ibid. § 2. What place is both notionally and really pag. 33. § 3. Locall motion is that diuision whereby a body chāeth its place pag. 34. § 4. The nature of quantity of it selfe is sufficient to vnite a body to its place ibidem § 5. All operations amongst bodies are eyther locall motion or such as follow out of locall motion pag. 35. § 6. Earth compared to water in actiuity pag. 36. § 7. The manner whereby fire getteth in fewel prooueth that it exceedeth earth in actiuity ibid. § 8. The same is prooued by the manner whereby fire cometh ut of fewell and worketh vpon other bodies pag. 37. CHAP. VI. Of Light what it is pag. 39. § 1. In what sense the Author reiecteth qualities ibid. § 2. In what sense the Author doth admitt of qualities pag. 40. § 3. Fiue arguments proposed to proue that light is not a body pag. 41. § 4. The two first reasons to proue light to be a body are the resemblance it hath with fire and because if it were a quality it would alwayes produce an equall to it selfe pag. 42. § 5. The third reason because if we imagine to our selues the substance of fire to be rarifyed it will haue the same appearences which light hath pag. 43. § 6. The fourth reason from the manner of the genertion and corruption of light which agreeth with fire ibid. § 7. The fifth reason because such properies belong to light as agree only vnto bodies pag. 45. CHAP. VII Two objections answered against light being fire a more ample proofe of its being such ibid. § 1. That all light is hoat and apt o heate ibid. § 2. The reason why our bodies for the most part do not feele the heate of pure light pag. 46. § 3. The experience of burningglasses and of soultry gloomy weather proue light to be fire pag. 48. § 4. Philosophers ought not to be iudge ot thinges by the rules of vulgar people ibidem § 5. the different names of light and fire proceede from different notions of the same substance pag. 49. § 6. The reason why many times fire and heate are depriued of light pag. 50. § 7. What becometh of the body of light when it dyeth ibid. § 8. An experiment of some who pretend that light may be precipitated into pouder pag. 51. § 9. The Authors opinion concerning lampes pretended to haue been found in tombes with inconsumptible lights ibid. CHAP. VIII An answere to three other objections formely proposed against light being a substance pag. 53. § 1. Light is not really in euery part of the roome it enlighteneth nor filleth entirely any sensible part of it though it seeme to vs to do so ibid. § 2. Tha least sensible poynt of a diaphanous body hath roome sufficient to containe both ayre and light together with a multitude of beames issuing from seuerall lights without penetrating one another pag. 54. § 3. That light doth not enlighten any roome in an instant and that the great celerity of its motion doth make it inperceptible to our senses pag. 56. § 4. The reason why the motion of light is not discerned comingtowardes vs and that there is some reall tardity in it pag. 58. § 5. The planets are not certainely euer in that place where they appeare to be pag. 59. § 6. The reason why light being a body doth not by its motion shatter other bodies into pieces ibid. § 7. The reason why the body of light is neuer perceiued to be fanned by the wind pag. 61. § 8. The reasons for and against lights being a body compared together pag. 62. § 9. A summary repetition of the reasons which prooue that light is fire ibidem CHAP. IX Of locall Motion in common pag 63. § 1. No locall motion can be performed without succession ibid. § 2. Time is the common measure of all succession pag. 64. § 3. What velocity is and that it can not be infinite ibid. § 4. No force so litle that is not able to moue the greatest weight imaginable pag. 65. § 5. The cheife principle of Mechanikes deduced out of the former discourse pag. 66. § 6. No moueable can passe from rest to any determinate degree of velocity or from a lesser degree to a greater without passing through all the intermediate degrees which are below the obtained degree pag. 67. § 7. The conditions which helpe to motion in the moueable are three in the medium one pag 69. § 8. No body hath any intrinsecall vertue to moue it selfe towardes any determinate part of the vniuerse pag. 70. § 9. The encrease of motion is alwayes made in the proportion of the odde numbers ibid. § 10. No motion can encrease for euer without coming to a periode pag. 72. § 11. Certaine problemes resolued concerning the proportion of some mouing Agents compared to their effects pag 73. § 12. When a moueable cometh to rest the motion doth decrease according to the rules of encrease pag. 75. CHAP. X. Of Grauity and Leuity and of Locall Motion commonly termed Naturall pag. 76. § 1. Those motions are called naturall which haue constant causes and those violent which are contrary to them ibid. § 2. The first and most generall operation of the sunne is the making and raising of atomes ibid. § 3. The light rebounding from the earth with atomes causeth two streames in the ayre the one ascending the other descending and both of them in a perpendicular line pag. 77. § 4. A dense body placed in the ayre betweene the ascending and descending streame must needes descend pag. 78. § 5. A more particular explication of all the former doctrine touching grauity pag. 79. § 6. Grauity and leuity do not signify an intrinsecall inclination to such a motion in the bodies themselues which are termed heauy and light pag. 81. § 7. The more dense a body is the more swiftly it descendeth ibid. § 8. The velocity of bodies descending doth not encrease in proportion to the difference that may be betweene their seuerall densities pag. 82. § 9. More or lesse grauity doth produce a swifter or a slower descending of a heauy body Aristotles argument to disproue motion in vacuo is made good pag. 84. § 10. The reason why att the inferiour quarter of a circle a body doth descend faster by the arch of that quarter then by the chord if it pag. 85. CHAP. XI An answere to objections against the causes of naturall motion auowed in the former chapter and a refutation of the contrary opinion pag. 86. § 1. The first obiection answered why a hollow body descendeth slower then a solide one pag. 86. § 2. The second obiection answered and the reasons shewne why atomes do continually ouertake the descending dense body pag. 88. § 3. A curious question left vndecided pag. 89. § 4. The fourth obiection answered why the descent of the same heauy bodies is equall in so great inequality of the atomes which cause it ibidem § 5. The reason why the
of intension and Remission and others do not ibid. § 7. That in euery part of our habitable world all the foure Elements are found pure in small atomes but not in any great bulke pag. 142. CHAP. XVII Of Rarefaction and Condensation the two first motions of particular bodies pag. 144. § 1. The Authors intent in this and the following chapters ibid. § 2. That bodies may be rarifyed both by outward heat aud how this is performed pag. 145. § 3. Of the great effects fo Rarefaction pag. 147. § 4. The first manner of condensation by heate pag. 148. § 5. The second manner of condensation by cold pag. 149. § 6. That yce is not water rarifyed but condensed pag. 151. § 7. How wind snow and haile are made and wind by raine allayed pag. 152. § 8. How partes of the same or diuers bodies are ioyned more strongly together by condensation pag. 153. § 9. Vacuites can not be the reason why water impregnated to the full with one kind of salt will notwithstanding receiue more of an other pag. 154. § 10. The true reason of the former effect pag. 155. § 11. The reason why bodies of the same nature do ioyne more easily together then others pag. 156. CHAP. XVIII Of an other motion belonging to particular bodies called Attraction and of certaine operations termed Magicall pag. 157. § 1. What Attraction is and from whence it proceedeth ibid. § 2. The true sense of the Maxime that Nature abhorreth from vacuity pag. 158. § 3. The true reason of attraction pag. 159. § 4. Water may be brought by the force of attraction to what height soeuer pag. 160. § 5. The doctrine touching the attraction of water in syphons ibid § 6. That the syphon doth not proue water to weigh in its owne orbe pag. 161. § 7. Concerning attraction caused by fire pag. 162. § 8. Concerning attraction made by vertue of hoat bodies amulets etc. pag. 163. § 9. The naturall reason giuen for diuers operations esteemed by some to be magicall ibid. CHAP. XIX Of three other motions belonging to particular bodies Filtration Restitution and Electricall attraction pag. 166. § 1. What is Filtration and how it is effected ibid. § 2. What causeth the water in filtration to ascend pag. 167. § 3. Why the filter will not droppe vnlesse the labell hang lower then the water ibid. § 4. Of the motion of Restitution and why some bodies stand bent others not pag. 168. § 5. Why some bodies returne onely in part to their natural figure others entirely pag. 170. § 6. Concerning the nature of those bodies which do shrinke and stretch pag. 171. § 7. How great and wonderfull effects proceed from small plaine and simple principles ibid. § 8. Concerning Electricall attraction and the causes of it pag. 172. § 9. Cabeus his opinion refuted concerning the cause of Electricall motions pag. 174. CHAP. XX. Of the Loadestones generation and its particular motions pag. 175. § 1. The extreme heat of the sunne vnder the zodiake draweth a streame of ayre from each Pole into the torride zone ibid. § 2. The atomes of these two streames coming together are apt to incorporate with one an other pag. 176. § 3. By the meeting and mingling together of these streames att the Equator diuers riuolets of atomes of each Pole are continuated from one Pole to te other pag. 177. § 4. Of these atomes incorporated with some fitt matter in the bowels of the earth is made a stone pag. 179. § 5. This stone worketh by emanations ioyned with agreeing streames that meete them in the ayre and in fine it is a loadestone ibid. § 6. A methode for making experiences vpon any subiect pag. 181. § 7. The loadestones generation by atomes flowing from both Poles is confirmed by experiments obserued in the stone it selfe ibid. § 8. Experiments to proue that the loadestone worketh by emanations meeting with agreeing streames pag. 182. CHAP. XXI Positions drawne out of the former doctrine and confirmed by experimentall proofes pag. 185. .1 The operations of the loadestone are wrought by bodies and not by qualities ibid. § 2. Obiections against the former position answered pag. 186. § 3. The loadestone is imbued with his vertue from an other body ibid. § 4. The vertue of the loadestone is a double and not one simple vertue 188. § 5. The vertue of the laodestone worketh more strongly in the Poles of it then in any other part ibid. § 6. The laodestone sendeth forth its emanations spherically Which are of two kindes and each kind is strongest in that hemisphere through whose polary partes they issue out ibid. § 7. Putting two loadestones within the sphere of one an other euery part of one laodestone doth not agree with euery part of the other loadestone pag 189. § 8. Concerning the declination and other respects of a needle towardes the loadestone it toucheth ibid. § 9. The vertue of the laodestone goeth from end to end in lines almost paralelle to the axis pag. 191. § 10. The vertue of loadestone is not perfectly sphericall though the stone be such pag. 192. § 11. The intention of nature in all the operations of the loadestone is to make an vnion betwixt the attractiue and attracted bodies ibid. § 12. The maine globe of the earth is not a loadestone ibid. § 13. The laodestone is generated in all partes or climats of the earth pag. 193. § 14. The conformity betwixt the two motions of magnetike thinges and of heauy thinges ibid. CHAP. XXII A solution of certaine Problemes concerning the loadestone and a short summe of the whole doctrine touching it pag. 194. § 1. Which is the North and which the South Pole of a loadestone ibid. § 2. Whether any bodies besides magnetike ones be attractiue ibid. § 3. Whether an iron placed perpendicularly towardes the earth doth gett a magneticall vertue of pointing towardes the north or towardes the south in that end that lyeth downewardes pag. 195. § 4. Why loadestones affect iron better then one an other ibid. § 5. Gilberts reason refuted touching a capped loadestone that taketh vp more iron then one not capped and an iron impregnated that in some case draweth more strongly then the stone it selfe ibid. § 6. Galileus his opinion touching the former effects refuted pag. 196. § 7. The Authors solution to the former questions pag. 197. § 8. The reason why in the former case a lesser loadestone doth draw the interiacent iron from the greater pag. 198. § 9. Why the variation of a touched needle from the north is greater the neerer you go to the Pole pag. 199. § 10. Whether in the same part of the world a touched needle may att one time vary more from the north and att an other time lesse pag. 200. § 11. The whole doctrine of the loadestone summed vp in short pag. 201. CHAP. XXIII A description of the two sortes of liuing creatures Plantes and Animals and how they are framed in common
our whole scope both in this and in all other occasions where like qualities are vrged is to prooue superfluous and ill grounded in nature and to be but meere termes to confound and leaue in the darke whosoeuer is forced to fly vnto them THE THERTEENTH CHAPTER Of three sortes of violent motion Reflexion Vndulation and Refraction THe motion we haue last spoken of because it is ordinarily either in part or wholy contrary to grauity which is accounted the naturall motion of most bodies vseth to be called violent or forced And thus you haue deliuered vnto you the natures and causes both of naturall and of forced motion yet it remaineth that we aduertise you of some particular kindes of this forced motion which seeme to be different from it but indeed are not As first the motion of reflexion which if we do but consider how forced motion is made we shall find that it is nothing else but a forced motion whose line wherevpon it is made is as it were snapped in two by the encounter of a hard body For euen as we see in a spoute of water that is strongly shott against a wall the water following driueth the precedent partes first to the wall and afterwardes coming themselues to the wall forceth them againe an other way from the wall right so the latter partes of the torrent of ayre which is caused by the force that occasioneth the forced motion driueth the former partes first vpon the resistent body and afterwardes againe from it But this is more eminent in light then in any other body because light doth lesse rissent grauity and so obserueth the pure course of the stroake better then any other body from which others do for the most part decline some way by reason of their weight Now the particular law of reflexion is that the line incident and the line of reflexion must make equall angles with that line of the resistent superficies which is in the same superficies with themselues The demonstration whereof that great witt Renatus Des Cartes hath excellently sett downe in his booke of Dioptrikes by the example of a ball strucken by a rackett against the earth or any resisting body the substance where of is as followeth The motion which we call vndulation needeth no further explication for it is manifest that since a pendant when it is remooued from its perpendicular will restore it selfe therevnto by the naturall force of grauity and that in so doing it gaineth a velocity and therefore can not cease on a suddaine it must needes be carried out of the force of that motion directly the coÌ„trary way vntill the force of grauity ouercoming the velocity it must be brought backe againe to the perpeÌ„dicular which being done likewise with velocity it must send it againe towardes the place from which it fell att the first And in this course of motion it must coÌ„tinue for a while euery vndulation being weaker then other vntill att last it quite ceaseth by the course of nature settling the ayre in its due situatioÌ„ according to the naturall causes that worke vpon it And in this very manner also is performed that vndulation which we see in water when it is stirred from the naturall situation of its sphericall superficies Galileo hath noted that the time in which the vndulations are made which follow one an other of their owne accord is the same in euery one of them and that as much time precisely is take vp in a pendants going a very short arch towardes the end of its vibration as was in its going of the greatest arch att the beginning of its motion The reason whereof seemeth strange to him and he thinketh it to be an accident naturall to the body out of its grauity and that this effect conuinceth it is not the ayre which mooueth such bodies Whereas in truth it is clearely the ayre which causeth this effect Because the ayre striuing att each end where it is furthest from the force of the motion to quiett it selfe getteth att euery bout somewhat vpon the space and so contracteth that into a shorter arch That motion also which we call Refraction and is manifest to sense onely in light though peraduenture hereafter more diligent searchers of nature may likewise find it in such other bodies as are called qualities as in cold or heate c. is but a kind of Reflexion for there being certaine bodies in which the passages are so well ordered with their resistances that all the partes of them seeme to permitt light to passe through them and yet all partes of them seeme to reflect it when light passeth through such bodies it findeth att the very entrance of them such resistances where it passeth as serue it for a reflectent body and yet such a reflectent body as hindereth not the passage through but onely hindereth the passage from being in a straight line with the line incident Wherefore the light must needes take a plye as beaten from those partes towardes a line drawne from the illuminant and falling perpendicularly vpon the resisting superficies and therefore is termed by mathematicians to be refracted or broken towardes the Perpendicular Now at the very going out againe of the light the second superficies if it be parallel to the former must needes vpon a contrary cause strike it the contrary way which is termed from the Perpendicular But before we wade any deeper into this difficulty we can not omitt a word of the manner of explicating refraction which Monsieur Des Cartes vseth so witty a one as I am sorry it wanteth successe He therefore following the demonstration aboue giuen of reflexion supposeth the superficies which a ball lighteth vpon to be a thinne linnen cloth or some other such matter as will breake cleanely by the force of the ball striking smartly vpon it And because that superficies resisteth onely one way therefore he inferreth that the velocity of the ball is lessened onely one way and not the other so that the velocity of its motion that way in which it findeth no resistance must be after the balles passage through the linnen in a greater proportion to the velocity which it hath the other way where it findeth resistance then it was before And therefore the ball will in lesse time arriue to its periode on the one side then on the other and consequently it will leane towardes that side vnto which the course wherein it findeth no opposition doth carry it Which to shâ—w how it is contrary vnto his owne principle lett vs conceiue the cloth CE to be of some thickenesse and so draw the line OP to determine that thicknesse And lett vs make from B vpon AL an other Parallelogramme like the Parallelogramme AL whose diameter shall be BQ And it must necessarilly follow that the motion from B to Q if there were no resistance were in the same proportion as from A to B. But the proportion of the motion from
as soone as the mastering violence leaueth them at liberty Pleasure therefore must be contrary to this and consist in a moderate dilatation for an immoderate one would cause a compression in some adherent partes and there would become paine And conformable to this we experience that generally they are hard thinges which breed paine vnto vs and that these which breed pleasure are oyly and soft as meates and odours which are sweete to the taste and smell and soft substances which are gratefull to the touch the excesse of all which proueth offensiue and painefull so that from the extremity of pleasure one entereth presently vpon the confines of paine Now then lett vs consider how the little similitudes of bodies which from without do come into the fantasy must of necessity worke there according to their little power effects proportionable to what they wrought first in the outward senses from whence they were conueyed to the braine for the senses that is the nerues and the Septum Lucidum hauing both of them their origine from the very substance of the braine and differing only in degrees of purity and refinement the same obiect must needes workelike effects in both compressing or dilating them proportionably to one an other which compression or dilatation is not paine or pleasure as it is in the outward sense but as it is reported to the hart and that being the seate of all paines or pleasures wrought in other partes and that as it were dyeth them into those qualities is not capable of feeling eyther it selfe so that the stroakes of any little similitudes vpon the fantasy do make only compressions or dilatations there not paines or pleasures Now their bodies or similitudes if they be reuerberated from the fantasy or septum Lucidum vpon the little rootes of the nerues of the sixt couple which goe to the hart they must needes worke there a proportionable impression to what they wrought vpon the fansy eyther compressing or dilating it and the hart being extremely passiue by reason of its exceeding tendernesse and heate can not choose but change its motion at the least in part if not in whole and this with relation to two causes the one the disposition of the hart it selfe the other the vehemency of the stroake This change of motion and different beating of the hart is that which properly is called passion and is euer accompanyed with pleasure or with griefe according to the nature of the impression that eyther contracteth or dilateth the hart and the spirirs about it and is discouered by the beating of the arteries and of the pulse Conformable wherevnto Physitians do tell vs that euery passion hath a distinct pulse These pulses are diuided in common by aboundance or by want of spirits yet in both kinds they may haue common differencies for in aboundance the pulse may be quicke or slow regular or irregular equall or vnequall and the like may happen in defect of spirits according to the motions of the hart which are their causes Againe the obiect by being present or absent neerer or further off maketh the stroake greater or lesser and accordingly varyeth the motion of the hart Lett vs then call to mind how we haue formerly declared that life consisteth in heate and humidity and that these two ioyned together do make a thing great and we may conclude that of necessity the motion which is most liuely must haue a great full and large stroake like the euē rolling waues of a wyde and smooth sea and not too quicke or smart like the breaches of a narrow Fretum agitated by tempestuous windes From this other motions may vary eyther by excesse or by deficiency the first maketh the stroake become smart violent and thicke the other slackeneth it and maketh it grow little slow weake and thinne or seldome And if we looke into the motions of our hart we shall see these three differencies of them follow three seuerall chiefe passions The first followeth the passion of ioy the second the passion of anger and the third the passion of griefe Nor neede we looke any further into the causes of these seuerall motions for we see that ioy and griefe following the stroake of sense the one of them must consist in an oyly dilatation that is the spirits about the hart must be dilated by a gentle large great and sweete motion in a moderation between velocity and slownesse the other contrarywise following the stroake of sense in paine as the first did in pleasure must contract the spirits and consequently make their motion or stroake become little and deficient from all the properties we haue aboue sett downe As for anger the motion following that passion is when the aboundance of spirits in the hart is a little checked by the contrary stroake of sense but presently ouercometh that opposition and then as we see a hindered water or a man that suddainely or forcibly breake through what withstood their motion go on with a greater violence then they did and as it were precipitately so the hart hauing ouercome the contraction which the sense made in it dilateth it selfe with a fury and maketh its motion smart and vehement Whence also it followeth that the spirits grow hoater then they were and accordingly it is often seene that in the scoulding of a woman and in the irritation of a dogg if euer now and then one thwart them and interpose a little opposition their fury will be so sharpened and heightened that the woman will be transported beyond all limits of reason and the dogg will be made madde with nothing else done to him but angring him at conuenient times and some men likewise haue by sleight oppositions iterated speedily vpon them before their spirits could relent their vehement motion and therefore must still encrease it beene angred into feauers This passion of anger seemeth almost to be solitary on the side of excesse beyond ioy which is as it were the standard and perfection of all passions as light or whitenesse is of all colours but on the otherside of deficiency there are seuerall middle passions which participate more or lesse of ioy and griefe as particularly those two famous ones which gouerne mans life Hope and Feare Concerning which Physitians tell vs that the pulse or beating of feare is quicke hard and vnequall vnto which I conceiue we may safely adde that it must also be small and feeble the perfection of ioy decreasing in it on one side to witt from greatnesse and largenesse but not intirely so that a kind of quicknesse supplyeth in part the other defect Hope on the other side is in such sort defectiue from ioy that neuerthelesse it hath a kind of constancy and moderate quantity and regularity in its motion and therefore is accounted to be the least hurtfull of all the passions and that which most prolongeth mans life And thus you see how those motions which we call passions are engendred in the hart and what
sense the Author doth admitt of qualities 3 Fiue arguments proposed to proue that light is not a body 4 The two first reasoÌ„s to proue light to be a body are the resemblance it hath with fire and because if it were a quality it would alwayes produce an equall to it selfe 5 The third reason because if we imagine to our selues the substance of fire to be rarifyed it will haue the same appearances which light hath 6 The fourth reason from the manner of the generation and corruption of light which agreeth with fire 7 The fifth reason because such properties belong to light as agree only vnto bodies 1 That all light is hoat and apt to heate 2 The reason why our bodies for the most part do not feele the heate of pure light 3 The experience of burning-glasses and of soultry gloomy weather proue light to be fire 4 Philosophers ought not to iudge of thinges by the rules of vulgar people 5 The different names of light and fire proceede from different notions of the same substance 6 The reason why many times fire and heate are depriued of light 7 What becometh of the body of light when it dyeth 8 An experiment of some who pretend that light may be precipitated into pouder 9 The Authors opinion concerning lampes pretended to haue been found in tombes with inconsumptible lights 1 Light is not really in euery part of the roome it enlighteneth not filleth entirely any sensible part of it though it seeme to vs to do so 2 The least sensible poynt of a diaphanous body hath roome sufficient to containe both ayre and light together with a multitude of beames issuing from seuerall lights without penetrating one an other Willebrord Snell 3 That light doth not enlight en any roome in an instant and that the great celerity of its motion doth make it imperceptible to our senses 4 The reason why the motion of light is not discerned coming towardes vs and that there is some reall tardity in it 5 The planets are not certainely euer in that place where they appeare to be 6 The reason why light being a body doth not by its motion shatter other bodies into pieces 7 The reason why the body of lighlt is neuer perceiued to be fanned by the wind 8 The reasons for and against lights being a body compared together 9 A summary repetition of the reasons which proue that light is fire 1 No locall motion can be performed without succession 2 Time is the common measure of all succession 3 What velocity is and that it can not be infinite 4 No force so litle that is not able to moue the greatest weight imaginable 5 The chiefe principle of Mechanikes deduced out of the former discourse 6 No moueable can passe from rest to any determinate degree of velocity or from a lesser degree to a greater without passing through all the intermediate degrees which are below the obtained degree 7 The conditions which helpe to motioÌ„ in the moueable are three in the medium one Dialog 1. of Motion 8 No body hath any intrinsecall vertue to moue it selfe towardes any determinate part of the vniuerse 9 The encrease of motion is alwayse made in the proportion of the odde numbers 10 No motion can encrease for euer without coming to a periode 11 Certaine problemes resolued concerning the proportion of some mouing Agents compared to their effects 12 When a moueable cometh to rest the motion doth decrease according to the rules of encrease 1 Those motions are called naturall which haue constant causes and those violent which are contrary to them 2 The first and most generall operation of the sunne is the making and raising of atomes 3 The light rebounding from the earth with atomes causeth two streames in the ayre the one ascending the other desceÌ„ding and both of them in a perpendicular line 4 A dense body placed in the ayre betweene the ascending and descending streame must needes descend 5 A more particular explicatioÌ„ of all the former doctrine touching grauity 6 Grauity and leuity do not signify an intrinsecall inclination to such a motion in the bodies themselues which are termed heauy and light 7 The more deÌ„se a body is the more swiftly it descendeth 8 The velocity of bodies descending doth not encrease in proportion to the difference that may be betweene their seuerall densities 9 More or lesse grauity doth produce a swifter or a slower descending of a heauy body Aristotles argument to disproue motion in vacuo is made good 10 The reason why att the inferiour quarter of a circle a body doth descend faster by the arch of that quarter then by the chord â—f it 1 The first obiection answered why a hollow body descendeth slower then a solide one 2 The second obiection answered and the reasons shewne why atomes do continually ouertake the descending dense body 3 A curious question left vndecided 4 The fourth obiection answered why the descent of the same heauy bodies is equall in so great inequality of the atomes which cause it 5 The reason why the shelter of a thicke body doth not hinder the descent of that which is vnder ti 6 The reason why some bodies sinke others swimme 7 The fifth obiection answered concerning the descending of heauy bodies in streames 8 The sixt obiection answered and that all heauy elements do weigh in their owne spheres 9 The 7th obiection answered and the reason why we do not feele the course of the ayre and atomes that beat coÌ„tinually vpon vs. 10 How in the same body grauity may be greater then density and density then grauity though they be the same thing 11 The opinion of grauities being an intrinsecall inclination of a body to the center refuted by reason 12 The same opinion refuted by seuerall experiences 1 The state of the question touching the cause of violent motion 2 That the medium is the onely cause which continueth â—â—â—lent motioÌ„ 3 A further explication of the former doctrine 4 That the ayre hath strength enough to continue violent motion in a moueable Dial. 1. of motion pag. 98. 5 An answere to the first obiection that ayre is not apt to conserue motion And how violent moâ—â— cometh to cease 6 An answere to the second obiection that the ayre hath no power ouer heauy bodies 7 An answere to the third obiection that an arrow should fly faster broadwayes then loÌ„gwayes 1 That reflexion is a kind of violeÌ„t motion 2 Reflexion is made at equall angles 3 The causes and properties of vndulation 5 A refutation of Monsieur Des Cartes his explication of refraction 6 An answere to the arguments brought in fauour of Monsieur Des Cartes his opinion 7 The true cause of refraction of light both at its entrance and att its going out from the reflecting body 8 A generall rule to know the nature of reflexions and refractions in all sortes of
surfaces 9 A body of greater partes and greater pores maketh a greater refraction then one of lesser partes and lesser pores 10 A coÌ„firmation of the former doctrine out of the nature of bodies that refract light 1 The coÌ„nexion of this chapter with the rest and the Authors intent in it 2 That there is a least cise of bodies and that this least cise is found in fire 3 The first coniunction of partes is in bodies of least cise and it is made by the force of Quantity 4 The second sort of coniunction is coÌ„pactednesse in simple Elements and it proceedeth from density 5 The third coniunction is of partes of different Elements and it proceedeth from quantity and density together 6 The reason why liquide bodies do easily ioyne together and dry ones difficultly 7 That no two hard bodies can touch one an other immediately 8 How mixed bodies arâ— framed in generall 9 The cause of the seuerall degrees of solidity in mixed bodies 10 The rule wherevnto are reduced all the seuerall combinations of Elements in compounding of mixed bodies 11 Earth and water are the basis of all permanent mixed bodies 12 What kind of bodies those are where water is the basis and earth the predominant Element ouer the other two 13 Of those bodies where water being the basis ayre is the predominant Element 14 What kind of bodies result where water is the basis and fire the predominant Element 15 Of those bodies where water is in excesse it alone being both the basis and the predominant Element 16 Of those bodies where Earth alone is the basis and also the predominant in excesse ouer the other threâ— Elements 17 Of those bodies where Earth is the basis and water the predominâ—t Element ouer the other two 18 Of those bodies where earth being the basis ayre is the predominant 19 Of those bodies where Earth being the basis fire is the predominant 20 All the second qualities of mixed bodies arise from seuerall combinations of the first qualities and are att last resolued into seuerall degrees of rarity and density 21 That in the planets and starres there is a like varietâ— of mixed bodies caused by light as here vpon Earth 22 In what maÌ„ner the Elements do worke vpon one an other in the compositioÌ„ of mixed bodies and in particular fire which is the most actiue 23 A particular declaration touching the generation of mettalls 1 Why some bodies are brittle and others tough or apt to withstand outward violence the first instrument to dissolue mixed bodies 2 How outward violence doth worke vpon the most compacted bodies 3 The seuerall effects of fire the second and chiefest instrumeÌ„t to dissolue all coÌ„pounded bodies 4 The reason why some bodies are not dissolued by fire 5 The reason why fire molteth gold but can not consume it 6 Why leade is easily consumed and calcined by fire 7 Why and how some bodies are diuided by fire into spirits waters oyles saltes and earth And what those partes are 8 How water the third iâ—strumeÌ„t to dissolue bodies dissolueth calx into salt and so into Terra damnata 9 How water mingled with salt becometh a most powerfull Agent to dissolue other bodies 10 How putrefactioÌ„ is caused 1 What is the sphere of actiuity in corporeall Agents 2 The reason why no body can worke in distance 3 An obiection answered against the manner of explicating the former axiomâ— 4 Of reaction and first in pure locall motion that each AgeÌ„t must suffer in acting and actâ— in suffering 5 The former doctrine applyed to other locall motions designed by particular names And that Suisseths argument is of no force against this way of doctrine 6 Why some notions do admitt of intension and Remission and others do not 7 That in euery part of our habitable world all the foure ElemeÌ„ts are found pure in small atomes but not in any great bulke 1 The Authors intent in this and the following chapters Mr. Thomas White 2 That bodies may be rarifyed both by outward and inward heat and how this is performed 3 Of the great effects of Rarefaction 4 The first manner of condensation by heate 5 The second manner of condensation by cold 6 That yce is not water rarifyed but condensed 7 How wind snow and haile are made and wind by raine allayed 8 How partes of the same or diuers bodies are ioyned more strongly together by condensation 9 Vacuites can not be the reason why water impregnated to the full with one kind of salt will notwithstaÌ„ding receiue more of an other 10 The true reason of the former effect 11 The reason why bodies of the same nature do ioyne more easily together then others 1 What AttractioÌ„ is and from whence it proceedeth 2 The true sense of the Maxime that Nature abhorreth from vacuity 3 The true reasâ— of attraction 4 Water may be brought by the force of attraction to what height soeuer 5 The doctrine touching the attraction of water in syphons 6 That the syphon doth not proue water to weigh in its owne orbe 7 Concerning attraction caused by fire 8 Concerning attractioÌ„ made by vertue of hoat bodies amulets etc. 9 The naturall reason giuen for diuers operations esteemed by some to be magicall 1 What is Filtration and how it is effected 2 What causeth the water in filtration to ascend 3 Why the filter will not droppe vnlesse the labell hang lower then the water 4 Of the motion of Restitution and why some bodies stand bent others not 5 Why some bodies returne onely in part to their natural figure others entirely 6 Concerning the nature of those bodies which do shrinke and stretch 7 How great and wonderfull effects proceed from small plaine and simple principles 8 Concerning Electricall attraction and the causes of it 9 Cabeus his opinion refuted concerning the cause of Electricall motâ—ons 1 The extreme heat of the sunne vnder the zodiacke draweth a streame of ayre from each Pole into the torride zone Chap. 18. §. 7. 2 The atomes of these two streames coming together are apt to incorporate with one an other 3 By the meeting and mingling together of these streames att the Equator diuers riuolets of atomes of each Pole are continuatâ—d from one Pole to the other 4 Of these atomes incorporated with some fitt matter in the bowels of the earth is made a stone 5 This stone worketh by emanations ioyned with agreeing streames that meete them in the ayre and in fine it is a loadestone 6 A methode for making experiences vpon any subiect 7 The Loadestones generatioÌ„ by atomes flowing from both Poles is confirmed by experiments obserued in the stone it selfe 8 Experiments to proue that the loadestone worketh by emanations meeting with agreeing streames 1 The operations of the loadestone are wrought by bodies and not by qualities 2 Obiections against the former positioÌ„ answered 3 The loadestone is imbued
consider further that as this superficies hath in it selfe so the body enclosed in it gaineth a certaine determinate respect unto the stable and immoouable bodies that enuiron it As for example we vnderstand such a tree to be in such a place by hauing such and such respects to such a hill neere it or to such a house that standeth by it or to such a riuer that runneth vnder it or to such an immoouable point of the heauen that from the sunnes rising in the aequinox is called east and such like To which purpose it importeth not whether these that we call immoouable bodies and pointes be truly so or do but seeme so to mankinde For man talking of thinges according to the notions he frameth of them in his minde speech being nothing else but an expression to an other man of the images he hath within himselfe and his notions being made according to the seeming of the thinges he must needes make the same notions whether the thinges be truly so in themselues or but seeme to be so when that seeming or appearance is alwayes constantly the same Now then when one body diuiding an other getteth a new immediate cloathing and consequently new respects to the stable and immoouable bodies or seeming such that enuiron it we do vary in our selues the notion we first had of that thing conceiuing it now accompanied with other circumstances and other respects then formerly it had Which notion we expresse by saying it hath changed its place and is now no longer where it was att the first And this change of place we call Locall motion to witt the departing of a body from that hollow superficies which inclosed it and its changing vnto an other whereby it gaineth new respects to those partes of the world that haue or in some sort may seeme to haue immobility and fixed stablenesse So as hence it is euident that the substance of locall motion consisteth in diuision and that the alteration of Locality followeth diuision in such sort as becoming like or vnlike of one wall to an other followeth the action whereby one of them becometh white And therefore in nature we are not to seeke for any entity or speciall cause of applying the mooued body to a place as place which is but a respect consequent to the effect of diuision but onely to consider what reall and physicall action vniteth it to that other body which is called its place and truly serueth for that effect And consequently they who thinke they haue discouered a notable subtility by bringing in an Entity to vnite a body to its place haue strained beyond theire strength and haue grasped but a shadow Which will appeare yet more euident if they but marke well how nothing is diuisible but what of it selfe abstracting from diuision is one For the nature of diuision is the making of many which implyeth that what is to be diuided must of necessity be not many before it be diuided Now quantity being the subiect of diuision it is euident that purely of it selfe and without any force or adioyned helpes it must needes be one wheresoeuer some outward agent doth not introduce multiplicity vpon it And whensoeuer other thinges worke vpon quantity as quantity it is not the nature and power of theire operation to produce vnity in it and make it one for it is already one but contrariwise the immediate necessary effect that floweth from them in this case is to make one quantity many according to the circumstances that accompany the diuider and that which is to be diuided And therefore although wee may seeke causes why some one thing sticketh faster together then some other yet to aske absolutely why a body sticketh together were preiudiciall to the nature of quantity whose essence is to haue partes sticking together or rather to haue such vnity as without it all diuisibility must be excluded Out of which discourse it followeth that in locall motion we are to looke only for a cause or power to diuide but not for any to vnite For the very nature of quantity vniteth any two partes that are indistant from one an other without needing any other cement to glew them together as we see the partes of water and all liquide substances do presently vnite themselues to other partes of like bodies when they meete with them and to solide bodies if they chance to be next vnto them And therefore it is vaine to trouble our heades with Vnions and imaginary Moodes to vnite a body to the place it is in when theire owne nature maketh them one as soone as they are immediate to each other And accordingly if when we see a boule mooue we would examine the causes of that motion we must consider the quantity of ayre or water it maketh to breake from the partes next vnto it to giue place vnto it selfe and not speculate vpon an intrinsecall relation from the body to a certaine part of the imaginary space they will haue to runne through all thinges And by ballancing that quantity of ayre or water which it diuideth we may arriue to make an estimate of what force the boule needeth to haue for its motion Thus hauing declared that the locality of motion is but an extrinsecall denomination and no reality in the thing mooued wee may now cast an eye vpon a vast consequence that may be deduced out of what wee haue hitherto said For if we consider the nature of a body that is that a body is a body by quantity and that the formall notion of quantity is nothing else but diuisibility and that the adaequate act of diuisibility is diuision it is euident there can be no other operation vpon quantity nor by consequence among bodies but must eyther be such diuision as we haue here explicated or what must necessarily follow out of such diuision And diuision as we haue euen now explicated being locall motion it is euident that all operations among bodies are either locall motion or such as follow out of locall motion Which conclusion howsoeuer vnexpected and may att the first hearing appeare a Paradoxe will neuerthelesse by the ensuing worke receiue such euidence as it can not be doubted of and that not onely by force of argumentation and by necessity of notions as is already deduced but also by experience and by declaration of particulars as they shall occurre But now to apply what we haue said to our proposed subiect it is obuious to euery man that seeing the diuider is the agent in diuision and in locall motion and that dense bodies are by theire nature diuiders the earth must in that regard be the most actiue among the Elements since it is the most dense of them all But this seemeth to be against the common iudgement of all the searchers of nature who vnanimously agree that fire is the most actiue Element As also it seemeth to impugne what we our selues haue determined when we said there were two
shew vs that the lesse the atomes should penetrate into a moouing body by reason of the extreme density of it the more efficaciously they would worke and the greater celerity they would cause in its motion And hence we may giue the fullest solution to the obiection aboue which was to this effect that seeing diuision is made onely by the superficies or exteriour part of the dense body and that the vertue whereby a dense body doth worke is onely its resistance to diuision which maketh it apt to diuide it would follow that a hollow boule of brasse or iron should be as heauy as a solide one For we may answere that seeing the atomes must stricke through the body and that a cessible body doth not receiue their stroakes so firmely as a stiffe one nor can conuey them so farre if vnto a stiffe superficies there succeede a yielding inside the stroakes must of necessity loose much of their force and consequently can not mooue a body full of ayre with so much celerity or with so much efficacy as they may a solide one But then you may peraduenture say that if these stroakes of the descending atomes vpon a dense body were the cause of its motion downewardes we must allow the atomes to mooue faster then the dense body that so they may still ouertake it and driue it along and enter into it whereas if they should mooue slower then it none of them could come in their turne to giue it a stroake but it would be past them and out of their reach before they could strike it But it is euident say you out of these pretended causes of this motion that such atomes can not mooue so swiftly downewardes as a great dense body since their litlenesse and their rarity are both of them hindering to their motion and therefore this can not be the cause of that effect which we call grauity To this I reply that to haue the atomes giue these blowes to a descending dense body doth not require that their naturall and ordinary motion should be swifter then the descent of such a dense body but the very descent of it occasioneth their striking it for as it falleth and maketh it selfe a way through them they diuide themselues before it and swell on the sides and a litle aboue it and presently close againe behind it and ouer it as soone as it is past Now that closing to hinder vacuity of space is a suddaine one and thereby attaineth great velocity which would carry the atomes in that degree of velocity further then the descending body if they did not encounter with it in their way to retarde them which encounter and retarding implyeth such stroakes vpon the dense body as we suppose to cause this motion And the like we see in water into which letting a stone fall presently the water that was diuided by the stone and swelleth on the sides higher then it was before closeth vpon the backe of the descending stone and followeth it so violently that for a while after it leaueth a purling hole in the place where the stone went downe till by the repose of the stone the water returneth likewise to its quiet and so its superficies becometh euen In the third place an enquiry occurreth emergent out of this doctrine of the cause of bodies moouing vpwardes and downewardes Which is whether there would be any naturall motion deepe in the earth beyond the actiuity of the sunnes beames For out of these principles it followeth that there would not and consequently there must be a vast orbe in which there would be no motion of grauity or of leuity for suppose that the sunne beames might pierce a thousand miles deepe into the body of the earth yet there would still remaine a masse whose diameter would be neere 5000 miles in which there would be no grauitation nor the contrary motion For my part I shall make no difficulty to grant the inference as farre as concerneth motion caused by our sunne for what inconuenience would follow out of it But I will not offer att determining whether there may not be enclosed within that great sphere of earth some other fire such as the Chymistes talke of an Archeus a Demogorgon seated in the center like the hart in animals which may raise vp vapours and boyle an ayre out of them and diuide grosse bodies into atomes and accordingly giue them motions answerable to ours but in different lines from ours according as that fire or sunne is situated since the farre-searching Author of the Dialogues de Mundo hath left that speculation vndecided after he had touched vpon it in the 12 knott of his first Dialogue Fourthly it may be obiected that if such descending atomes as we haue described were the cause of a bodies grauity and descending towardes the center the same body would att diuers times descend more and lesse swiftly for example after midnight when the atomes begin to descend more slowly then likewise the same body would descend more slowly in a like proportion and not weigh so much as it did in the heate of the day The same may be said of summer and winter for in winter time the atomes seeme to be more grosse and consequently to strike more strongly vpon the bodies they meete with in their way as they descend yet on the other side they seeme in the summer to be more numerous as also to descend from a greater height both which circumstances will be cause of a stronger stroake and more vigourous impulse vpon the body they hitt And the like may be obiected of diuers partes of the world for in the torride zone it will alwayes happen as in summer in places of the temperate zone and in the polar climes as in deepest winter so that no where there would be any standard or certainty in the weight of bodies if it depended vpon so mutable a cause And it maketh to the same effect that a body which lyeth vnder a thicke rocke or any other very dense body that can not be penetrated by any great store of atomes should not be so heauy as it would be in the open and free ayre where the atomes in their complete numbers haue their full stroakes For answere to these and such like instances we are to note first that it is not so much the number or the violence of the percussion of the striking atomes as the density of the thing strucken which giueth the measure to the descending of a weighty body and the chiefe thing which the stroake of the atomes giueth vnto a dense body is a determination of the way which a dense body is to cutt vnto it selfe therefore multiplication or lessening of the atomes will not make any sensible difference betwixt the weight of one dense body where many atomes do strike and an other body of the same density where but few do strike so that the stroake downewardes of the descending atomes be greater then the stroake vpwardes
fro And taking a body of concaue surfaces we shall according to this doctrine of ours find the causes of refraction iust contrary and accordingly experience likewise sheweth vs the effects to be so too And therefore since experience agreeth exactly with our rules we can not doubt but that the principles vpon which we goe are well layd But because crooked surfaces may haue many irregularities it will not be amisse to giue a rule by which all of them may be brought vnto a certainety And this it is that reflexions from crooked superficieses are equall to the reflexions that are made from such plaine superficieses as are tangents to the crooked ones in that point from whence the reflexions are made Which principall the Masters of Optikes do take out of a Mathematicall supposition of the vnity of the reflecting point in both the surfaces the crooked and the plaine But we take it out of the insensibility of the difference of so litle a part in the two different surfaces as serueth to reflect a ray of light for where the difference is insensible in the causes there likewise the difference is so litle in the effects as sense can not iudge of them which is as much as is requisite to our purpose Now seeing that in the Mathematicall supposition the point where the reflexion is made is indifferent to both the surfaces it followeth that it importeth not whether superficies you take to know the quality of reflexion by This principle then being settled that the reflexion must follow the nature of the tangent surfaces and it being prooued that in plaine surfaces it will happen in such sort as we haue explicated it followeth that in any crooked superficies of what figure soeuer the same also will happen Now seeing we haue formerly declared that refractions are but a certaine kind of reflexions what we haue said here of reflexions may be applyed to refractions But there remaineth yet vntouched one affection more of refractions which is that some diaphanous bodies do in their inward partes reflect more then others which is that which we call refraction as experience sheweth vs. Concerning which effect we are to consider that diaphanous bodies may in their composition haue two differences for some are composed of greater partes and greater pores others of lesser partes and lesser pores It is true there may be other combinations of pores and partes yet by these two the rest may be esteemed As for the first combination we see that because the pores are greater a greater multitude of partes of light may passe together through one pore and because the partes are greater likewise a greater multitude of rayes may reflect from the same part and may find the same passage quite throughout the diaphanous body On the contrary side in the second combination where both the pores and the partes of the diaphanous body are litle the light must be but litle that findeth the same passage Now that refraction is greater or lesser happeneth two wayes for it is eyther when one diaphanous body reflecteth light att more angles then an other and by consequence in a greater extent of the superficies or else when one body reflecteth light from the same point of incidence in a shorter line and in a greater angle then an other doth In both these wayes it is apparant that a body composed of greater partes and greater pores exceedeth bodies of the opposite kind for by reason that in the first kind more light may beate against one part a body in which that happeneth will make an appearance from a further part of its superficies whereas in a body of the other sort the light that beateth against one of the litle partes of it will be so litle as it will presently vanish Againe because in the first the part att the incidence is greater the surface from which the reflexion is made inwardes hath more of a plaine and straight superficies and consequently doth reflect att a greater angle then that whose superficies hath more of inclining But we must not passe from this question without looking a litle into the nature of those bodies in which refraction is made for if they as well as the immediate causes of refraction do likewise fauour vs it will not a litle aduance the certainety of our determination To this purpose we may call to mind how experience sheweth vs that great refractions are made in smoake and in mistes and in glasses and in thicke bodied waters and Monsieur Des Cartes addeth certaine oyles and spirits or strong waters Now most of these we see are composed of litle consistent bodies swimming in an other liquide body As is plaine in smoake and mistes for the litle bubbles which rise in the water before they gett out of it and that are smoake when they gett into the ayre do assure vs that smoake is nothing else but a company of litle round bodies swimming in the ayre and the round consistence of water vpon herbes leafes and twigges in a rynde or dew giueth vs also to vnderstand that a mist is likewise a company of litle round bodies that sometimes stand sometimes floate in the ayre as the wind driueth them Our very eyes beare wittnesse to vs that the thicker sort of waters are full of litle bodies which is the cause of their not being cleare As for glasse the blowing of it conuinceth that the litle dartes of fire which pierce it euery way do naturally in the melting of it conuert it into litle round hollow bodies which in their cooling must settle into partes of the like figure Then for crystall and other transparent stones which are found in cold places it can not be otherwise but that the nature of cold piercing into the maine body and contracting euery litle part in it selfe this contraction must needes leaue vacant pores betweene part and part And that such transparent stones as are made by heate haue the like effect and property may be iudged out of what we see in brickes and tiles which are left full of holes by the operation of the fire And I haue seene in bones that haue layne a long time in the sunne a multitude of sensible litle pores close to one an other as if they had beene formerly stucke all ouer with subtile sharpe needles as close as they could be thrust in by one other The Chymicall oyles and spirits which Monsieur Des Cartes speaketh of are likely to be of the same composition since that such vse to be extracted by violent fires for a violent fire is made by the coniunction of many rayes together and that must needes cause great pores in the body it worketh vpon and the sticking nature of these spirits is capable of conseruing them Out of all these obseruations it followeth that the bodies in which greatest refractions do happen are compounded as we haue said of great partes and great pores And therefore by onely taking light to be
that before they come thither they will be so rarifyed by that litle motion as they shall grow inuisible like the ayre and dispersing themselues all about in it they will fill the chamber with the smell of that body which can no longer be seene The last excesse in watry bodies must be of water it selfe which is when so litle a proportion of any of the other is mingled with it as is hardly perceptible out of this composition do arise all those seuerall sortes of iuices or liquors which we commonly call waters which by their mixture with the other three Elements haue peculiar properties beyond simple Elementall water The generall qualities whereof we shall not neede any further to expresse because by what we haue already said of water in common they are sufficiently knowne In our next suruay we will take earth for our ground to worke vpon as hitherto we haue done water which if in any body it be in the vtmost excesse of it beyond all the other three then rockes and stones will grow out of it whose dryenesse ad hardnesse may assure vs that Earth swayeth in their composition with the least allay that may be Nor doth their lightnesse in respect of some other Earthy compositions impeach this resolution for that proceedeth from the greatnesse and multiplicity of pores wherewith their dryenesse causeth them to abound and hindereth not but that their reall solide partes may be very heauy Now if we mingle a considerable proportion of water with earth so as to exceede the fire and ayre but still inferior to the earth we shall produce mettalls whose great weight with their ductility and malleability plainely telleth vs that the smallest of waters grosse partes are the glew that holdeth the earthy dense ones together such weight belonging to earth and that easye changing of partes being most proper to water Quickesiluer that is the generall matter whereof all the mettalls are immediately coÌ„posed giueth vs euidence hereof for fire worketh vpon it with the same effect as vpon water And the calcination of most of the mettalls proueth that fire can easily part and consume the glew by which they were closed and held together which therefore must be rather of a watry then of an ayry substance Likewise the glibbenesse of Mercury and of melted mettalls without catching or sticking to other substances giueth vs to vnderstand that this great temper of a moyst Element with Earth is water and not ayre and that the watry partes are comprised and as it were shutt vp within the earthy ones for ayre catcheth and sticketh notably to all thinges it toucheth and will not be imprisoned the diuisibity of it being exceeding great though in neuer so short partes Now if ayre mingleth it selfe with earth and be predominant ouer water and fire it maketh such an oyly and fatt soile as husbandmen account their best mould which receiuing a betterment from the sunne and temperate heat assureth vs of the concurse of the ayre for wheresoeuer suâ—h heate is ayre can not faile of accompanying it or of being effected by it and the richest of such earth as port earth and marle will with much fire grow more compacted and sticke closer together then it did as we see in baking them into pottes or fine brickes Whereas if water were the glew betweene the dense partes fire would consume it and crumble them a sunder as it doth in those bodies it calcineth And excesse of fire will bring them to vitrification which still confirmeth that ayre aboundeth in them for it is the nature of ayre to sticke so close where once it is kneaded in as it can not be seperated without extreme difficulty And to this purpose the viscous holding together of the partes of glasse when it is melted sheweth euidently that ayre aboundeth in vitrifyed bodies The last mixture we are to meddle with is of fire with earth in an ouerruling proportion ouer ayre and water And this I conceiue produceth those substances which we may terme coagulated iuices and which the latines do call Succi concreti whos 's first origine seemeth to haue beene liquors that haue beene afterwardes dryed by the force eyther of heate or of cold Of this nature are all kind of saltes niters sulfurs and diuers sortes of bitumens All which easily bewray the relikes an deffects of fire left in them some more some lesse according to their degrees And thus we haue in generall deduced from their causes the complexions of those bodies whereof the bulke of the world subiected to our vse consisteth and which serue for the production and nourishment of liuing creatures both animall and vegetable Not so exactly I confesse nor so particularly as the matter in it selfe or as a treatise confined to that subiect would require yet sufficiently for our intent In the performance whereof if more accurate searchers of nature shall find that we haue peraduenture beene mistaken in the minute deliuering of some particular bodies complexion their very correction I dare boldly say will iustify our principall scope which is to shew that all the great variety we see among bodies ariseth out of the coÌ„mixtion of the first qualities and of the Elements for they will not be able to correct vs vpon any other groundes then those we haue layed As may easily be perceiued if we cast a summary view vpon the qualities of composed bodies All which we shall find to spring out of rarity and density and to sauour of their origine for the most manifest qualities of bodies may be reduced to certaine paires opposite to one an other As namely some are liquide and flowing others are consistent some are soft others hard some are fatty viscous and smooth others leane gritty and rough some grosse othert subtile some tough others brittle and the like Of which the liquide the soft the fatt and the viscous are so manifestly deriued from rarity that we neede not take any further paines to trace out their origine and the like is of their contraries from the contrary cause to witt of those bodies that are consistent hard leane and gritty all which do euidently spring from density As for smoothnesse we haue already shewed how that proceedeth from an ayry or oyly nature and by consequence from a certaine degree of rarity And therefore roughnesse the contrary of it must proceede from a proportionable degree of density Toughnesse is also a kind of ductility which we haue reduced to watrynesse that is to an other degree of rarity and consequently brittlenesse must arise from the contrary degree of density Lastly grossenesse and subtilenesse do consist in a difficulty or facility to be diuided into small partes which appeareth to be nothing else but a certaine determination of rarity and density And thus we see how the seuerall complexions of bodies are reduced to the foure Elements that compound them and the qualities of those bodies to the two primary differencies of
gleweth their earthy partes together greater and greater doth make a wider and wider separation betweene those little earthy partes And so imbueth the whole body of the water with thē into which they are dispersed in little atomes Those that are of biggest bulke remaine lowest in the water And in the same measure as their quantities dissolue into lesse and lesse they ascend higher and higher in the water till att the length the water is fully replenished with them and they are diffused through the whole body of it whiles the more grosse and heauy earthy partes hauing nothing in them to make a present combination betweene them and the water do fall downe to the bottome and settle vnder the water in dust In which because earth alone doth predominate in a very great excesse we can expect no other vertue to be in it but that which is proper to meere earth to witt drynesse and weight Which ordinary Alchymistes looke not after and therefore call it Terra damnata but others find a fixing quality in it by which they performe very admirable operations Now if you powre the impregnated water from the Terra damnata and then euaporate it you will find a pure white substance remaining Which by its bulke sheweth it selfe to be very earthy and by its pricking and corrosiue tast will informe you much fire is in it and by its easy dissolution in a moist place that water had a great share in the production of it And thus the saltes of bodies are made and extracted Now as water doth dissolue salt so by the incorporation and vertue of that corrosiue substance it doth more then salt it selfe can doe for hauing gotten acrimony and more weight by the mixture and dissolution of salt in it it maketh it selfe a way into solide bodies euen into mettals as we see in brasse and iron which are easily rusted by salt dissoluing vpon them And according as the saltes are stronger so this corrosiue vertue encreaseth in them euen so much as neyther syluer nor gold are free from their eating quality But they as well as the rest are diuided into most small partes and are made to swimme in water in such sort as we haue explicated aboue and whereof euery ordinary Alchymist teacheth the practise But this is not all salts do helpe as well to melt hard bodies and mettalls as to corrode them for some fusible salts flowing vpon them by the heate of the fire and others dissolued by the streame of the mettall that incorporateth with them as soone as they are in fluxe they mingle with the naturall iuice of the mettall and penetrate them deeper then without them the fire could doe and swell them and make them fitt to runne These are the principall wayes of the two last instruments in dissoluing of bodies taking each of them by it selfe But there remaineth one more of very great importance as well in the workes of nature as of art in which both the former are ioyned and do concure and that is putrefraction Whose way of working is by gentle heate and moisture to wett and pierce the body it worketh vpon whereby it is made to swell and the hoat partes of it being loosened they are att length druncke vp and drowned in the moist ones from whence by fire they are easily separated as we haue already declared and those moist partes afterwardes leauing it the substance remaineth dry and falleth in pieces for want of the glew that held it together THE SIXTEENTH CHAPTER An explication of certaine Maximes touching the operations and qualities af bodies and whether the Elements be found pure in any part of the world OVt of what we haue determined concerning the naturall actions of bodies in their making and destroying one an other it is easy to vnderstand the right meaning of some termes and the true reason of some maximes much vsed in the schooles As first when Philosophers attribute vnto all sortes of corporeall Agents a Sphere of Actiuity The sense of that manner of expression in fire appeareth plainely by what we haue already declared of the nature and manner of operation of that Element And in like manner if we consider how the force of cold consisteth in a compression of the body that is made cold we may preceiue that if in the cooled body there be any subtile partes which can breake forth from the rest such compression will make them do so Especially if the compression be of little partes of the compressed body within themselues as well as of the outward bulke of the whole body round about for at first the compression of such causeth in the body where they are little holes or pores in the places they are compressed and driuen from which pores they filled vp when they were dilated att their owne naturall liberty But being thus forcibly shrunke vp into lesse roome afterwardes they squeese againe out of their croude all such very loose and subtile partes residing till then with them as can find their way out from among them And these subtile partes that thus are deliuered from the colds compression gett first into the pores that we haue shewed were made by this compression But they can not long stay there for the atomes of aduenient cold that obsesse the compressed body do likewise with all their force throng into those pores and soone driue out the subtile guestes they find there because they are more in number bigger in bulke and more violent in their course then they Who therefore must yield vnto them the little channels and capacities they formerly tooke vp Out of which they are thrust with such an impetuosity that they spinne from them with a vehemence as quickesiluer doth through leather when to purify it or to bring an Amalgame to a due consistence it is strained through the sides of it Now these shoures or streames of atomes issuing from the compressed body are on all sides round about it att exceeding little distances because the pores out of which they are driuen are so likewise And consequently there they remaine round about besieging it as though they would returne to their originall homes as soone as the vsurping strāgers that were too powerfull for thē will giue thē leaue And according to the multitude of thē and to the force with which they are driuen out the compasse they take vp round about the cōpressed body is greater or lesser Which besieging atomes are not so soone carried away by any exterior and accidentall causes but they are supplyed by new emanations succeeding them out of the said compressed body Now this which we haue declared by the example of cold cōpressing a particular body happeneth in all bodies wheresoeuer they be in the world for this being the vnauoydable effect of heate and of cold wheresoeuer they reside which are the actiue qualities by whose meanes not onely fire and water and the other two Elements but all other mixed bodies composed of the
they can not soddainely be so much rarifyed as the subtiler partes of ayre that are there and therefore the more those subtiler partes are rarifyed and thereby happen to be carried vp the stronger and the thicker the heauyer atomes must descend And thus this concurse of ayre from the polar partes mainetayneth grauity vnder the zodiake where otherwise all would be turned into fire and so haue no grauity Now who coÌ„sidereth the two hemispheres which by the aequator are diuided will find that they are not altogether of equall complexions but that our hemisphere in which the Northpole is comprised is much dryer then the other by reason of the greater coÌ„tinent of land in this and the vaster tract of sea in the other and therefore the supply which cometh froÌ„ the diuers hemispheres must needes be of differeÌ„t natures that which cometh from towardes the Southpole being compared to that which cometh froÌ„ towardes the North as the more wett to the more dry Yet of how different coÌ„plexions soeuer they be you see they are the emanations of one and the same body Not vnlike vnto what nature hath instituted in the ranke of animals among whom the male and the female are so distinguished by heate and cold moysture and drought that neuerthelesse all belongeth but to one nature and that in degrees though manifestly different yet so neere together that the body of one is in a manner the same thing as the body of the other Euen so the complexions of the two hemispheres are in such sort different in the same qualities that neuerthelesse they are of the same nature and are vnequall partes of the same body which we call the earth Now Alchymistes assure vs that if two extractions of one body do meete together they will incorporate one with the other especially if there be some little difference in the complexion of the extractions Whence it followeth that these two streames of ayre making vp one continuate floud of various currents from one end of the world to the other each streame that cometh to the equator from its owne Pole by the extraction of the sunne and that is still supplyed with new matter flowing from its owne pole to the aequator before the sunne can sufficiently rarify and lift vp the atomes that came first perpendicularly vnder its beames as it vseth to happen in the effects of Physicall causes which can not be rigorously aiusted but must haue some latitude in which nature inclineth euer rather to aboundance then to defect will passe euen to the other pole by the conduct of his fellow in case he be by some occasion driuen backe homewardes For as we see in a boule or paile full of water or rather in a pipe through which the water runneth along if there be a little hole att the bottome or side of it the water will wriggle and change its course to creepe out att that pipe especially if there be a little spigott or quill att the outside of the hole that by the narrow length of it helpeth in some sort as it were to sucke it So if any of the files of the army or flould of atomes sucked from one of the Poles to the aequator do there find any gappes or chinkes or lanes of retiring files in the front of the other poles batalia of atomes they will presse in there in such manner as we haue aboue declared that water doth by the helpe of a labell of cotton and as is exemplyfied in all the attractions of venime by venimous bodies whereof we haue giuen many examples aboue and they will go along with them the course they goe For as when a thicke short guilded ingott of siluer is drawne out into a long subtile wyre the wyre continuing still perfectly guilded all ouer doth manifestly shew that the outside and the inside of the ingott do strangely meete together and intermixe in the drawing out so this little streame which like an eddy current runneth backe from the aequator towardes its owne Pole will continue to the end still tincted with the mixture of the other Poles atomes it was incorporated with att its coming to the aequator Now that some little riuolets of ayre and atomes should runne backe to their owne Pole contrary to the course of their maine streame will be easily enough to conceiue if we but consider that att certaine times of the yeare windes do blow more violently and strongly from some determinate part or Rombe of the world then they do att other times and from other partes As for example our East India Mariners tell vs of the famous Monâ—ones they find in those partes which are strong windes that raigne constantly six monthes of the yeare from one polewardes and the other six monthes from the other pole and beginne precisely about the sunnes entering into such a signe or degree of the zodiake and continue till about its entrance into the opposite degree And in our partes of the world certaine smart Easterly or Northeasterly windes do raigne about the end of March and beginning of Aprill when it seemeth that some snowes are melted by the spring heates of the sunne And other windes haue their courses in other seasons vpon other causes All which do euidently conuince that the course of the ayre and of vapors from the poles to the equator can not be so regular and vniforme but that many impediments and crosses do light in the way to make breaches in it and thereby to force it in some places to an opposite course In such sort as we see happeneth in eddy waters and in the course of a tide wherein the streame running swiftly in the middle beateth the edges of the water to the shore and thereby maketh it runne backe att the shore And hence we may conclude that although the maine course of ayre and atomes for example from north to south in our hemisphere can neuer faile of going on towardes the aequator constantly att the same rate in grosse neuerthlesse in seuerall particular little partes of it and especially att the edges of those streames that are driuen on faster then the rest by an extraordinary and accidentall violent cause it is variously interrupted and sometimes entirely stopped and other times euen driuen backe to the northwardes And if peraduenture any man should thinke that this will not fall out because each streame seemeth to be alwayes coming from his owne Pole to the aequator and therefore will oppose and driue backe any bodies that with lesse force should striue to swimme against it or if they sticke vnto them will carry them backe to the aequator We answere that we must not conceiue that the whole ayre in body doth euery where equally encroach from the polewardes vpon the torride zone but as it were in certaine brookes or riuolets according as the contingency of all causes putt together doth make it fall out Now then out of what we haue said it will follow that since
as they partake more or lesse of this heate which is the Architect that mouldeth and frameth them all Vndoubtedly this can be none other but the hart whose motion and manner of working euidently appeareth in the twinckling of the first red spotte which is the first change in the egge and in the first matter of other liuing creatures Yet I do not intend to say that the hart is perfectly framed and completely made vp with all its partes and instruments before any other part be begunne to be made but only the most vertuous part and as it were the marrow of it which serueth as a shoppe or a hoat forge to mould spirits in from whence they are dispersed abroad to forme and nourish other partes that stand in neede of them to that effect The shootings or litle red stringes that streame out from it must surely be arteries through which the bloud issuing from the hart and there made and imbued with the nature of the seede doth runne till encountring with fitt matter it engrosseth it selfe into braine liuer lightes c. From the braine cheifely groweth the marrow and by consequent the bones containing it which seeme to be originally but the outward part of the marrow baked and hardened into a strong cruste by the great heate that is kept in as also the sinnewes which are the next principall bodies of strength after the bones The marrow being very hoat dryeth the bones and yet with its actuall moysture it humecteth and nourisheth them too in some sort The spirits that are sent from the braine do the like to the sinewes And lastly the arteries and veines by their bloud to cherish and bedew the flesh And thus the whole liuing creature is begunne framed and made vp THE FIVE AND TWENTIETH CHAPTER How a Plant or Animal cometh to that figure it hath BVt before we goe any further and search into the operations of this animall a wonderfull effect calleth our consideration vnto it which is how a plant or animal cometh by the figure it hath both in the whole and in euery part of it Aristotle after he had beaten his thoughts as farre as he could vpon this question pronunced that this effect could not possibly be wrought by the vertue of the first qualites but that it sprung from a more diuine origine And most of the contemplators of nature since him do seeme to agree that no cause can be rendered of it but that it is to be referred meerely to the specificall nature of the thing Neyther do we intend to derogate from eyther of these causes since that both diuine prouidence is eminently shewne in contriuing all circumstances necessary for this worke and likewise the first temperament that is in the seede must needes be the principall immediate cause of this admirable effect This latter then being supposed our labour and endeauour will be to vnfold as farre as so weake and dimme eyes can reach the excellency and exactnesse of Gods prouidence which can not be enough adored when it is reflected vpon and marked in the apt laying of adequate causes to produce such a figure out of such a mixture first layed From them so artificially ranged we shall see this miracle of nature to proceed and not from an immediate working of God or nature without conuenient and ordinary instruments to mediate and effect this configuration through the force and vertue of their owne particular natures Such a necessity to interest the cheife workeman att euery turne in particular effects would argue him of want of skill and prouidence in the first laying of the foundations of his designed machine he were an improuident clockemaker that should haue cast his worke so as when it were wound vp and going it would require the masters hand att euery houre to make the hammer strike vpon the bell Lett vs not then too familiarly and irreuerently ingage the Almighty Architect his immediate handy worke in euery particular effect of nature Tali non est dignus vindice nodus But lett vs take principles within our owne kenning and consider how a body hath of its owne nature three dimensions as Mathematicians vse to demonstrate and that the variety which we see of figures in bodies proceedeth out of the defect of some of these dimensions in proportion to the rest As for example that a thing be in the forme of a square tablette is for that the cause which gaue it length and breadth could not also giue it thickenesse in the same proportion for had it beene able to giue profundity as well as the other two it had made a cube instead of a tablette In like manner the forme of a lamine or very long square is occasioned by some accident which hindereth the cause from giuing breadth and thickenesse proportionable to the length And so other figures are made by reason that their causes are somewayes bound to giue more of some dimension to one part then to an other As for example when water falleth out of the skye it hath all the litle corners or extancies of its body grated of by the ayre as it rouleth and tumbleth downe in it so that it becometh round and continueth in that forme vntill that settling vpon some flatt body as grasse or a leafe it receiueth a litle plainenesse to the proportion of its weight mastering the continuity of it And therefore if the droppe be great vpon that plaine body it seemeth to be halfe a sphere or some lesse portion of one but if it be a litle droppe then the flatt part of it which is that next vnto the grasse is very litle and vndiscernable because it hath not weight enough to presse it much and spread it broad vpon the grasse and so the whole seemeth in a manner to be a sphere but if the externe causes had pressed vpon this droppe only broadwayes and thickewayes as when a turner maketh a round pillar of a square one then it would haue proued a cylinder nothing working vpon it to grate off any of its length but only the corners of the breadth and thickenesse of it And thus you see how the fundamentall figures vpon which all the rest are grounded are contriued by nature not by the worke of any particular Agent that immediately imprinteth a determinate figure into a particular body as though it wrought it there att once according to a foreconceiued designe or intelligent ayme of producing such a figure in such a body but by the concurrence of seuerall accidentall causes that do all of them ioyne in bringing the body they file and worke vpon into such a shape Only we had like to haue forgotten the reason and cause of the concaue figure in some partes of plantes which in the ordinary course of nature we shall find to grow from hence that a round outside being filled with some liquor which maketh it grow higher and higher it happeneth that the succeeding causes do contract this liquor and do
not be preuented by any art or industry And herein God hath expressed his great mercy and goodnesse towardes vs for seeing that by the corruption of our owne nature we are so immersed in flesh and bloud as we should for euer delight to wallow in their myre without raysing our thoughts att any time aboue that low and brutall condition he hath engaged vs by a happy necessity to thinke of and to prouide for a nobler and farre more excellent state of liuing that will neuer change or end In pursuance of which ineuitable ordinance man as if he were growne weary and out of loue with this life and scorned any terme in his farme here since he can not purchase the fee simple of it hasteneth on his death by his vnwary and rash vse of meates which poyson his bloud and then his infected bloud passing through his whole body must needes in like manner taynt it all att once For the redresse of which mischiefe the assistance of Physike is made vse of and that passing likewise the same way purifyeth the bloud and recouereth the corruption occasioned by the peccant humour or other whiles gathering it together it thrusteth and carryeth out that euill guest by the passages contriued by nature to bisburden the body of vnprofitable or hurtfull superfluities THE SEVEN AND TWENTIETH CHAPTER Of the motions of sense and of the sensible qualities in generall and in particular of those which belong to Touch Tast and Smelling HAuing thus brought on the course of nature as high as liuing creatures whole chiefe specieses or diuision is those that haue sense and hauing declared the operations which are common to the whole tribe of them which includeth both plants and animals it is now time we take a particular view of those whose action and passion is the reason why that chiefe portion of life is termed sensitiue I meane the senses and the qualities by which the outward world cometh into the liuing creature through his senses Which when we shall haue gone through we shall scarcely haue left any qualities among bodies to pleade for a spirituall manner of being or working that is for a selfe entity and instantaneous operation which kind of thinges and properties vulgar Philosophy is very earnest to attribute vnto ouâ— senses with what reason and vpon what ground lett vs now consider These qualities are reduced to fiue seuerall heades answerable to so many different wayes whereby we receiue notice of the bodies that are without vs. And accordingly they constitute a like number of different senses of euery one of which we will discourse particularly when we haue examined the natures of the qualities that effect them But now all the consideration we shall need to haue of them is only this that it is manifest the organes in vs by which sensible qualities do worke vpon us are corporeall and are made of the like ingredients as the rest of our body is and therefore must of necessity be lyable to suffer euill and to receiue good in such sort as all other bodies do from those actiue qualities which make and marre all thinges within the limits of nature By which termes of Euill and Good I meane those effects that are â—uerse or conformable to the particular nature of any thing and thereby do tend to the preseruation or destruction of that Indiuiduall Now we receiuing from our senses the knowledge that we haue of thinges without vs do giue names vnto them according to the passions and affections which those thinges cause in our senses which being the same in all mankind as long as they are considered in coÌ„mon and that their effects are looked vpon in grosse all the world agreeth in one notion and in one name of the same thing for euery man liuing is affected by it iust as his neighbour is and as all men else in the world are As for example heate or cold worketh the same feeling in euery man composed of flesh and bloud and therefore whosoeuer should be asked of them would returne the same answere that they cause such and such effects in his sense pleasing or displeasing to him according to their degrees and as they tend to the good or euill of his whole body But if we descend to particulars we shall find that seuerall men of differing constitutions do frame different notions of the same thinges according as they are conformable or disagreeing to their natures and accordingly they giue them different names As when the same liquor is sweete to some mens taste which to an others appeareth bitter one man taketh that for a purfume which to an other is an offensiue smell in the Turkesh bathes where there are many degrees of heate in diuers roomes through all which the same person vseth to passe and to stay a while in euery one of them both att his entrance and going out to season his body by degrees for the contrary excesse he his going vnto that seemeth chilly cold att his returne which appeared melting hoat att his going in as I my selfe haue often made experience in those countries beauty and louelinesse will shine to one man in the same face that will giue auersion to an other All which proclaymeth that the sensible qualities of bodies are not any positiue reall thing consisting in an indiuisible and distinct from the body it selfe but are meerely the very body as it affecteth our senses which to discouer how they do it must be our labour here Lett vs therefore beginne with considering the difference that is betweene sensible and insensible creatures These latter do lye exposed the mercy of all outward agents that froÌ„ time to time by the coÌ„tinuall motion which all thinges are in do come within distance of working vpon them and they haue no power to remoue themselues from what is auerse to their nature nor to approach neerer vnto what comforteth it But the others hauing within themselues a principle of motion as we haue already declared whensoeuer such effects are wrought vpon them as vpon the others they are able vpon their owne account and by their owne action to remoue themselues from what beginneth to annoy them and to come neerer vnto what they find a beginning of good by These impressions are made vpon those partes of vs which we call the organes of our senses and by them do giue vs seasonable aduertissements and knowledges whereby we may gouerne and order to the best aduantage our litle charge of a body according to the tune or warninges of change in the great circumstant body of the world as farre as it may concerne ours Which how it is done and by what steppes it proceedeth shall be in the following discourse layed open Of this great machine that enuironneth vs we who are but a small parcell are not immediately concerned in euery part of it It importeth not vs for the conseruation of our body to haue knowledg of other partes then such as are within
Optikes will by refractions and by reflexions make all sortes of colours out of pure light as we see in Rainebowes in those triangular glasses or prismes which some do call fooles Paradises and in other inuentions for this purpose Wherefore in briefe to shew what colour is lett vs lay for a ground that light is of all other thinges in the worlâ— the greatest and the most powerfull agent vpon our eye eyther by it selfe or by what cometh in with it and that where light is not darkenesse is then consider that light being diuersly to be cast but especially through or from a transparent body into which it sinketh in part and in part it doth not and you will conclude that it can not choose but come out from such a body in diuers sortes mingled with darkenesse which if it be in a sensible quantity doth accordingly make diuers appearances and those appearances must of necessity haue diuers hues representing the colours which are middle colours betweene white and blacke since white is the colour of light and darkenesse seemeth blacke Thus those colours are ingendred which are called apparent ones And they appeare sometimes but in some one position as in the raynebow which changeth place as the looker on doth but att other times they may be seene from any part as those which light maketh by a double refraction through a triangular glasse And that this is rightly deliuered may be gathered out of the conditions requisite to their production for that crystall or water or any refracting body doth not admitt light in all its partes is euident by reason of the reflexion that it maketh which is exceeding great and not only from the superficies but euen from the middle of the body within as you may see plainely if you putt it in a darke place and enlighten but one part of it for then you may perceiue as it were a current of light passe quite through the body although your eye be not opposite to the passage so that manifestly it reflecteth to your eye from all the inward partes which it lighteth vpon Now a more oblique reflexion or refraction doth more disperse the light and admitteth more priuations of light in its partes then a lesse oblique one as Galileo hath demonstrated in the first Dialogue of his systeme Wherefore a lesse oblique reflexion or refraction may receiue that in quality of light which a more oblique one maketh appeare mingled with darkenesse and consequently the same thing will appeare colour in one which sheweth it selfe plaine light in the other for the greater the inclination of an angle is the greater also is the dispersion of the light And as colours are made in this sort by the medium through which light passeth so if we conceiue the superficies from which the light reflecteth to be diuersly ordered in respect of reflexion it must of necessity follow that it will haue a diuers luster and sight as we see by experience in the neckes of pigeons and in certaine positions of our eye in which the light passing through our eye browes maketh an appearance as though we saw diuers colours streaming from a candle we looke vpon And accordingly we may obserue how some thinges or rather most do appeare of a colour more inclining to white when they are irradiated with a great light then when they stand in a lesser And we see painters heighten their colours and make them appeare lighter by placing deepe shadowes by them euen so much that they will make obiects appeare neerer and further of meerly by their mixtion of their colours Because obiects the neerer they are the more strongly and liuely they reflect light and therefore appeare the clearer as the others do more dusky Therefore if we putt the superficies of one body to haue a better disposition for the reflexion of light then an other hath we can not but conceiue that such difference in the superficies must needes begett variety of permanent colours in the bodies And according as the superficies of the same body is better or worse disposed to reflexion of light by polishing or by compressure together or the like so the same body remaining the same in substance will shew it selfe of a different colour And it being euident that white which is the chiefest colour doth reflect most light and as euident that blacke reflecteth least light so that it reflecteth shadowes in lieu of colours as the Oâ—sidian stone among the Romanes doth witnesse And it being likewise euident that to be dense and hard and of small partes is the disposition of the obiect which is most apt to reflect light we can not doubt but that white is that disposition of the superficies That is to say it is the superficies of a body consisting of dense of hard and of small partes and on the contrary side that blacke is the disposition of the superficies which is most soft and full of greatest pores for when light meeteth with such a superficies it getteth easily into it and is there as it were absorpt and hidden in caues and cometh not out againe to reflect towardes our eye This doctrine of ours of the geneâ—ation of colours agreeth exactly with Aristotles principles and followeth euidently out of his definitions of light and of colours And for summing vp the generall sentiments of mankind in making his Logicall definitions I thinke no body will deny his being the greatest Master that euer was He defineth light to be actus Diaphani which we may thus explicate It is that thing which maketh a body that hath an aptitude or capacity of being seene quite through it in euery interior part of it to be actually seene quite through according to that capacity of it And he defineth colour to be The terme or ending of a diaphanous body the meaning whereof is that colour is a thing which makâ—th a diaphanous body to reach no further or that colour is the cause why a body is no further diaphanous then vntill where it beginneth or that colour is the reason why we can see no further then to such a degree through or into such a body Which definition fitteth most exactly with the thing it giueth vs the nature of For it is euident that when we see a body the body we see hindereth vs from seeing any other that is in a straight line beyond it And therefore it can not be denyed but that colour terminateth and endeth the diaphaneity of a body by making it selfe be seene And all men do agree in conceiuing this to be the nature of colour and that it is a certaine disposition of a body whereby that body cometh to be seene On the other side nothing is more euident then that to haue vs see a body light must reach from that body to our eye Then adding vnto this what Aristotle teacheth concerning the production of seeing which he sayth is made by the action of the seene body vpon our sense it
sinnewy circle wherevnto is fastened the case of the hart called the Pericardium This Diaphragma is very sensible receiuing its vertue of feeling from the aboue mentioned branch of the sixt couple of nerues and being of a trembling nature is by our respiration kept in continuall motion and flappeth vpon all occasions as a drumme head would do if it were slacke and moyst or as a sayle would do that were brought into the wind Out of this description of it it is obuious to conceiue that all the changes of motion in the hart must needes be expressed in the Diaphragma For the hart beating vpon the Pericardium and the Pericardium being ioyned to the Diaphragma such iogges and vibrations must needes be imprinted and ecchoed there as are formed in the hart which from thence can not choose but be carryed to the braine by the sixt couple of nerues And thus it cometh about that we feele and haue sensation of all the passions that are moued in our hart Which peraduenture is the reason why the Greekes do call this part 〈◊〉 〈◊〉 〈◊〉 〈◊〉 〈◊〉 and from it deriue the verbe 〈◊〉 〈◊〉 〈◊〉 〈◊〉 〈◊〉 that in latine signifyeth Sapere with vs to sauour or to like for by this part of our body we haue a liking of any obiect or a motion of inclination towardes it from whence 〈◊〉 〈◊〉 〈◊〉 〈◊〉 〈◊〉 is deriued by composition of 〈◊〉 〈◊〉 〈◊〉 〈◊〉 〈◊〉 with 〈◊〉 〈◊〉 〈◊〉 〈◊〉 〈◊〉 for a prudent man is he that liketh and is moued to compasse wholesome and good thinges Which Etymology of the word seemeth vnto me more naturall then from the phrenesy from whence some deriue it because a great distemper or inflammation in the Diaphragma often causeth that disease Now because the obiect is cōueyed frō the braine to the hart some part of its way by the same passage as the motion of the hart is reconueyed backe to the braine it must of necessity follow that who is more attētiue to outward sense doth lesse consider or reflect vpō his passion and who is more attentiue to obserue and be gouuerned by what passeth in his hart is lesse wrought vpon by externall thinges For if his fantasy draweth strongly vnto it the emanations from outward agents vpon the senses the streame of those emanations will descend so strongly from the ouerfilled fantasy into the hart that it will hinder the ascent of any fewer and weaker spirits by the same pipe But if the current do sett strongest vpwardes from the hart by the Diaphragma to the braine then it will so fill the pipe by which it ascendeth that little of a weaker tyde can make a contrary eddy water in the same channell And by this meanes nature effecteth a second pleasure or paine in a liuing creature which moueth it oftentimes very powerfully in absence of the primary obiect as we may obserue when thinking of any pleasing or displeasing action we find about our hart a motion which enticeth vs to it or auerteth vs from it for as the first pleasure was occasioned by the stroake which the obiect applyed to the outward sense made vpon the fantasy which can iudge of nothing without being strucken by it so the second pleasure springeth from the spirits moued in the hart by messengers from the braine which by the Diaphragma do rebound a stroake backe againe vpon the fantasy And from hence it proceedeth that memory delighteth or afflicteth vs and that we think of past thinges with sweetenesse or with remorse and thereby assuefaction is wrought in beastes as farre as the appetitiue part doth contribute therevnto to perfect what was begunne in their cognoscitiue part by the ingression of corporeall speciefes into their fantasy in order to the same effect as we haue touched before But now lett vs examine how so small a quantity of a body as cometh from an obiect into our sense can be the cause of so great a motion about our hart To which purpose we are to remember that this motion is performed in the most subtile and thinne substance that can be imagined they are the vitall spirits that do all this worke which are so subtile so agile and so hoat that they may in some sort be termed fire Now if we reflect how violent fire is we neede not wonder at the suddaine and great motion of these passions But we must further take notice that they are not in the greatest excesse but where the liuing creature hath beene long inured and exercised vnto them eyther directly or indirectly so that they arriue not to that pitch so much out of the power of the agent as out of the preparation and disposition of the patient as when cold water hath beene often heated by extinguishing red hoat irons in it after some repetitions a few quenchinges will reduce it from cold to boyling that at the first would scarce haue made it lukewarme and accordingly we see a hart that for a long time hath loued and vehemently hath desired enioying is transported in a high degree at the least sight and renuance of stroakes from its beloued obiect and is as much deiected vpon any the least depriuation of it for to such an obiect the liuing creature is hurried away by a force much resembling the grauity or celerity of a dense body that is sett on running downe a steepe hill vnto which the only taking away of a weake lett or the least stoppe giueth a precipitate course not out of the force of what is done to it but out of the force which was formerly in the thing though for the present it lay there vndiscouered and so likewise in these cases the obiect rather giueth the occasion of the violent motion then the force or power to it These thinges being thus determined some peraduenture may aske how it cometh to passe that the spirits which cause motion being sent on their arrant by the braine do alwayes hitt the right way and light duely into those very sinnewes which moue the liuing creature according as is requisite for its nature Since all the passages are open what is it that gouerneth them so as they neuer mistake and the animal is neuer driuen towardes harme insteed of flying from it Who is their guide in these obscure pathes But it were to impute ignorance to the maker to think that he framed all the passages alike and so euery one of them promiscuously apt to receiue into them all sorts of spirits howsoeuer they be moued and therefore we may assure our selues that since in these diuersities of occasions there are likewise diuers kinds of motions from the hart◠eyther there is proportionable vnto them diuers kindes of passages fitt to receiue and entertaine the spirits according to the condition they are in so as the passages which are aiusted to one kind of spirits will not admitt any of an other nature or else the first motions of liking or disliking in the hart which as we haue said
rest do nibble vpon it there and do feede themselues first with that which consequently hindereth the groweth of the corne And here againe men will contend that this must be done by prouidence and discourse to preuent that their store should not grow out of their reach and changing nature become vselesse to them in their neede To conclude the foreknowing of beastes is nothing else but their timely receiuing impressions from the first degrees of mutation in thinges without them which degrees are almost imperceptible to vs because our fantasies and spirits hâ—ue otherwise such violent agitations more then theirs which hinder them from discerning gentle impressioÌ„s vpon them If you be at sea after along calme a while before a gaile bloweth to fill your sailes or to be discernable by your sense in quality of wind you shall perceiue the sea beginne to wrinkle his smooth face that way the wind will come which is so infaillible a signe that a gaile will come fâ—om that coast as marriners immediately fall to trimming their sailes accordingly and vsually before they can haue done the wind is with them shall we therefore say that the sea hath a prouidence to foresee which way the wind will blow Or that the cornes vpon our toes or calluses or broken bones or ioyntes that haue beene dislocated haue discourse and can foretell the weather It is nothing else but that the wind rising by degrees the smooth sea is capable of a change by it before we can feele it and that the ayre being changed by the forerunners of worse weather worketh vpon the crasiest partes of our body when the others feele not so small a change so beastes are more sensible then we for they haue lesse to distract them of the first degrees of a changing weather and that mutation of the ayre without them maketh some change within them which they expresse by some outward actions or gestures Now they who obserue how such mutations and actions are constantly in them before such or such weather do thinke they know beforehand that raine for example or wind or drought is coming according to the seuerall signes they haue marked in them which proceedeth out of the narrownesse of their discourse that maketh them resort to the same causes whensoeuer they meere with like effects and so they conceiue that thinges must needes passe in beastes after the same tenour as they do in meÌ„ And this is a generall and maine errour running through all the conceptions of mankind vnlesse great heede be taken to preuent it that what subiect soeuer they speculate vpon whether it be of substances that haue a superiour nature to theirs or whether it be of creatures inferiour to them they are still apt to bring them to their owne standard and to frame such conceptions of them as they would do of themselues as when they will haue Angels discourse and moue and be in a place in such sort as is naturall to men or when they will haue beastes rationate and vnderstand vpon their obseruing some orderly actions performed by them which in men would proceed from discourse and reason And this dangerous rocke against which many fine conceptions do suffer shipperackâ— whosoeuer studyeth truth must haue a maine caution to auoyde Sed nos immensum spatijs confecimus aequor Etiam tempus equum fumantia soluere colla THE CONCLVSION OF THE FIRST TREATISE THus at the last by Gods assistance we are clymbed vp to the toppe of the hill from whence looking downe ouer the whole region of bodies we may delight our selues with seeing what a height the weary steppes we ascended by haue brought vs vnto It is true the path we haue walked in is of late so vntrodden and so ouergrowne with bryars as it hath not beene without much labour that we haue made our way through And peraduenture it may seeme toylesome vnto others to follow vs especially such as are not much enured to like iourneyes but I hope the fruite which both we and they are now arriued to gather of our paines in this generall view we haue taken of the empire of matter and of corporeall agents is such as none of vs hath reason to be ill satisfyed with the employing of them For what can more powerfully delight or more noblâ— entertaine an vnderstanding soule then the search and discouery of those workes of nature which being in their effects so plainely exposed to our eyes are in their causes so abstruse and hidden from our comprehension as through despaire of successe they deterre most men from inquiring into them And I am persuaded that by this summary discourse short indeede in regard of so large a scope how euer my lame expressions may peraduenture make it appeare tedious it appeareth euidently that none of natures greatest secrets whereof our senses giue vs notice in the effects are so ouershaded with an impenetrable veyle but that the diligent and wary hand of reason might vnmaske them and shew them to vs in their naked and genuine formes and delight vs with the contemplation of their natiue beauties if we had as much care and constancy in the pursuite of them as we dayly see men haue in heaping vp of wealth or in striuing to satisfy their boundelesse ambitions or in making their senses swimme in the muddy lake of base and contemptible pleasures For who shall througly consider and weigh what we haue hitherto said will plainely see a continuall and orderly progresse from the simplest heighest and most common conception that we frame of a body in generall vnto the furthest and most abstruse effects that in particular are to be found in any body whatsoeuer I meane any that is meerely corporeall without mixture of a nobler nature for hitherto we haue not moued nor so much as looked out of that oâ—be He shall find one continued thridde spunne out from the beginning to the end He will see that the various twisting of the two specieses of Bodies Rare and Dense do make the yarne of which all thinges and actions within the sphere of matter are wouen And although peraduenture in the drawing out of the thridde there may be some litle brackes or the stuffe made of it be not euery where so close wrought as a better workeman at more leisure might haue done yet truly I beleeue that the very consent of thinges throughout is such as demonstrateth that the maine contexture of the doctrine I haue here touched is beyond quarrelling at It may well be that in sundry particulars I haue not lighted vpon exact truth and I am so farre from maintaining peremptorily any thing I haue here said as I shall most readily haâ—ken to whatsoeuer shall be obiected against it and be as ready vpon cause to desert my owne opinions and to yield vnto better reason But withall I conceiue that as the fayling of a bricke here and there in the rearing of the walles of a house doth nothing at all preiudice the
do cause a swelling or a contraction of it against this or that part doth stoppe and hinder the the entrance of the spirits into some sinewes and doth open others and driueth the spirits into them so as in the end by a result of a chaine of swellinges and contractions of seuerall partes successiuely one against an other the due motions of prosecution or auersion are brought about As for example an obiect that affecteth the hart with liking by dilating the spirits about the hart sendeth some into the optâ—ke nerues and maketh the liuing creature turne his eye towardes it and keepe it steady vpon what he desireth as contrariwise if he dislike and feare it he naturally turneth his eye and head from it Now of this motion of the eye and head may depend the running to the thing in one case and the running from it in the other for the turning of the necke one way may open a passage for the spirits into those sinewes which carry the rest of the body towardes the obiect and the turning of it to the other side may open other sinewes which shall worke a contrary effect and carry the animal from the obiect and the mouing of those sinewes which at the first do turne the necke doth proceed from the quality and number of the spirits that ascend from the hart and from the region of the hart from whence they are sent according to the variety whereof there are diuers sinewes fitted to receiue them To make vp which discourse we may call to mind what we haue said a litle aboue concerning the motions caused in the externall partes of the body by passion mouing within as when feare mingled with hope giueth a motion to the legges anger to the armes and handes and all the rest of the body as well as to the legges and all of them an attention in the outward senses which neuerthelesse peruerteth euery one of their functions if the passion be in extremity And then surely we may satisfy our selues that eyther this or some way like it which I leaue vnto the curious in Anatomy to settle with exactenesse for it is enough for my intent to shew in grosse how these operations may be done without calling in some incomprehensible qualities to our ayde is the course of nature in motions where no other cause interueneth besides the obiect working vpon the sense which all the while it doth it is the office of the eye of fantasy or of common sense to lye euer open still watching to obserue what warninges the outward senses do send vnto him that accordingly he may direct and change the motions of the hart and of the whole body But if the obiect do make violent impressions vpon the sense and the hart being then vehemently moued do there vpon send abouÌ„dance of spirits vp to the braine this multitude of spirits thronging vpon the common sense oppresseth it as we haue already said in such sort that the notice which the sense giueth of particular circumstances can not preuayle to any effect in the braine and thus by the misguidance of the hart the worke of nature is disordered which when it happeneth we expresse in short by saying that passion blindeth the creature in whom such violent and disorderly motions haue course for passion is nothing else but a motion of the bloud and spirits about the hart and is the preparation or beginning of the animals working as we haue aboue particularly displayed And thus you see in common how the circuite is made from the obiect to the sense and from it by the common sense and fantasy to the hart and from the hart backe againe to the braine which then setteth on worke those organes or partes the animal is to make vse of in that occasion and they eyther bring him to or carry him from the obiect that at the first caused all this motion and in the end becometh the periode of it THE SIX AND THERTIETH CHAPTER Of some actions of beastes that seeme to be formall actes of reason as doubting resoluing inuenting IN the last Chapter the foundations are layed and the way is opened for the discouering how all operations which proceed from nature and passion are performed among liuing creatures and therefore I conceiue I haue thereby sufficiently complyed with the obligation of my intention which is but to expresse and shew in common how all the actions of sensible bodies may be reduced to locall motion and to materiall application of one boy vnto an other in a like manner though in a different degree as those motions which we see in liueliest bodies Yet because among such animals as passe for irrationall there happen some operations of so admirable a straine as resemble very much the highest effects which proceed from a man I thinke it not amisse to giue some further light by extending my discourse to some more particulars then hitherto I haue done whereby the course and way how they are performed may be more clearely and easily looked into and the rather because I haue mette with some men who eyther wanting patience to bestow on thoughts of this kind so much time as is necessary for the due scanning of them or else through a promptitude of nature passing swiftly from the effect they looke vpon in grosse to the most obuious seeming cause do suddainely and strongly resolue that beastes vse discourse vpon occasions and are endewed with reason This I intend not to doe quite in particular for that were to write the history of euery particular animal but will content my selfe with touching the causes in common yet in such sort that the indifferent Reader may be satisfyed of a possibility that these effects may proceed from materiall causes and that I haue poynted out the way to those who are more curious and haue the patience and leisure to obserue diligently what passeth among beastes how they may trace these effects from steppe to steppe vntill at length they discouer their true causes To beginne then I conceiue we may reduce all those actions of beastes which seeme admirable and aboue the reach of an irrationall animal vnto three or foure seuerall heades The first may be of such as seeme to be the very practise of reason as doubting resoluing inuenting and the like The next shall be of such as by docility or practise beastes do oftentimes arriue vnto In the third place we will consider certaine continuate actions of a long tract of time so orderly performed by them as that discourse and rationall knowledge seeme clearely to shine through them And lastly we will cast our eye vpon some others which seeme to be euen aboue the reason that is in man himselfe as the knowing of thinges which the sense neuer had impression of before a prescience of future euents prouidences and the like As for the first the doubting of beasts and their long wauering sometimes betweene obiects that draw them seuerall wayes and at the