See also:

• MOLECULE (from mod. Lat. molecula, the diminutive of moles, a mass)

MOLECULE (from mod. See also:

• LAT

Lat. molecula, the diminutive of moles, a See also:

• MASS (O.E. maesse; Fr. messe; Ger. Messe; Ital. messa; from eccl. Lat. missa)
• MASS, IN

mass)  , in See also:

• CHEMISTRY
• CHEMISTRY (formerly "chymistry"; Gr. xvµela; for derivation see ALCHEMY)

chemistry and physics, the minutest particle of See also:

• MATTER

matter capable of See also:

• SEPARATE

separate existence . The word appears to have been invented during the 17th See also:

• CENTURY (from Lat. centuria, a division of a hundred men)

century, and remained synonymous with " See also:

• ATOM (Gr. &rows, indivisible, from a- privative, and TE,aPfw, to cut)

atom " (Gr. aropos, from a-, privative, and rEµveev, to cut) until the See also:

• MIDDLE

middle of the 19th century, when a differentiation was established . " Atom " has mainly a chemical import, being defined as the smallest particle of matter which can take See also:

• PART

part in a chemical reaction; a "See also:

• MOLECULE (from mod. Lat. molecula, the diminutive of moles, a mass)

molecule" is composed of atoms, generally two or more . For the detailed chemical significance of these terms, see CHEMISTRY; and for the atomic theory of the chemist (as distinguished from the atomic or molecular theory of the physicist) see ATOM; reference may also be made to the See also:

• ARTICLE (from Lat. articulus, a joint)

article MATTER . The See also:

• DOCTRINE

doctrine that matter can be divided into, or regarded as composed of, discrete particles (termed " atoms " by See also:

• EARLY
• EARLY, JUBAL ANDERSON (1816-1894)

early writers, and " molecules " by See also:

• MODERN

modern ones) has at all times played an important part in See also:

• METAPHYSICS
• METAPHYSICS, or METAPHYSIC (from Gr. /sera, after, d v med, things of nature, lots, i.e. the natural universe)

metaphysics and natural See also:

• SCIENCE (Lat. scientia, from scire; to learn, know)

science . The leading See also:

• HISTORICAL

historical stages in the See also:

• EVOLUTION

evolution of the modern conception of the molecular structure of matter are treated in the following passage from See also:

• JAMES
• JAMES (Gr. 'IlrKw,l3or, the Heb. Ya`akob or Jacob)
• JAMES (JAMES FRANCIS EDWARD STUART) (1688-1766)
• JAMES, 2ND EARL OF DOUGLAS AND MAR(c. 1358–1388)
• JAMES, DAVID (1839-1893)
• JAMES, EPISTLE OF
• JAMES, GEORGE PAYNE RAINSFOP
• JAMES, HENRY (1843— )
• JAMES, JOHN ANGELL (1785-1859)
• JAMES, THOMAS (c. 1573–1629)
• JAMES, WILLIAM (1842–1910)
• JAMES, WILLIAM (d. 1827)

James Clerk See also:

• MAXWELL
• MAXWELL, JAMES CLERK (1831–1879)

Maxwell's article ATOM in the 9th edition of the Ency . Brit . " Atom 1 (Q.roµos) is a See also:

• BODY

body which cannot be cut in two . The atomic theory is a theory of the constitution of bodies which asserts that they are made up of atoms . The opposite theory is that of the homogeneity and continuity of bodies, and asserts, at least in the See also:

• CASE
• CASE, JOHN (d. 1600)

case of bodies having no apparent organization, such, for instance, as See also:

• WATER

water, that as we can See also:

• DIVIDE

divide a drop of water into two parts which are each of them drops of water, so we have See also:

• REASON (Lat. ratio, through French raison)

reason to believe that these smaller drops can be divided again, and the theory goes on to assert that there is nothing in the nature of things to hinder this See also:

• PROCESS

process of See also:

• DIVISION (from Lat. dividere, to break up into parts, separate)

division from being repeated over and over again, times without end . This is the doctrine of the See also:

• INFINITE (from Lat. in, not, finis, end or limit; cf. findere, to deave)

infinite divisibility of bodies, and it is in See also:

• DIRECT

direct See also:

• CONTRADICTION, PRINCIPLE OF (principium contradictionis)

contradiction with the theory of atoms . The atomists assert that after a certain number of such divisions the parts would be no longer divisible, because each of them would be an atom .

The See also:

• ADVOCATES, FACULTY OF

advocates of the continuity of matter assert that the smallest conceivable body has parts, and that whatever has parts may be divided . " In See also:

• ANCIENT
• ANCIENT (also spelt ANTIENT; derived, through the Fr. ancien, old, from the late Lat. antianum, from ante, before)

ancient times See also:

• DEMOCRITUS

Democritus was the founder of the atomic theory, while Anaxagoras propounded that of continuity, under the name of the doctrine of homoeomeria ('Oµotoµpm), or of the similarity of the parts of a body to the whole . The arguments of the atomists, and their replies to the objections of Anaxagoras, are to be found in See also:

• LUCRETIUS (TITUS LUCRETIUS CARUS) (c. 98–55 B.C.)

Lucretius . In modern times the study of nature has brought to See also:

• LIGHT

light many properties of bodies which appear to depend on the magnitude and motions of their ultimate constituents, and the question of the existence of atoms has once more become conspicuous among scientific inquiries . " We shall begin by stating the opposing doctrines of atoms and of continuity . The most ancient philosophers whose speculations are known to us seem to have discussed the ideas of number and of continuous magnitude, of space and See also:

• TIME (0. Eng. Lima, cf. Icel. timi, Swed. timme, hour, Dan. time; from the root also seen in " tide," properly the time of between the flow and ebb of the sea, cf. O. Eng. getidan, to happen, " even-tide," &c.; it is not directly related to Lat. tempus)
• TIME, MEASUREMENT OF
• TIME, STANDARD

time, of matter and See also:

• MOTION (Lat. motio, from movere, to move)
• MOTION, LAWS OF

motion, with a native See also:

• POWER [WILLIAM GRATTAN] TYRONE (1797-1841)

power of thought which has probably never been surpassed . Their actual knowledge, however, and their scientific experience were necessarily limited, because in their days the records of human thought were only beginning to accumulate . It Is probable that the first exact. notions of quantity were founded on the See also:

• CONSIDERATION (from Lat. considerare, to look at closely, examine, generally taken to be from con-, and the base seen in sidus, sideris, a star, the word being supposed to be originally an astrological or astronomical term)

consideration of number . It is by the help of See also:

• NUMBERS, BOOK OF
• NUMBERS, PARTITION OF

numbers that See also:

• CONCRETE
• CONCRETE (Lat. concretes, participle of concrescere, to grow together)

concrete quantities are practically measured and calculated . Now, number is discontinuous . We pass from one number to the next per saltum . The magnitudes, on the other See also:

• HAND
• HAND (a word common to Teutonic languages; cf. Ger. Hand, Goth. handus)
• HAND, FERDINAND GOTTHELF (1786-185r)

hand, which we meet with in See also:

• GEOMETRY

geometry, are essentially continuous .

The See also:

• ATTEMPT (Lat. adtemptare, attentare, to try)

attempt to apply numerical methods to the comparison of geometrical quantities led to the doctrine of incommensurables, and to that of the infinite divisibility of space . Meanwhile, the same considerations had not been applied to time, so that in the days of See also:

• ZENO

Zeno of Elea time was still regarded as made up of a finite number of ` moments,' while space was confessed to be divisible without limit . This was the See also:

• STATE
• STATE, GREAT OFFICERS OF

state of See also:

• OPINION (Lat. opinio, from opinari, to think)

opinion when the celebrated arguments against the possibility of motion, of which that of See also:

• ACHILLES
• ACHILLES (Gr. 'AxtXXeus)

Achilles and the See also:

• TORTOISE

tortoise is a specimen, were propounded by Zeno, and such, apparently, continued to be the state of opinion till See also:

• ARISTOTLE
• ARISTOTLE (384-322 B.C.)

Aristotle pointed out that time is divisible without limit, in precisely the same sense that space is . And the slowness of the' development of scientific ideas may be estimated from the fact that See also:

• BAYLE, PIERRE (1647-1706)

Bayle does not see any force in this statement of Aristotle, but continues to admire the See also:

• PARADOX (Gr. treat, beyond, contrary to, Sofia, opinion)

paradox of Zeno (Bayle's See also:

• DICTIONARY

Dictionary, See also:

• ART

art . ` Zeno ') . Thus the direction of true scientific progress was for many ages towards the recognition of the infinite divisibility of space and time . " It was easy to attempt to apply similar arguments to matter . If matter is extended and fills space, the same See also:

• MENTAL

mental operation by which we recognize the divisibility of space may be applied, in See also:

• IMAGINATION

imagination at least, to the matter which occupies space . From this point of view the atomic doctrine might be regarded as a relic of the old numerical way of conceiving magnitude, and the opposite doctrine of the infinite divisibility of matter might appear for a time the most scientific . The atomists, on the other hand, asserted very strongly the distinction between matter and space . The atoms, they said, do not fill up the universe; there are void spaces between them . If it were not so, Lucretius tells us, there could be no motion, for the atom which gives way first must have some empty See also:

• PLACE (through Fr. from Lat. platea, street; Gr. IrAar6s, wide)

place to move into .

' Quapropter See also:

• LOCUS (Lat. for " place "; in Gr. rinros)

locus est intactus, inane, vacansque Quod si non esset, nulla ratione moveri Res possent; namque, officium quod corporis exstat, Officere atque obstare, id in See also:

• OMEN (a Latin word, either connected with os, mouth, or more probably with auris (Gr. ois, ear; apparently, meaning " a thing heard " or " spoken ")

omen tempore adesset See also:

• OMNIBUS (Lat. " for all ")

Omnibus: baud igitur quicquam procedere posset, Principium quoniam cedendi nulla daret res.' De rerum natura, i . 335 . " The opposite school maintained then, as they have always done, 1 It will be noted that Clerk Maxwell's " atom " and " atomic theory " have the significance which we now attach to " molecule " and " molecular theory." that there is no vacuum—that every part of space is full of matter, that there is a universal plenum, and that all motion is like that of a See also:

• FISH (O. Eng. fist, a word common to Teutonic languages, cf. Dutch visch, Ger. Fisch, Goth. fisks, cognate with the Lat. piscis)
• FISH, HAMILTON (1808-1893)

fish in the water, which yields in front of the fish because the fish leaves See also:

• ROOM

room for it behind . ' Cedere squamigeris latices nitentibus aiunt Et liquidas aperire vias, quia See also:

• POST

post loca See also:

• PISCES (the fishes)

pisces Linquant, quo possint cedentes confluere undae.' Ibid. i . 373 . " In modern times See also:

• DESCARTES, RENE (1596-1650)

Descartes held that, as it is of the essence of matter to be extended in length, breadth and thickness, so it is of the essence of See also:

• EXTENSION (Lat. ex, out ; tendere, to stretch)

extension to be occupied by matter, for extension cannot be an extension of nothing . ' Ac proinde si quaeratur quid fiet, si See also:

• DEUS
• DEUS, JOAO DE (1830-1896)

Deus auferat omne corpus quod in aliquo See also:

• VASE
• VASE (through Fr. from Lat. vas, a vessel, pl. vasa, of which the singular vasum is rarely found; the ultimate root is probably was-, to cover, seen in Lat: vestis, clothing, Eng. " vest," Gr. to-th c, and also in " wear," of garments)

vase continetur, et nullum aliud in ablati locum venire permittat? respondendum est, See also:

• OASIS (Gr. &toss, the name given by Herodotus to the fertile spots in the Libyan desert: it probably represents an Egyptian word, cf. Coptic ouahe, ouih, to dwell, from which the Egyptian Arabic sod is derived)

oasis latera See also:

• SIBI

sibi invicem hoc ipso fore contigua . Cum enim inter duo corpora nihil interjacet, necesse est ut se mutuo tangant, ac manifeste repugnat ut distent, sive ut inter ipsa sit distantia, ec tamen ut ista distantia sit nihil ; quia omnis distantia est modus extensionis, et ideo sine substantia extensa esse non potest.'—Principia, ii . 18 . " This See also:

• IDENTIFICATION (Lat. idem, the same)

identification of extension with substance runs through the whole of Descartes's See also:

• WORKS

works, and it forms one of the ultimate See also:

• FOUNDATIONS

foundations of the See also:

• SYSTEM

system of See also:

• SPINOZA, BARUCH (1632-1677)

Spinoza . Descartes, consistently with this doctrine, denies the existence of atoms as parts of matter, which by their own nature are indivisible . He seems to admit, however, that the Deity might make certain particles of matter indivisible in this sense, that no creature should be able to divide them .

These particles, however, would be still divisible by their own nature, because the Deity cannot diminish his own power, and therefore must retain his power of dividing them . Leibniz, on the other hand, regarded his See also:

• MONAD (Gr. µovas, unit, from µovos, alone)

monad as the ultimate See also:

• ELEMENT (Lat. elementum)

element of everything . " There are thus two modes of thinking about the constitution of bodies, which have had their adherents both in ancient and in modern times . They correspond to the two methods of regarding quantity —the arithmetical and the geometrical . To the atomist the true method of estimating the quantity of matter in a body is to See also:

• COUNT (Lat. comes, gen. comitis, Fr. comte, Ital. conte, Span. conde)

count the atoms of it . The void spaces between the atoms count for nothing . To those who identify matter with extension, the See also:

• VOLUME

volume of space occupied by a body is the only measure of the quantity of matter in it . " Of the different forms of the atomic theory that of R . J . See also:

• BOSCOVICH, ROGER JOSEPH (1711?-1787)

Boscovich may be taken as an example of the purest monadism . According to Boscovich matter is made up of atoms . Each atom is an indivisible point, having position in space, capable of motion in a continuous path, and possessing a certain See also:

• MASS (O.E. maesse; Fr. messe; Ger. Messe; Ital. messa; from eccl. Lat. missa)
• MASS, IN

mass, whereby a certain amount of force is required to produce a given See also:

• CHANGE (derived through the Fr. from the Late Lat. cambium, cambiare, to barter; the ultimate derivation is probably from the root which appears in the Gr. «a urmu', to bend)

change of motion .

Besides this the atom is endowed with potential force, that is to say, that any two atoms attract or repel each other with a force depending on their distance apart . The See also:

• LAW
• LAW (0. Eng. lagu, M. Eng. lawe; from an old Teutonic root lag, " lie," what lies fixed or evenly; cf. Lat. lex, Fr. loi)
• LAW, JOHN (1671—1729)
• LAW, WILLIAM (1686-1761)

law of this force, for all distances greater than say the thousandth of an See also:

• INCH (O. Eng. ynce from Lat. uncia, a twelfthpart; cf. " ounce," and see As)

inch, is an attraction varying as the inverse square of the distance . For smaller distances the force is an attraction for one distance and a repulsion for another, according to some law not yet discovered . Boscovich himself, in See also:

• ORDER
• ORDER (through Fr. ordre, for earlier ordene, from Lat. ordo, ordinis, rank, service, arrangement; the ultimate source is generally taken to be the root seen in Lat. oriri, rise, arise, begin; cf. " origin ")
• ORDER, HOLY

order to obviate the• possibility of two atoms ever being in the same place, asserts that the ultimate force is a repulsion which increases without limit as the distance diminishes without limit, so that two atoms can never coincide . But this seems an unwarrantable concession to the vulgar opinion that two bodies cannot co-exist in the same place . This opinion is deduced from our experience of the behaviour of bodies of sensible See also:

• SIZE

size, but we have no experimental See also:

• EVIDENCE (Lat. evidentia, evideri, to appear clearly)

evidence that two atoms may not some-times coincide . For instance, if See also:

• OXYGEN (symbol 0, atomic weight 16)

oxygen and See also:

• HYDROGEN [symbol H, atomic weight x-oo8 (0=16)]

hydrogen combine to See also:

• FORM (Lat. forma)

form water, we have no experimental evidence that the molecule of oxygen is not in the very same place with the two molecules of hydrogen . Many persons cannot get rid of the opinion that all matter is extended in length, breadth and See also:

• DEPTH

depth . This is a See also:

• PREJUDICE (Lat. praejudicium)

prejudice of the same See also:

• KIND (O. E. ge-cynde, from the same root as is seen in " kin," supra)

kind with the last, arising from our experience of bodies consisting of immense multitudes of atoms . The system of atoms, according to Boscovich, occupies a certain region of space in virtue of the forces acting between the component atoms of the system and any other atoms when brought near them . No other system of afoms can occupy the same region of space at the same time, because before it could do so the mutual See also:

• ACTION

action of the atoms would have caused a repulsion between the two systems insuperable by any force which we can command . Thus, a number of soldiers with firearms may occupy an extensive region to the exclusion of the enemy's armies, though the space filled by their bodies is but small .

In this way Boscovich explained the apparent extension of bodies consisting of atoms, each of which is devoid of extension . According to Boscovich's theory, all action between bodies is action at a distance . There is no such thing in nature as actual contact between two bodies . When two bodies are said in See also:

• ORDINARY (med. Lat. ordinarius, Fr. ordinaire)

ordinary See also:

• LANGUAGE (adapted from the Fr. langage, from langue, tongue, Lat. lingua)

language to be in contact, all that is meant is that they are so near together that the repulsion between the nearest pairs of atoms belonging to the two bodies is very See also:

• GREAT

great . " Thus, in Boscovich's theory, the atom has continuity of existence in time and space . At any instant of time it is at some point of space, and it is never in more than one place at a time . It passes from one place to another along a continuous path . It has a definite655 mass which cannot be increased or diminished . Atoms are endowed with the power of acting on one another by attraction or repulsion, the amount of•the force depending on the distance between them . On the other hand, the atom itself has no parts or dimensions . In its geometrical aspect it is a See also:

• MERE
• MERE, ADALBERT (1838-1909)

mere geometrical point . It has no extension in space .

It has not the so-called See also:

• PROPERTY

property, of Impenetrability, for two atoms may exist in the same place . This we may regard as one extreme of the various opinions about the constitution of bodies . " The opposite extreme, that of Anaxagoras—the theory that bodies apparently homogeneous and continuous are so in reality—is, in its extreme form, a theory incapable of development . To ex-See also:

• PLAIN (O. Fr. plain, from Lat. plenum)

plain the properties of any substance by this theory is impossible . We can only admit the observed properties of such substance as ultimate facts . There is a certain See also:

• STAGE (Fr. 6/age; from Lat. stare, to stand)

stage, however, of scientific progress in which a method corresponding to this theory is of service . In See also:

• HYDROSTATICS (Gr. iibwp, water, and the root Ora-, to cause to stand)

hydrostatics, for instance, we define a fluid by means of one of its known properties, and from this See also:

• DEFINITION (Lat. definitio, from de-finire, to set limits to, describe)

definition we make the system of deductions which constitutes the science of hydrostatics . In this way the science of hydrostatics may be built upon an experimental basis, without any consideration of the constitution of a fluid as to whether it is molecular or continuous . In like manner, after the See also:

• FRENCH
• FRENCH, DANIEL CHESTER (1850– )
• FRENCH, NICHOLAS (1604-1678)

French mathematicians had attempted, with more or less ingenuity, to construct a theory of elastic solids from the See also:

• HYPOTHESIS (from Gr. inrorcOivat, to put under; cf. Lat. suppositio, from sub-ponere)

hypothesis that they consist of atoms in See also:

• EQUILIBRIUM (from the Lat. aequus, equal, and libra, a balance)

equilibrium under the action of their mutual forces, See also:

• STOKES, SIR G
• STOKES, SIR GEORGE GABRIEL, BART
• STOKES, WHITLEY (1830-1909)

Stokes and others showed that all the results of this hypothesis, so far at least as they agreed with facts, might be deduced from the postulate that elastic bodies exist, and from the hypothesis that the smallest portions into which we can divide them are sensibl homogeneous . In this way the principle of continuity, whic is the basis of the method of Fluxions and the whole of modern See also:

• MATHEMATICS (Gr. /saBnµar1Kil, Sc. vOcvn or E7rlQTt'µn; from p iN.La, "learning" or "science ")

mathematics, may be applied to the See also:

• ANALYSIS (Gr. avci and Meta, to break up into parts)

analysis of problems connected with material bodies by assuming them, for the purpose of this analysis, to be homogeneous . All that is required to make the results applicable to the real case is that the smallest portions of the sub-stance of which we take any See also:

• NOTICE

notice shall be sensibly of the same kind . Thus, if a railway contractor has to make a See also:

• TUNNEL (Fr. tonne!, later tonneau, a diminutive from Low Lat. tonna, tunna, a tun, cask)

tunnel through a See also:

• HILL
• HILL (0. Eng. hyll; cf. Low Ger. hull, Mid. Dutch hul, allied to Lat. celsus, high, collis, hill, &c.)
• HILL, A
• HILL, AARON (1685-175o)
• HILL, AMBROSE POWELL
• HILL, DANIEL HARVEY (1821-1889)
• HILL, DAVID BENNETT (1843–1910)
• HILL, GEORGE BIRKBECK NORMAN (1835-1903)
• HILL, JAMES J
• HILL, JOHN (c. 1716-1775)
• HILL, MATTHEW DAVENPORT (1792-1872)
• HILL, OCTAVIA (1838– )
• HILL, ROWLAND (1744–1833)
• HILL, SIR ROWLAND (1795-1879)

hill of See also:

• GRAVEL, or PEBBLE BEDS

gravel, and if one cubic yard of the gravel is so like another cubic yard that for the purposes of the See also:

• CONTRACT
• CONTRACT (Lat. contract us, from contrahere, to draw together, to bind)

contract they may be taken as See also:

• EQUIVALENT

equivalent, then, in estimating the See also:

• WORK

work required to remove the gravel from the tunnel, he may, without fear of See also:

• ERROR (Lat. error, from errare, to wander, to err)

error, make his calculations as if the gravel were a continuous substance .

But if a See also:

• WORM

worm has to make his way through the gravel, it makes the greatest possible difference to him whether he tries to push right against a piece of gravel, or directs his course through one of the intervals between the pieces; to him, therefore, the gravel is by no means a homogeneous and continuous substance . " In the same way, a theory that some particular substance, say water, is homogeneous and continuous may be a See also:

• GOOD, JOHN MASON (1764-1827)

good working theory up to a certain point, but may fail when we come to See also:

• DEAL

deal with quantities so See also:

• MINUTE
• MINUTE (Lat. minutes, small; minuere, to make less)

minute or so attenuated that their heterogeneity of structure comes into prominence . Whether this heterogeneity of structure is or is not consistent with homogeneity and continuity of substance is another question . " The extreme form of the doctrine of continuity is that stated by Descartes, who maintains that the whole universe is equally full of matter, and that this matter is all of one kind, having no essential property besides that of extension . All the properties which we perceive in matter he reduces to its parts being movable among one another, and so capable of all the varieties which we can perceive to follow from the motion of its pasts (Principia, ii . 23) . Descartes's own attempts to deduce the different qualities and actions of bodies in this way are not of much value . More than a century was required to invent methods of investigating the conditions of the motion of systems of bodies such as Descartes imagined . But the hydrodynamical See also:

• DISCOVERY

discovery of See also:

• HELMHOLTZ, HERMANN LUDWIG FERDINAND VON (1821-1894)

Helmholtz that a vortex in a perfect liquid possesses certain permanent characteristics has been applied by See also:

• SIR

Sir W .