones, quas querunt
+Astrologi.</p></div>
+
+<p>As the heavens move eternally, so the spherical loadstone
+must be a "perpetuum mobile".</p>
+
+<p>Another of the scholars whose explanation of the
+loadstone Gilbert noted with approval was Cardinal
+Nicholas of Cusa.<a name="FNanchor_35_35" id="FNanchor_35_35"></a><a href="#Footnote_35_35" class="fnanchor">[35]</a> The latter's references to it were
+not as direct as those of St. Thomas, but he did use it
+as an image several times to provide a microcosmic
+example of the relation of God to his creation. From
+this one can infer that he explained the preternatural
+motion of the magnet and the iron by impressed
+qualities, the heavens being the agent for the loadstone,
+and the loadstone, the agent for iron.</p>
+
+<p>In the <i>Idiota de sapientia</i> the Cardinal used the
+image of the magnet and the iron to provide a concrete
+instance of his "coincidentia oppositorum," to
+illustrate how eternal wisdom, in the Neoplatonic
+sense, could, at the same time, be principle or cause of
+being, its complement and also its goal.<a name="FNanchor_36_36" id="FNanchor_36_36"></a><a href="#Footnote_36_36" class="fnanchor">[36]</a></p>
+
+<div class="blockquot"><p>Si igitur in omni desiderio vitae intellectualis attenderes,
+a quo est intellectus, per quod movetur et ad quod, in te
+comperires dulcedinem sapientiae aeternae illam esse, quae
+tibi facit desiderium tuum ita dulce et delectabile, ut in
+inerrabili affectu feraris ad eius comprehensionem tanquam
+ad immortalitatem vitae tue, quasi ad ferrum et magnetem
+attendas. Habet enim ferrum in magnete quoddam sui
+effluxus principium; et dum magnes per sui praesentiam
+excitat ferrum grave et ponderosum, ferrum mirabili
+desiderio fertur etiam supra motum naturae, quo secundum
+gravitatem deorsum tendere debet, et sursum movetur
+se in suo principio uniendo. Nisi enim in ferro esset
+quaedam praegustatio naturalis ipsius magnetis, non
+moveretur plus ad magnetem quam ad alium lapidem; et
+nisi in lapide esset major inclinatio ad ferrum quam cuprum,
+non esset illa attractio. Habet igitur spiritus noster
+intellectualis ab aeterna sapientia principium sic intellectualiter
+essendi, quod esse est conformius sapientae
+quam aliud non intellectuale. Hinc irraditio seu immissio
+in sanctam animam est motus desideriosus in excitatione.</p></div>
+
+<p>By virtue of the principle that flows from the magnet
+to the iron&mdash;which principle is potentially in the iron,
+for the iron already has a foretaste for it&mdash;the excited
+iron could transcend its gravid nature and be preternaturally
+moved to unite with its principle. Reciprocally,
+the loadstone has a greater attraction to
+the iron than to other things. Just as the power of
+attraction comes from the loadstone, so the Deity is
+the source of our life. Just as the principle implanted
+in the magnet moves the iron against its heavy nature,
+so the Deity raises us above our brutish nature so
+that we may fulfill our life. As the iron moves to the
+loadstone, so we move to the Deity as to the goal
+and end of our life.</p>
+
+<p>In <i>De pace fidei</i>, Cusa<a name="FNanchor_37_37" id="FNanchor_37_37"></a><a href="#Footnote_37_37" class="fnanchor">[37]</a> again used the iron and
+magnet as an example of motion contrary to and
+transcending nature. He explained this supernatural
+motion as being due to the similarity between the
+nature of the iron and the magnet, and this in turn
+is analogous to the similarity between human spiritual
+nature and divine spiritual nature. As the iron can
+move upward to the loadstone because both have
+similar natures, so man can transcend his own nature
+and move towards God when his potential similitude
+to God is realized. Another image used by Cusa was
+the comparison of Christ to the magnetic needle that
+takes its power from the heavens and shows man
+his way.<a name="FNanchor_38_38" id="FNanchor_38_38"></a><a href="#Footnote_38_38" class="fnanchor">[38]</a></p>
+
+<p>The Elizabethan Englishman Robert Norman also
+turned to the Deity to explain the wonderful effects
+of the loadstone.<a name="FNanchor_39_39" id="FNanchor_39_39"></a><a href="#Footnote_39_39" class="fnanchor">[39]</a></p>
+
+<div class="blockquot"><p>Now therefore ... divers have whetted their wits,
+yea, and dulled them, as I have mine, and yet in the end
+have been constrained to fly to the cornerstone: I mean
+God: who ... hath given Virtue and power to this Stone
+<span class='pagenum'><a name="Page_130" id="Page_130">[Pg 130]</a></span>
+... to show one certain point, by his own nature and
+appetite ... and by the same vertue, the Needle is turned
+upon his own Center, I mean the Center of his Circular
+and invisible Vertue ... And surely I am of opinion,
+that if this would be found in a Sphericall form, extending
+round about the Stone in Great Compass, and the dead body
+Stone in the middle therof: Whose center is the center of
+his aforesaid Vertue. And this I have partly proved,
+and made visible to be seen in the same manner, and God
+sparing me life, I will herein make further Experience.</p></div>
+
+<p>Again, one can infer that the heavens impart a
+guiding principle to the iron which acts under the
+influence of this Superior Cause.</p>
+
+<p>One of the points made in St. Thomas' argument
+on motion due to the loadstone was that there is a
+limit to the "virtus" of the loadstone, but he did not
+specify the nature of it. Norman refined the Thomist
+concept of a bound by making it spherical in form,
+foreshadowing Gilbert's "orbis virtutis."</p>
+
+<p>Gilbert's philosophy of nature does not move far
+from scholastic philosophy, except away from it in
+logical consistency. As the concern of Aristotle and
+of St. Thomas was to understand being and change
+by determining the nature of things, so Gilbert
+sought to write a logos of the physis, or nature, of the
+loadstone&mdash;a physiology.<a name="FNanchor_40_40" id="FNanchor_40_40"></a><a href="#Footnote_40_40" class="fnanchor">[40]</a> This physiology was
+not formally arranged into definitions obtained by
+induction from experience, but nevertheless there
+was the same search for the quiddity of the loadstone.
+Once one knew this nature then all the properties
+of the loadstone could be understood.</p>
+
+<p>Gilbert described the nature of the loadstone in the
+terms of being that were current with his scholarly
+contemporaries. This was the same ontology that
+scholasticism had taught for centuries&mdash;the doctrine
+of form and matter that we have already found in
+St. Thomas and Nicholas of Cusa. Thus we find
+Richard Hooker<a name="FNanchor_41_41" id="FNanchor_41_41"></a><a href="#Footnote_41_41" class="fnanchor">[41]</a> remarking that form gives being
+and that "form in other creatures is a thing proportionable
+unto the soul in living creatures." Francis
+Bacon,<a name="FNanchor_42_42" id="FNanchor_42_42"></a><a href="#Footnote_42_42" class="fnanchor">[42]</a> in speaking of the relations between causes
+and the kinds of philosophy, said: "Physics is the
+science that deals with efficient and material causes
+while Metaphysics deals with formal and final
+causes." John Donne<a name="FNanchor_43_43" id="FNanchor_43_43"></a><a href="#Footnote_43_43" class="fnanchor">[43]</a> expressed the problem of
+scholastic philosophy succinctly:</p>
+
+<div class="poem"><p>
+This twilight of two yeares, not past or next,<br />
+<span style="margin-left: 1em;">Some embleme is of me, ...</span><br />
+... of stuffe and forme perplext,<br />
+<span style="margin-left: 1em;">Whose <i>what</i> and <i>where</i>, in disputation is ...</span><br />
+</p></div>
+
+<p>As we shall see, Gilbert continued in the same tradition,
+but his interpretation of form and formal cause
+was much more anthropomorphic than that of his
+predecessors.</p>
+
+<p>Gilbert began his <i>De magnete</i> by expounding the
+natural history of that portion of the earth with
+which we are familiar.<a name="FNanchor_44_44" id="FNanchor_44_44"></a><a href="#Footnote_44_44" class="fnanchor">[44]</a></p>
+
+<div class="blockquot"><p>Having declared the origin and nature of the loadstone,
+we hold it needful first to give the history of iron also ...
+before we come to the explication of difficulties connected
+with the loadstone ... we shall better understand what
+iron is when we shall have developed ... what are the
+causes and the matter of metals ...</p></div>
+
+<p>His treatment of the origin of minerals and rocks
+agreed in the main with that of Aristotle,<a name="FNanchor_45_45" id="FNanchor_45_45"></a><a href="#Footnote_45_45" class="fnanchor">[45]</a> but he
+departed somewhat from the peripatetic doctrine of
+the four elements of fire, air, water, and earth.<a name="FNanchor_46_46" id="FNanchor_46_46"></a><a href="#Footnote_46_46" class="fnanchor">[46]</a>
+Instead, he replaced them by a pair of elements.<a name="FNanchor_47_47" id="FNanchor_47_47"></a><a href="#Footnote_47_47" class="fnanchor">[47]</a>
+(If the rejection of the four Aristotelian elements were
+clearer, one might consider this a part of his rejection
+of the geocentric universe but he did not define his
+position sufficiently.)<a name="FNanchor_48_48" id="FNanchor_48_48"></a><a href="#Footnote_48_48" class="fnanchor">[48]</a></p>
+
+<p>According to Gilbert the primary source of matter
+is the interior of the earth, where exhalations and
+"spiritus" arise from the bowels of the earth and
+condense in the earth's veins.<a name="FNanchor_49_49" id="FNanchor_49_49"></a><a href="#Footnote_49_49" class="fnanchor">[49]</a> If the condensations,
+or humors, are homogeneous, they constitute the
+<span class='pagenum'><a name="Page_131" id="Page_131">[Pg 131]</a></span>
+"materia prima" of metals.<a name="FNanchor_50_50" id="FNanchor_50_50"></a><a href="#Footnote_50_50" class="fnanchor">[50]</a> From this "materia
+prima," various metals may be produced,<a name="FNanchor_51_51" id="FNanchor_51_51"></a><a href="#Footnote_51_51" class="fnanchor">[51]</a> according
+to the particular humor and the specificating nature
+of the place of condensation.<a name="FNanchor_52_52" id="FNanchor_52_52"></a><a href="#Footnote_52_52" class="fnanchor">[52]</a> The purest condensation
+is iron: "In iron is earth in its true and genuine
+nature."<a name="FNanchor_53_53" id="FNanchor_53_53"></a><a href="#Footnote_53_53" class="fnanchor">[53]</a> In other metals, we have instead of earth,
+"condensed and fixed salts, which are efflorescences
+of the earth."<a name="FNanchor_54_54" id="FNanchor_54_54"></a><a href="#Footnote_54_54" class="fnanchor">[54]</a> If the condensed exhalation is
+mixed in the vein with foreign earths already present,
+it forms ores that must be smelted to free the original
+metal from dross by fire.<a name="FNanchor_55_55" id="FNanchor_55_55"></a><a href="#Footnote_55_55" class="fnanchor">[55]</a> If these exhalations should
+happen to pass into the open air, instead of being
+condensed in the earth, they may return to the earth
+in a (meteoric) shower of iron.<a name="FNanchor_56_56" id="FNanchor_56_56"></a><a href="#Footnote_56_56" class="fnanchor">[56]</a></p>
+
+<p>Gilbert was indeed writing a new physiology, both
+in the ancient sense of the word and the modern.
+The process of the formation of metals had many
+biological overtones, for it was a kind of metallic
+epigenesis.<a name="FNanchor_57_57" id="FNanchor_57_57"></a><a href="#Footnote_57_57" class="fnanchor">[57]</a> "Within the globe are hidden the principles
+of metals and stones, as at the earth's surface
+are hidden the principles of herbs and plants."<a name="FNanchor_58_58" id="FNanchor_58_58"></a><a href="#Footnote_58_58" class="fnanchor">[58]</a> In
+all cases, the "spiritus" acts as semen and blood that
+inform and feed the proper womb in the generation
+of animals.<a name="FNanchor_59_59" id="FNanchor_59_59"></a><a href="#Footnote_59_59" class="fnanchor">[59]</a> "The brother uterine of iron,"<a name="FNanchor_60_60" id="FNanchor_60_60"></a><a href="#Footnote_60_60" class="fnanchor">[60]</a> the
+loadstone, is formed in this manner. As the embryo
+of a certain species is the result of the specificating
+nature of the womb in which the generic seed has
+been placed, so the kind of metal is the result of a
+certain humor condensing in a particular vein in the
+body of the earth.</p>
+
+<p>Gilbert developed this biological analogy further
+by ascribing to metals a process of decay after reaching
+maturity. Once these solid materials have been
+formed, they will degenerate unless protected, forming
+earths of various kinds as a result.<a name="FNanchor_61_61" id="FNanchor_61_61"></a><a href="#Footnote_61_61" class="fnanchor">[61]</a> The "rind of the
+earth"<a name="FNanchor_62_62" id="FNanchor_62_62"></a><a href="#Footnote_62_62" class="fnanchor">[62]</a> is produced by this process of growth and
+decay. If these earths are soaked with humors,
+transparent materials are formed.<a name="FNanchor_63_63" id="FNanchor_63_63"></a><a href="#Footnote_63_63" class="fnanchor">[63]</a></p>
+
+<p>As we shall see below, the ultimate cause of this
+internal and superficial life is the motion of the earth,
+which animation is the expression of the magnetic
+soul of this sphere.<a name="FNanchor_64_64" id="FNanchor_64_64"></a><a href="#Footnote_64_64" class="fnanchor">[64]</a> As the life of animals results
+from the constant working of the heart and arteries,<a name="FNanchor_65_65" id="FNanchor_65_65"></a><a href="#Footnote_65_65" class="fnanchor">[65]</a>
+so the daily motion of the earth results in a constant
+generation of mineral life within the earth. In contrast
+to Aristotle's<a name="FNanchor_66_66" id="FNanchor_66_66"></a><a href="#Footnote_66_66" class="fnanchor">[66]</a> making the motion of the
+heavens the cause of continuous change, Gilbert
+made that of the earth the remote cause.<a name="FNanchor_67_67" id="FNanchor_67_67"></a><a href="#Footnote_67_67" class="fnanchor">[67]</a> However,
+unlike the constant cyclical transmutation of substances
+in Aristotle, there is only generation and
+decay.</p>
+
+<p>Gilbert made a number of successive generalizations
+in order to arrive at the induction that the form
+of the loadstone is a microcosmic "anima" of that
+of the earth.<a name="FNanchor_68_68" id="FNanchor_68_68"></a><a href="#Footnote_68_68" class="fnanchor">[68]</a> After comparing the properties of the
+loadstone and of iron, his first step in this induction
+was that the two materials, found everywhere,<a name="FNanchor_69_69" id="FNanchor_69_69"></a><a href="#Footnote_69_69" class="fnanchor">[69]</a> are
+consanguineous:<a name="FNanchor_70_70" id="FNanchor_70_70"></a><a href="#Footnote_70_70" class="fnanchor">[70]</a> "These two associated bodies
+possess the true, strict form of one species, though
+because of the outwardly different aspect and the
+inequality of the selfsame innate potency, they have
+hitherto been held to be different ..." Good iron
+and good loadstone are more similar than a good and
+a poor loadstone, or a good and a poor iron ore.<a name="FNanchor_71_71" id="FNanchor_71_71"></a><a href="#Footnote_71_71" class="fnanchor">[71]</a>
+Moreover, they have the same potency,<a name="FNanchor_72_72" id="FNanchor_72_72"></a><a href="#Footnote_72_72" class="fnanchor">[72]</a> for the
+innate potency of one can be passed to the other:<a name="FNanchor_73_73" id="FNanchor_73_73"></a><a href="#Footnote_73_73" class="fnanchor">[73]</a>
+"The stronger invigorates the weaker, not as if it
+imparted of its own substances or parted with aught
+<span class='pagenum'><a name="Page_132" id="Page_132">[Pg 132]</a></span>
+of its own strength, nor as if it injected into the other
+any physical substance; but rather the dormant
+power of the one is awakened by the other's without
+expenditure." In addition, the potency can be
+passed only to the other.<a name="FNanchor_74_74" id="FNanchor_74_74"></a><a href="#Footnote_74_74" class="fnanchor">[74]</a> Finally they both have
+the same history:</p>
+
+<div class="blockquot"><p>We see both the finest magnet and iron ore visited as it
+were by the same ills and diseases, acting in the same way
+and with the same indications, preserved by the same
+remedies and protective measures, and so retaining their
+properties ... they are both impaired by the action
+of acrid liquids as though by poison<a name="FNanchor_75_75" id="FNanchor_75_75"></a><a href="#Footnote_75_75" class="fnanchor">[75]</a> ... each is saved from
+impairment by being kept in the scrapings of the other.
+[So] ... form, essence and appearance are one.<a name="FNanchor_76_76" id="FNanchor_76_76"></a><a href="#Footnote_76_76" class="fnanchor">[76]</a></p></div>
+
+<p>Any difference between the loadstone proper and
+the iron proper is due to a difference in the actual
+power of the magnetic virtue:<a name="FNanchor_77_77" id="FNanchor_77_77"></a><a href="#Footnote_77_77" class="fnanchor">[77]</a> "Weak loadstones are
+those disfigured with dross metallic humors and with
+foreign earth admixtures, [hence one may conclude]
+they are further removed from the mother earth and
+are more degenerate."</p>
+
+<p>Gilbert's second induction was that they are "true
+and intimate parts of the globe,"<a name="FNanchor_78_78" id="FNanchor_78_78"></a><a href="#Footnote_78_78" class="fnanchor">[78]</a> that is, that they
+are piece of the "materia prima" of all we see about
+us. For they "seem to contain within themselves
+the potency of the earth's core and of its inmost
+viscera."<a name="FNanchor_79_79" id="FNanchor_79_79"></a><a href="#Footnote_79_79" class="fnanchor">[79]</a> Whence, in Gilbert's philosophy, the
+earthy matter of the elements was not passive or
+inert<a name="FNanchor_80_80" id="FNanchor_80_80"></a><a href="#Footnote_80_80" class="fnanchor">[80]</a> as it was in Aristotle's, but already had the
+magnetic powers of loadstone. Being endowed with
+properties, it was, in peripatetic terms, a simple body.</p>
+
+<p>If these pieces of earth proper, before decay, are
+loadstones, then one may pass to the next induction
+that the earth itself is a loadstone.<a name="FNanchor_81_81" id="FNanchor_81_81"></a><a href="#Footnote_81_81" class="fnanchor">[81]</a> Conversely, a
+terrella has all the properties of the earth:<a name="FNanchor_82_82" id="FNanchor_82_82"></a><a href="#Footnote_82_82" class="fnanchor">[82]</a> "Every
+separate fragment of the earth exhibits in indubitable
+experiments the whole impetus of magnetic matter;
+in its various movements it follows the terrestial globe
+and the common principle of motion."<a name="FNanchor_83_83" id="FNanchor_83_83"></a><a href="#Footnote_83_83" class="fnanchor">[83]</a></p>
+
+<p>The next induction that Gilbert made was that as
+the magnet possesses verticity and turns towards
+the poles, so the loadstone-earth possesses a verticity
+and turns on an axis fixed in direction.<a name="FNanchor_84_84" id="FNanchor_84_84"></a><a href="#Footnote_84_84" class="fnanchor">[84]</a> He could
+now discuss the motions of a loadstone in general, in
+terms of its nature, just as an Aristotelian discussed the
+motion of the elements in terms of their nature.</p>
+
+<p>But before reaching this point in his argument,
+Gilbert digressed to classify the different kinds of
+attractions and motions which the elements produce.
+In particular, he distinguished electric attraction from
+magnetic coition, and pointed out the main features
+of electrical attraction. Since the resultant motions
+were different, the essential natures of electric and
+magnetic substances had to differ.</p>
+
+<p>Gilbert introduced his treatment of motion by discussing
+the attraction of amber. All sufficiently
+light solids<a name="FNanchor_85_85" id="FNanchor_85_85"></a><a href="#Footnote_85_85" class="fnanchor">[85]</a> and even liquids,<a name="FNanchor_86_86" id="FNanchor_86_86"></a><a href="#Footnote_86_86" class="fnanchor">[86]</a> but not flame or air<a name="FNanchor_87_87" id="FNanchor_87_87"></a><a href="#Footnote_87_87" class="fnanchor">[87]</a>
+are attracted by rubbed amber. Heat from friction,<a name="FNanchor_88_88" id="FNanchor_88_88"></a><a href="#Footnote_88_88" class="fnanchor">[88]</a>
+but not from alien sources like the sun<a name="FNanchor_89_89" id="FNanchor_89_89"></a><a href="#Footnote_89_89" class="fnanchor">[89]</a> or the flame,<a name="FNanchor_90_90" id="FNanchor_90_90"></a><a href="#Footnote_90_90" class="fnanchor">[90]</a>
+produce this "affection." By the use of a detector
+modeled after the magnetic needle, which we would
+call an electroscope but which he called a "versorium,"<a name="FNanchor_91_91" id="FNanchor_91_91"></a><a href="#Footnote_91_91" class="fnanchor">[91]</a>
+Gilbert was able to extend the list of substances
+that attract like amber.<a name="FNanchor_92_92" id="FNanchor_92_92"></a><a href="#Footnote_92_92" class="fnanchor">[92]</a> These Gilbert called
+"electricae."<a name="FNanchor_93_93" id="FNanchor_93_93"></a><a href="#Footnote_93_93" class="fnanchor">[93]</a></p>
+
+<p>Possibly as a result of testing experimentally statements
+like that of St. Thomas, on the effect of garlic
+on a loadstone, Gilbert discovered that the interposition
+of even the slightest material (except a fluid
+like olive oil) would screen the attraction of electrics.<a name="FNanchor_94_94" id="FNanchor_94_94"></a><a href="#Footnote_94_94" class="fnanchor">[94]</a>
+Hence the attraction is due to a material
+cause, and, since it is invisible, it is due to an effluvium.<a name="FNanchor_95_95" id="FNanchor_95_95"></a><a href="#Footnote_95_95" class="fnanchor">[95]</a>
+It must be much rarer than air,<a name="FNanchor_96_96" id="FNanchor_96_96"></a><a href="#Footnote_96_96" class="fnanchor">[96]</a> for if its
+<span class='pagenum'><a name="Page_133" id="Page_133">[Pg 133]</a></span>
+density were that of air or greater, it would repel
+rather than attract.<a name="FNanchor_97_97" id="FNanchor_97_97"></a><a href="#Footnote_97_97" class="fnanchor">[97]</a></p>
+
+<p>The source of the effluvia could be inferred from
+the properties of the electrics. Many but not all of
+the electrics are transparent, but all are firm and can
+be polished.<a name="FNanchor_98_98" id="FNanchor_98_98"></a><a href="#Footnote_98_98" class="fnanchor">[98]</a> Since they retain the appearance and
+properties of a fluid in a firm solid mass,<a name="FNanchor_99_99" id="FNanchor_99_99"></a><a href="#Footnote_99_99" class="fnanchor">[99]</a> Gilbert
+concluded that they derived their growth mostly
+from humors or were concretions of humors.<a name="FNanchor_100_100" id="FNanchor_100_100"></a><a href="#Footnote_100_100" class="fnanchor">[100]</a> By
+friction, these humors are released and produce
+electrical attraction.<a name="FNanchor_101_101" id="FNanchor_101_101"></a><a href="#Footnote_101_101" class="fnanchor">[101]</a></p>
+
+<p>This humoric source of the effluvia was substantiated
+by Gilbert in a number of ways. Electrics lose
+their power of electrical attraction upon being
+heated, and this is because the humor has been driven
+off.<a name="FNanchor_102_102" id="FNanchor_102_102"></a><a href="#Footnote_102_102" class="fnanchor">[102]</a> Bodies that are about equally constituted of
+earth and humor, or that are mostly earth, have
+been degraded and do not show electrical attraction.<a name="FNanchor_103_103" id="FNanchor_103_103"></a><a href="#Footnote_103_103" class="fnanchor">[103]</a>
+Bodies like pearls and metals, since they are
+shiny and so must be made of humors, must also emit
+an effluvium upon being rubbed, but it is a thick and
+vaporous one without any attractive powers.<a name="FNanchor_104_104" id="FNanchor_104_104"></a><a href="#Footnote_104_104" class="fnanchor">[104]</a>
+Damp weather and moist air can weaken or even
+prevent electrical attraction, for it impedes the efflux
+of the humor at the source and accordingly diminishes
+the attraction.<a name="FNanchor_105_105" id="FNanchor_105_105"></a><a href="#Footnote_105_105" class="fnanchor">[105]</a> Charged bodies retain their powers
+longer in the sun than in the shade, for in the shade
+the effluvia are condensed more, and so obscure
+emission.<a name="FNanchor_106_106" id="FNanchor_106_106"></a><a href="#Footnote_106_106" class="fnanchor">[106]</a></p>
+
+<p>All these examples seemed to justify the hypothesis
+that the nature of electrics is such that material
+effluvia are emitted when electrics are rubbed, and
+that the effluvia are rarer than air. Gilbert realized
+that as yet he had not explained electrical attraction,
+only that the pull can be screened. The pull must be
+explained by contact forces,<a name="FNanchor_107_107" id="FNanchor_107_107"></a><a href="#Footnote_107_107" class="fnanchor">[107]</a> as Aristotle<a name="FNanchor_108_108" id="FNanchor_108_108"></a><a href="#Footnote_108_108" class="fnanchor">[108]</a> and
+Aquinas<a name="FNanchor_109_109" id="FNanchor_109_109"></a><a href="#Footnote_109_109" class="fnanchor">[109]</a> had argued. Accordingly, he declared,
+the effluvia, or "spiritus,"<a name="FNanchor_110_110" id="FNanchor_110_110"></a><a href="#Footnote_110_110" class="fnanchor">[110]</a> emitted take "hold of
+the bodies with which they unite, enfold them, as it
+were, in their arms, and bring them into union with
+the electrics."<a name="FNanchor_111_111" id="FNanchor_111_111"></a><a href="#Footnote_111_111" class="fnanchor">[111]</a></p>
+
+<p>It can be seen how this uniting action is effected
+if objects floating on water are considered, for solids
+can be drawn to solids through the medium of a
+fluid.<a name="FNanchor_112_112" id="FNanchor_112_112"></a><a href="#Footnote_112_112" class="fnanchor">[112]</a> A wet body touching another wet body
+not only attracts it, but moves it if the other body is
+small,<a name="FNanchor_113_113" id="FNanchor_113_113"></a><a href="#Footnote_113_113" class="fnanchor">[113]</a> while wet bodies on the surface of the water
+attract other wet bodies. A wet object on the surface
+of the water seeks union with another wet object
+when the surface of the water rises between both: at
+once, "like drops of water, or bubbles on water, they
+come together."<a name="FNanchor_114_114" id="FNanchor_114_114"></a><a href="#Footnote_114_114" class="fnanchor">[114]</a> On the other hand, "a dry body
+does not move toward a wet, nor a wet to a dry, but
+rather they seem to go away from one another."<a name="FNanchor_115_115" id="FNanchor_115_115"></a><a href="#Footnote_115_115" class="fnanchor">[115]</a>
+Moreover, a dry body does not move to the dry rim
+of the vessel while a wet one runs to a wet rim.<a name="FNanchor_116_116" id="FNanchor_116_116"></a><a href="#Footnote_116_116" class="fnanchor">[116]</a></p>
+
+<p>By means of the properties of such a fluid, Gilbert
+could explain the unordered coming-together that
+he called coacervation.<a name="FNanchor_117_117" id="FNanchor_117_117"></a><a href="#Footnote_117_117" class="fnanchor">[117]</a> Different bodies have
+different effluvia, and so one has coacervation of
+different materials. Thus, in Gilbert's philosophy
+air was the earth's effluvium and was responsible for
+the unordered motion of objects towards the earth.<a name="FNanchor_118_118" id="FNanchor_118_118"></a><a href="#Footnote_118_118" class="fnanchor">[118]</a></p>
+
+<p>The analogy between electric attraction and fluids
+is a most concrete one, yet lying beneath this image is
+a hypothesis that is difficult to fix into a mechanical
+system based upon contact forces. This is the assumption
+that under the proper conditions bodies tend
+to move together in order to participate in a more
+<span class='pagenum'><a name="Page_134" id="Page_134">[Pg 134]</a></span>
+complete unity.<a name="FNanchor_119_119" id="FNanchor_119_119"></a><a href="#Footnote_119_119" class="fnanchor">[119]</a> The steps in electrical attraction
+were described as occurring on two different levels
+of abstraction: first one has physical contact through
+an effluvium or "spiritus" that connects the two
+objects physically. Then, as a result of this contact,
+the objects somehow sense<a name="FNanchor_120_120" id="FNanchor_120_120"></a><a href="#Footnote_120_120" class="fnanchor">[120]</a> that a more intimate
+harmony is possible, and move accordingly. Gilbert
+called the motion that followed contact, attraction.
+However, this motion did not connote what we would
+call a force:<a name="FNanchor_121_121" id="FNanchor_121_121"></a><a href="#Footnote_121_121" class="fnanchor">[121]</a> it did not correspond directly to a
+push or pull, but it followed from what one might
+term the apprehension of the possibility of a more
+complete participation in a formal unity. The physical
+unity due to the "spiritus" was the prelude to a
+formal organic unity, so that <i>humor</i> is "rerum omnium
+unitore." Gilbert's position can be best seen in
+the following:<a name="FNanchor_122_122" id="FNanchor_122_122"></a><a href="#Footnote_122_122" class="fnanchor">[122]</a></p>
+
+<div class="blockquot"><p>Spiritus igitur egrediens ex corpora, quod ab humore
+aut succo aqueo concreverat, corpus attrahendum attingit,
+attactum attrahenti unitur; corpus peculiari effluviorum
+radio continguum, unum effecit ex duobus: unita confluunt
+in conjunctissimam convenientiam, quae attractio vulgo
+dicitur. Quae unitas iuxta Pythagorae opinionem rerum
+omnium principium est, per cuius participationem unaquaeque
+res una dicitur. Quoniam enim nullo actio a
+materia potest nisi per contactum, electrica haec non
+videntur tangere, sed ut necesse erat demittitur aliquid ab
+uno ad aliud, quod proxime tangat, et eius incitationis
+principium sit. Corpora omnia uniuntur &amp; quasi ferruminantur
+quodammodo humore ... Electrica vero effi via
+peculiaria, quae humoris fusi subtilissima sunt materia,
+corpuscula allectant. A&euml;r (commune effluvium telluris)
+&amp; partes disjunctis unit, &amp; tellus mediante a&euml;re ad se
+revocat corpora; aliter quae in superioribus locis essent
+corpora, terram non ita avide appelerent.</p>
+
+<p>Electrica effluvia ab a&euml;re multum differunt, &amp; u a&euml;r
+telluris effluvium est, ita electrica suahabent effluvia &amp;
+propria; peculiaribus effluviis suus cuique; est singularis
+ad unitatem ductus, motus ad principium, fontem, &amp;
+corpus effluvia emittens.</p></div>
+
+<p>A similar hypothesis will reappear in his explanation
+of magnetic attraction.</p>
+
+<p>Following the tradition of the medieval schoolmen
+Gilbert started his examination of the nature of the
+loadstone by pointing out the different kinds of
+motion due to a magnet. The five kinds (other than
+up and down) are:<a name="FNanchor_123_123" id="FNanchor_123_123"></a><a href="#Footnote_123_123" class="fnanchor">[123]</a></p>
+
+<div class="blockquot"><p>(1) coitio (vulgo attractio, dicta) ad unitatem magneticam
+incitatio.</p>
+
+<p>(2)  directio in polos telluris, et telluris in mundi destinatos
+terminos verticitas et consistentia.</p>
+
+<p>(3)  variatio, a meridiano deflexio, quem motum nos
+depravatum dicimus.</p>
+
+<p>(4)  declinatio, infra horizontem poli magnetici descensus.</p>
+
+<p>(5)  motus circularis, seu revolutio.</p></div>
+
+<p>Of the five he initially listed, three are not basic
+ones. Variation and declination he later explained
+as due to irregularities of the surface of the earth,
+while direction or verticity is the ordering motion that
+precedes coition.<a name="FNanchor_124_124" id="FNanchor_124_124"></a><a href="#Footnote_124_124" class="fnanchor">[124]</a> This leaves only coition and
+revolution as the basic motions. How these followed
+from "the congregant nature of the loadstone can be
+seen when the effusion of forms has been considered."</p>
+
+<p>Coition (he did not take up revolution at this
+point) differed from that due to other attractions.
+There are two and only two kinds of bodies that
+can attract: electric and magnetic.<a name="FNanchor_125_125" id="FNanchor_125_125"></a><a href="#Footnote_125_125" class="fnanchor">[125]</a> Gilbert refined
+his position further by arguing that one does not
+even have magnetic attraction<a name="FNanchor_126_126" id="FNanchor_126_126"></a><a href="#Footnote_126_126" class="fnanchor">[126]</a> but instead the
+mutual motion to union that he called coition.<a name="FNanchor_127_127" id="FNanchor_127_127"></a><a href="#Footnote_127_127" class="fnanchor">[127]</a>
+In electric attraction, one has an action-passion
+relation of cause and effect with an external agent
+and a passive recipient; while in magnetic coition,
+both bodies act and are acted upon, and both move
+together.<a name="FNanchor_128_128" id="FNanchor_128_128"></a><a href="#Footnote_128_128" class="fnanchor">[128]</a> Instead of an agent and a patient in
+coition,<a name="FNanchor_129_129" id="FNanchor_129_129"></a><a href="#Footnote_129_129" class="fnanchor">[129]</a> one has "conactus." Coition, as the
+Latin origin of the term denoted, is always a concerted
+action. <a name="FNanchor_130_130" id="FNanchor_130_130"></a><a href="#Footnote_130_130" class="fnanchor">[130]</a> This can be seen from the motions
+of two loadstones floating on water.<a name="FNanchor_131_131" id="FNanchor_131_131"></a><a href="#Footnote_131_131" class="fnanchor">[131]</a>  The mutual
+motion in coition was one of the reasons for Gilbert's
+rejection of the perpetual motion machine of Peregrinus.<a name="FNanchor_132_132" id="FNanchor_132_132"></a><a href="#Footnote_132_132" class="fnanchor">[132]</a></p>
+
+<p>Magnetic coition, unlike electric attraction, cannot
+be screened.<a name="FNanchor_133_133" id="FNanchor_133_133"></a><a href="#Footnote_133_133" class="fnanchor">[133]</a> Hence it cannot be corporeal for it
+<span class='pagenum'><a name="Page_135" id="Page_135">[Pg 135]</a></span>
+travels freely through bodies<a name="FNanchor_134_134" id="FNanchor_134_134"></a><a href="#Footnote_134_134" class="fnanchor">[134]</a> and especially magnetic
+bodies;<a name="FNanchor_135_135" id="FNanchor_135_135"></a><a href="#Footnote_135_135" class="fnanchor">[135]</a> one can understand the action of
+the armature on this basis.<a name="FNanchor_136_136" id="FNanchor_136_136"></a><a href="#Footnote_136_136" class="fnanchor">[136]</a> Since coition cannot
+be prevented by shielding, it must have an immaterial
+cause.<a name="FNanchor_137_137" id="FNanchor_137_137"></a><a href="#Footnote_137_137" class="fnanchor">[137]</a></p>
+
+<p>Yet, unless one has the occult action-at-a-distance,
+change must be caused by contact forces. Gilbert
+resolved the paradox of combining contact forces
+with forces that cannot be shielded, by passing to
+a higher level of abstraction for the explanation of
+magnetic phenomena: he saw the contact as that of
+a form with matter.</p>
+
+<p>Although Gilbert remarked that the cause of magnetic
+phenomena did not fall within any of the categories
+of the formal causes of the Aristotelians, he
+did not renounce for this reason the medieval tradition.
+Actually there are many similarities between
+Gilbert's explanation of the loadstone's powers and
+that of St. Thomas. Magnetic coition is not due to
+any of the generic or specific forms of the Aristotelian
+elements, nor is it due to the primary qualities
+of any of their elements, nor is it due to the celestial
+"generans" of terrestrial change.<a name="FNanchor_138_138" id="FNanchor_138_138"></a><a href="#Footnote_138_138" class="fnanchor">[138]</a></p>
+
+<div class="blockquot"><p>Relictis aliorum opinionibus de magnetis attractione;
+nunc coitionis illius rationem, et motus illius commoventem
+naturam docebimus. Cum vero duo sint corporum genera,
+quae manifestis sensibus nostris motionibus corpora allicere
+videntur, Electrica et Magnetica; Electrica naturalibus ab
+humore effluviis; Magnetica formalibus efficientiis, seu
+potius primariis vigoribus, incitationes faciunt. Forma
+ilia singularis est, et peculiaris, non Peripateticorum causa
+formalis, et specifica in mixtis, est secunda forma, non
+generantium corporum propagatrix; sed primorum et
+praeciporum globorum forma; et partium eorum homogenearum,
+non corruptarum, propria entitas et existentia,
+quam nos primariam, et radicalem, et astream appellare
+possumus formam; non formam primam Aristotelis; sed
+singularem illam, quae globum suum proprium tuetur et
+disponit. Talis in singulis globis, Sole, lunas et astris, est
+una; in terra etiam una, quae vera est ilia potentia magnetica,
+quam nos primarium vigorem appellamus. Quare
+magnetica natura est telluris propria, eiusque omnibus
+verioribus partibus, primaria et stupenda ratione, insita;
+haec nec a caelo toto derivatur procreaturve, per sympathiam,
+per influentiam, aut occultiores qualitates; nec
+peculiari aliquo astro: est enim suus in tellure magneticus
+vigor, sicut in sole et luna suae formae; frustulumque;
+lunae, lunatice ad eius terminos, et formam componit se;
+solarque; ad solem, sicut magnes ad tellurem, et ad alterum
+magnetem, secundum naturam sese inclinando et alliciendo.
+Differendum igitur de tellure quae magnetica, et magnes;
+tum etiam de partibus eius verioribus, quae magneticae
+sunt; et quomodo ex coitione difficiuntur.</p></div>
+
+<p>Instead, he declared it to be due to a form that is
+natural and proper to that element that he made the
+primary component of the earth.<a name="FNanchor_139_139" id="FNanchor_139_139"></a><a href="#Footnote_139_139" class="fnanchor">[139]</a></p>
+
+<p>To understand his argument, let us briefly recall
+the peripatetic theory of the elements. In this philosophy
+of nature each element or simple body is a
+combination of a pair of the four primary qualities
+that informs inchoate matter. These qualities are the
+instruments of the elemental forms and determine
+the properties of the element. Thus the element fire
+is a compound of the qualities hot and dry, and the
+substantial form of fire acts through these qualities.
+Similarly for the other elements, earth, water, and
+air: their forms determine a proper place for each
+element, and a motion to that place natural to each
+element.<a name="FNanchor_140_140" id="FNanchor_140_140"></a><a href="#Footnote_140_140" class="fnanchor">[140]</a></p>
+
+<p>Gilbert had previously declared that the primary
+substance of the earth is an element. Since it is an
+element, it has a motion natural to it, and this motion
+is magnetic coition. As an Aristotelian considered
+the substantial form of the element, fire, to act
+through the qualities of hot and dry, and to cause
+an upward motion; so Gilbert argued that the substantial
+form of his element, pure loadstone, acts
+through the magnetic qualities and causes magnetic
+coition. This motion is due to its primary form, and
+is natural to the element earth.<a name="FNanchor_141_141" id="FNanchor_141_141"></a><a href="#Footnote_141_141" class="fnanchor">[141]</a> It is instilled in all
+proper and undegenerate parts of the earth,<a name="FNanchor_142_142" id="FNanchor_142_142"></a><a href="#Footnote_142_142" class="fnanchor">[142]</a> but
+in no other element.<a name="FNanchor_143_143" id="FNanchor_143_143"></a><a href="#Footnote_143_143" class="fnanchor">[143]</a></p>
+
+<p>To the medieval philosopher, the "generantia" of
+the occult powers of the loadstone are the heavenly
+bodies. Gilbert, however, endowed the earth with
+these heavenly powers which were placed in the
+earth in the beginning<a name="FNanchor_144_144" id="FNanchor_144_144"></a><a href="#Footnote_144_144" class="fnanchor">[144]</a> and caused all magnetic
+materials to conform with it both physically and
+<span class='pagenum'><a name="Page_136" id="Page_136">[Pg 136]</a></span>
+formally.<a name="FNanchor_145_145" id="FNanchor_145_145"></a><a href="#Footnote_145_145" class="fnanchor">[145]</a> Such magnetic powers are the property
+of all parts of the earth;<a name="FNanchor_146_146" id="FNanchor_146_146"></a><a href="#Footnote_146_146" class="fnanchor">[146]</a> they give the earth its
+rotating motion<a name="FNanchor_147_147" id="FNanchor_147_147"></a><a href="#Footnote_147_147" class="fnanchor">[147]</a> and hold the earth together in
+spite of this motion.<a name="FNanchor_148_148" id="FNanchor_148_148"></a><a href="#Footnote_148_148" class="fnanchor">[148]</a></p>
+
+<p>Indeed, each of the main stellar bodies, sun, moon,
+stars, and earth, has such a form or principle unique to
+itself that causes its parts not only to conform with
+itself but to revolve.<a name="FNanchor_149_149" id="FNanchor_149_149"></a><a href="#Footnote_149_149" class="fnanchor">[149]</a> Thus, if one removes a piece
+of the moon from this body, it will tend to align itself
+with the moon and then to return to its proper place;
+and a fragment of the sun would similarly tend to
+return after proper orientation.<a name="FNanchor_150_150" id="FNanchor_150_150"></a><a href="#Footnote_150_150" class="fnanchor">[150]</a> Moreover, there is
+a farther-ranging, though weaker, mutual action of
+the heavenly bodies so that one has a causal hierarchy
+of these specific conforming powers. The form of the
+sun is superior to that of the inferior globes and is
+responsible for the order and regularity of planetary
+orbits.<a name="FNanchor_151_151" id="FNanchor_151_151"></a><a href="#Footnote_151_151" class="fnanchor">[151]</a> In like manner, the moon is responsible for
+the tides of the ocean.<a name="FNanchor_152_152" id="FNanchor_152_152"></a><a href="#Footnote_152_152" class="fnanchor">[152]</a></p>
+
+<p>By virtue of the causal hierarchy of forms, the
+loadstone acquires its magnetic powers from the
+earth.<a name="FNanchor_153_153" id="FNanchor_153_153"></a><a href="#Footnote_153_153" class="fnanchor">[153]</a> As the earth has its natural parts, so has
+the stone.<a name="FNanchor_154_154" id="FNanchor_154_154"></a><a href="#Footnote_154_154" class="fnanchor">[154]</a> Although the geometrical center of a
+terrella is the center of the magnetic forces,<a name="FNanchor_155_155" id="FNanchor_155_155"></a><a href="#Footnote_155_155" class="fnanchor">[155]</a> objects
+do not tend to move to the center but to its poles,<a name="FNanchor_156_156" id="FNanchor_156_156"></a><a href="#Footnote_156_156" class="fnanchor">[156]</a>
+where the magnetic energy is most conspicuous.<a name="FNanchor_157_157" id="FNanchor_157_157"></a><a href="#Footnote_157_157" class="fnanchor">[157]</a>
+However, in a sense, the energy is everywhere equal:
+the virtue is spread throughout the entire mass of the
+loadstone,<a name="FNanchor_158_158" id="FNanchor_158_158"></a><a href="#Footnote_158_158" class="fnanchor">[158]</a> and all the parts direct the forces to the
+poles.<a name="FNanchor_159_159" id="FNanchor_159_159"></a><a href="#Footnote_159_159" class="fnanchor">[159]</a> The poles become the "thrones" of the
+magnetic powers.<a name="FNanchor_160_160" id="FNanchor_160_160"></a><a href="#Footnote_160_160" class="fnanchor">[160]</a> On the other hand, the directive
+force is stronger where coition is weaker and accordingly,
+verticity is most prominent at the equator.<a name="FNanchor_161_161" id="FNanchor_161_161"></a><a href="#Footnote_161_161" class="fnanchor">[161]</a></p>
+
+<p>The strength of a loadstone depends upon its shape
+and mass. A bar magnet has greater powers than a
+spherical one because it tends to concentrate the
+magnetic powers more in the ends.<a name="FNanchor_162_162" id="FNanchor_162_162"></a><a href="#Footnote_162_162" class="fnanchor">[162]</a> For a given
+purity and shape, the heavier the loadstone, the
+greater its strength.<a name="FNanchor_163_163" id="FNanchor_163_163"></a><a href="#Footnote_163_163" class="fnanchor">[163]</a> A loadstone has a maximum
+degree of magnetic force that cannot be increased.<a name="FNanchor_164_164" id="FNanchor_164_164"></a><a href="#Footnote_164_164" class="fnanchor">[164]</a>
+However, weaker ones can be strengthened by stronger
+ones.<a name="FNanchor_165_165" id="FNanchor_165_165"></a><a href="#Footnote_165_165" class="fnanchor">[165]</a> Similarly, the shape and weight of the iron
+determine the magnetic force in coition.<a name="FNanchor_166_166" id="FNanchor_166_166"></a><a href="#Footnote_166_166" class="fnanchor">[166]</a></p>
+
+<p>The formal forces of a loadstone emanate in all
+directions from it,<a name="FNanchor_167_167" id="FNanchor_167_167"></a><a href="#Footnote_167_167" class="fnanchor">[167]</a> but there is a bound to it that
+Gilbert called the "orbis virtutis."<a name="FNanchor_168_168" id="FNanchor_168_168"></a><a href="#Footnote_168_168" class="fnanchor">[168]</a> The shape of
+this "orbis virtutis" is determined by the shape of the
+stone.<a name="FNanchor_169_169" id="FNanchor_169_169"></a><a href="#Footnote_169_169" class="fnanchor">[169]</a> This insensible effusion is analogous to the
+spreading of light that reveals its presence only by
+opaque bodies.<a name="FNanchor_170_170" id="FNanchor_170_170"></a><a href="#Footnote_170_170" class="fnanchor">[170]</a> Similarly, the magnetic forms are
+effused from the stone,<a name="FNanchor_171_171" id="FNanchor_171_171"></a><a href="#Footnote_171_171" class="fnanchor">[171]</a> and can only reveal their
+presence by coition with another loadstone or by
+"awakening" magnetic bodies within the "orbis
+virtutis."<a name="FNanchor_172_172" id="FNanchor_172_172"></a><a href="#Footnote_172_172" class="fnanchor">[172]</a> Unmagnetized iron that comes within
+the "orbis virtutis" is altered, and the magnetic virtue
+renews a form that is already potentially in the iron.<a name="FNanchor_173_173" id="FNanchor_173_173"></a><a href="#Footnote_173_173" class="fnanchor">[173]</a>
+The formal energy is drawn not only from the stone
+but from the iron.<a name="FNanchor_174_174" id="FNanchor_174_174"></a><a href="#Footnote_174_174" class="fnanchor">[174]</a> This is not generation, or alteration
+in the sense of a new impressed quality, but
+alteration in the sense of the entelechy or the activation
+of a form potentially present.<a name="FNanchor_175_175" id="FNanchor_175_175"></a><a href="#Footnote_175_175" class="fnanchor">[175]</a> Those bodies
+<span class='pagenum'><a name="Page_137" id="Page_137">[Pg 137]</a></span>
+magnetized by coming within the "orbis virtutis"
+have in turn an efflux of their own.<a name="FNanchor_176_176" id="FNanchor_176_176"></a><a href="#Footnote_176_176" class="fnanchor">[176]</a> Iron can also
+receive verticity directly from the earth without the
+intervention of an ordinary loadstone.<a name="FNanchor_177_177" id="FNanchor_177_177"></a><a href="#Footnote_177_177" class="fnanchor">[177]</a> Such
+verticity can be expelled and annulled by the presence
+of another loadstone.<a name="FNanchor_178_178" id="FNanchor_178_178"></a><a href="#Footnote_178_178" class="fnanchor">[178]</a></p>
+
+<p>Although one does not normally find iron to be
+magnetized, a loadstone always has some magnetism.
+That two bodies such as iron and loadstone should
+have different properties is the result of the loss of a
+form by the iron, but this form is still potentially
+present in the iron. The iron that has been obtained
+from an ore has been deformed,<a name="FNanchor_179_179" id="FNanchor_179_179"></a><a href="#Footnote_179_179" class="fnanchor">[179]</a> for it has been
+placed "outside its nature" by the fire.<a name="FNanchor_180_180" id="FNanchor_180_180"></a><a href="#Footnote_180_180" class="fnanchor">[180]</a> The nature
+has not been removed, since, once the iron has
+cooled, the confused form can be reformed by a loadstone.
+<a name="FNanchor_181_181" id="FNanchor_181_181"></a><a href="#Footnote_181_181" class="fnanchor">[181]</a> The latter "awakens" the proper form of
+iron.<a name="FNanchor_182_182" id="FNanchor_182_182"></a><a href="#Footnote_182_182" class="fnanchor">[182]</a> After smelting, the magnetized iron may
+manifest stronger powers than a loadstone of equal
+weight, but this is because the primary matter of the
+earth is purer in the iron than in the loadstone.<a name="FNanchor_183_183" id="FNanchor_183_183"></a><a href="#Footnote_183_183" class="fnanchor">[183]</a>
+If fire does not deform a loadstone too much, it can
+be remagnetized,<a name="FNanchor_184_184" id="FNanchor_184_184"></a><a href="#Footnote_184_184" class="fnanchor">[184]</a> but a burnt loadstone cannot be
+reformed.<a name="FNanchor_185_185" id="FNanchor_185_185"></a><a href="#Footnote_185_185" class="fnanchor">[185]</a> Corruption from external causes may
+also deform a loadstone or iron so that it can not be
+magnetized.<a name="FNanchor_186_186" id="FNanchor_186_186"></a><a href="#Footnote_186_186" class="fnanchor">[186]</a> Bodies mixed with the degenerate
+substance of the earth or with aqueous humor spoilt
+by contamination with earth, do not show either
+electric attraction or magnetic coition.<a name="FNanchor_187_187" id="FNanchor_187_187"></a><a href="#Footnote_187_187" class="fnanchor">[187]</a></p>
+
+<p>In a manner suggestive of Peregrinus, Gilbert
+wrote that, "magnetic bodies seek formal unity."<a name="FNanchor_188_188" id="FNanchor_188_188"></a><a href="#Footnote_188_188" class="fnanchor">[188]</a>
+Thus a dissected loadstone not only tends to come
+back together, as in the unordered coacervation of
+electric attraction, but to restore the organization
+it had before dissection.<a name="FNanchor_189_189" id="FNanchor_189_189"></a><a href="#Footnote_189_189" class="fnanchor">[189]</a> Accordingly, opposite
+poles appear on the interfaces of the sections, not
+"from an opposition" but from "a concordance and
+a conformance."<a name="FNanchor_190_190" id="FNanchor_190_190"></a><a href="#Footnote_190_190" class="fnanchor">[190]</a> This ensures that when the
+parts are joined together again, they have the same
+orientation as before. Gilbert compared this power
+of restoring the original loadstone with that of a
+plant's vital power under the process of cutting and
+grafting; the plant can be revived only when the parts
+are in a certain order.<a name="FNanchor_191_191" id="FNanchor_191_191"></a><a href="#Footnote_191_191" class="fnanchor">[191]</a></p>
+
+<p>A hypothesis similar to that used to explain electric
+attraction lay beneath the explanation of magnetic
+coition: that bodies brought into contact will move
+together. In electric attraction, the contact is material
+and due to the "spiritus" from the electric body;
+in magnetic coition, it is formal and depends on the
+action of a primary form that spreads from a magnetized
+body to its limit of effusion, the "orbis virtutis."
+If iron is inside the "orbis virtutis," the two bodies "enter
+into alliance and are one and the same"<a name="FNanchor_192_192" id="FNanchor_192_192"></a><a href="#Footnote_192_192" class="fnanchor">[192]</a> for within
+it "they have absolute continuity, and are joined by
+reason of their accordance, albeit the bodies themselves
+be separated."<a name="FNanchor_193_193" id="FNanchor_193_193"></a><a href="#Footnote_193_193" class="fnanchor">[193]</a></p>
+
+<p>Gilbert's treatment of coition can be analyzed into
+the same two steps as can electric attraction. First
+occurs a contact, which in this case is not physical
+but formal, and from this initial formal contact
+follows movement to a more complete unity. Both
+the contact and the movement to unity are described
+on the same level of abstraction, instead of on two
+different levels as in electric attraction. Again
+one does not find any clear-cut concept of force as a
+push or pull,<a name="FNanchor_194_194" id="FNanchor_194_194"></a><a href="#Footnote_194_194" class="fnanchor">[194]</a> but instead, a motion to a formal
+unity, this time a cooperative motion. The parts of
+a magnetic body are in greater harmony when they
+are assembled in a certain pattern and so they move
+accordingly.</p>
+
+<p>As to the nature of the primary form itself, Gilbert
+agreed with Thales that it is like a soul,<a name="FNanchor_195_195" id="FNanchor_195_195"></a><a href="#Footnote_195_195" class="fnanchor">[195]</a> "for the
+power of self-movement seems to betoken a soul."<a name="FNanchor_196_196" id="FNanchor_196_196"></a><a href="#Footnote_196_196" class="fnanchor">[196]</a>
+With Galen and St. Thomas he placed the form of
+the loadstone superior to that of inanimate matter.<a name="FNanchor_197_197" id="FNanchor_197_197"></a><a href="#Footnote_197_197" class="fnanchor">[197]</a>
+In a sense, Gilbert even made it superior to organic
+matter, for it is incapable of error.<a name="FNanchor_198_198" id="FNanchor_198_198"></a><a href="#Footnote_198_198" class="fnanchor">[198]</a> Like the soul,
+the primary form cannot be fragmented; when a
+loadstone is divided, one does not separate the poles
+but each part acquires its own poles and an equator.
+<span class='pagenum'><a name="Page_138" id="Page_138">[Pg 138]</a></span>
+Like the soul, fire does not destroy it.<a name="FNanchor_199_199" id="FNanchor_199_199"></a><a href="#Footnote_199_199" class="fnanchor">[199]</a> Like the
+soul of astral bodies, and of the earth itself, it produces
+complex but regular motions; the motion of
+two loadstones on water offers such an example.<a name="FNanchor_200_200" id="FNanchor_200_200"></a><a href="#Footnote_200_200" class="fnanchor">[200]</a>
+Like the soul of a newborn child, whose nature
+depends on the configuration of the heavens, the
+properties in the newly awakened iron depend upon
+its position in the "orbis virtutis."<a name="FNanchor_201_201" id="FNanchor_201_201"></a><a href="#Footnote_201_201" class="fnanchor">[201]</a></p>
+
+<p>Whence Gilbert declared:</p>
+
+<div class="blockquot"><p>... the earth's magnetic force and the animate form
+of the globes, that are without senses, but without error ...
+exert an unending action, quick, definite, constant, directive,
+motive, imperant, harmonious through the whole mass of
+matter; thereby are the generation and the ultimate decay
+of all things on the superficies propagated.<a name="FNanchor_202_202" id="FNanchor_202_202"></a><a href="#Footnote_202_202" class="fnanchor">[202]</a> The
+bodies of the globes ... to the end that they might be in
+themselves, and in their nature endure, had need of souls
+to be conjoined to them, for else there were neither life,
+nor prime act, nor movement, nor unition, nor order, nor
+coherence, nor <i>conactus</i>, nor <i>sympathia</i>, nor any generation
+nor alteration of seasons, and no propagation; but all were
+in confusion....<a name="FNanchor_203_203" id="FNanchor_203_203"></a><a href="#Footnote_203_203" class="fnanchor">[203]</a> Wherefore, not with reason, Thales
+... declares the loadstone to be animate, a part of the
+animate mother earth and her beloved offspring.<a name="FNanchor_204_204" id="FNanchor_204_204"></a><a href="#Footnote_204_204" class="fnanchor">[204]</a></p></div>
+
+<p>Gilbert ended book 5 of his treatise on the magnet
+with a persuasive plea for his magnetic philosophy
+of the cosmos, yet his conceptual scheme was not too
+successful an induction in the eyes of his contemporaries.
+In particular the man from whom the Royal
+Society took the inspiration for their motto, "Nullius
+in verba," did not value his magnetic philosophy very
+highly. Whether Francis Bacon was alluding to
+Gilbert when he expounded his parable of the spider
+and the ant<a name="FNanchor_205_205" id="FNanchor_205_205"></a><a href="#Footnote_205_205" class="fnanchor">[205]</a> is not explicit, but he certainly had
+him in mind when he wrote of the Idols of the Cave
+and the Idols of the Theater.<a name="FNanchor_206_206" id="FNanchor_206_206"></a><a href="#Footnote_206_206" class="fnanchor">[206]</a></p>
+
+<p>Few of the subsequent experimenters and writers
+on magnetism turned to Gilbert's work to explain the
+effects they discussed. Although both his countrymen
+Sir Thomas Browne<a name="FNanchor_207_207" id="FNanchor_207_207"></a><a href="#Footnote_207_207" class="fnanchor">[207]</a> and Robert Boyle<a name="FNanchor_208_208" id="FNanchor_208_208"></a><a href="#Footnote_208_208" class="fnanchor">[208]</a> described
+a number of the experiments already described
+by Gilbert and even used phrases similar to his in
+describing them, they tended to ignore Gilbert and
+his explanation of them. Instead, both turned to an
+explanation based upon magnetic effluvia or corpuscles.
+The only direct continuation of Gilbert's <i>De magnete</i>
+was the <i>Philosophia magnetica</i> of Nicolaus Cabeus.<a name="FNanchor_209_209" id="FNanchor_209_209"></a><a href="#Footnote_209_209" class="fnanchor">[209]</a>
+The latter sought to bring Gilbert's explanation of
+magnetism more directly into the fold of medieval
+substantial forms.</p>
+
+<p>However, Gilbert's efforts towards a magnetic
+philosophy did find approval in two of the men that
+made the seventeenth century scientific revolution.
+While Galileo Galilei<a name="FNanchor_210_210" id="FNanchor_210_210"></a><a href="#Footnote_210_210" class="fnanchor">[210]</a> was critical of Gilbert's
+arguments as being unnecessarily loose, he nevertheless
+saw in them some support for the Copernican
+world-system. Johannes Kepler<a name="FNanchor_211_211" id="FNanchor_211_211"></a><a href="#Footnote_211_211" class="fnanchor">[211]</a> found in Gilbert's
+explanation of the loadstone-earth a possible physical
+framework for his own investigations on planetary
+motions.</p>
+
+<p>Yet Galileo and Kepler had moved beyond Gilbert's
+world of intellectual experience. They were no
+longer concerned with determining the nature of
+material things in order to explain their qualities.
+Instead, they had passed into the realm of the mathematical
+relations of kinematics: quantitative law had
+replaced qualitative experience of cause and effect.
+Gilbert had some intimations of the former, but he
+was primarily concerned with explaining magnetism
+in terms of substance and attribute. He had to
+ascertain the nature of the loadstone and of the earth
+in order to explain their properties and their motions.
+He even went further and explained the nature of
+the form of the loadstone.</p>
+
+<p>His method of determining the nature of a substance
+was a rather primitive one&mdash;it was not by a process
+of induction and deduction, nor by synthesis and
+analysis, nor by "resolutio" and "compositio," but by
+the use of analogies. He compared the natural history
+of metals and rocks with that of plants, and gave the
+two former the same kind of principle as the last.
+He determined the nature of the entity behind electric
+attraction by finding that such attractions could be
+screened, and hence it had to be corporeal. After
+comparing this "corporeal" attraction with that of
+<span class='pagenum'><a name="Page_139" id="Page_139">[Pg 139]</a></span>
+the surface forces of a fluid, he concluded that the
+entity was a subtle fluid. He determined the nature
+of the entity behind magnetic coition by (incorrectly)
+finding that it cannot be screened, and hence the
+cause had to be a formal one. Since both stars and
+the loadstone can carry out regular motions, and
+stars had souls, the form of the loadstone had to be
+a soul. The method of analogy was used again in
+his comparison of the properties of a magnetized
+needle placed over a terrella with the properties of
+a compass placed over the earth, whence he concluded
+the earth to be a giant loadstone. Since the earth
+resembled the other celestial globes, it had to have,
+the circular inertia of these globes.<a name="FNanchor_212_212" id="FNanchor_212_212"></a><a href="#Footnote_212_212" class="fnanchor">[212]</a> As for his
+magnetic experiments to show physically that the
+earth moved, and his unbridled speculations on the
+"animae" of the celestial globes, one is inclined to
+agree with Bacon's estimate of his magnetic philosophy.</p>
+
+<p>One might consider Gilbert's book as a Renaissance
+recasting of Aristotle's <i>De caelo</i> with the earth
+in the role of a heavenly body. So it might well be,
+for Gilbert was still concerned with distinguishing
+the nature of the heavenly body, earth, that caused
+the coitional and revolving motions, from those
+natures for which up and down, and coacervation
+were the natural motions. Because the natural
+motions were different, the natures had to be different,
+and these different natures led to a universe and a
+concept of space neither of which were Aristotelian.
+One no longer had a central reference point for
+absolute space; there was no "motor essentialis"
+focused upon the earth but one had only the mutual
+motion of the heavenly bodies. The natural distinction
+between heaven and earth was gone, for the
+earth was no longer an inert recipient but a source
+of wonder, and so the stage was set for the universe
+of Giordano Bruno.<a name="FNanchor_213_213" id="FNanchor_213_213"></a><a href="#Footnote_213_213" class="fnanchor">[213]</a> The Aristotelian philosophy
+of nature was used to justify a new cosmology, but
+there was no break with the past such as one finds in
+Galileo and Kepler. Instead he followed the chimera
+of the world organism, as Paracelsus had, and of the
+world soul, as Bruno had. Consequently Gilbert's
+physiology did not enter into the main stream of
+science.</p>
+
+<p>Yet this is not to deny Gilbert's services to natural
+philosophy. Although not all of his experimental
+distinction between electric and magnetic forces
+has been retained, still, some of it has. His "orbis
+virtutis" was to become a field of force, and his class
+of electrics, insulators of electricity. His practice
+of arming a loadstone was to be of considerable importance
+in the period before the invention of the
+electromagnet. His limited recognition of the mutual
+nature of forces and their quantitative basis in mass
+was ultimately to appear in Newton's second and
+third laws of motion. In spite of the weaknesses of
+the method of analogy, Gilbert's experimental model
+of the terrella to interpret the earth's magnetism
+was as much a contribution to scientific method as
+to the theory of magnetism.</p>
+
+<p>Consequently, in spite of an explanation of electricity
+and magnetism that one would be amused to
+find in a textbook today, we can still read his <i>De
+magnete</i> with interest and profit. But more important
+than his scientific speculations, is the insight he can
+give us into a Renaissance philosophy of nature and
+its relation to medieval thought. One does not find
+in <i>De magnete</i> a prototype of modern physical science
+in the same sense one can in the writings of Galileo
+and Kepler. Instead one finds here a full-fledged
+example of an earlier kind of science, and this is
+Gilbert's main value to the historian today.</p>
+
+<div class="footnotes">
+<h4>FOOTNOTES</h4>
+<div class="footnote"><p><a name="Footnote_1_1" id="Footnote_1_1"></a><a href="#FNanchor_1_1"><span class="label">[1]</span></a>
+William Gilbert, <i>De magnete, magneticisque corporibus et de magno
+magnete tellure; physiologia nova, plurimis &amp; argumentis, &amp;
+experimentis, demonstrata</i>, London, 1600, 240 pp., with an
+introduction by Edward Wright. All references to Gilbert in this
+article, unless otherwise noted, are to the American translation by P.
+Fleury Mottelay, 368 pp., published in New York in 1893, and are
+designated by the letter M. However, the Latin text of the 1600
+edition has been quoted wherever I have disagreed with the Mottelay
+translation.</p>
+<p>A good source of information on Gilbert is Dr. Duane H. D. Roller's
+doctoral thesis, written under the direction of Dr. I. B. Cohen of
+Harvard University. Dr. Roller, at present Curator of the De Golyer
+Collection at the University of Oklahoma, informed me that an expanded
+version of his dissertation will shortly appear in book form.
+Unfortunately his researches were not known to me until after this
+article was completed.</p></div>
+
+<div class="footnote"><p><a name="Footnote_2_2" id="Footnote_2_2"></a><a href="#FNanchor_2_2"><span class="label">[2]</span></a>
+Alexandre Koyr&eacute;, <i>&Eacute;tudes galil&eacute;ennes</i>, Paris, 1939.</p></div>
+
+<div class="footnote"><p><a name="Footnote_3_3" id="Footnote_3_3"></a><a href="#FNanchor_3_3"><span class="label">[3]</span></a>
+Alfred N. Whitehead, <i>Science and the modern world</i>, New York,
+1925, ch. 3; Ernst Cassirer, <i>Das Erkenntnisproblem</i>, ed. 3,
+Berlin, 1922, vol. 1, pp. 314-318, 352-359.</p></div>
+
+<div class="footnote"><p><a name="Footnote_4_4" id="Footnote_4_4"></a><a href="#FNanchor_4_4"><span class="label">[4]</span></a>
+However, see M: pp. 161, 162, 168, 335.</p></div>
+
+<div class="footnote"><p><a name="Footnote_5_5" id="Footnote_5_5"></a><a href="#FNanchor_5_5"><span class="label">[5]</span></a>
+For example, William Whewell, <i>History of the inductive
+sciences</i>, ed. 3, New York, 1858, vol. 2, pp. 192 and 217; Charles
+Singer, <i>A short history of science to the nineteenth century</i>, Oxford,
+1943, pp. 188 and 343; and A. R. Hall, <i>The scientific revolution</i>,
+Boston, 1956, p. 185.</p></div>
+
+<div class="footnote"><p><a name="Footnote_6_6" id="Footnote_6_6"></a><a href="#FNanchor_6_6"><span class="label">[6]</span></a>
+<i>Petri Peregrini maricurtenis, de magnete, seu rota perpetui motus,
+libellus</i>, a reprint of the 1558 Angsburg edition in J. G. G.
+Hellmann, <i>Rara magnetica</i>, Berlin, 1898, not paginated. A
+number of editions of Peregrinus, work, both ascribed to him
+and plagiarized from him, appeared in the 16th century (see
+Heinz Balmer, <i>Beitr&auml;ge zur Geschichte der Erkenntnis des Erdmagnetismus</i>,
+Aarau, 1956, pp. 249-255).</p></div>
+
+<div class="footnote"><p><a name="Footnote_7_7" id="Footnote_7_7"></a><a href="#FNanchor_7_7"><span class="label">[7]</span></a>
+Hellmann, <i>ibid.</i>, Robert Norman, <i>The newe attractive, containyng
+a short discourse of the magnes or lodestone, and amongest other
+his vertues, of a newe discovered secret and subtill propertie, concernyng
+the declinyng of the needle, touched therewith under the plaine of the
+horizon. Now first founde out by Robert Norman Hydrographer</i>.
+London, 1581. The possibility is present that Norman's work
+was a direct stimulus to Gilbert, for Wright's introduction to
+<i>De magnete</i> stated that Gilbert started his study of magnetism
+the year following the publication of Norman's book.</p></div>
+
+<div class="footnote"><p><a name="Footnote_8_8" id="Footnote_8_8"></a><a href="#FNanchor_8_8"><span class="label">[8]</span></a>
+Hellman, <i>ibid.</i>, William Borough, <i>A discourse of the variation
+of the compasse, or magneticall needle. Wherein is mathematically
+shewed, the manner of the observation, effects, and application thereof,
+made by W. B. And is to be annexed to the newe attractive of R. N.</i>
+London, 1596.</p></div>
+
+<div class="footnote"><p><a name="Footnote_9_9" id="Footnote_9_9"></a><a href="#FNanchor_9_9"><span class="label">[9]</span></a>
+Hellman, <i>ibid.</i>, Simon Stevin, <i>De havenvinding</i>, Leyden, 1599.
+It is interesting to note that Wright translated Stevin's work
+into English.</p></div>
+
+<div class="footnote"><p><a name="Footnote_10_10" id="Footnote_10_10"></a><a href="#FNanchor_10_10"><span class="label">[10]</span></a>
+As Edward Wright was to call him in his introduction.</p></div>
+
+<div class="footnote"><p><a name="Footnote_11_11" id="Footnote_11_11"></a><a href="#FNanchor_11_11"><span class="label">[11]</span></a>
+Aristotle, <i>On the soul</i>, translated by W. S. Hett, Loeb
+Classical Library, London, 1935, 405a20 (see also 411a8:
+"Some think that the soul pervades the whole universe, whence
+perhaps came Thales' view that everything is full of gods").</p></div>
+
+<div class="footnote"><p><a name="Footnote_12_12" id="Footnote_12_12"></a><a href="#FNanchor_12_12"><span class="label">[12]</span></a>
+Plato, <i>Ion</i>, translated by W. R. M. Lamb, Loeb Classical
+Library, London, 1925, 533 (see also 536).</p></div>
+
+<div class="footnote"><p><a name="Footnote_13_13" id="Footnote_13_13"></a><a href="#FNanchor_13_13"><span class="label">[13]</span></a>
+Plato, <i>Timaeus</i>, translated by R. G. Bury, Loeb Classical
+Library, London, 1929, 80. It is difficult to determine which
+explanation Plato preferred, for in both cases the speaker may
+be only a foil for Plato's opinion rather than an expression
+of these opinions.</p></div>
+
+<div class="footnote"><p><a name="Footnote_14_14" id="Footnote_14_14"></a><a href="#FNanchor_14_14"><span class="label">[14]</span></a>
+Lucretius, <i>De rerum natura</i>, translated by W. H. D. Rouse,
+Loeb Classical Library, London, 1924, bk. VI, lines 998-1041.</p></div>
+
+<div class="footnote"><p><a name="Footnote_15_15" id="Footnote_15_15"></a><a href="#FNanchor_15_15"><span class="label">[15]</span></a>
+Galen, <i>On the natural faculties</i>, translated by A. S. Brock,
+Loeb Classical Library, London, 1916, bk. 1 and bk. 3. A
+view similar to this appeared in Plato, <i>Timaeus</i>, 81 (see
+<a href="#Footnote_13_13">footnote 13</a>).</p></div>
+
+<div class="footnote"><p><a name="Footnote_16_16" id="Footnote_16_16"></a><a href="#FNanchor_16_16"><span class="label">[16]</span></a>
+This same concept was to reappear in the Middle Ages as
+the <i>inclinatio ad simile</i>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_17_17" id="Footnote_17_17"></a><a href="#FNanchor_17_17"><span class="label">[17]</span></a>
+The background for much of the following was derived
+from Annaliese Maier, <i>An der Grenze von Scholastik und Naturwissenchaft</i>,
+ed 2, Rome, 1952.</p></div>
+
+<div class="footnote"><p><a name="Footnote_18_18" id="Footnote_18_18"></a><a href="#FNanchor_18_18"><span class="label">[18]</span></a>
+St. Thomas' epistemology for the natural inanimate world
+was based upon Aristotle's dictum: that which is in the mind
+was in the senses first.</p></div>
+
+<div class="footnote"><p><a name="Footnote_19_19" id="Footnote_19_19"></a><a href="#FNanchor_19_19"><span class="label">[19]</span></a>
+Ren&eacute; Descartes, <i>Oeuvres</i>, Charles Adam and Paul Tannery,
+Paris, 1897-1910, vol. 2, p. 597 (letter to Mersenne, 16 Oct.,
+1639), and vol. 11 (Le Monde), p. 39. The original definition
+can be found in Aristotle, <i>Physics</i>, translated by P. H.
+Wickstead and F. M. Cornford, Loeb Classical Library,
+London, 1934, 201a10. Aquinas rephrases the definition as
+"<i>Motus est actus existentis in potentia secundum quod huius modi.</i>"
+See St. Thomas Aquinas, <i>Opera omnia</i>, Antwerp, 1612, vol. 2,
+<i>Physicorum Aristotelis expositio</i>, lib. 3, lect. 2, cap. a, p. 29.</p></div>
+
+<div class="footnote"><p><a name="Footnote_20_20" id="Footnote_20_20"></a><a href="#FNanchor_20_20"><span class="label">[20]</span></a>
+St. Thomas Aquinas, <i>op. cit.</i> (<a href="#Footnote_19_19">footnote 19</a>), vol. 9, <i>Summa
+contra gentiles</i>, lib. 3, cap. 92 (Quo modo dicitur aliquis bene
+fortunatus et quo modo adjuvatur homo ex superioribus causis),
+p. 343.</p></div>
+
+<div class="footnote"><p><a name="Footnote_21_21" id="Footnote_21_21"></a><a href="#FNanchor_21_21"><span class="label">[21]</span></a>
+St. Thomas Aquinas, op. cit. (<a href="#Footnote_19_19">footnote 19</a>), vol. 17 <i>Opuscula,
+De operationibus occultis naturae ad queindam militem ultramontem</i>,
+pp. 213-224.</p></div>
+
+<div class="footnote"><p><a name="Footnote_22_22" id="Footnote_22_22"></a><a href="#FNanchor_22_22"><span class="label">[22]</span></a>
+St. Thomas Aquinas, <i>op. cit.</i> (<a href="#Footnote_19_19">footnote 19</a>), vol 7, <i>Scriptum
+in quartum librum sententiarum magistri Petri Lombardi</i>, lib. 4, disq.
+33 (De diversis coniugii legibus), art. 1 (Utrum habere plures
+uxores sit contra legem naturae), p. 168. The same statement
+occurs in one of his most mature works, <i>op. cit.</i> vol. 20, <i>Summa
+theologica</i>, pars 3 (supplementum), quaestio 65 (De pluralitate
+uxorum in quinque articulos divisa), art. 1 (Utrum habere
+plures uxores sit contra legem naturae), p. 107.</p></div>
+
+<div class="footnote"><p><a name="Footnote_23_23" id="Footnote_23_23"></a><a href="#FNanchor_23_23"><span class="label">[23]</span></a>
+St. Thomas Aquinas, <i>op. cit.</i> (<a href="#Footnote_19_19">footnote 19</a>), vol. 8, <i>Quaestio
+unica: de spiritualibus creaturis</i>, art. 2 (Utrum substantia spiritualis
+possit uniri corpori), p. 404. See also vol. 9, <i>Summa
+contra gentiles</i>, lib. 3, cap. 92 (Quomodo dicitur aliquis bene
+fortunatus, et quomodo adjuvatur homo ex superioribus causis),
+p. 344; and vol. 17, <i>Opuscula, De operationibus occultis naturae ad
+queindam militem ultramontem</i>, pp. 213-214.</p></div>
+
+<div class="footnote"><p><a name="Footnote_24_24" id="Footnote_24_24"></a><a href="#FNanchor_24_24"><span class="label">[24]</span></a>
+St. Thomas Aquinas, <i>op. cit.</i> (<a href="#Footnote_19_19">footnote 19</a>), vol. 8, <i>Quaestio
+unica: de anima</i>, art. 1 (Utrum anima humana possit esse
+forma et hoc aliquid), p. 437. See also vol. 8, <i>Quaestio: De
+veritate</i>, quaestio 5 (De providentia), art. 10 (Utrum humani
+actus a divina providentia gubernentur mediis corporibus
+coelestibus), p. 678.</p></div>
+
+<div class="footnote"><p><a name="Footnote_25_25" id="Footnote_25_25"></a><a href="#FNanchor_25_25"><span class="label">[25]</span></a>
+St. Thomas Aquinas, <i>op. cit.</i> (<a href="#Footnote_19_19">footnote 19</a>), vol. 2, <i>Physicorum
+Aristotelis expositio</i>, lib. 7, lect. 3, cap. g (Probatur in
+motu locali quod movens et motum oportet esse simul), p. 97
+(quoted in Gilbert, M: p. 104).</p></div>
+
+<div class="footnote"><p><a name="Footnote_26_26" id="Footnote_26_26"></a><a href="#FNanchor_26_26"><span class="label">[26]</span></a>
+Hellmann, <i>op. cit.</i> (<a href="#Footnote_6_6">footnote 6</a>), Peregrinus, pt. 1, ch. 8.
+The magnet attracts the iron "secundum naturalem appetitum
+lapidis ... sine resistentia." There is no natural resistence
+to this motion since it is no longer contrary to the nature of
+the iron. The nature of the iron has changed.</p></div>
+
+<div class="footnote"><p><a name="Footnote_27_27" id="Footnote_27_27"></a><a href="#FNanchor_27_27"><span class="label">[27]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 9.</p></div>
+
+<div class="footnote"><p><a name="Footnote_28_28" id="Footnote_28_28"></a><a href="#FNanchor_28_28"><span class="label">[28]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 9.</p></div>
+
+<div class="footnote"><p><a name="Footnote_29_29" id="Footnote_29_29"></a><a href="#FNanchor_29_29"><span class="label">[29]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 8.</p></div>
+
+<div class="footnote"><p><a name="Footnote_30_30" id="Footnote_30_30"></a><a href="#FNanchor_30_30"><span class="label">[30]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 9.</p></div>
+
+<div class="footnote"><p><a name="Footnote_31_31" id="Footnote_31_31"></a><a href="#FNanchor_31_31"><span class="label">[31]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 9. See also <a href="#Footnote_27_27">footnote 27</a>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_32_32" id="Footnote_32_32"></a><a href="#FNanchor_32_32"><span class="label">[32]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 10. See also ch. 4.</p></div>
+
+<div class="footnote"><p><a name="Footnote_33_33" id="Footnote_33_33"></a><a href="#FNanchor_33_33"><span class="label">[33]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 10. See also ch. 4.</p></div>
+
+<div class="footnote"><p><a name="Footnote_34_34" id="Footnote_34_34"></a><a href="#FNanchor_34_34"><span class="label">[34]</span></a>
+<i>Ibid.</i>, pt. 1, ch. 10.</p></div>
+
+<div class="footnote"><p><a name="Footnote_35_35" id="Footnote_35_35"></a><a href="#FNanchor_35_35"><span class="label">[35]</span></a>
+However, he may not always have approved of him. See
+M:74; "Overinquisitive theologians, too, seek to light up God's
+mysteries and things beyond man's understanding by means
+of the loadstone and amber."</p></div>
+
+<div class="footnote"><p><a name="Footnote_36_36" id="Footnote_36_36"></a><a href="#FNanchor_36_36"><span class="label">[36]</span></a>
+Nicholas of Cusa (Nicolaus Cusaneus), <i>Nicolaus von Cues,
+Texte seiner philosophischen Schriften</i>, ed. A. Petzelt, Stuttgart,
+1949, bk. 1, <i>Idiota de sapientia</i>, p. 306 (quoted in Gilbert, M:104).
+It is interesting that Cusa held that the loadstone has an inclination
+to iron, as well as the converse!</p></div>
+
+<div class="footnote"><p><a name="Footnote_37_37" id="Footnote_37_37"></a><a href="#FNanchor_37_37"><span class="label">[37]</span></a>
+Cusa, <i>Cusa Schriften</i>, vol. 8, <i>De pace fidei</i>, translated by
+L. Mohler, Leipzig, 1943, ch. 12, p. 127.</p></div>
+
+<div class="footnote"><p><a name="Footnote_38_38" id="Footnote_38_38"></a><a href="#FNanchor_38_38"><span class="label">[38]</span></a>
+Cusa, <i>Exercitationes</i>, ch. 7, 563 and 566, quoted in, F. A.
+Scharpff, <i>Des Cardinals und Bischofs Nicolaus Von Cusa Wichtigste
+Schriften in Deutscher Uebersetzung</i>, Freiburg, 1862, p. 435. See also
+Martin Billinger, <i>Das Philosophische in Den Excitationen Des
+Nicolaus Von Cues</i>, Heidelberg, 1938, and <i>Cusa Schriften</i> (see
+<a href="#Footnote_37_37">footnote 37</a>), vol. 8, p. 209, note 105. Gilbert (M: p. 223)
+called the compass "the finger of God."</p></div>
+
+<div class="footnote"><p><a name="Footnote_39_39" id="Footnote_39_39"></a><a href="#FNanchor_39_39"><span class="label">[39]</span></a>
+Hellmann, <i>op. cit.</i> (<a href="#Footnote_6_6">footnote 6</a>), Norman, bk. 1, ch. 8.</p></div>
+
+<div class="footnote"><p><a name="Footnote_40_40" id="Footnote_40_40"></a><a href="#FNanchor_40_40"><span class="label">[40]</span></a>
+M: p. 14.</p></div>
+
+<div class="footnote"><p><a name="Footnote_41_41" id="Footnote_41_41"></a><a href="#FNanchor_41_41"><span class="label">[41]</span></a>
+Richard Hooker. <i>Of the laws of ecclesiastical polity</i>, bk. 1,
+ch. 3, sect. 4 (<i>Works</i>, Oxford, Clarendon Press, 1865, vol. 1,
+p. 157)</p></div>
+
+<div class="footnote"><p><a name="Footnote_42_42" id="Footnote_42_42"></a><a href="#FNanchor_42_42"><span class="label">[42]</span></a>
+Francis Bacon, <i>De augmentis scientiarum</i>, bk. 3, ch. 4, in <i>Works</i>,
+ed. J. Spedding, R. L. Ellis, and D. D. Heath, Boston, n.d.
+(1900?), vol. 2, p. 267.</p></div>
+
+<div class="footnote"><p><a name="Footnote_43_43" id="Footnote_43_43"></a><a href="#FNanchor_43_43"><span class="label">[43]</span></a>
+<i>The poems of John Donne</i>, ed. H. J. C. Grierson, London,
+Oxford University Press, 1933, p. 175 ("To the Countesse of
+Bedford, On New Yeares Day").</p></div>
+
+<div class="footnote"><p><a name="Footnote_44_44" id="Footnote_44_44"></a><a href="#FNanchor_44_44"><span class="label">[44]</span></a>
+M: pp. 33, 34.</p></div>
+
+<div class="footnote"><p><a name="Footnote_45_45" id="Footnote_45_45"></a><a href="#FNanchor_45_45"><span class="label">[45]</span></a>
+M: pp. 34, 35. Aristotle, <i>Works</i>, ed. W. D. Ross, Oxford,
+1908&mdash;1952, vol. 2, <i>De generatione et corruptione</i>, translated by
+H. H. Joachim, 1930, vol. 3, <i>Meteorologica</i>, translated by
+E. W. Webster, 1931.</p></div>
+
+<div class="footnote"><p><a name="Footnote_46_46" id="Footnote_46_46"></a><a href="#FNanchor_46_46"><span class="label">[46]</span></a>
+M: pp. 34, 35, 64, 65, 69, 81. Dr. H. Guerlac has kindly
+brought to my attention the similarity between the explanation
+given in Gilbert and that given in the <i>Meteorologica</i>, bk. 3, ch. 6.
+p. 378.</p></div>
+
+<div class="footnote"><p><a name="Footnote_47_47" id="Footnote_47_47"></a><a href="#FNanchor_47_47"><span class="label">[47]</span></a>
+M: p. 83.</p></div>
+
+<div class="footnote"><p><a name="Footnote_48_48" id="Footnote_48_48"></a><a href="#FNanchor_48_48"><span class="label">[48]</span></a>
+A statement of the relation between Aristotle's four elements
+and place can be found in Maier, <i>op. cit.</i> (<a href="#Footnote_17_17">footnote 17</a>),
+pp. 143-182.</p></div>
+
+<div class="footnote"><p><a name="Footnote_49_49" id="Footnote_49_49"></a><a href="#FNanchor_49_49"><span class="label">[49]</span></a>
+M: pp. 21, 34, 35, 36, 45.</p></div>
+
+<div class="footnote"><p><a name="Footnote_50_50" id="Footnote_50_50"></a><a href="#FNanchor_50_50"><span class="label">[50]</span></a>
+M: pp. 35, 36, 38, 69; see, however, pp. 42-43: "Iron ore,
+therefore, as also manufactured iron, is a metal slightly different
+from the homogenic telluric body because of the metallic
+humor it has imbibed ..."</p></div>
+
+<div class="footnote"><p><a name="Footnote_51_51" id="Footnote_51_51"></a><a href="#FNanchor_51_51"><span class="label">[51]</span></a>
+M: pp. 19, 34, 36, 37, 42, 69.</p></div>
+
+<div class="footnote"><p><a name="Footnote_52_52" id="Footnote_52_52"></a><a href="#FNanchor_52_52"><span class="label">[52]</span></a>
+M: pp. 35, 36, 37, 38.</p></div>
+
+<div class="footnote"><p><a name="Footnote_53_53" id="Footnote_53_53"></a><a href="#FNanchor_53_53"><span class="label">[53]</span></a>
+M: pp. 38, 63, 69, 84; on p. 34 he says that iron is "more
+truly the child of the earth than any other metal"; it is the
+hardest because of "the strong concretion of the more earthy
+substance."</p></div>
+
+<div class="footnote"><p><a name="Footnote_54_54" id="Footnote_54_54"></a><a href="#FNanchor_54_54"><span class="label">[54]</span></a>
+M: pp. 21, 35, 37, 38.</p></div>
+
+<div class="footnote"><p><a name="Footnote_55_55" id="Footnote_55_55"></a><a href="#FNanchor_55_55"><span class="label">[55]</span></a>
+M: pp. 35, 63.</p></div>
+
+<div class="footnote"><p><a name="Footnote_56_56" id="Footnote_56_56"></a><a href="#FNanchor_56_56"><span class="label">[56]</span></a>
+M: pp. 45, 46.</p></div>
+
+<div class="footnote"><p><a name="Footnote_57_57" id="Footnote_57_57"></a><a href="#FNanchor_57_57"><span class="label">[57]</span></a>
+Gilbert's terminology strongly suggests that he was familiar
+with alchemical literature, as well as that of medical chemistry.
+He has been credited as being highly skilled in chemistry. See
+Sir Walter Langdon-Brown, "William Gilbert: his place in
+the medical world," <i>Nature</i>, vol. 154, pp. 136-139, 1944.</p></div>
+
+<div class="footnote"><p><a name="Footnote_58_58" id="Footnote_58_58"></a><a href="#FNanchor_58_58"><span class="label">[58]</span></a>
+<i>Ibid.</i>, p. 37.</p></div>
+
+<div class="footnote"><p><a name="Footnote_59_59" id="Footnote_59_59"></a><a href="#FNanchor_59_59"><span class="label">[59]</span></a>
+M: pp. 35, 36, 53, 59. See also Galen, <i>op. cit.</i> (<a href="#Footnote_15_15">footnote 15</a>) bk. 2, ch. 3.</p></div>
+
+<div class="footnote"><p><a name="Footnote_60_60" id="Footnote_60_60"></a><a href="#FNanchor_60_60"><span class="label">[60]</span></a>
+M: pp. 16, 59.</p></div>
+
+<div class="footnote"><p><a name="Footnote_61_61" id="Footnote_61_61"></a><a href="#FNanchor_61_61"><span class="label">[61]</span></a>
+M: pp. 20, 21, 32, 61, 63, 66, 70.</p></div>
+
+<div class="footnote"><p><a name="Footnote_62_62" id="Footnote_62_62"></a><a href="#FNanchor_62_62"><span class="label">[62]</span></a>
+M: p. 59.</p></div>
+
+<div class="footnote"><p><a name="Footnote_63_63" id="Footnote_63_63"></a><a href="#FNanchor_63_63"><span class="label">[63]</span></a>
+M: p. 84.</p></div>
+
+<div class="footnote"><p><a name="Footnote_64_64" id="Footnote_64_64"></a><a href="#FNanchor_64_64"><span class="label">[64]</span></a>
+M: pp. 310, 311, 312.</p></div>
+
+<div class="footnote"><p><a name="Footnote_65_65" id="Footnote_65_65"></a><a href="#FNanchor_65_65"><span class="label">[65]</span></a>
+M: p. 338. A somewhat different opinion, although not
+necessarily inconsistent is expressed on p. 66, where he says
+the surface is due to the action of the atmosphere, the waters,
+and the radiations and other influences of heavenly bodies.</p></div>
+
+<div class="footnote"><p><a name="Footnote_66_66" id="Footnote_66_66"></a><a href="#FNanchor_66_66"><span class="label">[66]</span></a>
+Aristotle, <i>op. cit.</i> (<a href="#Footnote_45_45">footnote 45</a>), <i>De generatione et corruptione</i>, bk. 2, ch. 10.</p></div>
+
+<div class="footnote"><p><a name="Footnote_67_67" id="Footnote_67_67"></a><a href="#FNanchor_67_67"><span class="label">[67]</span></a>
+M: pp. 311, 334, 338.</p></div>
+
+<div class="footnote"><p><a name="Footnote_68_68" id="Footnote_68_68"></a><a href="#FNanchor_68_68"><span class="label">[68]</span></a>
+M: pp. xlvii, 309, 328.</p></div>
+
+<div class="footnote"><p><a name="Footnote_69_69" id="Footnote_69_69"></a><a href="#FNanchor_69_69"><span class="label">[69]</span></a>
+M: pp. 18, 20, 44, 46, 69.</p></div>
+
+<div class="footnote"><p><a name="Footnote_70_70" id="Footnote_70_70"></a><a href="#FNanchor_70_70"><span class="label">[70]</span></a>
+M: pp. 59, 61, 63.</p></div>
+
+<div class="footnote"><p><a name="Footnote_71_71" id="Footnote_71_71"></a><a href="#FNanchor_71_71"><span class="label">[71]</span></a>
+M: pp. 60, 63.</p></div>
+
+<div class="footnote"><p><a name="Footnote_72_72" id="Footnote_72_72"></a><a href="#FNanchor_72_72"><span class="label">[72]</span></a>
+M: p. 110.</p></div>
+
+<div class="footnote"><p><a name="Footnote_73_73" id="Footnote_73_73"></a><a href="#FNanchor_73_73"><span class="label">[73]</span></a>
+M: pp. 60, 61.</p></div>
+
+<div class="footnote"><p><a name="Footnote_74_74" id="Footnote_74_74"></a><a href="#FNanchor_74_74"><span class="label">[74]</span></a>
+M: p. 62.</p></div>
+
+<div class="footnote"><p><a name="Footnote_75_75" id="Footnote_75_75"></a><a href="#FNanchor_75_75"><span class="label">[75]</span></a>
+M: p. 63.</p></div>
+
+<div class="footnote"><p><a name="Footnote_76_76" id="Footnote_76_76"></a><a href="#FNanchor_76_76"><span class="label">[76]</span></a>
+M: p. 60.</p></div>
+
+<div class="footnote"><p><a name="Footnote_77_77" id="Footnote_77_77"></a><a href="#FNanchor_77_77"><span class="label">[77]</span></a>
+M: pp. 19, 21, 43, 53, 61, 63, 184.</p></div>
+
+<div class="footnote"><p><a name="Footnote_78_78" id="Footnote_78_78"></a><a href="#FNanchor_78_78"><span class="label">[78]</span></a>
+M: p. 61.</p></div>
+
+<div class="footnote"><p><a name="Footnote_79_79" id="Footnote_79_79"></a><a href="#FNanchor_79_79"><span class="label">[79]</span></a>
+M: pp. 66, 67.</p></div>
+
+<div class="footnote"><p><a name="Footnote_80_80" id="Footnote_80_80"></a><a href="#FNanchor_80_80"><span class="label">[80]</span></a>
+M: p. 69. Gilbert is confusing Aristotelian matter and an
+element. He includes cold and dry, with formless and inert!
+See also Maier, <i>op. cit.</i> (<a href="#Footnote_17_17">footnote 17</a>).</p></div>
+
+<div class="footnote"><p><a name="Footnote_81_81" id="Footnote_81_81"></a><a href="#FNanchor_81_81"><span class="label">[81]</span></a>
+M: p. 63; bk. 1, ch. 17.</p></div>
+
+<div class="footnote"><p><a name="Footnote_82_82" id="Footnote_82_82"></a><a href="#FNanchor_82_82"><span class="label">[82]</span></a>
+M: pp. 67, 181-183, 235-240, 281-289, 313-314.</p></div>
+
+<div class="footnote"><p><a name="Footnote_83_83" id="Footnote_83_83"></a><a href="#FNanchor_83_83"><span class="label">[83]</span></a>
+M: p. 71. See also pp. 314 and 331. It is not clear, at
+this point, whether he believed a "properly balanced" terrella
+would be a <i>perpetuum mobile</i>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_84_84" id="Footnote_84_84"></a><a href="#FNanchor_84_84"><span class="label">[84]</span></a>
+M: pp. 68, 70-71, 97, 129, 179-180, 311, 315, 317-335
+Gilbert implied (M: p. 166), that a terrella does not rotate as
+Peregrinus said, due to resistance (M: p. 326), or due to the
+mutual nature of coition (M: p. 166); or even to the rotation
+of the earth (M: p. 332). However (M: p. 129), he also mentioned
+that a terrella would revolve by itself!</p></div>
+
+<div class="footnote"><p><a name="Footnote_85_85" id="Footnote_85_85"></a><a href="#FNanchor_85_85"><span class="label">[85]</span></a>
+M: pp. 78, 82, 84, 86.</p></div>
+
+<div class="footnote"><p><a name="Footnote_86_86" id="Footnote_86_86"></a><a href="#FNanchor_86_86"><span class="label">[86]</span></a>
+M: pp. 78, 89, 91.</p></div>
+
+<div class="footnote"><p><a name="Footnote_87_87" id="Footnote_87_87"></a><a href="#FNanchor_87_87"><span class="label">[87]</span></a>
+M: pp. 89, 95.</p></div>
+
+<div class="footnote"><p><a name="Footnote_88_88" id="Footnote_88_88"></a><a href="#FNanchor_88_88"><span class="label">[88]</span></a>
+M: pp. 83, 86.</p></div>
+
+<div class="footnote"><p><a name="Footnote_89_89" id="Footnote_89_89"></a><a href="#FNanchor_89_89"><span class="label">[89]</span></a>
+M: pp. 81, 86, 87.</p></div>
+
+<div class="footnote"><p><a name="Footnote_90_90" id="Footnote_90_90"></a><a href="#FNanchor_90_90"><span class="label">[90]</span></a>
+M: pp. 80, 81, 86, 87.</p></div>
+
+<div class="footnote"><p><a name="Footnote_91_91" id="Footnote_91_91"></a><a href="#FNanchor_91_91"><span class="label">[91]</span></a>
+M: p. 79.</p></div>
+
+<div class="footnote"><p><a name="Footnote_92_92" id="Footnote_92_92"></a><a href="#FNanchor_92_92"><span class="label">[92]</span></a>
+M: pp. 77-78, 79.</p></div>
+
+<div class="footnote"><p><a name="Footnote_93_93" id="Footnote_93_93"></a><a href="#FNanchor_93_93"><span class="label">[93]</span></a>
+M: p. 78. The definition Gilbert gave of an electric in the
+glossary at the beginning of his treatise was not an experimental
+one: "Electricae, quae attrahunt eadem ratione ut electrum."</p></div>
+
+<div class="footnote"><p><a name="Footnote_94_94" id="Footnote_94_94"></a><a href="#FNanchor_94_94"><span class="label">[94]</span></a>
+M: pp. 86, 91, 135.</p></div>
+
+<div class="footnote"><p><a name="Footnote_95_95" id="Footnote_95_95"></a><a href="#FNanchor_95_95"><span class="label">[95]</span></a>
+M: pp. 96, 135.</p></div>
+
+<div class="footnote"><p><a name="Footnote_96_96" id="Footnote_96_96"></a><a href="#FNanchor_96_96"><span class="label">[96]</span></a>
+M: p. 89.</p></div>
+
+<div class="footnote"><p><a name="Footnote_97_97" id="Footnote_97_97"></a><a href="#FNanchor_97_97"><span class="label">[97]</span></a>
+M: pp. 90, 92, 95.</p></div>
+
+<div class="footnote"><p><a name="Footnote_98_98" id="Footnote_98_98"></a><a href="#FNanchor_98_98"><span class="label">[98]</span></a>
+M: pp. 83, 84, 85.</p></div>
+
+<div class="footnote"><p><a name="Footnote_99_99" id="Footnote_99_99"></a><a href="#FNanchor_99_99"><span class="label">[99]</span></a>
+M: p. 84.</p></div>
+
+<div class="footnote"><p><a name="Footnote_100_100" id="Footnote_100_100"></a><a href="#FNanchor_100_100"><span class="label">[100]</span></a>
+M: pp. 84, 89. See also Aristotle, <i>op. cit.</i> (<a href="#Footnote_45_45">footnote 45</a>), <i>Meteorologica</i>, bk. 4.</p></div>
+
+<div class="footnote"><p><a name="Footnote_101_101" id="Footnote_101_101"></a><a href="#FNanchor_101_101"><span class="label">[101]</span></a>
+M: p. 90.</p></div>
+
+<div class="footnote"><p><a name="Footnote_102_102" id="Footnote_102_102"></a><a href="#FNanchor_102_102"><span class="label">[102]</span></a>
+M: pp. 84, 85.</p></div>
+
+<div class="footnote"><p><a name="Footnote_103_103" id="Footnote_103_103"></a><a href="#FNanchor_103_103"><span class="label">[103]</span></a>
+M: p. 84.</p></div>
+
+<div class="footnote"><p><a name="Footnote_104_104" id="Footnote_104_104"></a><a href="#FNanchor_104_104"><span class="label">[104]</span></a>
+M: p. 90. See also p. 95.</p></div>
+
+<div class="footnote"><p><a name="Footnote_105_105" id="Footnote_105_105"></a><a href="#FNanchor_105_105"><span class="label">[105]</span></a>
+M: pp. 78, 85-86, 91. (see particularly the heated amber
+experiment described on p. 86).</p></div>
+
+<div class="footnote"><p><a name="Footnote_106_106" id="Footnote_106_106"></a><a href="#FNanchor_106_106"><span class="label">[106]</span></a>
+M: p. 87.</p></div>
+
+<div class="footnote"><p><a name="Footnote_107_107" id="Footnote_107_107"></a><a href="#FNanchor_107_107"><span class="label">[107]</span></a>
+M: p. 92.</p></div>
+
+<div class="footnote"><p><a name="Footnote_108_108" id="Footnote_108_108"></a><a href="#FNanchor_108_108"><span class="label">[108]</span></a>
+Aristotle, <i>Physics</i>, translated by P. H. Wicksteed and F.
+M. Cornford, Loeb Classical Library, London, 1934, bk. 7,
+ch. 1, 242b25.</p></div>
+
+<div class="footnote"><p><a name="Footnote_109_109" id="Footnote_109_109"></a><a href="#FNanchor_109_109"><span class="label">[109]</span></a>
+St. Thomas Aquinas, <i>op. cit.</i> (<a href="#Footnote_19_19">footnote 19</a>), vol. 2, <i>Physicorum
+Aristotelis expositio</i>, lib. 7, lect. 2 (In moventibus et motis non potest
+procedi in infinitum, sed oportet devenire ad aliquid primum
+movens immobile), cap. d, p. 96.</p></div>
+
+<div class="footnote"><p><a name="Footnote_110_110" id="Footnote_110_110"></a><a href="#FNanchor_110_110"><span class="label">[110]</span></a>
+M: p. 94.</p></div>
+
+<div class="footnote"><p><a name="Footnote_111_111" id="Footnote_111_111"></a><a href="#FNanchor_111_111"><span class="label">[111]</span></a>
+M: p. 95.</p></div>
+
+<div class="footnote"><p><a name="Footnote_112_112" id="Footnote_112_112"></a><a href="#FNanchor_112_112"><span class="label">[112]</span></a>
+M: p. 93.</p></div>
+
+<div class="footnote"><p><a name="Footnote_113_113" id="Footnote_113_113"></a><a href="#FNanchor_113_113"><span class="label">[113]</span></a>
+M: pp. 92, 93.</p></div>
+
+<div class="footnote"><p><a name="Footnote_114_114" id="Footnote_114_114"></a><a href="#FNanchor_114_114"><span class="label">[114]</span></a>
+M: p. 93.</p></div>
+
+<div class="footnote"><p><a name="Footnote_115_115" id="Footnote_115_115"></a><a href="#FNanchor_115_115"><span class="label">[115]</span></a>
+M: p. 94.</p></div>
+
+<div class="footnote"><p><a name="Footnote_116_116" id="Footnote_116_116"></a><a href="#FNanchor_116_116"><span class="label">[116]</span></a>
+M: p. 94.</p></div>
+
+<div class="footnote"><p><a name="Footnote_117_117" id="Footnote_117_117"></a><a href="#FNanchor_117_117"><span class="label">[117]</span></a>
+M: p. 97.</p></div>
+
+<div class="footnote"><p><a name="Footnote_118_118" id="Footnote_118_118"></a><a href="#FNanchor_118_118"><span class="label">[118]</span></a>
+M: p. 92 (see also p. 339). Although Gilbert does not make
+it explicit, this would solve the medieval problem of gravitation
+without resorting to a Ptolemaic universe. In addition, since
+coacervation is electric, and electric forces can be screened,
+it should have been possible to reduce the downward motion
+of a body by screening!</p></div>
+
+<div class="footnote"><p><a name="Footnote_119_119" id="Footnote_119_119"></a><a href="#FNanchor_119_119"><span class="label">[119]</span></a>
+M: pp. 91, 92: "This unity is, according to Pythagoras, the
+principle, through participation, in which a thing is said to be
+one" (see <a href="#Footnote_30_30">footnotes 30</a> and <a href="#Footnote_122_122">122</a>).</p></div>
+
+<div class="footnote"><p><a name="Footnote_120_120" id="Footnote_120_120"></a><a href="#FNanchor_120_120"><span class="label">[120]</span></a>
+"Sense" is probably too strong a term, and yet the change
+following contact is difficult to describe in Gilbert's phraseology
+without some such subjective term. See Gilbert's argument on
+the soul and organs of a loadstone, M: pp. 309&mdash;313.</p></div>
+
+<div class="footnote"><p><a name="Footnote_121_121" id="Footnote_121_121"></a><a href="#FNanchor_121_121"><span class="label">[121]</span></a>
+M: pp. 112, 113.</p></div>
+
+<div class="footnote"><p><a name="Footnote_122_122" id="Footnote_122_122"></a><a href="#FNanchor_122_122"><span class="label">[122]</span></a>
+Gilbert, <i>De magnete</i>, London, 1600, bk. 2, ch. 2, pp. 56-57.</p></div>
+
+<div class="footnote"><p><a name="Footnote_123_123" id="Footnote_123_123"></a><a href="#FNanchor_123_123"><span class="label">[123]</span></a>
+<i>Ibid.</i>, ch. 1, pp. 45-46.</p></div>
+
+<div class="footnote"><p><a name="Footnote_124_124" id="Footnote_124_124"></a><a href="#FNanchor_124_124"><span class="label">[124]</span></a>
+M: pp. 110, 314.</p></div>
+
+<div class="footnote"><p><a name="Footnote_125_125" id="Footnote_125_125"></a><a href="#FNanchor_125_125"><span class="label">[125]</span></a>
+M: pp. 82, 105, 170, 172, 217.</p></div>
+
+<div class="footnote"><p><a name="Footnote_126_126" id="Footnote_126_126"></a><a href="#FNanchor_126_126"><span class="label">[126]</span></a>
+M: p. 98.</p></div>
+
+<div class="footnote"><p><a name="Footnote_127_127" id="Footnote_127_127"></a><a href="#FNanchor_127_127"><span class="label">[127]</span></a>
+M: pp. 100, 112, 113, 143, 148. It need hardly be pointed
+out that coitus is not an impersonal term.</p></div>
+
+<div class="footnote"><p><a name="Footnote_128_128" id="Footnote_128_128"></a><a href="#FNanchor_128_128"><span class="label">[128]</span></a>
+M: p. 110.</p></div>
+
+<div class="footnote"><p><a name="Footnote_129_129" id="Footnote_129_129"></a><a href="#FNanchor_129_129"><span class="label">[129]</span></a>
+M: p. 110.</p></div>
+
+<div class="footnote"><p><a name="Footnote_130_130" id="Footnote_130_130"></a><a href="#FNanchor_130_130"><span class="label">[130]</span></a>
+M: pp. 109, 115, 148, 149, 155, 166, 174.</p></div>
+
+<div class="footnote"><p><a name="Footnote_131_131" id="Footnote_131_131"></a><a href="#FNanchor_131_131"><span class="label">[131]</span></a>
+M: pp. 110, 155.</p></div>
+
+<div class="footnote"><p><a name="Footnote_132_132" id="Footnote_132_132"></a><a href="#FNanchor_132_132"><span class="label">[132]</span></a>
+M: pp. 166, 332. See also <a href="#Footnote_84_84">footnote 84</a>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_133_133" id="Footnote_133_133"></a><a href="#FNanchor_133_133"><span class="label">[133]</span></a>
+M: pp. 90, 106, 107, 108, 113, 132, 135, 136, 158. This
+is, of course, contrary to modern experience.</p></div>
+
+<div class="footnote"><p><a name="Footnote_134_134" id="Footnote_134_134"></a><a href="#FNanchor_134_134"><span class="label">[134]</span></a>
+M: pp. 106, 107, 108, 114, 134, 136, 140, 162.</p></div>
+
+<div class="footnote"><p><a name="Footnote_135_135" id="Footnote_135_135"></a><a href="#FNanchor_135_135"><span class="label">[135]</span></a>
+M: pp. 106, 109, 114, 159, 162.</p></div>
+
+<div class="footnote"><p><a name="Footnote_136_136" id="Footnote_136_136"></a><a href="#FNanchor_136_136"><span class="label">[136]</span></a>
+M: pp. 137-140.</p></div>
+
+<div class="footnote"><p><a name="Footnote_137_137" id="Footnote_137_137"></a><a href="#FNanchor_137_137"><span class="label">[137]</span></a>
+M: p. 109.</p></div>
+
+<div class="footnote"><p><a name="Footnote_138_138" id="Footnote_138_138"></a><a href="#FNanchor_138_138"><span class="label">[138]</span></a>
+M: p. 105, and Gilbert, <i>De magnete</i>, London, 1600, bk. 2
+ch. 4, p. 65.</p></div>
+
+<div class="footnote"><p><a name="Footnote_139_139" id="Footnote_139_139"></a><a href="#FNanchor_139_139"><span class="label">[139]</span></a>
+M: p. 105.</p></div>
+
+<div class="footnote"><p><a name="Footnote_140_140" id="Footnote_140_140"></a><a href="#FNanchor_140_140"><span class="label">[140]</span></a>
+M: pp. 289, 322.</p></div>
+
+<div class="footnote"><p><a name="Footnote_141_141" id="Footnote_141_141"></a><a href="#FNanchor_141_141"><span class="label">[141]</span></a>
+M: pp. 26, 68, 105, 179, 198, 307, 335, 343. For rotation, see <a href="#Footnote_147_147">footnote 147</a>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_142_142" id="Footnote_142_142"></a><a href="#FNanchor_142_142"><span class="label">[142]</span></a>
+M: pp. 67, 71. That each part is informed with the
+properties of the whole is an argument favoring an animistic
+explanation of the nature of this form.</p></div>
+
+<div class="footnote"><p><a name="Footnote_143_143" id="Footnote_143_143"></a><a href="#FNanchor_143_143"><span class="label">[143]</span></a>
+M: p. 109.</p></div>
+
+<div class="footnote"><p><a name="Footnote_144_144" id="Footnote_144_144"></a><a href="#FNanchor_144_144"><span class="label">[144]</span></a>
+M: pp. 111, 188.</p></div>
+
+<div class="footnote"><p><a name="Footnote_145_145" id="Footnote_145_145"></a><a href="#FNanchor_145_145"><span class="label">[145]</span></a>
+M: pp. 67, 105, 179, 183.</p></div>
+
+<div class="footnote"><p><a name="Footnote_146_146" id="Footnote_146_146"></a><a href="#FNanchor_146_146"><span class="label">[146]</span></a>
+M: pp. 101, 105, 217.</p></div>
+
+<div class="footnote"><p><a name="Footnote_147_147" id="Footnote_147_147"></a><a href="#FNanchor_147_147"><span class="label">[147]</span></a>
+M: pp. 179, 304, 305, 311, 322, 326, 328, 330-334, 338-343.</p></div>
+
+<div class="footnote"><p><a name="Footnote_148_148" id="Footnote_148_148"></a><a href="#FNanchor_148_148"><span class="label">[148]</span></a>
+M: pp. 142, 179; see also electric attraction, p. 97.</p></div>
+
+<div class="footnote"><p><a name="Footnote_149_149" id="Footnote_149_149"></a><a href="#FNanchor_149_149"><span class="label">[149]</span></a>
+M: pp. 308, 317-343.</p></div>
+
+<div class="footnote"><p><a name="Footnote_150_150" id="Footnote_150_150"></a><a href="#FNanchor_150_150"><span class="label">[150]</span></a>
+M: pp. 106, 340.</p></div>
+
+<div class="footnote"><p><a name="Footnote_151_151" id="Footnote_151_151"></a><a href="#FNanchor_151_151"><span class="label">[151]</span></a>
+M: pp. 308, 309, 311, 330, 333, 344, 347.</p></div>
+
+<div class="footnote"><p><a name="Footnote_152_152" id="Footnote_152_152"></a><a href="#FNanchor_152_152"><span class="label">[152]</span></a>
+M: pp. 136, 334, 345.</p></div>
+
+<div class="footnote"><p><a name="Footnote_153_153" id="Footnote_153_153"></a><a href="#FNanchor_153_153"><span class="label">[153]</span></a>
+M: pp. 184-186, 190, 232. This is not quite the same
+argument as that the powers of the loadstone are identical
+with those of the earth. See <a href="#Footnote_78_78">footnote 78</a>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_154_154" id="Footnote_154_154"></a><a href="#FNanchor_154_154"><span class="label">[154]</span></a>
+M: pp. 125, 180.</p></div>
+
+<div class="footnote"><p><a name="Footnote_155_155" id="Footnote_155_155"></a><a href="#FNanchor_155_155"><span class="label">[155]</span></a>
+M: p. 151.</p></div>
+
+<div class="footnote"><p><a name="Footnote_156_156" id="Footnote_156_156"></a><a href="#FNanchor_156_156"><span class="label">[156]</span></a>
+M: pp. 121, 150.</p></div>
+
+<div class="footnote"><p><a name="Footnote_157_157" id="Footnote_157_157"></a><a href="#FNanchor_157_157"><span class="label">[157]</span></a>
+M: pp. 115, 151, 165.</p></div>
+
+<div class="footnote"><p><a name="Footnote_158_158" id="Footnote_158_158"></a><a href="#FNanchor_158_158"><span class="label">[158]</span></a>
+M: pp. 106, 118, 151, 191, 205, 221, 243.</p></div>
+
+<div class="footnote"><p><a name="Footnote_159_159" id="Footnote_159_159"></a><a href="#FNanchor_159_159"><span class="label">[159]</span></a>
+M: pp. 116, 117, 119, 131, 183, 188, 221.</p></div>
+
+<div class="footnote"><p><a name="Footnote_160_160" id="Footnote_160_160"></a><a href="#FNanchor_160_160"><span class="label">[160]</span></a>
+M: p. 31.</p></div>
+
+<div class="footnote"><p><a name="Footnote_161_161" id="Footnote_161_161"></a><a href="#FNanchor_161_161"><span class="label">[161]</span></a>
+M: pp. 116, 151, 200.</p></div>
+
+<div class="footnote"><p><a name="Footnote_162_162" id="Footnote_162_162"></a><a href="#FNanchor_162_162"><span class="label">[162]</span></a>
+M: pp. 131, 132, 153-158.</p></div>
+
+<div class="footnote"><p><a name="Footnote_163_163" id="Footnote_163_163"></a><a href="#FNanchor_163_163"><span class="label">[163]</span></a>
+M: pp. 141, 152, 153, 158, 161, 191, 222.</p></div>
+
+<div class="footnote"><p><a name="Footnote_164_164" id="Footnote_164_164"></a><a href="#FNanchor_164_164"><span class="label">[164]</span></a>
+M: p. 146.</p></div>
+
+<div class="footnote"><p><a name="Footnote_165_165" id="Footnote_165_165"></a><a href="#FNanchor_165_165"><span class="label">[165]</span></a>
+M: p. 165.</p></div>
+
+<div class="footnote"><p><a name="Footnote_166_166" id="Footnote_166_166"></a><a href="#FNanchor_166_166"><span class="label">[166]</span></a>
+M: p. 153.</p></div>
+
+<div class="footnote"><p><a name="Footnote_167_167" id="Footnote_167_167"></a><a href="#FNanchor_167_167"><span class="label">[167]</span></a>
+M: pp. 121, 123, 124, 304, 305, 306, 307, 309.</p></div>
+
+<div class="footnote"><p><a name="Footnote_168_168" id="Footnote_168_168"></a><a href="#FNanchor_168_168"><span class="label">[168]</span></a>
+Gilbert defined the <i>orbis virtutis</i> in the glossary at the
+beginning of his treatise as, "... totum illud spatium, per
+quod quaevis magnetis virtus extenditur." This is the core of
+the difference between electric and magnetic forces. The substantial
+form of an electric could not be "effused," but was
+"imprisoned" in matter (as the Neoplatonic soul in the human
+body); while the primary form of a magnet did not require
+a material carrier and its effusion was similar to the propagation
+of a species in light.</p></div>
+
+<div class="footnote"><p><a name="Footnote_169_169" id="Footnote_169_169"></a><a href="#FNanchor_169_169"><span class="label">[169]</span></a>
+M: pp. 124, 150, 151.</p></div>
+
+<div class="footnote"><p><a name="Footnote_170_170" id="Footnote_170_170"></a><a href="#FNanchor_170_170"><span class="label">[170]</span></a>
+M: pp. 123, 307.</p></div>
+
+<div class="footnote"><p><a name="Footnote_171_171" id="Footnote_171_171"></a><a href="#FNanchor_171_171"><span class="label">[171]</span></a>
+M: pp. 304-307. See also p. 310, where it is stated that
+the sun and earth could awaken souls.</p></div>
+
+<div class="footnote"><p><a name="Footnote_172_172" id="Footnote_172_172"></a><a href="#FNanchor_172_172"><span class="label">[172]</span></a>
+M: pp. 101, 110, 112, 123, 148, 149, 304, 305. This
+awakening of the iron within the "orbis virtutis" is comparable
+(pp. 216, 350) to the birth of a child under the influence of
+the stars.</p></div>
+
+<div class="footnote"><p><a name="Footnote_173_173" id="Footnote_173_173"></a><a href="#FNanchor_173_173"><span class="label">[173]</span></a>
+M: pp. 110, 111, 112, 189, 216, 217. See also <a href="#Footnote_36_36">footnote 36</a>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_174_174" id="Footnote_174_174"></a><a href="#FNanchor_174_174"><span class="label">[174]</span></a>
+M: p. 106.</p></div>
+
+<div class="footnote"><p><a name="Footnote_175_175" id="Footnote_175_175"></a><a href="#FNanchor_175_175"><span class="label">[175]</span></a>
+M: pp. 106, 109, 110.</p></div>
+
+<div class="footnote"><p><a name="Footnote_176_176" id="Footnote_176_176"></a><a href="#FNanchor_176_176"><span class="label">[176]</span></a>
+M: pp. 113, 114.</p></div>
+
+<div class="footnote"><p><a name="Footnote_177_177" id="Footnote_177_177"></a><a href="#FNanchor_177_177"><span class="label">[177]</span></a>
+M: pp. 190, 192, 210-216.</p></div>
+
+<div class="footnote"><p><a name="Footnote_178_178" id="Footnote_178_178"></a><a href="#FNanchor_178_178"><span class="label">[178]</span></a>
+M: p. 209.</p></div>
+
+<div class="footnote"><p><a name="Footnote_179_179" id="Footnote_179_179"></a><a href="#FNanchor_179_179"><span class="label">[179]</span></a>
+M: pp. 107, 110, 111.</p></div>
+
+<div class="footnote"><p><a name="Footnote_180_180" id="Footnote_180_180"></a><a href="#FNanchor_180_180"><span class="label">[180]</span></a>
+M: p. 108.</p></div>
+
+<div class="footnote"><p><a name="Footnote_181_181" id="Footnote_181_181"></a><a href="#FNanchor_181_181"><span class="label">[181]</span></a>
+M: pp. 111, 112, 113.</p></div>
+
+<div class="footnote"><p><a name="Footnote_182_182" id="Footnote_182_182"></a><a href="#FNanchor_182_182"><span class="label">[182]</span></a>
+M: pp. 109, 111, 112, 148, 149.</p></div>
+
+<div class="footnote"><p><a name="Footnote_183_183" id="Footnote_183_183"></a><a href="#FNanchor_183_183"><span class="label">[183]</span></a>
+M: pp. 112, 149.</p></div>
+
+<div class="footnote"><p><a name="Footnote_184_184" id="Footnote_184_184"></a><a href="#FNanchor_184_184"><span class="label">[184]</span></a>
+M: pp. 142, 189.</p></div>
+
+<div class="footnote"><p><a name="Footnote_185_185" id="Footnote_185_185"></a><a href="#FNanchor_185_185"><span class="label">[185]</span></a>
+M: p. 190.</p></div>
+
+<div class="footnote"><p><a name="Footnote_186_186" id="Footnote_186_186"></a><a href="#FNanchor_186_186"><span class="label">[186]</span></a>
+M: pp. 85, 105, 113, 143, 226.</p></div>
+
+<div class="footnote"><p><a name="Footnote_187_187" id="Footnote_187_187"></a><a href="#FNanchor_187_187"><span class="label">[187]</span></a>
+M: p. 84.</p></div>
+
+<div class="footnote"><p><a name="Footnote_188_188" id="Footnote_188_188"></a><a href="#FNanchor_188_188"><span class="label">[188]</span></a>
+M: p. 186.</p></div>
+
+<div class="footnote"><p><a name="Footnote_189_189" id="Footnote_189_189"></a><a href="#FNanchor_189_189"><span class="label">[189]</span></a>
+M: pp. 185-188. See also <a href="#Footnote_31_31">footnote 31</a>.</p></div>
+
+<div class="footnote"><p><a name="Footnote_190_190" id="Footnote_190_190"></a><a href="#FNanchor_190_190"><span class="label">[190]</span></a>
+M: pp. 186, 193.</p></div>
+
+<div class="footnote"><p><a name="Footnote_191_191" id="Footnote_191_191"></a><a href="#FNanchor_191_191"><span class="label">[191]</span></a>
+M: pp. 199-200.</p></div>
+
+<div class="footnote"><p><a name="Footnote_192_192" id="Footnote_192_192"></a><a href="#FNanchor_192_192"><span class="label">[192]</span></a>
+M. p. 111.</p></div>
+
+<div class="footnote"><p><a name="Footnote_193_193" id="Footnote_193_193"></a><a href="#FNanchor_193_193"><span class="label">[193]</span></a>
+M: p. 112.</p></div>
+
+<div class="footnote"><p><a name="Footnote_194_194" id="Footnote_194_194"></a><a href="#FNanchor_194_194"><span class="label">[194]</span></a>
+See, however, M: pp. 112, 113.</p></div>
+
+<div class="footnote"><p><a name="Footnote_195_195" id="Footnote_195_195"></a><a href="#FNanchor_195_195"><span class="label">[195]</span></a>
+M: pp. 109, 312.</p></div>
+
+<div class="footnote"><p><a name="Footnote_196_196" id="Footnote_196_196"></a><a href="#FNanchor_196_196"><span class="label">[196]</span></a>
+M: p. 109.</p></div>
+
+<div class="footnote"><p><a name="Footnote_197_197" id="Footnote_197_197"></a><a href="#FNanchor_197_197"><span class="label">[197]</span></a>
+M: p. 309.</p></div>
+
+<div class="footnote"><p><a name="Footnote_198_198" id="Footnote_198_198"></a><a href="#FNanchor_198_198"><span class="label">[198]</span></a>
+M: pp. 311-312.</p></div>
+
+<div class="footnote"><p><a name="Footnote_199_199" id="Footnote_199_199"></a><a href="#FNanchor_199_199"><span class="label">[199]</span></a>
+M: p. 108.</p></div>
+
+<div class="footnote"><p><a name="Footnote_200_200" id="Footnote_200_200"></a><a href="#FNanchor_200_200"><span class="label">[200]</span></a>
+M: p. 110.</p></div>
+
+<div class="footnote"><p><a name="Footnote_201_201" id="Footnote_201_201"></a><a href="#FNanchor_201_201"><span class="label">[201]</span></a>
+M: p. 216.</p></div>
+
+<div class="footnote"><p><a name="Footnote_202_202" id="Footnote_202_202"></a><a href="#FNanchor_202_202"><span class="label">[202]</span></a>
+M: p. 311.</p></div>
+
+<div class="footnote"><p><a name="Footnote_203_203" id="Footnote_203_203"></a><a href="#FNanchor_203_203"><span class="label">[203]</span></a>
+M: pp. 310, 311.</p></div>
+
+<div class="footnote"><p><a name="Footnote_204_204" id="Footnote_204_204"></a><a href="#FNanchor_204_204"><span class="label">[204]</span></a>
+M: p. 312.</p></div>
+
+<div class="footnote"><p><a name="Footnote_205_205" id="Footnote_205_205"></a><a href="#FNanchor_205_205"><span class="label">[205]</span></a>
+Francis Bacon, <i>op. cit.</i> (<a href="#Footnote_42_42">footnote 42</a>), vol. 1, <i>Novum organum</i>,
+bk. 1, ch. 95, p. 306.</p></div>
+
+<div class="footnote"><p><a name="Footnote_206_206" id="Footnote_206_206"></a><a href="#FNanchor_206_206"><span class="label">[206]</span></a>
+<i>Ibid.</i>, ch. 54 and ch. 64 (pp. 259 and 267).</p></div>
+
+<div class="footnote"><p><a name="Footnote_207_207" id="Footnote_207_207"></a><a href="#FNanchor_207_207"><span class="label">[207]</span></a>
+Sir Thomas Browne, <i>Pseudodoxia epidemica</i>, ed. 3, London,
+1658, bk. 2, ch. 2, 3, 4.</p></div>
+
+<div class="footnote"><p><a name="Footnote_208_208" id="Footnote_208_208"></a><a href="#FNanchor_208_208"><span class="label">[208]</span></a>
+Robert Boyle, <i>Experiments and notes about the mechanical
+production of magnetism</i>, London, 1676.</p></div>
+
+<div class="footnote"><p><a name="Footnote_209_209" id="Footnote_209_209"></a><a href="#FNanchor_209_209"><span class="label">[209]</span></a>
+Nicolaus Cabeaus, <i>Philosophia magnetica</i>, Ferarra, 1629.</p></div>
+
+<div class="footnote"><p><a name="Footnote_210_210" id="Footnote_210_210"></a><a href="#FNanchor_210_210"><span class="label">[210]</span></a>
+Galileo Galilei, <i>Dialogue on the great world systems</i>, in the
+translation of T. Salusbury, edited and corrected by G. de
+Santillana, University of Chicago Press, 1953, pp. 409-423.</p></div>
+
+<div class="footnote"><p><a name="Footnote_211_211" id="Footnote_211_211"></a><a href="#FNanchor_211_211"><span class="label">[211]</span></a>
+Cassirer, <i>op. cit.</i> (<a href="#Footnote_3_3">footnote 3</a>), vol. 1, p. 359-367.</p></div>
+
+<div class="footnote"><p><a name="Footnote_212_212" id="Footnote_212_212"></a><a href="#FNanchor_212_212"><span class="label">[212]</span></a>
+Because the earth has the same nature as a celestial globe,
+its revolution and circular inertia require no more explanation
+than those of any other heavenly body.</p></div>
+
+<div class="footnote"><p><a name="Footnote_213_213" id="Footnote_213_213"></a><a href="#FNanchor_213_213"><span class="label">[213]</span></a>
+One wonders if Bruno might not have been another of the
+stimuli for Gilbert. The latter's interest in magnetism began
+shortly before Bruno visited England and lectured on his
+interpretation of the Copernican theory.</p></div>
+</div>
+
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
+End of the Project Gutenberg EBook of The Natural Philosophy of William
+Gilbert and His Predecessors, by W. James King
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+The Project Gutenberg EBook of The Natural Philosophy of William Gilbert
+and His Predecessors, by W. James King
+
+This eBook is for the use of anyone anywhere 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
+
+
+Title: The Natural Philosophy of William Gilbert and His Predecessors
+
+Author: W. James King
+
+Release Date: April 15, 2010 [EBook #31999]
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK NATURAL PHILOSOPHY--WILLIAM GILBERT ***
+
+
+
+
+Produced by Chris Curnow, Joseph Cooper and the Online
+Distributed Proofreading Team at https://www.pgdp.net
+
+
+
+
+
+
+
+
+
+                                                    CONTRIBUTIONS FROM
+
+                                 THE MUSEUM OF HISTORY AND TECHNOLOGY:
+
+                                                               PAPER 8
+
+
+                                             THE NATURAL PHILOSOPHY OF
+                                  WILLIAM GILBERT AND HIS PREDECESSORS
+
+                                                       _W. James King_
+
+
+
+
+                                                      By W. James King
+
+                      THE NATURAL PHILOSOPHY OF
+                           WILLIAM GILBERT
+                         AND HIS PREDECESSORS
+
+    Until several decades ago, the physical sciences were
+    considered to have had their origins in the 17th
+    century--mechanics beginning with men like Galileo Galilei
+    and magnetism with men like the Elizabethan physician and
+    scientist William Gilbert.
+
+    Historians of science, however, have traced many of the 17th
+    century's concepts of mechanics back into the Middle Ages.
+    Here, Gilbert's explanation of the loadstone and its powers
+    is compared with explanations to be found in the Middle Ages
+    and earlier.
+
+    From this comparison it appears that Gilbert can best be
+    understood by considering him not so much a herald of the new
+    science as a modifier of the old.
+
+    THE AUTHOR: W. James King is curator of electricity, Museum
+    of History and Technology, in the Smithsonian Institution's
+    United States National Museum.
+
+
+The year 1600 saw the publication by an English physician, William
+Gilbert, of a book on the loadstone. Entitled _De magnete_,[1] it has
+traditionally been credited with laying a foundation for the modern
+science of electricity and magnetism. The following essay is an
+attempt to examine the basis for such a tradition by determining what
+Gilbert's original contributions to these sciences were, and to make
+explicit the sense in which he may be considered as being dependent
+upon earlier work. In this manner a more accurate estimate of his
+position in the history of science may be made.
+
+    [1] William Gilbert, _De magnete, magneticisque corporibus
+    et de magno magnete tellure; physiologia nova, plurimis &
+    argumentis, & experimentis, demonstrata_, London, 1600, 240
+    pp., with an introduction by Edward Wright. All references to
+    Gilbert in this article, unless otherwise noted, are to the
+    American translation by P. Fleury Mottelay, 368 pp.,
+    published in New York in 1893, and are designated by the
+    letter M. However, the Latin text of the 1600 edition has
+    been quoted wherever I have disagreed with the Mottelay
+    translation.
+
+    A good source of information on Gilbert is Dr. Duane H. D.
+    Roller's doctoral thesis, written under the direction of Dr.
+    I. B. Cohen of Harvard University. Dr. Roller, at present
+    Curator of the De Golyer Collection at the University of
+    Oklahoma, informed me that an expanded version of his
+    dissertation will shortly appear in book form. Unfortunately
+    his researches were not known to me until after this article
+    was completed.
+
+One criterion as to the book's significance in the history of science
+can be applied almost immediately. A number of historians have pointed
+to the introduction of numbers and geometry as marking a watershed
+between the modern and the medieval understanding of nature. Thus
+A. Koyre considers the Archimedeanization of space as one of the
+necessary features of the development of modern astronomy and
+physics.[2] A. N. Whitehead and E. Cassirer have turned to measurement
+and the quantification of force as marking this transition.[3]
+However, the obvious absence[4] of such techniques in _De magnete_
+makes it difficult to consider Gilbert as a founder of modern
+electricity and magnetism in this sense.
+
+    [2] Alexandre Koyre, _Etudes galileennes_, Paris, 1939.
+
+    [3] Alfred N. Whitehead, _Science and the modern world_, New
+    York, 1925, ch. 3; Ernst Cassirer, _Das Erkenntnisproblem_,
+    ed. 3, Berlin, 1922, vol. 1, pp. 314-318, 352-359.
+
+    [4] However, see M: pp. 161, 162, 168, 335.
+
+[Illustration: Figure 1.--WILLIAM GILBERT'S BOOK ON THE LOADSTONE,
+TITLE PAGE OF THE FIRST EDITION, FROM A COPY IN THE LIBRARY OF
+CONGRESS. (_Photo courtesy of the Library of Congress._)]
+
+There is another sense in which it is possible to contend that
+Gilbert's treatise introduced modern studies in these fields. He has
+frequently been credited with the introduction of the inductive method
+based upon stubborn facts, in contrast to the methods and content of
+medieval Aristotelianism.[5] No science can be based upon faulty
+observations and certainly much of _De magnete_ was devoted to the
+destruction of the fantastic tales and occult sympathies of the
+Romans, the medieval writers, and the Renaissance. However, let us
+also remember that Gilbert added few novel empirical facts of a
+fundamental nature to previous observations on the loadstone.
+Gilbert's experimental work was in large part an expansion of Petrus
+Peregrinus' _De magnete_ of 1269,[6] and a development of works like
+Robert Norman's _The new attractive_,[7] in which the author discussed
+how one could show experimentally the declination and inclination of a
+magnetized needle, and like William Borough's _Discourse on the
+variation of the compass or magnetized needle_,[8] in which the author
+suggested the use of magnetic declination and inclination for
+navigational purposes but felt too little was known about it. That
+other sea-going nations had been considering using the properties of
+the magnetic compass to solve their problems of navigation in the same
+manner can be seen from Simon Stevin's _De havenvinding_.[9]
+
+    [5] For example, William Whewell, _History of the inductive
+    sciences_, ed. 3, New York, 1858, vol. 2, pp. 192 and 217;
+    Charles Singer, _A short history of science to the nineteenth
+    century_, Oxford, 1943, pp. 188 and 343; and A. R. Hall, _The
+    scientific revolution_, Boston, 1956, p. 185.
+
+    [6] _Petri Peregrini maricurtenis, de magnete, seu rota
+    perpetui motus, libellus_, a reprint of the 1558 Angsburg
+    edition in J. G. G. Hellmann, _Rara magnetica_, Berlin, 1898,
+    not paginated. A number of editions of Peregrinus, work, both
+    ascribed to him and plagiarized from him, appeared in the
+    16th century (see Heinz Balmer, _Beitraege zur Geschichte der
+    Erkenntnis des Erdmagnetismus_, Aarau, 1956, pp. 249-255).
+
+    [7] Hellmann, _ibid._, Robert Norman, _The newe attractive,
+    containyng a short discourse of the magnes or lodestone, and
+    amongest other his vertues, of a newe discovered secret and
+    subtill propertie, concernyng the declinyng of the needle,
+    touched therewith under the plaine of the horizon. Now first
+    founde out by Robert Norman Hydrographer_. London, 1581. The
+    possibility is present that Norman's work was a direct
+    stimulus to Gilbert, for Wright's introduction to _De
+    magnete_ stated that Gilbert started his study of magnetism
+    the year following the publication of Norman's book.
+
+    [8] Hellman, _ibid._, William Borough, _A discourse of the
+    variation of the compasse, or magneticall needle. Wherein
+    is mathematically shewed, the manner of the observation,
+    effects, and application thereof, made by W. B. And is to
+    be annexed to the newe attractive of R. N._ London, 1596.
+
+    [9] Hellman, _ibid._, Simon Stevin, _De havenvinding_,
+    Leyden, 1599. It is interesting to note that Wright
+    translated Stevin's work into English.
+
+Instead of new experimental information, Gilbert's major contribution
+to natural philosophy was that revealed in the title of his book--a
+new philosophy of nature, or physiology, as he called it, after the
+early Greeks. Gilbert's attempt to organize the mass of empirical
+information and speculation that came from scholars and artisans, from
+chart and instrument makers, made him "the father of the magnetic
+Philosophy."[10]
+
+    [10] As Edward Wright was to call him in his introduction.
+
+Gilbert's _De magnete_ was not the first attempt to determine the
+nature of the loadstone and to explain how it could influence other
+loadstones or iron. It is typical of Greek philosophy that one of the
+first references we have to the loadstone is not to its properties but
+to the problem of how to explain these properties. Aristotle[11]
+preserved the solution of the first of the Ionian physiologists:
+"Thales too ... seems to suppose that the soul is in a sense the cause
+of movement, since he says that a stone has a soul because it causes
+movement to iron." Plato turned to a similar animistic explanation in
+his dialogue, _Ion_.[12] Such an animistic solution pervaded many of
+the later explanations.
+
+    [11] Aristotle, _On the soul_, translated by W. S. Hett, Loeb
+    Classical Library, London, 1935, 405a20 (see also 411a8:
+    "Some think that the soul pervades the whole universe, whence
+    perhaps came Thales' view that everything is full of gods").
+
+    [12] Plato, _Ion_, translated by W. R. M. Lamb, Loeb
+    Classical Library, London, 1925, 533 (see also 536).
+
+That a mechanical explanation is also possible was shown by Plato
+in his _Timaeus_.[13] He argued that since a vacuum does not exist,
+there must be a plenum throughout all space. Motion of this plenum
+can carry objects along with it, and one could in this manner explain
+attractions like that due to amber and the loadstone.
+
+    [13] Plato, _Timaeus_, translated by R. G. Bury, Loeb
+    Classical Library, London, 1929, 80. It is difficult to
+    determine which explanation Plato preferred, for in both
+    cases the speaker may be only a foil for Plato's opinion
+    rather than an expression of these opinions.
+
+Another mechanical explanation was based upon a postulated tendency
+of atoms to move into a vacuum rather than upon the latter's
+non-existence. Lucretius restated this Epicurean explanation in his
+_De rerum natura_.[14] Atoms from the loadstone push away the air and
+tend to cause a vacuum to form outside the loadstone. The structure of
+iron is such that it, unlike other materials, can be pushed into this
+empty space by the thronging atoms of air beyond it.
+
+    [14] Lucretius, _De rerum natura_, translated by W. H. D.
+    Rouse, Loeb Classical Library, London, 1924, bk. VI, lines
+    998-1041.
+
+Galen[15] returned to a quasi-animistic solution in his denial of
+Epicurus' argument, which he stated somewhat differently from
+Lucretius. One can infer that Galen held that all things have, to a
+greater or lesser degree, a sympathetic faculty of attracting its
+specific, or proper, quality to itself.[16] The loadstone is only an
+inanimate example of what one finds in nutritive organs in organic
+beings.
+
+    [15] Galen, _On the natural faculties_, translated by A. S.
+    Brock, Loeb Classical Library, London, 1916, bk. 1 and bk. 3.
+    A view similar to this appeared in Plato, _Timaeus_, 81 (see
+    footnote 13).
+
+    [16] This same concept was to reappear in the Middle Ages as
+    the _inclinatio ad simile_.
+
+One of the few writers whose explanations of the loadstone Gilbert
+mentioned with approval is St. Thomas Aquinas. Although the medieval
+scholastic philosophy of St. Thomas seems foreign to our way of
+thinking, it formed a background to many of Gilbert's concepts, as
+well as to those of his predecessors, and it will assist our
+discussion to consider briefly Thomist philosophy and to make its
+terminology explicit at this point.[17]
+
+    [17] The background for much of the following was derived
+    from Annaliese Maier, _An der Grenze von Scholastik und
+    Naturwissenchaft_, ed 2, Rome, 1952.
+
+In scholastic philosophy, all beings and substances are a coalescence
+of inchoate matter and enacting form. Form is that which gives being
+to matter and which is responsible for the "virtus" or power to cause
+change, since matter in itself is inert. Moreover, forms can be
+grasped intellectually, whence the nature of a being or a substance
+can be known. Any explanation of phenomena has to be based upon these
+innate natures, for only if the nature of a substance is known can
+its properties be understood. Inanimate natures are determined by
+observation, abstraction, and induction, or by classification.[18]
+
+    [18] St. Thomas' epistemology for the natural inanimate world
+    was based upon Aristotle's dictum: that which is in the mind
+    was in the senses first.
+
+The nature of a substance is causally prior to its properties; while
+the definition of the nature is logically prior to these properties.
+Thus, what we call the theory of a substance is expressed in its
+definition, and its properties can be deduced from this definition.
+
+The world of St. Thomas is not a static one, but one of the
+Aristotelian motions of quantity (change of size), of quality
+(alteration), and of place (locomotion). Another kind of change is
+that of substance, called generation and corruption, but this is a
+mutation, occurring instantly, rather than a motion, that requires
+time. In mutation the essential nature is replaced by a new
+substantial form.
+
+All these changes are motivated by a causal hierarchy that extends
+from the First Cause, the "Dator Formarum," or Creator, to separate
+intellectual substances that may be angels or demons, to the celestial
+bodies that are the "generantia" of the substantial forms of the
+elements and finally to the four prime qualities (dry and wet, hot and
+cold) of the substantial forms. Accidental forms are motivated by the
+substantial forms through the instrumentality of the four prime
+qualities, which can only act by material contact.
+
+The only causal agents in this hierarchy that are learned through the
+senses are the tangible qualities. Usually the prime qualities are not
+observed directly, but only other qualities compounded of them. One of
+the problems of scholastic philosophy was the incorporation, into this
+system of efficient agents, of other qualities, such as the qualities
+of gravity and levity that are responsible for upward and downward
+motion.
+
+Besides the causal hierarchy of forms, the natural world of St. Thomas
+existed in a substantial and spatial hierarchy. All substances whether
+an element or a mixture of elements have a place in this hierarchy by
+virtue of their nature. If the material were removed from its proper
+place, it would tend to return. In this manner is obtained the natural
+downward motion of earth and the natural upward motion of fire.
+
+Local motion can also be caused by the "virtus coeli" generating a new
+form, or through the qualitative change of alteration. Since each
+element and mixture has its own natural place in the hierarchy of
+material substances, and this place is determined by its nature,
+changes of nature due to a change of the form can produce local
+motion. If before change the substance is in its natural place, it
+need not be afterwards, and if not, would then tend to move to its
+new natural place.
+
+It will be noted that the scholastic explanation of inanimate motion
+involved the action and passion of an active external mover and a
+passive capacity to be moved. Whence the definition of motion that
+Descartes[19] was later to deride, "motus est actus entis in potentia
+prout quod in potentia."
+
+    [19] Rene Descartes, _Oeuvres_, Charles Adam and Paul
+    Tannery, Paris, 1897-1910, vol. 2, p. 597 (letter to
+    Mersenne, 16 Oct., 1639), and vol. 11 (Le Monde), p. 39. The
+    original definition can be found in Aristotle, _Physics_,
+    translated by P. H. Wickstead and F. M. Cornford, Loeb
+    Classical Library, London, 1934, 201a10. Aquinas rephrases
+    the definition as "_Motus est actus existentis in potentia
+    secundum quod huius modi._" See St. Thomas Aquinas, _Opera
+    omnia_, Antwerp, 1612, vol. 2, _Physicorum Aristotelis
+    expositio_, lib. 3, lect. 2, cap. a, p. 29.
+
+We have seen above that the "motor essentialis" for terrestial change
+is the "virtus coeli." Thus the enacting source of all motion and
+change is the heavens and the heavenly powers, while the earth and its
+inhabitants becomes the focus or passive recipient of these actions.
+In this manner the scholastic restated in philosophical terms the
+drama of an earth-centered universe.
+
+Although change or motion is normally effected through the above
+mentioned causal hierarchy, it is not always necessary that
+actualization pass from the First Cause down through each step of the
+hierarchy to terminate in the qualities of the individual being. Some
+of the steps could be by-passed: for instance man's body is under the
+direct influence of the celestial bodies, his intellect under that of
+the angels and his will under God.[20] Another example of effects
+not produced through the tangible prime qualities is that of the
+tide-producing influence of the moon on the waters of the ocean or the
+powers of the loadstone over iron. Such causal relations, where some
+members of the normal causal chain have been circumvented, are called
+occult.[21]
+
+    [20] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 9,
+    _Summa contra gentiles_, lib. 3, cap. 92 (Quo modo dicitur
+    aliquis bene fortunatus et quo modo adjuvatur homo ex
+    superioribus causis), p. 343.
+
+    [21] St. Thomas Aquinas, op. cit. (footnote 19), vol. 17
+    _Opuscula, De operationibus occultis naturae ad queindam
+    militem ultramontem_, pp. 213-224.
+
+While St. Thomas referred to the loadstone in a number of places as
+something whose nature and occult properties are well known, it was
+always as an example or as a tangential reference. One does not find
+a systematic treatment of the loadstone in St. Thomas, but there are
+enough references to provide a fairly explicit statement of what he
+considered to be the nature of the magnet.
+
+In one of his earliest writings, St. Thomas argued that the magnet
+attracts iron because this is a necessary consequence of its
+nature.[22]
+
+    Respondeo dicendum, quod omnibus rebus naturaliter insunt
+    quaedam principia, quibus non solum operationes proprias
+    efficere possunt, sed quibus etiam eas convenientes fini suo
+    reddant, sive sint actiones quae consequantur rem aliquam ex
+    natura sui generis, sive consequantur ex natura speciei, ut
+    magneti competit ferri deorsum ex natura sui generis, et
+    attrahere ferrum ex natura speciei. Sicut autem in rebus
+    agentibus ex necessitate naturae sunt principia actionum
+    ipsae formae, a quibus operationes proprie prodeunt
+    convenientes fini....
+
+Due to its generic form, the loadstone is subject to natural motion
+of place of up and down. However, the "virtus" of its specific form
+enabled it to produce another kind of motion--it could draw iron to
+itself.
+
+Normally the "virtus" of a substance is limited to those contact
+effects that could be produced by the form operating through the
+active qualities of one substance, on the relatively passive qualities
+of another. St. Thomas asserted the loadstone to be one of these
+minerals, the occult powers of whose form goes beyond those of the
+prime qualities.[23]
+
+    Forma enim elementi non habet aliquam operationem nisi quae
+    fit per qualitates activas et passivas, quae sunt
+    dispositiones materiae corporalis. Forma autem corporis
+    mineralis habet aliquam operationem excedentem qualitates
+    activas et passivas, quae consequitur speciem ex influentia
+    corporis coelestis, ut quod magnes attrahit ferrum, et quod
+    saphirus curat apostema.
+
+That this occult power of the loadstone is a result of the direct
+influence of the "virtus coeli" was expounded at greater length in
+his treatise on the soul.[24]
+
+    Quod quidem ex propriis formarum operationibus perpendi
+    potest. Formae enim elementorum, quae sint infimae et
+    materiae propinquissime, non habent aliquam operationem
+    excedentem qualitates activas et passivas, ut rarum et
+    densum, et aliae huiusmodi, qui videntur esse materiae
+    dispositiones. Super has autem sunt formae mistorum quae
+    praeter praedictas operationes, habent aliquam operationem
+    consequentem speciem, quam fortiuntur ex corporibus
+    coelestibus; sicut quod magnes attrahit ferrum non propter
+    calorem aut frigiis, aut aliquid huiusmodi; sed ex quadam
+    participatione virtutis coelestis. Super has autem formas
+    sint iterum animae plantarum, quae habent similitudinem non
+    solum ad ipsa corpora coelestia, sed ad motores corporum
+    coelestium, inquantum sunt principia cuiusdam motus,
+    quibusdam seipsa moventibus. Super has autem ulterius sunt
+    animae brutorum, quae similitudinem iam habent ad substantiam
+    moventem coelestia corpora, non solum in operatione qua
+    movent corpora, sed etiam in hoc quod in seipsis
+    cognoscitivae sunt, licet brutorum cognitio sit materialium
+    tantum et materialiter....
+
+St. Thomas placed the form of the magnet and its powers in the
+hierarchy of forms intermediate between the forms of the inanimate
+world and the forms of the organic world with its hierarchy of plant,
+animal and rational souls. The form of the loadstone is then superior
+to that of iron, which can only act through its active and passive
+qualities, but inferior to the plant soul, that has the powers of
+growth from the "virtus coeli." This is similar to Galen's comparison
+of the magnet's powers to that of the nutritive powers of organic
+bodies.
+
+In his commentary on Aristotle's _Physics_, St. Thomas explained how
+iron is moved to the magnet. It is moved by some quality imparted to
+the iron by the magnet.[25]
+
+    Illud ergo trahere dicitur, quod movet alterum ad seipsum.
+    Movere autem aliquid secundum locum ad seipsum contingit
+    tripliciter. Uno modo sicut finis movet; unde et finis
+    dicitur trahere, secundum illud poetate: "trahit sua quemque
+    voluptas": et hoc modo potest dici quod locus trahit id, quod
+    naturaliter movetur ad locum. Alio modo potest dici aliquid
+    trahere, quia movet illud ad seipsum alterando aliqualiter,
+    ex qua alteratione contingit quod alteratum moveatur secundum
+    locum: et hoc modo magnes dicitur trahere ferrum. Sicut enim
+    generans movet gravia et levia, inquantum dat eis formarum
+    per quam moventur ad locum, ita et magnes dat aliquam
+    qualitatem ferro, per quam movetur ad ipsum. Et quod hoc sit
+    verum patet ex tribus. Primo quidem quia magnes non trahit
+    ferrum ex quacumque distantia, sed ex propinquo; si autem
+    ferrum moveretur ad magnetem solum sicut ad finem, sicut
+    grave ad suum locum, ex qualibet distantia tenderet ad ipsum.
+    Secundo, quia, si magnes aliis perungatur, ferrum attrahere
+    non potest; quasi aliis vim alterativam ipsius impedientibus,
+    aut etiam in contrarium alterantibus. Tertio, quia ad hoc
+    quod magnes attrahat ferrum, oportet prius ferrum liniri cum
+    magnete, maxime si magnes sit parvus; quasi ex magnete
+    aliquam virtutem ferrum accipiat ut ad eum moveatur. Sic
+    igitur magnes attrahit ferrum non solum sicut finis, sed
+    etiam sicut movens et alterans. Tertio modo dicitur aliquid
+    attrahere, quia movet ad seipsum motu locali tantum. Et sic
+    definitur hic tractio, prout unum corpus trahit alteram, ita
+    quod trahens simul moveatur cum eo quod trahitur.
+
+As the "generans" of terrestrial change moves what is light and heavy
+to another place by implanting a new form in a substance, so the
+magnet moves the iron by impressing upon it the quality by which it is
+moved. By virtue of the new quality, the iron is not in its natural
+place and moves accordingly. St. Thomas proved that the loadstone acts
+as a secondary "generans" in three ways: (1) the loadstone produces an
+effect not from any distance but only from a nearby position (showing
+that this motion is due to more than place alone), (2) rubbing the
+loadstone with garlic acts as if it impedes or alters the "virtus
+magnetis," and (3) the iron must be properly aligned with respect to
+the loadstone in order to be moved, especially if the loadstone is
+small. Thus the iron is moved by the magnet not only to a place, but
+also by changing and altering it: one has not only the change of
+locomotion but that of alteration. Moreover the source of this
+alteration in the iron is not the heavens but the loadstone.
+Accordingly the loadstone could cause change in another substance
+because it could influence the nature of the other substance.
+
+    [22] St. Thomas Aquinas, _op. cit._ (footnote 19), vol 7,
+    _Scriptum in quartum librum sententiarum magistri Petri
+    Lombardi_, lib. 4, disq. 33 (De diversis coniugii legibus),
+    art. 1 (Utrum habere plures uxores sit contra legem naturae),
+    p. 168. The same statement occurs in one of his most mature
+    works, _op. cit._ vol. 20, _Summa theologica_, pars 3
+    (supplementum), quaestio 65 (De pluralitate uxorum in quinque
+    articulos divisa), art. 1 (Utrum habere plures uxores sit
+    contra legem naturae), p. 107.
+
+    [23] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 8,
+    _Quaestio unica: de spiritualibus creaturis_, art. 2 (Utrum
+    substantia spiritualis possit uniri corpori), p. 404. See
+    also vol. 9, _Summa contra gentiles_, lib. 3, cap. 92
+    (Quomodo dicitur aliquis bene fortunatus, et quomodo
+    adjuvatur homo ex superioribus causis), p. 344; and vol. 17,
+    _Opuscula, De operationibus occultis naturae ad queindam
+    militem ultramontem_, pp. 213-214.
+
+    [24] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 8,
+    _Quaestio unica: de anima_, art. 1 (Utrum anima humana possit
+    esse forma et hoc aliquid), p. 437. See also vol. 8,
+    _Quaestio: De veritate_, quaestio 5 (De providentia), art. 10
+    (Utrum humani actus a divina providentia gubernentur mediis
+    corporibus coelestibus), p. 678.
+
+    [25] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 2,
+    _Physicorum Aristotelis expositio_, lib. 7, lect. 3, cap. g
+    (Probatur in motu locali quod movens et motum oportet esse
+    simul), p. 97 (quoted in Gilbert, M: p. 104).
+
+About the time that St. Thomas was writing his letter _De
+operationibus occultis naturae_ to a certain knight, Petrus Peregrinus
+was writing from a military camp a letter in which he showed how
+certain relatively new effects could be produced by the loadstone.
+He was more interested in what he could do with the magnet than in
+explaining these effects. However, he discussed it at sufficient
+length for one to find that his explanation of magnetic phenomena was
+basically similar to that of his contemporary, St. Thomas.
+
+Peregrinus based his discussion of the loadstone upon its nature and
+analyzed magnetic phenomena in terms of the change of alteration. In
+magnetic attraction, the nature of the iron is altered by having a new
+quality impressed upon it,[26] and the loadstone is the agent that
+makes the iron the same species as the stone.[27]
+
+    ... Oportet enim quod illud quod iam conversum est ex duobus
+    in unum, sit in eadem specie cum agente; quod non esset, si
+    natura istud impossible eligeret.
+
+This impressed similarity to the agent, Peregrinus realized, is not
+a pole of the same polarity but one opposite to that of the inducing
+pole. To produce this effect, the virtue of the stronger agent
+dominates the weaker patient and impresses the virtue of the stronger
+on the weaker so that they are made similar.[28]
+
+    ... In cuius attractione, lapis fortioris virtutis agens est;
+    debilioris vero patiens.
+
+A further instance of alteration occurs in the reversal of polarity of
+magnetized iron when one brings two similar poles together. Again, the
+stronger agent dominates the weaker patient and the iron is left with
+a similarity to the last agent.[29]
+
+    ... Causa huis est impressio ultimi agentis, confundentis et
+    alterantis virtutem primi.
+
+In this assimilation of the agent to the patient, another effect is
+produced: the agent not only desires to assimilate the patient to
+itself, but to unite with it to become one and the same. Speaking of
+the motion to come together, he says:[30]
+
+    Huius autem rei causam per hanc viam fieri existimo: agens
+    enim intendit suum patiens non solum sibi assimilare, sed
+    unire, ut ex agente et patiente fiat unum, per numerum. Et
+    hoc potes experiri in isto lapide mirabili in hunc modum....
+    Agens ergo, ut vides experimento, intendit suum paciens sibi
+    unire; hoc autem fit ratione similitudinis inter ea. Oportet
+    ergo ... virtute attractionis, fiat una linea, ex agente et
+    patiente, secundum hunc ordinem ...
+
+The nature of the magnet, as an active cause, tends to enact, and
+since it acts in the best manner in which it is able, it acts so as
+to preserve the similarities of opposite poles.[31]
+
+    Natura autem, que tendet ad esse, agit meliori modo quo
+    potest, eligit primum ordinem actionis, in quo melius
+    salvatur idemptitas, quam in secundo ...
+
+Thus unlike poles tend to come together when a dissected magnet is
+reassembled.
+
+Like St. Thomas, Peregrinus argued that the magnet receives its powers
+from the heavens. But he further specified this by declaring that
+different virtues from the different parts of the heavens flow into
+their counterpart in the loadstone--from the poles of the heavens the
+virtue flows into the poles of the magnet,[32]
+
+    Praeterea cum ferrum, vel lapis, vertatur tarn ad partem
+    meridionalem quam ad partem septemtrionalem ... existima
+    cogimur, non solum a partem septemtrionali, verum etiam a
+    meridionali virtutem influi in polos lapidis, magis quam a
+    locis minere ... Omnes autem orbes meridiani in polis mundi
+    concurrent; quare, a polis mundi, poli magnetis virtutem
+    recipiunt. Et ex hoc apparet manifeste quod non ad stellam
+    nauticam movetur, cum ibi non concurrant orbes meridiani, sed
+    in polis; stella enim nautica, extra orbem meridianum
+    cuiuslibet regionis semper invenitur, nisi bis, in completa
+    firmanenti revolutione. Ex hiis ergo manifestum est quod a
+    partibus celi, partes magnetis virtutem recipiunt.
+
+and similarly for the other parts of the heavens and the other parts
+of the loadstone.[33]
+
+    Ceteras autem partes lapidis merito estimare potes,
+    influentiam a reliquis celi partibus retinere, ut non sic
+    solum polos lapidis a polis mundi, sed totum lapidem a toto
+    celo, recipere influentiam et virtutem, estimes.
+
+Physical proof for such influences was adduced by Peregrinus from the
+motions of the loadstone. That the poles of the loadstone receive
+their virtue from the poles of the heavens follows experimentally from
+north-south alignment of a loadstone. That not only the poles but the
+entire loadstone receives power from corresponding portions of the
+heavens follows from the fact that a spherical loadstone, when
+"properly balanced," would follow the motion of the heavens.[34]
+
+    Quod tibi tali modo consulo experire: ... Et si tunc lapis
+    moveatur secundum celi motum, gaudeas te esse assecutum
+    secretum mirabile; si vero non, imperitie tue, potiusquam
+    nature, defectus imputetur. In hoc autem situ, seu modo
+    positionis, virtutes lapidis huius estimo conservari proprie,
+    et in reliquis sitibus celi virtutem eius obsecari, seu
+    ebetari, potiusquam conservari puto. Per hoc autem
+    instrumentum excusaberis ab omni horologio; nam per ipsum
+    scire poteris Ascensus in quacumque hora volueris, et omnes
+    alias celi dispositiones, quas querunt Astrologi.
+
+As the heavens move eternally, so the spherical loadstone must be a
+"perpetuum mobile".
+
+Another of the scholars whose explanation of the loadstone Gilbert
+noted with approval was Cardinal Nicholas of Cusa.[35] The latter's
+references to it were not as direct as those of St. Thomas, but he did
+use it as an image several times to provide a microcosmic example of
+the relation of God to his creation. From this one can infer that he
+explained the preternatural motion of the magnet and the iron by
+impressed qualities, the heavens being the agent for the loadstone,
+and the loadstone, the agent for iron.
+
+    [26] Hellmann, _op. cit._ (footnote 6), Peregrinus, pt. 1,
+    ch. 8. The magnet attracts the iron "secundum naturalem
+    appetitum lapidis ... sine resistentia." There is no natural
+    resistence to this motion since it is no longer contrary to
+    the nature of the iron. The nature of the iron has changed.
+
+    [27] _Ibid._, pt. 1, ch. 9.
+
+    [28] _Ibid._, pt. 1, ch. 9.
+
+    [29] _Ibid._, pt. 1, ch. 8.
+
+    [30] _Ibid._, pt. 1, ch. 9.
+
+    [31] _Ibid._, pt. 1, ch. 9. See also footnote 27.
+
+    [32] _Ibid._, pt. 1, ch. 10. See also ch. 4.
+
+    [33] _Ibid._, pt. 1, ch. 10. See also ch. 4.
+
+    [34] _Ibid._, pt. 1, ch. 10.
+
+    [35] However, he may not always have approved of him. See
+    M:74; "Overinquisitive theologians, too, seek to light up
+    God's mysteries and things beyond man's understanding by
+    means of the loadstone and amber."
+
+In the _Idiota de sapientia_ the Cardinal used the image of the magnet
+and the iron to provide a concrete instance of his "coincidentia
+oppositorum," to illustrate how eternal wisdom, in the Neoplatonic
+sense, could, at the same time, be principle or cause of being, its
+complement and also its goal.[36]
+
+    Si igitur in omni desiderio vitae intellectualis attenderes,
+    a quo est intellectus, per quod movetur et ad quod, in te
+    comperires dulcedinem sapientiae aeternae illam esse, quae
+    tibi facit desiderium tuum ita dulce et delectabile, ut in
+    inerrabili affectu feraris ad eius comprehensionem tanquam ad
+    immortalitatem vitae tue, quasi ad ferrum et magnetem
+    attendas. Habet enim ferrum in magnete quoddam sui effluxus
+    principium; et dum magnes per sui praesentiam excitat ferrum
+    grave et ponderosum, ferrum mirabili desiderio fertur etiam
+    supra motum naturae, quo secundum gravitatem deorsum tendere
+    debet, et sursum movetur se in suo principio uniendo. Nisi
+    enim in ferro esset quaedam praegustatio naturalis ipsius
+    magnetis, non moveretur plus ad magnetem quam ad alium
+    lapidem; et nisi in lapide esset major inclinatio ad ferrum
+    quam cuprum, non esset illa attractio. Habet igitur spiritus
+    noster intellectualis ab aeterna sapientia principium sic
+    intellectualiter essendi, quod esse est conformius sapientae
+    quam aliud non intellectuale. Hinc irraditio seu immissio in
+    sanctam animam est motus desideriosus in excitatione.
+
+By virtue of the principle that flows from the magnet to the
+iron--which principle is potentially in the iron, for the iron already
+has a foretaste for it--the excited iron could transcend its gravid
+nature and be preternaturally moved to unite with its principle.
+Reciprocally, the loadstone has a greater attraction to the iron than
+to other things. Just as the power of attraction comes from the
+loadstone, so the Deity is the source of our life. Just as the
+principle implanted in the magnet moves the iron against its heavy
+nature, so the Deity raises us above our brutish nature so that we may
+fulfill our life. As the iron moves to the loadstone, so we move to
+the Deity as to the goal and end of our life.
+
+In _De pace fidei_, Cusa[37] again used the iron and magnet as an
+example of motion contrary to and transcending nature. He explained
+this supernatural motion as being due to the similarity between the
+nature of the iron and the magnet, and this in turn is analogous to
+the similarity between human spiritual nature and divine spiritual
+nature. As the iron can move upward to the loadstone because both have
+similar natures, so man can transcend his own nature and move towards
+God when his potential similitude to God is realized. Another image
+used by Cusa was the comparison of Christ to the magnetic needle that
+takes its power from the heavens and shows man his way.[38]
+
+    [36] Nicholas of Cusa (Nicolaus Cusaneus), _Nicolaus von
+    Cues, Texte seiner philosophischen Schriften_, ed. A.
+    Petzelt, Stuttgart, 1949, bk. 1, _Idiota de sapientia_, p.
+    306 (quoted in Gilbert, M:104). It is interesting that Cusa
+    held that the loadstone has an inclination to iron, as well
+    as the converse!
+
+    [37] Cusa, _Cusa Schriften_, vol. 8, _De pace fidei_,
+    translated by L. Mohler, Leipzig, 1943, ch. 12, p. 127.
+
+    [38] Cusa, _Exercitationes_, ch. 7, 563 and 566, quoted in,
+    F. A. Scharpff, _Des Cardinals und Bischofs Nicolaus Von Cusa
+    Wichtigste Schriften in Deutscher Uebersetzung_, Freiburg,
+    1862, p. 435. See also Martin Billinger, _Das Philosophische
+    in Den Excitationen Des Nicolaus Von Cues_, Heidelberg, 1938,
+    and _Cusa Schriften_ (see footnote 37), vol. 8, p. 209, note
+    105. Gilbert (M: p. 223) called the compass "the finger of
+    God."
+
+The Elizabethan Englishman Robert Norman also turned to the Deity to
+explain the wonderful effects of the loadstone.[39]
+
+    Now therefore ... divers have whetted their wits, yea, and
+    dulled them, as I have mine, and yet in the end have been
+    constrained to fly to the cornerstone: I mean God: who ...
+    hath given Virtue and power to this Stone ... to show one
+    certain point, by his own nature and appetite ... and by the
+    same vertue, the Needle is turned upon his own Center, I mean
+    the Center of his Circular and invisible Vertue ... And
+    surely I am of opinion, that if this would be found in a
+    Sphericall form, extending round about the Stone in Great
+    Compass, and the dead body Stone in the middle therof: Whose
+    center is the center of his aforesaid Vertue. And this I have
+    partly proved, and made visible to be seen in the same
+    manner, and God sparing me life, I will herein make further
+    Experience.
+
+Again, one can infer that the heavens impart a guiding principle
+to the iron which acts under the influence of this Superior Cause.
+
+One of the points made in St. Thomas' argument on motion due to the
+loadstone was that there is a limit to the "virtus" of the loadstone,
+but he did not specify the nature of it. Norman refined the Thomist
+concept of a bound by making it spherical in form, foreshadowing
+Gilbert's "orbis virtutis."
+
+Gilbert's philosophy of nature does not move far from scholastic
+philosophy, except away from it in logical consistency. As the concern
+of Aristotle and of St. Thomas was to understand being and change by
+determining the nature of things, so Gilbert sought to write a logos
+of the physis, or nature, of the loadstone--a physiology.[40] This
+physiology was not formally arranged into definitions obtained by
+induction from experience, but nevertheless there was the same search
+for the quiddity of the loadstone. Once one knew this nature then all
+the properties of the loadstone could be understood.
+
+    [39] Hellmann, _op. cit._ (footnote 6), Norman, bk. 1, ch. 8.
+
+    [40] M: p. 14.
+
+Gilbert described the nature of the loadstone in the terms of being
+that were current with his scholarly contemporaries. This was the same
+ontology that scholasticism had taught for centuries--the doctrine of
+form and matter that we have already found in St. Thomas and Nicholas
+of Cusa. Thus we find Richard Hooker[41] remarking that form gives
+being and that "form in other creatures is a thing proportionable unto
+the soul in living creatures." Francis Bacon,[42] in speaking of the
+relations between causes and the kinds of philosophy, said: "Physics
+is the science that deals with efficient and material causes while
+Metaphysics deals with formal and final causes." John Donne[43]
+expressed the problem of scholastic philosophy succinctly:
+
+  This twilight of two yeares, not past or next,
+    Some embleme is of me, ...
+  ... of stuffe and forme perplext,
+    Whose _what_ and _where_, in disputation is ...
+
+As we shall see, Gilbert continued in the same tradition, but his
+interpretation of form and formal cause was much more anthropomorphic
+than that of his predecessors.
+
+Gilbert began his _De magnete_ by expounding the natural history of
+that portion of the earth with which we are familiar.[44]
+
+    Having declared the origin and nature of the loadstone, we
+    hold it needful first to give the history of iron also ...
+    before we come to the explication of difficulties connected
+    with the loadstone ... we shall better understand what iron
+    is when we shall have developed ... what are the causes and
+    the matter of metals ...
+
+His treatment of the origin of minerals and rocks agreed in the main
+with that of Aristotle,[45] but he departed somewhat from the
+peripatetic doctrine of the four elements of fire, air, water, and
+earth.[46] Instead, he replaced them by a pair of elements.[47] (If
+the rejection of the four Aristotelian elements were clearer, one
+might consider this a part of his rejection of the geocentric universe
+but he did not define his position sufficiently.)[48]
+
+    [41] Richard Hooker. _Of the laws of ecclesiastical polity_,
+    bk. 1, ch. 3, sect. 4 (_Works_, Oxford, Clarendon Press,
+    1865, vol. 1, p. 157)
+
+    [42] Francis Bacon, _De augmentis scientiarum_, bk. 3, ch. 4,
+    in _Works_, ed. J. Spedding, R. L. Ellis, and D. D. Heath,
+    Boston, n.d. (1900?), vol. 2, p. 267.
+
+    [43] _The poems of John Donne_, ed. H. J. C. Grierson,
+    London, Oxford University Press, 1933, p. 175 ("To the
+    Countesse of Bedford, On New Yeares Day").
+
+    [44] M: pp. 33, 34.
+
+    [45] M: pp. 34, 35. Aristotle, _Works_, ed. W. D. Ross,
+    Oxford, 1908--1952, vol. 2, _De generatione et corruptione_,
+    translated by H. H. Joachim, 1930, vol. 3, _Meteorologica_,
+    translated by E. W. Webster, 1931.
+
+    [46] M: pp. 34, 35, 64, 65, 69, 81. Dr. H. Guerlac has kindly
+    brought to my attention the similarity between the
+    explanation given in Gilbert and that given in the
+    _Meteorologica_, bk. 3, ch. 6. p. 378.
+
+    [47] M: p. 83.
+
+    [48] A statement of the relation between Aristotle's four
+    elements and place can be found in Maier, _op. cit._
+    (footnote 17), pp. 143-182.
+
+According to Gilbert the primary source of matter is the interior of
+the earth, where exhalations and "spiritus" arise from the bowels of
+the earth and condense in the earth's veins.[49] If the condensations,
+or humors, are homogeneous, they constitute the "materia prima" of
+metals.[50] From this "materia prima," various metals may be
+produced,[51] according to the particular humor and the specificating
+nature of the place of condensation.[52] The purest condensation is
+iron: "In iron is earth in its true and genuine nature."[53] In other
+metals, we have instead of earth, "condensed and fixed salts, which
+are efflorescences of the earth."[54] If the condensed exhalation is
+mixed in the vein with foreign earths already present, it forms ores
+that must be smelted to free the original metal from dross by
+fire.[55] If these exhalations should happen to pass into the open
+air, instead of being condensed in the earth, they may return to the
+earth in a (meteoric) shower of iron.[56]
+
+    [49] M: pp. 21, 34, 35, 36, 45.
+
+    [50] M: pp. 35, 36, 38, 69; see, however, pp. 42-43: "Iron
+    ore, therefore, as also manufactured iron, is a metal
+    slightly different from the homogenic telluric body because
+    of the metallic humor it has imbibed ..."
+
+    [51] M: pp. 19, 34, 36, 37, 42, 69.
+
+    [52] M: pp. 35, 36, 37, 38.
+
+    [53] M: pp. 38, 63, 69, 84; on p. 34 he says that iron is
+    "more truly the child of the earth than any other metal"; it
+    is the hardest because of "the strong concretion of the more
+    earthy substance."
+
+    [54] M: pp. 21, 35, 37, 38.
+
+    [55] M: pp. 35, 63.
+
+    [56] M: pp. 45, 46.
+
+Gilbert was indeed writing a new physiology, both in the ancient
+sense of the word and the modern. The process of the formation of
+metals had many biological overtones, for it was a kind of metallic
+epigenesis.[57] "Within the globe are hidden the principles of metals
+and stones, as at the earth's surface are hidden the principles of
+herbs and plants."[58] In all cases, the "spiritus" acts as semen and
+blood that inform and feed the proper womb in the generation of
+animals.[59] "The brother uterine of iron,"[60] the loadstone, is
+formed in this manner. As the embryo of a certain species is the
+result of the specificating nature of the womb in which the generic
+seed has been placed, so the kind of metal is the result of a certain
+humor condensing in a particular vein in the body of the earth.
+
+    [57] Gilbert's terminology strongly suggests that he was
+    familiar with alchemical literature, as well as that of
+    medical chemistry. He has been credited as being highly
+    skilled in chemistry. See Sir Walter Langdon-Brown, "William
+    Gilbert: his place in the medical world," _Nature_, vol. 154,
+    pp. 136-139, 1944.
+
+    [58] _Ibid._, p. 37.
+
+    [59] M: pp. 35, 36, 53, 59. See also Galen, _op. cit._
+    (footnote 15) bk. 2, ch. 3.
+
+    [60] M: pp. 16, 59.
+
+Gilbert developed this biological analogy further by ascribing to
+metals a process of decay after reaching maturity. Once these solid
+materials have been formed, they will degenerate unless protected,
+forming earths of various kinds as a result.[61] The "rind of the
+earth"[62] is produced by this process of growth and decay. If these
+earths are soaked with humors, transparent materials are formed.[63]
+
+    [61] M: pp. 20, 21, 32, 61, 63, 66, 70.
+
+    [62] M: p. 59.
+
+    [63] M: p. 84.
+
+As we shall see below, the ultimate cause of this internal and
+superficial life is the motion of the earth, which animation is the
+expression of the magnetic soul of this sphere.[64] As the life of
+animals results from the constant working of the heart and
+arteries,[65] so the daily motion of the earth results in a constant
+generation of mineral life within the earth. In contrast to
+Aristotle's[66] making the motion of the heavens the cause of
+continuous change, Gilbert made that of the earth the remote
+cause.[67] However, unlike the constant cyclical transmutation of
+substances in Aristotle, there is only generation and decay.
+
+    [64] M: pp. 310, 311, 312.
+
+    [65] M: p. 338. A somewhat different opinion, although not
+    necessarily inconsistent is expressed on p. 66, where he says
+    the surface is due to the action of the atmosphere, the
+    waters, and the radiations and other influences of heavenly
+    bodies.
+
+    [66] Aristotle, _op. cit._ (footnote 45), _De generatione et
+    corruptione_, bk. 2, ch. 10.
+
+    [67] M: pp. 311, 334, 338.
+
+Gilbert made a number of successive generalizations in order to arrive
+at the induction that the form of the loadstone is a microcosmic
+"anima" of that of the earth.[68] After comparing the properties of
+the loadstone and of iron, his first step in this induction was that
+the two materials, found everywhere,[69] are consanguineous:[70]
+"These two associated bodies possess the true, strict form of one
+species, though because of the outwardly different aspect and the
+inequality of the selfsame innate potency, they have hitherto been
+held to be different ..." Good iron and good loadstone are more
+similar than a good and a poor loadstone, or a good and a poor iron
+ore.[71] Moreover, they have the same potency,[72] for the innate
+potency of one can be passed to the other:[73] "The stronger
+invigorates the weaker, not as if it imparted of its own substances or
+parted with aught of its own strength, nor as if it injected into the
+other any physical substance; but rather the dormant power of the one
+is awakened by the other's without expenditure." In addition, the
+potency can be passed only to the other.[74] Finally they both have
+the same history:
+
+    We see both the finest magnet and iron ore visited as it were
+    by the same ills and diseases, acting in the same way and
+    with the same indications, preserved by the same remedies and
+    protective measures, and so retaining their properties ...
+    they are both impaired by the action of acrid liquids as
+    though by poison[75] ... each is saved from impairment by
+    being kept in the scrapings of the other. [So] ... form,
+    essence and appearance are one.[76]
+
+Any difference between the loadstone proper and the iron proper is due
+to a difference in the actual power of the magnetic virtue:[77] "Weak
+loadstones are those disfigured with dross metallic humors and with
+foreign earth admixtures, [hence one may conclude] they are further
+removed from the mother earth and are more degenerate."
+
+    [68] M: pp. xlvii, 309, 328.
+
+    [69] M: pp. 18, 20, 44, 46, 69.
+
+    [70] M: pp. 59, 61, 63.
+
+    [71] M: pp. 60, 63.
+
+    [72] M: p. 110.
+
+    [73] M: pp. 60, 61.
+
+    [74] M: p. 62.
+
+    [75] M: p. 63.
+
+    [76] M: p. 60.
+
+    [77] M: pp. 19, 21, 43, 53, 61, 63, 184.
+
+Gilbert's second induction was that they are "true and intimate parts
+of the globe,"[78] that is, that they are piece of the "materia prima"
+of all we see about us. For they "seem to contain within themselves
+the potency of the earth's core and of its inmost viscera."[79]
+Whence, in Gilbert's philosophy, the earthy matter of the elements was
+not passive or inert[80] as it was in Aristotle's, but already had the
+magnetic powers of loadstone. Being endowed with properties, it was,
+in peripatetic terms, a simple body.
+
+    [78] M: p. 61.
+
+    [79] M: pp. 66, 67.
+
+    [80] M: p. 69. Gilbert is confusing Aristotelian matter and
+    an element. He includes cold and dry, with formless and
+    inert! See also Maier, _op. cit._ (footnote 17).
+
+If these pieces of earth proper, before decay, are loadstones, then
+one may pass to the next induction that the earth itself is a
+loadstone.[81] Conversely, a terrella has all the properties of the
+earth:[82] "Every separate fragment of the earth exhibits in
+indubitable experiments the whole impetus of magnetic matter; in its
+various movements it follows the terrestial globe and the common
+principle of motion."[83]
+
+    [81] M: p. 63; bk. 1, ch. 17.
+
+    [82] M: pp. 67, 181-183, 235-240, 281-289, 313-314.
+
+    [83] M: p. 71. See also pp. 314 and 331. It is not clear,
+    at this point, whether he believed a "properly balanced"
+    terrella would be a _perpetuum mobile_.
+
+The next induction that Gilbert made was that as the magnet possesses
+verticity and turns towards the poles, so the loadstone-earth
+possesses a verticity and turns on an axis fixed in direction.[84] He
+could now discuss the motions of a loadstone in general, in terms of
+its nature, just as an Aristotelian discussed the motion of the
+elements in terms of their nature.
+
+    [84] M: pp. 68, 70-71, 97, 129, 179-180, 311, 315, 317-335
+    Gilbert implied (M: p. 166), that a terrella does not rotate
+    as Peregrinus said, due to resistance (M: p. 326), or due to
+    the mutual nature of coition (M: p. 166); or even to the
+    rotation of the earth (M: p. 332). However (M: p. 129), he
+    also mentioned that a terrella would revolve by itself!
+
+But before reaching this point in his argument, Gilbert digressed to
+classify the different kinds of attractions and motions which the
+elements produce. In particular, he distinguished electric attraction
+from magnetic coition, and pointed out the main features of electrical
+attraction. Since the resultant motions were different, the essential
+natures of electric and magnetic substances had to differ.
+
+Gilbert introduced his treatment of motion by discussing the
+attraction of amber. All sufficiently light solids[85] and even
+liquids,[86] but not flame or air[87] are attracted by rubbed amber.
+Heat from friction,[88] but not from alien sources like the sun[89] or
+the flame,[90] produce this "affection." By the use of a detector
+modeled after the magnetic needle, which we would call an electroscope
+but which he called a "versorium,"[91] Gilbert was able to extend the
+list of substances that attract like amber.[92] These Gilbert called
+"electricae."[93]
+
+    [85] M: pp. 78, 82, 84, 86.
+
+    [86] M: pp. 78, 89, 91.
+
+    [87] M: pp. 89, 95.
+
+    [88] M: pp. 83, 86.
+
+    [89] M: pp. 81, 86, 87.
+
+    [90] M: pp. 80, 81, 86, 87.
+
+    [91] M: p. 79.
+
+    [92] M: pp. 77-78, 79.
+
+    [93] M: p. 78. The definition Gilbert gave of an electric
+    in the glossary at the beginning of his treatise was not an
+    experimental one: "Electricae, quae attrahunt eadem ratione
+    ut electrum."
+
+Possibly as a result of testing experimentally statements like that of
+St. Thomas, on the effect of garlic on a loadstone, Gilbert discovered
+that the interposition of even the slightest material (except a fluid
+like olive oil) would screen the attraction of electrics.[94] Hence
+the attraction is due to a material cause, and, since it is invisible,
+it is due to an effluvium.[95] It must be much rarer than air,[96] for
+if its density were that of air or greater, it would repel rather than
+attract.[97]
+
+    [94] M: pp. 86, 91, 135.
+
+    [95] M: pp. 96, 135.
+
+    [96] M: p. 89.
+
+    [97] M: pp. 90, 92, 95.
+
+The source of the effluvia could be inferred from the properties of
+the electrics. Many but not all of the electrics are transparent, but
+all are firm and can be polished.[98] Since they retain the appearance
+and properties of a fluid in a firm solid mass,[99] Gilbert concluded
+that they derived their growth mostly from humors or were concretions
+of humors.[100] By friction, these humors are released and produce
+electrical attraction.[101]
+
+    [98] M: pp. 83, 84, 85.
+
+    [99] M: p. 84.
+
+    [100] M: pp. 84, 89. See also Aristotle, _op. cit._ (footnote
+    45), _Meteorologica_, bk. 4.
+
+    [101] M: p. 90.
+
+This humoric source of the effluvia was substantiated by Gilbert in a
+number of ways. Electrics lose their power of electrical attraction
+upon being heated, and this is because the humor has been driven
+off.[102] Bodies that are about equally constituted of earth and
+humor, or that are mostly earth, have been degraded and do not show
+electrical attraction.[103] Bodies like pearls and metals, since they
+are shiny and so must be made of humors, must also emit an effluvium
+upon being rubbed, but it is a thick and vaporous one without any
+attractive powers.[104] Damp weather and moist air can weaken or even
+prevent electrical attraction, for it impedes the efflux of the humor
+at the source and accordingly diminishes the attraction.[105] Charged
+bodies retain their powers longer in the sun than in the shade, for in
+the shade the effluvia are condensed more, and so obscure
+emission.[106]
+
+    [102] M: pp. 84, 85.
+
+    [103] M: p. 84.
+
+    [104] M: p. 90. See also p. 95.
+
+    [105] M: pp. 78, 85-86, 91. (see particularly the heated
+    amber experiment described on p. 86).
+
+    [106] M: p. 87.
+
+All these examples seemed to justify the hypothesis that the nature of
+electrics is such that material effluvia are emitted when electrics
+are rubbed, and that the effluvia are rarer than air. Gilbert realized
+that as yet he had not explained electrical attraction, only that the
+pull can be screened. The pull must be explained by contact
+forces,[107] as Aristotle[108] and Aquinas[109] had argued.
+Accordingly, he declared, the effluvia, or "spiritus,"[110] emitted
+take "hold of the bodies with which they unite, enfold them, as it
+were, in their arms, and bring them into union with the
+electrics."[111]
+
+    [107] M: p. 92.
+
+    [108] Aristotle, _Physics_, translated by P. H. Wicksteed and
+    F. M. Cornford, Loeb Classical Library, London, 1934, bk. 7,
+    ch. 1, 242b25.
+
+    [109] St. Thomas Aquinas, _op. cit._ (footnote 19), vol. 2,
+    _Physicorum Aristotelis expositio_, lib. 7, lect. 2 (In
+    moventibus et motis non potest procedi in infinitum, sed
+    oportet devenire ad aliquid primum movens immobile), cap. d,
+    p. 96.
+
+    [110] M: p. 94.
+
+    [111] M: p. 95.
+
+It can be seen how this uniting action is effected if objects floating
+on water are considered, for solids can be drawn to solids through the
+medium of a fluid.[112] A wet body touching another wet body not only
+attracts it, but moves it if the other body is small,[113] while wet
+bodies on the surface of the water attract other wet bodies. A wet
+object on the surface of the water seeks union with another wet object
+when the surface of the water rises between both: at once, "like drops
+of water, or bubbles on water, they come together."[114] On the other
+hand, "a dry body does not move toward a wet, nor a wet to a dry, but
+rather they seem to go away from one another."[115] Moreover, a dry
+body does not move to the dry rim of the vessel while a wet one runs
+to a wet rim.[116]
+
+    [112] M: p. 93.
+
+    [113] M: pp. 92, 93.
+
+    [114] M: p. 93.
+
+    [115] M: p. 94.
+
+    [116] M: p. 94.
+
+By means of the properties of such a fluid, Gilbert could explain the
+unordered coming-together that he called coacervation.[117] Different
+bodies have different effluvia, and so one has coacervation of
+different materials. Thus, in Gilbert's philosophy air was the earth's
+effluvium and was responsible for the unordered motion of objects
+towards the earth.[118]
+
+    [117] M: p. 97.
+
+    [118] M: p. 92 (see also p. 339). Although Gilbert does not
+    make it explicit, this would solve the medieval problem of
+    gravitation without resorting to a Ptolemaic universe. In
+    addition, since coacervation is electric, and electric forces
+    can be screened, it should have been possible to reduce the
+    downward motion of a body by screening!
+
+The analogy between electric attraction and fluids is a most concrete
+one, yet lying beneath this image is a hypothesis that is difficult to
+fix into a mechanical system based upon contact forces. This is the
+assumption that under the proper conditions bodies tend to move
+together in order to participate in a more complete unity.[119] The
+steps in electrical attraction were described as occurring on two
+different levels of abstraction: first one has physical contact
+through an effluvium or "spiritus" that connects the two objects
+physically. Then, as a result of this contact, the objects somehow
+sense[120] that a more intimate harmony is possible, and move
+accordingly. Gilbert called the motion that followed contact,
+attraction. However, this motion did not connote what we would call a
+force:[121] it did not correspond directly to a push or pull, but it
+followed from what one might term the apprehension of the possibility
+of a more complete participation in a formal unity. The physical unity
+due to the "spiritus" was the prelude to a formal organic unity, so
+that _humor_ is "rerum omnium unitore." Gilbert's position can be best
+seen in the following:[122]
+
+    Spiritus igitur egrediens ex corpora, quod ab humore aut
+    succo aqueo concreverat, corpus attrahendum attingit,
+    attactum attrahenti unitur; corpus peculiari effluviorum
+    radio continguum, unum effecit ex duobus: unita confluunt in
+    conjunctissimam convenientiam, quae attractio vulgo dicitur.
+    Quae unitas iuxta Pythagorae opinionem rerum omnium
+    principium est, per cuius participationem unaquaeque res una
+    dicitur. Quoniam enim nullo actio a materia potest nisi per
+    contactum, electrica haec non videntur tangere, sed ut
+    necesse erat demittitur aliquid ab uno ad aliud, quod proxime
+    tangat, et eius incitationis principium sit. Corpora omnia
+    uniuntur & quasi ferruminantur quodammodo humore ...
+    Electrica vero effi via peculiaria, quae humoris fusi
+    subtilissima sunt materia, corpuscula allectant. Aer (commune
+    effluvium telluris) & partes disjunctis unit, & tellus
+    mediante aere ad se revocat corpora; aliter quae in
+    superioribus locis essent corpora, terram non ita avide
+    appelerent.
+
+    Electrica effluvia ab aere multum differunt, & u aer telluris
+    effluvium est, ita electrica suahabent effluvia & propria;
+    peculiaribus effluviis suus cuique; est singularis ad
+    unitatem ductus, motus ad principium, fontem, & corpus
+    effluvia emittens.
+
+A similar hypothesis will reappear in his explanation of magnetic
+attraction.
+
+    [119] M: pp. 91, 92: "This unity is, according to Pythagoras,
+    the principle, through participation, in which a thing is
+    said to be one" (see footnotes 30 and 122).
+
+    [120] "Sense" is probably too strong a term, and yet the
+    change following contact is difficult to describe in
+    Gilbert's phraseology without some such subjective term. See
+    Gilbert's argument on the soul and organs of a loadstone, M:
+    pp. 309-313.
+
+    [121] M: pp. 112, 113.
+
+    [122] Gilbert, _De magnete_, London, 1600, bk. 2, ch. 2, pp.
+    56-57.
+
+Following the tradition of the medieval schoolmen Gilbert started his
+examination of the nature of the loadstone by pointing out the
+different kinds of motion due to a magnet. The five kinds (other than
+up and down) are:[123]
+
+    (1) coitio (vulgo attractio, dicta) ad unitatem magneticam
+    incitatio.
+
+    (2) directio in polos telluris, et telluris in mundi
+    destinatos terminos verticitas et consistentia.
+
+    (3) variatio, a meridiano deflexio, quem motum nos depravatum
+    dicimus.
+
+    (4) declinatio, infra horizontem poli magnetici descensus.
+
+    (5) motus circularis, seu revolutio.
+
+Of the five he initially listed, three are not basic ones. Variation
+and declination he later explained as due to irregularities of the
+surface of the earth, while direction or verticity is the ordering
+motion that precedes coition.[124] This leaves only coition and
+revolution as the basic motions. How these followed from "the
+congregant nature of the loadstone can be seen when the effusion of
+forms has been considered."
+
+Coition (he did not take up revolution at this point) differed from
+that due to other attractions. There are two and only two kinds of
+bodies that can attract: electric and magnetic.[125] Gilbert refined
+his position further by arguing that one does not even have magnetic
+attraction[126] but instead the mutual motion to union that he called
+coition.[127] In electric attraction, one has an action-passion
+relation of cause and effect with an external agent and a passive
+recipient; while in magnetic coition, both bodies act and are acted
+upon, and both move together.[128] Instead of an agent and a patient
+in coition,[129] one has "conactus." Coition, as the Latin origin of
+the term denoted, is always a concerted action. [130] This can be seen
+from the motions of two loadstones floating on water.[131] The mutual
+motion in coition was one of the reasons for Gilbert's rejection of
+the perpetual motion machine of Peregrinus.[132]
+
+    [123] _Ibid._, ch. 1, pp. 45-46.
+
+    [124] M: pp. 110, 314.
+
+    [125] M: pp. 82, 105, 170, 172, 217.
+
+    [126] M: p. 98.
+
+    [127] M: pp. 100, 112, 113, 143, 148. It need hardly be
+    pointed out that coitus is not an impersonal term.
+
+    [128] M: p. 110.
+
+    [129] M: p. 110.
+
+    [130] M: pp. 109, 115, 148, 149, 155, 166, 174.
+
+    [131] M: pp. 110, 155.
+
+    [132] M: pp. 166, 332. See also footnote 84.
+
+Magnetic coition, unlike electric attraction, cannot be screened.[133]
+Hence it cannot be corporeal for it travels freely through bodies[134]
+and especially magnetic bodies;[135] one can understand the action of
+the armature on this basis.[136] Since coition cannot be prevented by
+shielding, it must have an immaterial cause.[137]
+
+    [133] M: pp. 90, 106, 107, 108, 113, 132, 135, 136, 158. This
+    is, of course, contrary to modern experience.
+
+    [134] M: pp. 106, 107, 108, 114, 134, 136, 140, 162.
+
+    [135] M: pp. 106, 109, 114, 159, 162.
+
+    [136] M: pp. 137-140.
+
+    [137] M: p. 109.
+
+Yet, unless one has the occult action-at-a-distance, change must be
+caused by contact forces. Gilbert resolved the paradox of combining
+contact forces with forces that cannot be shielded, by passing to a
+higher level of abstraction for the explanation of magnetic phenomena:
+he saw the contact as that of a form with matter.
+
+Although Gilbert remarked that the cause of magnetic phenomena did
+not fall within any of the categories of the formal causes of the
+Aristotelians, he did not renounce for this reason the medieval
+tradition. Actually there are many similarities between Gilbert's
+explanation of the loadstone's powers and that of St. Thomas. Magnetic
+coition is not due to any of the generic or specific forms of the
+Aristotelian elements, nor is it due to the primary qualities of any
+of their elements, nor is it due to the celestial "generans" of
+terrestrial change.[138]
+
+    Relictis aliorum opinionibus de magnetis attractione; nunc
+    coitionis illius rationem, et motus illius commoventem
+    naturam docebimus. Cum vero duo sint corporum genera, quae
+    manifestis sensibus nostris motionibus corpora allicere
+    videntur, Electrica et Magnetica; Electrica naturalibus ab
+    humore effluviis; Magnetica formalibus efficientiis, seu
+    potius primariis vigoribus, incitationes faciunt. Forma ilia
+    singularis est, et peculiaris, non Peripateticorum causa
+    formalis, et specifica in mixtis, est secunda forma, non
+    generantium corporum propagatrix; sed primorum et praeciporum
+    globorum forma; et partium eorum homogenearum, non
+    corruptarum, propria entitas et existentia, quam nos
+    primariam, et radicalem, et astream appellare possumus
+    formam; non formam primam Aristotelis; sed singularem illam,
+    quae globum suum proprium tuetur et disponit. Talis in
+    singulis globis, Sole, lunas et astris, est una; in terra
+    etiam una, quae vera est ilia potentia magnetica, quam nos
+    primarium vigorem appellamus. Quare magnetica natura est
+    telluris propria, eiusque omnibus verioribus partibus,
+    primaria et stupenda ratione, insita; haec nec a caelo toto
+    derivatur procreaturve, per sympathiam, per influentiam, aut
+    occultiores qualitates; nec peculiari aliquo astro: est enim
+    suus in tellure magneticus vigor, sicut in sole et luna suae
+    formae; frustulumque; lunae, lunatice ad eius terminos, et
+    formam componit se; solarque; ad solem, sicut magnes ad
+    tellurem, et ad alterum magnetem, secundum naturam sese
+    inclinando et alliciendo. Differendum igitur de tellure quae
+    magnetica, et magnes; tum etiam de partibus eius verioribus,
+    quae magneticae sunt; et quomodo ex coitione difficiuntur.
+
+Instead, he declared it to be due to a form that is natural and proper
+to that element that he made the primary component of the earth.[139]
+
+To understand his argument, let us briefly recall the peripatetic
+theory of the elements. In this philosophy of nature each element or
+simple body is a combination of a pair of the four primary qualities
+that informs inchoate matter. These qualities are the instruments of
+the elemental forms and determine the properties of the element. Thus
+the element fire is a compound of the qualities hot and dry, and the
+substantial form of fire acts through these qualities. Similarly for
+the other elements, earth, water, and air: their forms determine a
+proper place for each element, and a motion to that place natural to
+each element.[140]
+
+    [138] M: p. 105, and Gilbert, _De magnete_, London, 1600, bk.
+    2 ch. 4, p. 65.
+
+    [139] M: p. 105.
+
+    [140] M: pp. 289, 322.
+
+Gilbert had previously declared that the primary substance of the
+earth is an element. Since it is an element, it has a motion natural
+to it, and this motion is magnetic coition. As an Aristotelian
+considered the substantial form of the element, fire, to act through
+the qualities of hot and dry, and to cause an upward motion; so
+Gilbert argued that the substantial form of his element, pure
+loadstone, acts through the magnetic qualities and causes magnetic
+coition. This motion is due to its primary form, and is natural to the
+element earth.[141] It is instilled in all proper and undegenerate
+parts of the earth,[142] but in no other element.[143]
+
+    [141] M: pp. 26, 68, 105, 179, 198, 307, 335, 343. For
+    rotation, see footnote 147.
+
+    [142] M: pp. 67, 71. That each part is informed with the
+    properties of the whole is an argument favoring an animistic
+    explanation of the nature of this form.
+
+    [143] M: p. 109.
+
+To the medieval philosopher, the "generantia" of the occult powers of
+the loadstone are the heavenly bodies. Gilbert, however, endowed the
+earth with these heavenly powers which were placed in the earth in the
+beginning[144] and caused all magnetic materials to conform with it
+both physically and formally.[145] Such magnetic powers are the
+property of all parts of the earth;[146] they give the earth its
+rotating motion[147] and hold the earth together in spite of this
+motion.[148]
+
+    [144] M: pp. 111, 188.
+
+    [145] M: pp. 67, 105, 179, 183.
+
+    [146] M: pp. 101, 105, 217.
+
+    [147] M: pp. 179, 304, 305, 311, 322, 326, 328, 330-334,
+    338-343.
+
+    [148] M: pp. 142, 179; see also electric attraction, p. 97.
+
+Indeed, each of the main stellar bodies, sun, moon, stars, and earth,
+has such a form or principle unique to itself that causes its parts
+not only to conform with itself but to revolve.[149] Thus, if one
+removes a piece of the moon from this body, it will tend to align
+itself with the moon and then to return to its proper place; and a
+fragment of the sun would similarly tend to return after proper
+orientation.[150] Moreover, there is a farther-ranging, though weaker,
+mutual action of the heavenly bodies so that one has a causal
+hierarchy of these specific conforming powers. The form of the sun is
+superior to that of the inferior globes and is responsible for the
+order and regularity of planetary orbits.[151] In like manner, the
+moon is responsible for the tides of the ocean.[152]
+
+    [149] M: pp. 308, 317-343.
+
+    [150] M: pp. 106, 340.
+
+    [151] M: pp. 308, 309, 311, 330, 333, 344, 347.
+
+    [152] M: pp. 136, 334, 345.
+
+By virtue of the causal hierarchy of forms, the loadstone acquires its
+magnetic powers from the earth.[153] As the earth has its natural
+parts, so has the stone.[154] Although the geometrical center of a
+terrella is the center of the magnetic forces,[155] objects do not
+tend to move to the center but to its poles,[156] where the magnetic
+energy is most conspicuous.[157] However, in a sense, the energy is
+everywhere equal: the virtue is spread throughout the entire mass of
+the loadstone,[158] and all the parts direct the forces to the
+poles.[159] The poles become the "thrones" of the magnetic
+powers.[160] On the other hand, the directive force is stronger where
+coition is weaker and accordingly, verticity is most prominent at the
+equator.[161]
+
+    [153] M: pp. 184-186, 190, 232. This is not quite the same
+    argument as that the powers of the loadstone are identical
+    with those of the earth. See footnote 78.
+
+    [154] M: pp. 125, 180.
+
+    [155] M: p. 151.
+
+    [156] M: pp. 121, 150.
+
+    [157] M: pp. 115, 151, 165.
+
+    [158] M: pp. 106, 118, 151, 191, 205, 221, 243.
+
+    [159] M: pp. 116, 117, 119, 131, 183, 188, 221.
+
+    [160] M: p. 31.
+
+    [161] M: pp. 116, 151, 200.
+
+The strength of a loadstone depends upon its shape and mass. A bar
+magnet has greater powers than a spherical one because it tends to
+concentrate the magnetic powers more in the ends.[162] For a given
+purity and shape, the heavier the loadstone, the greater its
+strength.[163] A loadstone has a maximum degree of magnetic force that
+cannot be increased.[164] However, weaker ones can be strengthened by
+stronger ones.[165] Similarly, the shape and weight of the iron
+determine the magnetic force in coition.[166]
+
+    [162] M: pp. 131, 132, 153-158.
+
+    [163] M: pp. 141, 152, 153, 158, 161, 191, 222.
+
+    [164] M: p. 146.
+
+    [165] M: p. 165.
+
+    [166] M: p. 153.
+
+The formal forces of a loadstone emanate in all directions from
+it,[167] but there is a bound to it that Gilbert called the "orbis
+virtutis."[168] The shape of this "orbis virtutis" is determined by
+the shape of the stone.[169] This insensible effusion is analogous
+to the spreading of light that reveals its presence only by opaque
+bodies.[170] Similarly, the magnetic forms are effused from the
+stone,[171] and can only reveal their presence by coition with
+another loadstone or by "awakening" magnetic bodies within the
+"orbis virtutis."[172] Unmagnetized iron that comes within the "orbis
+virtutis" is altered, and the magnetic virtue renews a form that is
+already potentially in the iron.[173] The formal energy is drawn not
+only from the stone but from the iron.[174] This is not generation, or
+alteration in the sense of a new impressed quality, but alteration in
+the sense of the entelechy or the activation of a form potentially
+present.[175] Those bodies magnetized by coming within the "orbis
+virtutis" have in turn an efflux of their own.[176] Iron can also
+receive verticity directly from the earth without the intervention of
+an ordinary loadstone.[177] Such verticity can be expelled and
+annulled by the presence of another loadstone.[178]
+
+    [167] M: pp. 121, 123, 124, 304, 305, 306, 307, 309.
+
+    [168] Gilbert defined the _orbis virtutis_ in the glossary at
+    the beginning of his treatise as, "... totum illud spatium,
+    per quod quaevis magnetis virtus extenditur." This is the
+    core of the difference between electric and magnetic forces.
+    The substantial form of an electric could not be "effused,"
+    but was "imprisoned" in matter (as the Neoplatonic soul in
+    the human body); while the primary form of a magnet did not
+    require a material carrier and its effusion was similar to
+    the propagation of a species in light.
+
+    [169] M: pp. 124, 150, 151.
+
+    [170] M: pp. 123, 307.
+
+    [171] M: pp. 304-307. See also p. 310, where it is stated
+    that the sun and earth could awaken souls.
+
+    [172] M: pp. 101, 110, 112, 123, 148, 149, 304, 305. This
+    awakening of the iron within the "orbis virtutis" is
+    comparable (pp. 216, 350) to the birth of a child under the
+    influence of the stars.
+
+    [173] M: pp. 110, 111, 112, 189, 216, 217. See also footnote
+    36.
+
+    [174] M: p. 106.
+
+    [175] M: pp. 106, 109, 110.
+
+    [176] M: pp. 113, 114.
+
+    [177] M: pp. 190, 192, 210-216.
+
+    [178] M: p. 209.
+
+Although one does not normally find iron to be magnetized, a loadstone
+always has some magnetism. That two bodies such as iron and loadstone
+should have different properties is the result of the loss of a form
+by the iron, but this form is still potentially present in the iron.
+The iron that has been obtained from an ore has been deformed,[179]
+for it has been placed "outside its nature" by the fire.[180] The
+nature has not been removed, since, once the iron has cooled, the
+confused form can be reformed by a loadstone. [181] The latter
+"awakens" the proper form of iron.[182] After smelting, the magnetized
+iron may manifest stronger powers than a loadstone of equal weight,
+but this is because the primary matter of the earth is purer in the
+iron than in the loadstone.[183] If fire does not deform a loadstone
+too much, it can be remagnetized,[184] but a burnt loadstone cannot be
+reformed.[185] Corruption from external causes may also deform a
+loadstone or iron so that it can not be magnetized.[186] Bodies mixed
+with the degenerate substance of the earth or with aqueous humor
+spoilt by contamination with earth, do not show either electric
+attraction or magnetic coition.[187]
+
+    [179] M: pp. 107, 110, 111.
+
+    [180] M: p. 108.
+
+    [181] M: pp. 111, 112, 113.
+
+    [182] M: pp. 109, 111, 112, 148, 149.
+
+    [183] M: pp. 112, 149.
+
+    [184] M: pp. 142, 189.
+
+    [185] M: p. 190.
+
+    [186] M: pp. 85, 105, 113, 143, 226.
+
+    [187] M: p. 84.
+
+In a manner suggestive of Peregrinus, Gilbert wrote that, "magnetic
+bodies seek formal unity."[188] Thus a dissected loadstone not only
+tends to come back together, as in the unordered coacervation of
+electric attraction, but to restore the organization it had before
+dissection.[189] Accordingly, opposite poles appear on the interfaces
+of the sections, not "from an opposition" but from "a concordance and
+a conformance."[190] This ensures that when the parts are joined
+together again, they have the same orientation as before. Gilbert
+compared this power of restoring the original loadstone with that of a
+plant's vital power under the process of cutting and grafting; the
+plant can be revived only when the parts are in a certain order.[191]
+
+    [188] M: p. 186.
+
+    [189] M: pp. 185-188. See also footnote 31.
+
+    [190] M: pp. 186, 193.
+
+    [191] M: pp. 199-200.
+
+A hypothesis similar to that used to explain electric attraction lay
+beneath the explanation of magnetic coition: that bodies brought into
+contact will move together. In electric attraction, the contact is
+material and due to the "spiritus" from the electric body; in magnetic
+coition, it is formal and depends on the action of a primary form that
+spreads from a magnetized body to its limit of effusion, the "orbis
+virtutis." If iron is inside the "orbis virtutis," the two bodies
+"enter into alliance and are one and the same"[192] for within it
+"they have absolute continuity, and are joined by reason of their
+accordance, albeit the bodies themselves be separated."[193]
+
+Gilbert's treatment of coition can be analyzed into the same two steps
+as can electric attraction. First occurs a contact, which in this case
+is not physical but formal, and from this initial formal contact
+follows movement to a more complete unity. Both the contact and the
+movement to unity are described on the same level of abstraction,
+instead of on two different levels as in electric attraction. Again
+one does not find any clear-cut concept of force as a push or
+pull,[194] but instead, a motion to a formal unity, this time a
+cooperative motion. The parts of a magnetic body are in greater
+harmony when they are assembled in a certain pattern and so they move
+accordingly.
+
+    [192] M. p. 111.
+
+    [193] M: p. 112.
+
+    [194] See, however, M: pp. 112, 113.
+
+As to the nature of the primary form itself, Gilbert agreed with
+Thales that it is like a soul,[195] "for the power of self-movement
+seems to betoken a soul."[196] With Galen and St. Thomas he placed the
+form of the loadstone superior to that of inanimate matter.[197] In a
+sense, Gilbert even made it superior to organic matter, for it is
+incapable of error.[198] Like the soul, the primary form cannot be
+fragmented; when a loadstone is divided, one does not separate the
+poles but each part acquires its own poles and an equator.
+
+    [195] M: pp. 109, 312.
+
+    [196] M: p. 109.
+
+    [197] M: p. 309.
+
+    [198] M: pp. 311-312.
+
+Like the soul, fire does not destroy it.[199] Like the soul of astral
+bodies, and of the earth itself, it produces complex but regular
+motions; the motion of two loadstones on water offers such an
+example.[200] Like the soul of a newborn child, whose nature depends
+on the configuration of the heavens, the properties in the newly
+awakened iron depend upon its position in the "orbis virtutis."[201]
+
+Whence Gilbert declared:
+
+    ... the earth's magnetic force and the animate form of the
+    globes, that are without senses, but without error ... exert
+    an unending action, quick, definite, constant, directive,
+    motive, imperant, harmonious through the whole mass of
+    matter; thereby are the generation and the ultimate decay of
+    all things on the superficies propagated.[202] The bodies of
+    the globes ... to the end that they might be in themselves,
+    and in their nature endure, had need of souls to be conjoined
+    to them, for else there were neither life, nor prime act, nor
+    movement, nor unition, nor order, nor coherence, nor
+    _conactus_, nor _sympathia_, nor any generation nor
+    alteration of seasons, and no propagation; but all were in
+    confusion....[203] Wherefore, not with reason, Thales ...
+    declares the loadstone to be animate, a part of the animate
+    mother earth and her beloved offspring.[204]
+
+Gilbert ended book 5 of his treatise on the magnet with a persuasive
+plea for his magnetic philosophy of the cosmos, yet his conceptual
+scheme was not too successful an induction in the eyes of his
+contemporaries. In particular the man from whom the Royal Society took
+the inspiration for their motto, "Nullius in verba," did not value his
+magnetic philosophy very highly. Whether Francis Bacon was alluding to
+Gilbert when he expounded his parable of the spider and the ant[205]
+is not explicit, but he certainly had him in mind when he wrote of
+the Idols of the Cave and the Idols of the Theater.[206]
+
+    [199] M: p. 108.
+
+    [200] M: p. 110.
+
+    [201] M: p. 216.
+
+    [202] M: p. 311.
+
+    [203] M: pp. 310, 311.
+
+    [204] M: p. 312.
+
+    [205] Francis Bacon, _op. cit._ (footnote 42), vol. 1,
+    _Novum organum_, bk. 1, ch. 95, p. 306.
+
+    [206] _Ibid._, ch. 54 and ch. 64 (pp. 259 and 267).
+
+Few of the subsequent experimenters and writers on magnetism turned to
+Gilbert's work to explain the effects they discussed. Although both
+his countrymen Sir Thomas Browne[207] and Robert Boyle[208] described
+a number of the experiments already described by Gilbert and even used
+phrases similar to his in describing them, they tended to ignore
+Gilbert and his explanation of them. Instead, both turned to an
+explanation based upon magnetic effluvia or corpuscles. The only
+direct continuation of Gilbert's _De magnete_ was the _Philosophia
+magnetica_ of Nicolaus Cabeus.[209] The latter sought to bring
+Gilbert's explanation of magnetism more directly into the fold of
+medieval substantial forms.
+
+    [207] Sir Thomas Browne, _Pseudodoxia epidemica_, ed. 3,
+    London, 1658, bk. 2, ch. 2, 3, 4.
+
+    [208] Robert Boyle, _Experiments and notes about the
+    mechanical production of magnetism_, London, 1676.
+
+    [209] Nicolaus Cabeaus, _Philosophia magnetica_, Ferarra,
+    1629.
+
+However, Gilbert's efforts towards a magnetic philosophy did find
+approval in two of the men that made the seventeenth century
+scientific revolution. While Galileo Galilei[210] was critical of
+Gilbert's arguments as being unnecessarily loose, he nevertheless saw
+in them some support for the Copernican world-system. Johannes
+Kepler[211] found in Gilbert's explanation of the loadstone-earth a
+possible physical framework for his own investigations on planetary
+motions.
+
+    [210] Galileo Galilei, _Dialogue on the great world systems_,
+    in the translation of T. Salusbury, edited and corrected by
+    G. de Santillana, University of Chicago Press, 1953, pp.
+    409-423.
+
+    [211] Cassirer, _op. cit._ (footnote 3), vol. 1, p. 359-367.
+
+Yet Galileo and Kepler had moved beyond Gilbert's world of
+intellectual experience. They were no longer concerned with
+determining the nature of material things in order to explain their
+qualities. Instead, they had passed into the realm of the mathematical
+relations of kinematics: quantitative law had replaced qualitative
+experience of cause and effect. Gilbert had some intimations of the
+former, but he was primarily concerned with explaining magnetism in
+terms of substance and attribute. He had to ascertain the nature of
+the loadstone and of the earth in order to explain their properties
+and their motions. He even went further and explained the nature of
+the form of the loadstone.
+
+His method of determining the nature of a substance was a rather
+primitive one--it was not by a process of induction and deduction, nor
+by synthesis and analysis, nor by "resolutio" and "compositio," but by
+the use of analogies. He compared the natural history of metals and
+rocks with that of plants, and gave the two former the same kind of
+principle as the last. He determined the nature of the entity behind
+electric attraction by finding that such attractions could be
+screened, and hence it had to be corporeal. After comparing this
+"corporeal" attraction with that of the surface forces of a fluid, he
+concluded that the entity was a subtle fluid. He determined the nature
+of the entity behind magnetic coition by (incorrectly) finding that it
+cannot be screened, and hence the cause had to be a formal one. Since
+both stars and the loadstone can carry out regular motions, and stars
+had souls, the form of the loadstone had to be a soul. The method of
+analogy was used again in his comparison of the properties of a
+magnetized needle placed over a terrella with the properties of a
+compass placed over the earth, whence he concluded the earth to be a
+giant loadstone. Since the earth resembled the other celestial globes,
+it had to have, the circular inertia of these globes.[212] As for his
+magnetic experiments to show physically that the earth moved, and his
+unbridled speculations on the "animae" of the celestial globes, one is
+inclined to agree with Bacon's estimate of his magnetic philosophy.
+
+One might consider Gilbert's book as a Renaissance recasting of
+Aristotle's _De caelo_ with the earth in the role of a heavenly body.
+So it might well be, for Gilbert was still concerned with
+distinguishing the nature of the heavenly body, earth, that caused the
+coitional and revolving motions, from those natures for which up and
+down, and coacervation were the natural motions. Because the natural
+motions were different, the natures had to be different, and these
+different natures led to a universe and a concept of space neither of
+which were Aristotelian. One no longer had a central reference point
+for absolute space; there was no "motor essentialis" focused upon the
+earth but one had only the mutual motion of the heavenly bodies. The
+natural distinction between heaven and earth was gone, for the earth
+was no longer an inert recipient but a source of wonder, and so the
+stage was set for the universe of Giordano Bruno.[213] The
+Aristotelian philosophy of nature was used to justify a new cosmology,
+but there was no break with the past such as one finds in Galileo and
+Kepler. Instead he followed the chimera of the world organism, as
+Paracelsus had, and of the world soul, as Bruno had. Consequently
+Gilbert's physiology did not enter into the main stream of science.
+
+    [212] Because the earth has the same nature as a celestial
+    globe, its revolution and circular inertia require no more
+    explanation than those of any other heavenly body.
+
+    [213] One wonders if Bruno might not have been another of the
+    stimuli for Gilbert. The latter's interest in magnetism began
+    shortly before Bruno visited England and lectured on his
+    interpretation of the Copernican theory.
+
+Yet this is not to deny Gilbert's services to natural philosophy.
+Although not all of his experimental distinction between electric and
+magnetic forces has been retained, still, some of it has. His "orbis
+virtutis" was to become a field of force, and his class of electrics,
+insulators of electricity. His practice of arming a loadstone was to
+be of considerable importance in the period before the invention of
+the electromagnet. His limited recognition of the mutual nature of
+forces and their quantitative basis in mass was ultimately to appear
+in Newton's second and third laws of motion. In spite of the
+weaknesses of the method of analogy, Gilbert's experimental model of
+the terrella to interpret the earth's magnetism was as much a
+contribution to scientific method as to the theory of magnetism.
+
+Consequently, in spite of an explanation of electricity and magnetism
+that one would be amused to find in a textbook today, we can still
+read his _De magnete_ with interest and profit. But more important
+than his scientific speculations, is the insight he can give us into a
+Renaissance philosophy of nature and its relation to medieval thought.
+One does not find in _De magnete_ a prototype of modern physical
+science in the same sense one can in the writings of Galileo and
+Kepler. Instead one finds here a full-fledged example of an earlier
+kind of science, and this is Gilbert's main value to the historian
+today.
+
+
+
+
+
+End of the Project Gutenberg EBook of The Natural Philosophy of William
+Gilbert and His Predecessors, by W. James King
+
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