much obstinacy that not onely about the upper part of the Jar there appear'd a good number of bubbles but very much smaller then those we saw the first time but afterwards there came from the bottom of the Jar bubbles about the bigness of smal Peas which the Pump being still kept going follow'd one another to the number of forty coming from the stopp'd Violl whose mouth it seems had not been shut so strongly and closely but that the included Air dilating it self by its own spring made it self some little passage betwixt the Wall and the Glass and got away in these bubbles after which the unstopp'd Glass began to float again the Air shut up in it being manifestly so dilated as to expel a good part of the Water but not so much as to break quite thorow And at length when our expectation of it was almost tired out the heavier of the two Viols began to come aloft and immediately to subside again which appear'd to be occasion'd by the Air within it whose bulk and spring being weaken'd by the recess of the forty bubbles before-mention'd it was no longer able as formerly to break forcibly through the incumbent Water but forming a bubble at the mouth of the Glass boyed it up towards the top and there getting away left it to sink again till the pressure of the Air in the Receiver being further taken off the Air in the Viol was permitted to expand it self further and to create another bubble by which it was again for a while carried up And it was remarkable that though after having emptyed the Receiver as far as well we could we ceas'd from pumping yet the Vessel continuing more stanch then it was wont this ascent and fall of the Viol was repeated to the ninth time the included Air by reason of the smalness of the vent at which it must pass out being not able to get away otherwise then little by little and consequently in divers such parcels as were able to constitute bubbles each of them big enough to raise the Viol and keep it aloft until the avolation of that bubble Whereby it may appear that the grand rule in Hydrostaticks That a Body will swim in the Water in case it be lighter then as much of that Water that equals it in bulk will hold likewise when the pressure of the Atmosphere is in very great measure if not when it is totally taken off from the Liquor and the Body though it were worth inquiring what it is that so plentifully concurs to fill the bubbles made in our Experiment by the so much expanded Air for to say with the old Peripatetick Schools That the Air in Rarefaction may acquire a new extent without the admission of any new substance would be an account of the Phaenomenon very much out of date and which I suppose our Modern Naturalists would neither give nor acquiess in I know not whether it may be requisite to adde that in this Experiment as in the former the outward Air being let in did soon precipitate the floating Viol. But I think it will not be amiss to note that congruously to what hath been above recorded of the vast expansion of the Air the Water which in the heavier Viol succeeded in the room of those forty odde if not fifty great bubbles of Air which at several times got out of it amounted but to a very inconsiderable bigness Experiment 26. IT having been observ'd by those that have consider'd what belongs to Pendulums a Speculation that may in my poor judgement be highly useful to the Naturalists that their Vibrations are more slowly made and that their motion lasts less in a thicker then in a thinner Medium We thought it not amiss to try if a Pendulum would swing faster or continue swinging longer in our Receiver in case of the exsuction of the Air then otherwise Wherefore we took a couple of round and polish'd Pendulums of Iron or Steel of equal bigness as near as we could get the Artificer to make them and weighing each of them twenty Dragmes wanting as many Grains One of these we suspended in the cavity of the Receiver by a very slender silken string of about seven Inches and a half in length from the cover of the Receiver to which it was fasten'd Then by inclining the Engine we made the Pendulum swing too and â—ro in it and describ'd as long Arches as in the capacity of so brittle a Vessel we thought safe and convenient And one of the Assistants telling the recursions of the other Pendulum hanging in the free Air by a string of about the same length we shorten'd and lengthen'd this other Pendulum till it appear'd to keep the same pace in its Vibrations with that shut up in the Receiver Then having carefully drawn away the Air we did again set the Pendulum in the Receiver a vibrating and giving the other Pendulum such a motion as made it describe an Arch according to ones ghess equal to that of the included Pendulum we reckon'd one of us the Recursions of that Pendulum which was swinging within the Receiver and another of us that which was moving in that which one would think a much more resisting medium the Air. But once one of us reckon'd near two and twenty Recursions of the included Pendulum whilst the other reckon'd but twenty of the Pendulum that vibrated without And another time also the former of these Pendula was reckon'd to have made one and twenty Recursions wherein the other made but twenty Yet this Experiment seem'd to teach us little save that the difference betwixt the motion of such a Pendulum in the common Air and in one exceedingly rarified is scarce sensible in Vessels no bigger then our Receiver especially since though during this Experiment it held very well yet we could not suppose it to be altogether devoid of Air. We observ'd also that when the Receiver was full of Air the included Pendulum continu'd its Recursions about fifteen minutes or a quarter of an hour before it left off swinging and that after the exsuction of the Air the Vibration of the same Pendulum being fresh put into motion appear'd not by a minutes Watch to last sensibly longer So that the event of this Experiment being other then we expected scarce afforded us any other satisfaction then that of our not having omitted to try it And whether in case the tryal be made with a Pendulum much less disproportionate to the Air then Steel is the event will much better answer expectation experience may be consulted THat the Air is the medium whereby sounds are convey'd to the Ear Experiment 27. has been for many Ages and is yet the common Doctrine of the Schools But this Received Opinion has been of late oppos'd by some Philosophers upon the account of an Experiment made by the Industrious Kircher and other Learned Men who have as they assure us observ'd That if a Bell with a Steel Clapper be
either way the Terrestrial Steam may here and there considerably alter the gravity or pressure of the Atmosphere Your Lordship may also be pleased to remember That by our seventeenth Experiment it appear'd that as when the Air in the Receiver was expanded more then ordinarily the Quick-silver in the Tube did proportionably subside so when the Air in the same Receiver was a little more then ordinarily compress'd it did impell up the Quick-silver in the Tube above the wonted height of betwixt six and seven and twenty digits And if to these things we annex that for ought we can finde by tryals purposely made the degree of rarity or density of the Air shut up into our Receiver does not sensibly alter its temperature as to cold or heat It will not I hope appear absurd to conceive That since the Air included in the Tube could but very faintly hinder the ascent of the Quick-silver or press it downwards since too that included Air could scarce immediately receive any sensible alteration save either by heat or cold And since also that according to the bare density or rarity of the Air incumbent on the subjacent Quick-silver in the Vessel that in the Tube was impell'd more or less high such changes happening in the neighboring part of the outward Air either by the ascension of gross or copious exhalations or by any other cause of which there may be divers as were capable to make considerable alterations in the consistence of the Air as to rarity and density may be able proportionably to alter the heighth of the Quick-silver I rather say that such alterations may be then that they are the causes of our Phaenomenon because I think it sufficient if I have propos'd conjectures not altogether irrational about a new Mystery of Nature touching which the chief thing I pretend to is to give occasion to the Curious to inquire further into it then I have been yet able to do Experiment 19. THe same Reason that mov'd us to conclude that by the drawing of the Air out of the Receiver the Mercury would descend in a Tube shorter then six and twenty digits induc'd us also to expect that by the same means Water might be brought to subside in Glass Tubes of a moderate length though by the noble Experiment said to have been accurately made in France by Monsieur Paschal we are informed that a Tube of no less then about two and thirty Foot was found requisite to make the Experiment De Vacuo succeed with Water instead of Quick-silver so tall a Cylinder of that lighter Liquor being it seems requisite to equal the weight of a Mercurial Cylinder of six or seven and twenty digits and surmount the pressure of the Atmosphere We took then a Tube of Glass Hermetically seal'd at one end of about four foot in length and not very slender This at the open end we fill'd with common Water and then stopt that end till we had inverted the Tube and open'd it beneath the surface of a quantity of the like Water contain'd in a somewhat deep and slender Vessel This Vessel with the Tube in it was let down into the Receiver and the Receiver being clos'd up after the accustom'd manner the Pump was set awork As much of the event as concerns our present purpose was this That till a considerable part of the Air was drawn out of the Receiver the Tube continu'd top-full of Water as when it was put in it being requisite that a great part of the Air formerly contain'd in the Receiver should be drawn out to bring the remaining Air to an Aequilibrium with so short and light a Cylinder of Water But when once the Water began to fall in the Tube then each exsuction of Air made it descend a little lower though nothing near so much as the Quick-silver at the beginning did in the Experiment formerly mention'd Nor did there appear so much inequality in the spaces transmitted by the Water in its descent as there did in those observ'd in the â—all of the Quick-silver of which the cause will scarce seem abstruse to him that shall duly reflect upon what has been already deliver'd And whereas we drew down the Quick-silver in the Tube so far as to bring it within an Inch of the surface of the other Quick-silver into which it was to fall the lowest we were able to draw down the Water was by our conjecture to about a Foot or more above the surface of that in the Vessel of which I know not whether it will be needful to assign so obvious a cause as that though the little Air remaining in the Receiver could not hinder a Cylinder of above an Inch high of Quick-silver from subsiding yet it might very well be able by its pressure to countervail the weight of a Cylinder of a Foot long or more of a Liquor so much less ponderous then Quick-silver as Water is And in fine to conclude our Experiment when the Water was drawn down thus low we found that by letting in the outward Air it might be immediately impell'd up again to the higher parts of the Tube We will adde no more concerning this Experiment save that having try'd it in one of our small Receivers we observ'd That upon the first exsuction of the Air the Water did usually subside diveâ—s Inches and at the second exsuction fall down much lower subsiding sometimes near two Foot as also that upon the letting in of the Air from without the Water was impell'd up with very great celerity THat the Air has a notable Elastical power whencesoever that proceeds we have Experiment 20. I suppose abundantly evinc'd and it begins to be acknowledg'd by the eminentest Modern Naturalists But whether or no there be in Water so much as a languid one seems hitherto to have been scarce consider'd nor has been yet for ought I know determin'd either way by any Writer which invited us to make the following Experiment There was taken a great Glass-bubble with a long neck such as Chymists are wont to call a Philosophical Egg which being fill'd with common Water till the Liquor reach'd about a span above the bubble and a piece of Paper being there pasted on was put unstop'd into the Receiver and then the Air was suck'd out after the wonted manner The event was this That a considerable part of the Air pent up in the Receiver was drawn out before we discern'd any expansion of the Water but continuing the labor of pumping the Water manifestly began to ascend in the stem of the Glass and divers bubbles loosening themselves from the lower parts of the Vessel made their way through the Body of the Water to the top of it and there brake into the Receiver And after the Water once appear'd to swell then at each time the Stop-cock was turn'd to let out the air from the Receiver into the Pump the Water in the Neck of the Glass did suddenly rise about the breadth of
a Barly-corn in the Neck of the Glass and so attain'd by degrees to a considerable height above the mark formerly mention'd And at length to make the expansion of the Water more evident the outward Air was suddenly let in and the Water immediately subsided and deserted all the space it had newly gain'd in the Glass And on this occasion it will not perhaps be amiss to acquaint Your Lordship here though we have already mention'd it in another Paper to another purpose with another Expedient that we made use of two or three years ago to try whether or no Water had a Spring in it About that time then That Great and Learned Promoter of Experimental Philosophy Dr. Wilkins doing me the Honor to come himself and bring some of his inquisitive Friends to my Lodging we there had in readiness a round and hollow Vessel of Pewter great enough to contain two pounds of Water and exactly close every where but at one little hole where it was to be fill'd then partly by sucking out the Air and partly by injecting Water with a Syringe it was not without some difficulty fill'd up to the top and that hole being plac'd directly upwards there was a little more Water leisurely forc'd in by the Syringe Upon which though the Vessel were permitted to rest and the hole kept in its former posture yet the compress'd Water leisurely swell'd above the Orifice of the hole and divers drops ran over along the sides of the Vessel After this we caus'd a skilful Pewterer who had made the Globe to close it up in our presence with Soder so exquisitely that none suspected there was any thing left in it besides Water And lastly the Vessel thus soder'd up was warily and often struck in divers places with a Wooden Mallet and thereby was manifestly compress'd whereby the inclosed Water was crouded into less room then it had before And thereupon when we took a Needle and with it and the Mallet perforated the Vessel and drew out the Needle again the Water but in a very slender Stream was suddenly thrown after it into the Air to the height of two or three Feet As for the other Phaenomena of this Experiment since they belong not to our present purpose and are partly mention'd in another of our Papers we shall instead of recording them here give this Advertisement That as evidently as this Experiment and that made in our Receiver seem to prove a power in the Water to expand and restore it self after compression yet for a reason to be met with ere long I judged it not safe to infer that Conclusion from these Premises till I had made some of the following tryals to the mention of which I will therefore hasten TO discover whether the Expansion of the Water really proceeded from an Elastical power in the parts of the Water it self Experiment 21. we thought it requisite to try two things The one Whether or no the Atmosphere gravitates upon Bodies under Water and the other Whether in case it do gravitate the Intumescence of the Water may not be ascribed to some substance subtler then it self residing in it In order to the satisfying my self about the first of these I intended to let down into the Receiver a Vessel of Water wherein should be immers'd a very small oyl'd Bladder almost devoid of Air but strongly ty'd up at the Neck with a string and detain'd a little under Water by such a weight fasten'd to that string as should just be able to keep the Bladder from swimming and no more For I suppos'd that if when all things were thus order'd the Receiver were empty'd in case there were any such pressure of the Atmosphere upon Water as I was inclin'd to believe the Air within the Bladder being upon the exsuction of the Air within the Receiver freed from that pressure and being press'd onely by the small weight of the incumbent Water would considerably expand it self but whil'st we were preparing Bladders for this Experiment there occurd an easie way for the making at once both the Discoveries I desir'd We took then a Glass Viol containing by ghess a pound and some ounces of Water this we fill'd top full and then we put into the Neck of it a Glass Pipe a pretty deal bigger then a Goose Quill open at both ends and of divers Inches in length One end of this Pipe was so put into the Neck of the Viol as to reach a little below it and then was carefully cemented thereto that no Air might get into the Viol nor no Water get out of it otherwise then through the Pipe and then the Pipe being warily fill'd about half way up to the top with more Water and a mark being pasted over against the upper surface of the Liquor the Viol thus fitted with the Pipe was by strings let down into the Receiver and according to the wonted manner exquisitely clos'd up in it This done we began to Pump out the Air and when a pretty quantity of it had been drawn away the Water in the Pipe began to rise higher in the Pipe at the sides of which some little bubbles discover'd themselves After a little while longer the Water still swelling there appear'd at the bottom of the Pipe a bubble about the bigness of a small Pea which ascending through the Pipe to the top of the Water staid there awhile and then broke but the Pump being nimbly ply'd the expansion of the Water so encreas'd that quickly getting up to the top of the Pipe some drops of it began to run down along the out-side of it which oblig'd us to forbear pumping awhile and give the Water leave to subside within less then two Inches of the bottom of the Pipe After this the Pump being again set at work the bubbles began to ascend from the bottom of the Pipe being not all of a size but yet so big that estimating one with another they appear'd to be of the size of the smaller sort of Peas and of these we reckon'd about sixty which came up one after another besides store of smaller ones of which we made no reckoning And at length growing weary of reckoning and pumping too because we found that in spight of all our pains and industry some undiscern'd Leak or other in the Receiver hinder'd us from being able to empty it altogether we thought fit to desist for that time After tryal made of what operation the external Air being let in upon the expanded Water would have and accordingly turning the Key to let in the Air we saw as we expected that the Water in the Pipe in a moment fell down almost to the bottom of it Now of this Experiment there are two or three Circumstances yet to be mention'd which are no less then those already recited pertinent to our present purpose In the first place then when the greater part of the Air had been pump'd out of the Receiver the rising bubbles ascended
so very slowly in the Pipe that their Progress was scarce discernable which seem'd to proceed from this That their bigness was such That they could not sufficiently extend themselves in the cavity of the Glass without pressing on both hands against the sides of it whereby they became of more difficult extrusion to the Water And though it may seem strange these bubbles should be of any considerable bulk since 't is like they consisted of lesser parcels of the Air lurking in the Water then those that were vigorous enough to make their way through long before them yet they were commonly much larger then before some of them being equal in quantity to four or five Peas Whether this their increase of bulk proceeded from the greater decrement of the pressure of the Air or from the Union of two or three of those numerous bubbles which were then generated below the bottom of the Pipe where we could not see what was done among them Another thing we noted in our bubbles was That whereas in ordinary ones the Air together with the thin film of Water that invests and detains is wont to swell above the surface of the Water it swims on and commonly to constitute Hemispherical Bodies with it the little parcels of Air that came up after the Receiver was pretty well empty'd did not make protuberant bubbles but such whose upper surface was either level with or beneath that of the Water so that the upper surface being usually somewhat convex the less protuberant parts of it had a pretty quantity of Water remaining above them We also further observ'd That whereas in the bubbles that first appear'd in the Pipe the ascending Air did as in other common bubbles make its way upwards by dividing the Water through which it pass'd in those bubbles that appear'd at the latter end of our Experiment when the pressure of the little external Air remaining in the Receiver was grown inconsiderable the ascending parcels of Air having now little more then the weight of the incumbent Water to surmount were able both so to expand themselves as to fill up that part of the Pipe which they pervaded by pressing every way against the sides of it to lift upwards with them what Water they found above them without letting any considerable quantity glide down along the sides of the Glass So that sometimes we could see a bubble thrust on before it a whole Cylinder of Water of perhaps an Inch high and carry it up to the top of the Pipe though as we formerly noted upon the letting in the external Air these tumid bubbles suddenly relaps'd to their former inconspicuousness All these things laid together seem'd sufficiently to confirm that which the consideration of the thing it self would easily enough perswade namely That the Air and such like Bodies being under Water may be press'd upon as well by the Atmosphere as by the weight of the incumbent Water it self Hence likewise we may verifie what we observ'd at the close of the foregoing Experiment namely That from the sole swelling of Water there recorded it cannot be so safely concluded that Water when freed from compression is endowâ—d with an Elastical power of expanding it self since thereby it appears that the Intumescence produc'd by that Experiment may at least in great part be ascrib'd to the numerous little bubbles which are wont to be produc'd in Water from which the pressure of the Atmosphere is in great measure taken off So apt are we to be mis-led even by Experiments themselves into Mistakes when either we consider not that most Effects may proceed from various Causes or minde onely those Circumstances of our Experiment which seem to comply with our preconceiv'd Hypothesis or Conjectures And hence it seems also probable that in the Pores or invisible little recesses of Water it self there lie commonly interspers'd many parcels of either Air or at least something Analogous thereunto although so very small that they have not been hitherto so much as suspected to lurk there But if it be demanded how it appears that there is interspers'd through the Body of Water any substance thinner then it self and why that which produc'd the bubbles above mention'd should not be resolutely said to be nothing else then a more active and spirituous part of the Water we shall in order to the Elucidation of this matter subjoyn to what was formerly deliver'd the following Experiment WE recited in our nineteenth Experiment Experiment 22. how by drawing most of the Air out of the Receiver we made the Water subside by degrees in a Glass not four Foot long We shall now adde that in the like Experiment made in such a Tube or a greater it may be observ'd That when the Water begins to fall there will appear store of bubbles fasten'd all along to the sides of the Glass of which bubbles by the agitation of the Vessel consequent upon pumping there will arise good numbers to the top of the Water and there break and as the Cylinder of Water is brought to be lower and lower so the bubbles will appear more numerous in that part of the Tube which the Water yet fills and the nearer the surface of the Water in its descent approaches to these bubbles the greater they will grow because having the less weight and pressure upon them the Expansion of that Air which makes them can be the less resisted by the pressure of the incumbent Water and Air as seems probable from hence that upon the letting in a little external Air those bubbles immediately shrink It may indeed as we lately intimated be conjectur'd that these bubbles proceed not so much from any Air pre-existent in the Water and lurking in the Pores of it as from the more subtle parts of the Water it self which by the expansion allow'd them upon the diminish'd pressure of the ambient Bodies may generate such bubbles And indeed I am not yet so well satisfied that bubbles may not at least sometimes have such an Origination but that which makes me suspect that those in our tryals contain'd real Air formerly latitant in the Pores of the Water is this That upon the inletting of the external Air the Water was not again impell'd to the very top of the Tube whence it began to fall but was stopt in its ascent near an Inch beneath the top And since if the upper part of the Tube had been devoyd of any other then such Ethereal matter as was subtle enough freely to penetrate the pores of the Glass the external Air would have been able to impel the Water to the top of a Tube seven or eight times as long as ours was The Phaenomenon under consideration seem'd manifestly to argue that the many bubbles that broke at the top of the Water did contain a real Air which being collected into one place and hinder'd by the top of the Glass from receding was able to withstand the pressure of the outward Air. As
we see that if never so little Air remain in the Tube upon the making the Experiment De Vacuo with Quick-silver no inclining of the Tube though a long one will enable a Man to impel the Mercury up to the very top by reason as we formerly noted of the resistance of the included Air which will not be compress'd beyond a certain degree But in order to a further Discovery what our bubbles were we will on this occasion inform Your Lordship that we try'd the XIXth Experiment in one of our small Receivers and found that upon the drawing down of the Water so many bubbles disclos'd themselves and broke into the upper part of the Tube that having afterwards let in the external Air the Water was not thereby impell'd to the top of the Tube three Foot in length within a little more then half an Inch. And whether or no it were Air that possess'd that space at the top of the Tube which was not fill'd with Water we took this course to examine We drew the second time the Air out of the Receiver and found that by reason of the body that possess'd the top of the Tube we were able not onely to make the Water in the Tube fall to a level with the surface of the Water in the Vessel But also by plying the Pump a little longer a great way beneath it which since it could not well be ascrib'd to the bare subsiding of the Water by reason of its own weight argued that the Water was depress'd by the Air which was confirm'd by the Figure of the surface of the Water in the Tube which was much more concave then that of Water in Tubes of that bigness uses to be And this further tryal to adde that upon the by we made at the same time That when the Water in the Pipe was drawn down almost as low as the Water without it we observ'd that though we desisted from pumping by the bare application of a hand moderately warm to the deserted part of the Tube the remaining Water would be speedily and notably depress'd And having for a while held a kindled Coal to the outside of the Tube the Pump being still unimploy'd because the Vessel chanced to hold extraordinarily well the Air was by the heat so far expanded that it quickly drave the Water to the bottom of the Tube which was divers Inches beneath the surface of the ambient Water Whereby it appears by the same way by which we formerly measur'd the dilatation of the Air that the Air even when it is expanded to between 90 and 100 times its extent will yet readily admit of a much further rarifaction by heat I consider'd also that in case the Bubbles we have been speaking of were produc'd by the parcels of Air latitant in the Water that Air being now got together to the top of the Tube though the Air were again drawn out of the Receiver the taking off its pressure would not disclose bubbles as before and accordingly the Air being again pump'd out the Water in the Tube descended as formerly but for a great while we scarce saw one bubble appear onely when the Receiver had been very much exhausted and the Water was fallen very low there appear'd near the bottom of the Tube certain little bubbles which seem'd to consist of such parcels of Air as had not by reason of their smalness got up to the top of the Water with the more bulkie and vigorous ones And that which is not inconsiderable is That having by letting in the Air forc'd up the Water into the Tube we could not perceive that it ascended nearer the top though we permitted the Engine to remain unimploy'd for two or three Nights together and watch'd whether the Water would swell up and fill the Tube And on this occasion I remember that having try'd such an Experiment as this with Quick-silver instead of Water in a Tube of about a Foot and a half long wherein it might seem more hopeful to escape bubbles yet upon the drawing down the Quick-silver as low as we could and letting in the external Air upon it we found that some lurking particles of Air were got up to the top of the Tube and hinder'd the Quick-silver from being forc'd up again so high And though the Quick-silver were by this means brought to appear a very close and lovely Metalline Cylinder not interrupted by interspers'd bubbles as before yet having caus'd the Air to be again drawn out of the Receiver I could perceive several little bubbles to disclose themselves fasten'd to the inside of the Tube near the bottom of it and having purposely watch'd one or two of the chiefest I had the pleasure to observe that though they grew bigger and bigger as the surface of the Mercurial Cylinder fell nearer and nearer to them so as that at length they swell'd into a conspicuous bulk yet upon the wary letting in the Air upon them they did not break but presently shrunk up into a littleness that render'd them inconspicuous Whence it seems very probable if not certain that even in the closest and most ponderous Liquors and therefore much more in Water there may lurk undiscernable parcels of Air capable upon the removal of the pressure of the ambient Air though but in part and that of the Liquor wherein it lurks to produce conspicuous bubbles And consequently if it seem inconvenient to admit an Elastical power in the Water it may be said that the swelling of the compress'd Water in the Pewter Vessel lately mentionâ—d and the springing up of the Water at the hole made by the Needle were not the effects of any internal Elater of the Water but of the spring of the many little particles of Air dispers'd through that Water and acting upon it in their sudden recovering themselves to a greater extent then that to which a violent compression had reduc'd them But though from all these particulars it seems manifest that the bubbles we have been all this while treating of were produc'd by such a substance as may be properly enough call'd Air yet till we shall have had the opportunity of making some further tryals concerning the nature of the Air we shall not resolutely determine whether or no Air be a Primogenial Body if I may so speak that cannot now be generated or turn'd either into Water or any other Body Yet in the mean while because it is an important Question and if rightly determin'd may much conduce to the knowledge of the nature of the Air We think it not unfit to make a brief mention of some of the particulars which at present occur to our thoughts in favor of either part of the Question First then divers Naturalists esteem the Air as well as other Elements to be ingenerable and incorruptible And reasons plausible enough may be drawn to countenance this Opinion from the consideration of that permanency that ought to belong to the corporeal Principles of other Bodies
willing to oblige all Men He has already provided that this piece shall shortly be done into Latine that so it may come home to divers worthy Persons in its Stream who cannot travel to finde it out in its first Origine Having therefore leave so to do I cannot forbear to give the World the Advertisement of this Latine Edition lest some skilful Artist should take needless pains about a Work which will ere long by Gods furtherance be done to his Hands For such unprofitable expences of Study have too frequently happened and too much to the disadvantage of Learning for want of a sufficient Correspondence and Intercourse between such as are exercised in the Mines of Wisdome This is all the trouble I shall at present give you Nor shall I need minde thee if you have a true gust for the Book you read to have an honor and thankful regard to the Person that has favor'd us with the Communication of these his Tryals is manifestly so great a Patron and Friend to Experimental Learning and all true Wisdom for should you fail in this you might deservedly be depriv'd of some other Observations on the same subject which the Author I heare has made since the finishing of this Treatise I desire to be excused that I doe not make Excuses for the slowness of the Publication hoping that the long expectation you have had of it will enhance and not diminish your delight in the enjoyment of a piece like to be amongst the students in accurate Philosophy of so generall acceptance Farewel R Sh. A Summary of the chief Matters treated of in this Epistolical Discourse THe Proaemium wherein is set down the ocâ—asion of this Discourse 1. The motives that induc'd the Author thereunto 2 c. The hints he received 5. The things wherein this Engine excels any that have yet been made use of 6 c. The description of the Engine and its parts 8 c. The way of preparing and using it 15 c. The division of the Experiments tryable thereby into two sorts and the difficulty of excluding the Air. 18 c. The first Experiment touching the manner of pumping out the Air and by what degrees the Receiver is emptyed â—0 c. A digression touching the Spring or Elastical power of the Air with an attempt for a Mechanical Explication thereof necessary to be premis'd for the explanation of the Phaenomena exhibited in this and the subsequent Experiments 22 c. The second Experiment touching the pressure of the Air against the sides of the Bodies it invirons 37 c. with a digressive Explication of the pressure of the Air included within an ambient Body 39 c. The third Experiment touching the force requisite to draw down the Sucker 42 c. The Opinion of an eminent Modern Naturalist examin'd 44 c. The fourth Experiment touching the swelling of a Bladder with the degrees by which it increases 45 c. Another Opinion of a Learned Author examin'd 48 c. The fifth Experiment touching the breaking of a Bladder in the Receiver 49 c. And of another by heat 52 The sixth Experiment of divers ways by which the elastical expansion of the Air was measur'd 52 c The seventh Experiment touching what Figure does best resist the pressure of the Air. 62 c. The eighth Experiment tending to a further Demonstration of the former from the breaking of glass a Helmet inward 64 c. The ninth Experiment contains a further confirmation from the breaking of a Glass outward 66 c. with an Experiment to prove that these Phaenomena proceed not from an invincible Fuga vacui 69. A description of other small Receivers and their Conveniencies 70 c. A Receipt for the making of a Composition to Cement crackt Glasses 73 The tenth Experiment touching the flaming of Candles inclosed in the Receiver 74 c. The eleventh Experiment touching the burning of Coals 78. And the lasting of the excandescence of an included piece of Iron 80. The twelfth Experiment concerning the burning of Match 82 The thirteenth Experiment concerning the further prosecution of the preceding tending to prove the extinction of the Fire in the former Experiments not to have proceeded from the pressure of the Fire by the Fumes 84. Some remarkable Circumstances of it 86. The Experiment of Match try'd in a small Receiver 87 The fourteenth Experiment touching the striking Fire and kindling of Powder with the Lock of a Pistol in the evacuated Receiver 88 c. The fifteenth Experiment touching the unsuccessfulness of kindling included Bodies with a burning Glass and the Authors intention to prosecute it further 102 The sixteenth Experiment concerning the operation of the Loadstone 105 c. The seventeenth Experiment touching the gradual descent of the Quick-silver in the Torricellian Experiment 106 c. Some observable Circumstances concerning it 112 c. The same Experiment try'd in one of the small Receivers 115. How this Experiment may be made use of to know the strength of the pressure of the Air for every degree of Rarefaction 1â—6 c. The tryal of the same Experiment in a Tube not two foot long 118. The raising of the Mercurial Cylinder by the forcing of more Air into the Receiver 119. Some Allegations for and against a Vacuum consider'd 1â—0 c. Some Advertisements concerning the inconveniencies that may arise from the diversity of measures made use of for the defining the Altitute of the Mercurial Cylinder and from the neglect of little parcels of Air apt to remain between the Mercury and the concave surface of the Tube 123 c. Some Expedients for the more exact filling the Tube 127. The height the Author once found of the Mercurial Cylinder according to English measure 128. The eighteenth Experiment containing a new Observation touching the variation of the height of the Mercurial Cylinder in the same Tube with an offer at the reason thereof 129 c. The 19th Experiment touching the subsiding of a Cylinder of Water 140 c. The same try'd in a small Receiver 143 The 20th Experiment touching the Elater of Water with a digressive Experiment to the same purpose 144 c. The 21 Experiment being a prosecution of the former Enquiry by Experimenting the Generation of Bubbles under Water a recital of some notable Circumstances with some observable Corollary's deduc'd therefrom 147 c. The 22d Experiment tending to a determination of the Enquiry proposâ—d in the former Experiment by proving the matter of these Bubbles from their permanency to be Air The Experiments try'd in the great and small Receivers evincing the same thing 155 c. An Experiment wherein there appear'd Bubbles in Quick-silver 160. The Authors Inference 162. A digressive Enquiry whether or no Air may be generated anew with several Histories and Experiments tending to the resolving and clearing thereof 162 c. The Authors excuse for so long a Digression 181 The 23d Experiment containing a further
Enquiry touching Bubbles made with common and distill'd Water 182 The 24th Experiment wherein the inquiry is prosecuted with other Liquors as with Sallet Oyl Oyl of Turpentine a Solution of Tartar Spirit of Vinegar Red-wine Milk Hen's Eggs Spirit of Urine Spirit of Wine and Water Spirit of Wine 187 c. The wonderful expansion of the Spirit of Wine 194 The 25th Experiment touching the expansion and gravity of the Air under water 195 c. The 26th Experiment touching the Vibrations of a Pendulum 202 c. The 27th Experiment touching the propagation of sound And the Authors intention of trying some other Experiments for the further elucidation thereof 210 c. The 28 Experiment touching the sudden â—ruption of Bubbles from the water when the airs pressure was speedily remov'd 214 The 29 Experiment touching the cause of the ascent of Fumes and Vapors wherein 't is prov'd from the several motions which the Fumes of a strange smoaking Liquor of the Authors were observ'd to have in the Receiver upon the exsuction of the Air that the reason of their ascent proceeds from the gravity of the ambient air and not from any positive levity of their own 217 c. The 30 Experiment concerning the nature of a fluid Body illustrated by the example of smoak which in several circumstances seems very much to resemble the property of a fluid Body 224 c. A conjecture of the cause of the Suns undulation 228 The 31 Experiment concerning the Phaenomena of two flat Marbles exactly plain'd and wrought together and the true reason thereof 229. The Authors intention for the further prosecution thereof what hindred him the reason why the under Marble did not fal from the upper being onely conjoynd with Spirit of Wine when the Receiver was evacuated And a notable relation concerning the cohesion of flat Bodies 231 c. The 32 Experiment touching the forcible pressure of the Air against the outward superficies of a Valve fasten'd upon the stop-cock of the Receiver The Diameter of it and the weight it sustain'd 233 c. The 33 experiment touching the great pressure of the Air against the under superficies of the Sucker 236 c. what weight was requisite to depress it what weight it would lift and carry up with it 239 c. what improvement use there may be made of this experiment 242. A Discourse touching the nature of Suction proving that fuga vacui is not the adequate cause thereof 243 c. The 34th Experiment containing several attempts for the weighing of light Bodies in the exhausted Receiver 258 c. The 35th Experiment touching the cause of â—iltration and the rising of Water in Siphons 262 c. A relation of a new kinde of Siphon of the Authors upon the occasion of trying the Experiment lately observ'd by some French-men and further improv'd by himself and some conjectures touching the cause of the exhibited Phaenomena 267 c. The 36th Experiment touching the weighing of a parcel of Air in the exhausted Vessel and some other Observations for the explication thereof 272 c. An accidental Experiment tending to the further confirmation of the Authors Reflections upon the first Experiment with a digressive Observation noting the subtil penetrancy of some Spirits to exceed by far that of the Air 275 c. And some other Experiments to shew the difficulty of the ingress of the Air into the pores or holes of some bodies into which Water will readily insinuate it self 279 c. with a conjecture at the cause thereof 282. The Author returns to the prosecution of the inquiry after the gravity of the Air But first upon the occasion of the tenacity of a thin Bubble of Glass sets down his thoughts concerning the strange exuperancy of strength in Air agitated by heat above what the same has unagitated 283 c. And then proceeds to the examination of the weight of the Air by an Aeolipile and compares the result thereof with that of Mersennus 286. The Opinions and Experiments of divers Authors and some of his own touching the proportion of weight betwixt Water and Air are compar'd and examin'd by the Author 288. The result thereof 290. Mersennus his observation reconcil'd with that of the Author and the proportion between the gravity of Water and Air about London 291 c. After the recital of the Opinions of several Writers touching the proportion of gravity between Water and Quick silver the Author sets down his own tryals made several ways together with his conclusion therefrom 293 c. The use he makes of this inquiry for the ghessing at the height of the Atmosphere 297. What other Experiments are requisite to the determination thereof 299 c. The 37th Experiment touching the strange and odde Phaenomenon of the sudden flashes of light in the cavity of the Receiver the several circumstances and difficulties of it with some attempts towards the rendering at reason thereof 301 c. The Difficulty of so doing further shewn from the consideration of the various changes of Air which doe not immediatly fall under our senses 315. this last proposition prou'd by severall observations 316. The 38. Experiment touching the freezing of water 319. c. A problem concerning the great force wherewith a freezing Liquor extends its selfe propos'd upon the Consideration of divers admirable effects wrought thâ—reby 320 c. The 39. Experiment containing an inquisition after the temperature of the substance that remain'd in the cavity of the Receiver after the Air was well exhausted The relation of a Phaenomenon seeming to proceed from the swâ—lling of the Glass With an advertisement concerning the pliableness of Glass in small prices 322. c. The 40. Experiment touching the difficulty that occur'd in making tryall whether rarified Air were able to sustaine flying insects 326. c The 41. Experiment Exhibiting severall tryalls touching the respiration of divers sorts of animalls included in the Receiver 328 c. With a digression conteining some doubts touching respiration wherein are delivereâ— severall Experiments relating thereunto 335 c. The 42. Experiment touching the differing operation of corrosive Liquors in the emptied Receiver and in the open Air. 384 The 43. Experiment touching the spontaneous Ebullition of warm Liquors in the exhausted Receiver 388 The Conclusion 394 TO THE LORD OF DVNGARVAN My Honoured and Dear NEPHEW My Dear Lord REceiving in your last from Paris a desire that I would adde some more Experiments to those I formerly sent You over I could not be so much your Servant as I am without looking upon that Desire as a Command and consequently without thinking my self obliged to consider by what sort of Experiments it might the most acceptably be obey'd And at the same time perceiving by Letters from some other Ingenious Persons at Paris that several of the Virtuosi there were very intent upon the examination of the Interest of the Ayr in hindring the descent of the Quick-silver
in the famous Experiment touching a Vacuum I thought I could not comply with your Desires in a more fit and seasonable manner then by prosecuting and endeavoring to promote that noble Experiment of Torricellius and by presenting your Lordship an account of my attempts to illustrate a subject about which it 's being so much discours'd of where you are together with your inbred Curiosity and love of Experimental Learning made me suppose you sufficiently inquisitive And though I pretend not to acquaint you on this occasion with any store of new Discoveries yet possibly I shall be so happy as to assist you to know somethings which you did formerly but suppose and shall present you if not with new Theories at least with new Proofs of such as are not yet become unquestionable And if what I shall deliver have the good fortune to encourage and assist you to prosecute the Hints it will afford I shall account my self in paying of a duty to you to have done a piece of Service to the Commonwealth of Learning Since it may highly conduce to the advancement of that Experimental Philosophy the effectual pursuit of which requires as well a Purse as a Brain to endeere it to hopeful Persons of your Quality who may accomplish many things which others can but wish or at most but design by being able to imploy the Presents of Fortune in the search of the Mysteries of Nature And I am not faintly induc'd to make choice of this Subject rather then any of the expected Chymical ones to entertain your Lordship upon by these two Considerations The one That the Ayr being so necessary to humane Life that not onely the generality of Men but most other Creatures that breath cannot live many minutes without it any considerable discovery of its Nature seems likely to prove of moment to Man-kinde And the other is That the Ambient Ayr being that whereto both our own Bodies and most of the others we deal with here below are almost perpetually contiguous not onely its alterations have a notable and manifest share in those obvious effects that men have already been invited to ascribe thereunto such as are the various distempers incident to humane Bodies especially if crazy in the Spring the Autumn and also on most of the great and sudden changes of Weather but likewise that the further discovery of the nature of the Ayr will probably discover to us that it concurs more or less to the exhibiting of many Phaenomena in which it hath hitherto scarce been suspected to have any interest So that a True Account of any Experiment that is New concerning a thing wherewith we have such constant and necessary intercourse may not onely prove of some advantage to humane Life but gratifie Philosophers by promoting their Speculations on a Subject which hath so much oppurtunity to sollicite their Curiosity And I should immediately proceed to the mention of my Experiments but that I like too well that worthy saying of the Naturalist Pliny Benignum est plenum ingenui pudoris In Praesat lib. 1. fateri per quos profeceris not to conform to it by acquainting your Lordship in the first place with the Hint I had of the Engine I am to entertain you of You may be pleas'd to remember that a while before our separation in England I told you of a Book that I had heard of but not perus'd publish'd by the industrious Jesuit Schottus wherein 't was said He related how that ingenious Gentleman Otto Gericke Consul of Magdeburg had lately practiced in Germany a way of emptying Glass Vessels by sucking out the Ayr at the mouth of the Vessel plung'd under water And you may also perhaps remember that I express'd my self much delighted with this Experiment since thereby the great force of the external Air either rushing in at the open'd Orifice of the empty'd Vessel or violently forcing up the Water into it was rendred more obvious and conspicuous than in any Experiment that I had formerly seen And though it may appear by some of those Writings I sometimes â—hew'd your Lordship that I had been sollicitous to try things upon the same ground yet in regard this Gentleman was before-hand with me in producing such considerable effects by means of the exsuction of Air I think my self oblig'd to acknowledge the Assistance and Encouragement the Report of his performances hath afforded me But as few inventions happen to be at first so compleat as not to be either blemishd with some deficiencies needful to be remedy'd or otherwise capable of improvement so when the Engine we have been speaking of comes to be more attentively consider'd there will appear two very considerable things to be desir'd in it For first the Wind-Pump as some body not improperly calls it is so contriv'd that to evacuate the Vessel there is requir'd the continual labor of two strong men for divers hours And next which is an imperfection of much greater moment the Receiver or Glass to be empty'd consisting of one entire and uninterrupted Globe and Neck of Glass the whole Engine is so made that things cannot be convey'd into it whereon to try Experiments So that there seems but little if any thing more to be expected from it then those very few Phaenomena that have been already observ'd by the Author and Recorded by Schottus Wherefore to remedy these Inconveniences I put both Mr. G. and R. Hook who hath also the Honor to be known to your Lordship and was with me when I had these things under consideration to contrive some Air Pump that might not like the other need to be kept under water which on divers occasions is inconvenient might be more easily manag'd And after an unsuccessful tryall or two of ways propos'd by others the last nam'd Person fitted me with a Pump anon to be describ'd And thus the first Imperfection of the German Engine was in good measure though not perfectly remedy'd And to supply the second desect it was considered that it would not perhaps prove impossible to leave in the Glass to be empty'd a hole large enough to put in a Mans Arm cloath'd and consequently other Bodies not bigger then it or longer then the inside of the Vessel And this Design seem'd the more hopefull because I remembred that having several years before often made the Experiment De Vacuo with my own hands I had to examine some conjectures that occurr'd to me about it caused Glasses to be made with a hole at that end which uses to be seal'd up and had nevertheless been able as occasion requir'd to make use of such Tubes as if no such holes had been left in them by devising stopples for them made of the common Plaister call'd Diachylon which I rightly enough ghess'd would by reason of the exquisite commixtion of its small parts and closeness of its texture deny all access to the external Air. Wherefore supposing that by the help of such Plaisters carefully
former position may be Mechanically explicated Yet I must confess that to determine whether the motion of Restitution in Bodies proceed from this That the parts of a Body of a peculiar Structure are put into motion by the bending of the spring or from the endeavor of some subtle ambient Body whose passage may be oppos'd or obstructed or else it 's pressure unequally resisted by reason of the new shape or magnitude which the bending of a Spring may give the Pores of it To determine this I say seems to me a matter of more difficulty then at first sight one would easily imagine it Wherefore I shall decline medling with a subject which is much more hard to be explicated then necessary to be so by him whose business it is not in this Letter to assign the adequate cause of the Spring of the Air but onely to manifest That the Air has a Spring and to relate some of its effects I know not whether I need annex that though either of the above-mention'd Hypotheses and perhaps some others may afford us an account plausible enough of the Air-spring yet I doubt whether any of them gives us a sufficient account of its Nature And of this doubt I might here mention some Reasons but that peradventure I may God permitting have a fitter occasion to say something of it elsewhere And therefore I should now proceed to the next Experiment but that I think it requisite first to suggest to your Lordship what comes into my thoughts by way of Answer to a plausible Objection which I foresee you may make against our propos'd Doctrine touching the Spring of the Air. For it may be alleadged that though the Air were granted to consist of Springy Particles if I may so speak yet thereby we could onely give an account of the Dilatation of the Air in Wine-Guns and other pneumatical Engines wherein the Air has been compress'd and its Springs violently bent by an apparent externall force upon the removall of which 't is no wonder that the Air should by the motion of restitution expand it self till it have recovered its more natural dimensions whereas in our above mentioned first Experiment and in almost all others tryable in our Engine it appears not that any compression of the Air preceded its spontaneous Dilatation or Expansion of it self To remove this difficulty I must desire Your Lordship to take notice that of whatever nature the Air very remote from the Earth may be and whatever the Schools may confidently teach to the contrary yet we have divers Experiments to evince that the Atmosphere we live in is not otherwise then comparatively to more ponderous Bodies light but heavy And did not their gravity hinder them it appears not why the steams of the Terraqueous Globe of which our Air in great part consists should not rise much higher then the Refraction of the Sun and other Stars give men ground to think that the Atmosphere even in the judgement of those Recent Astronomers who seem willing to enlarge its bounds as much as they dare does reach But lest you should expect my seconding this Reason by Experience and lest you should object That most of the Experimēts that have been propos'd to prove the gravity of the Air have been either barely propos'd or perhaps not accuratly try'd I am content before I pass further to mention here That I found a dry lambs-bladder containing near about two thirds of a pint and compress'd by a packthred tyed about it to loose a grain and the eighth part of a grain of its former weight by the recess of the Air upon my having prickt it And this with a pair of Scales which when the full Bladder and the correspondent weight were in it would manifestly turn either way with the 32 part of a grain And if it be further objected That the Air in the Bladder was violently compress'd by the Pack-thred and the sides of the Bladder we might probably to wave prolix answers be furnish'd with a Reply by setting down the differing weight of our Receiver when empty'd and when full of uncompress'd Air if we could here procure scales fit for so nice an experiment since we are informed that in the German Experiment commended at the beginning of this Letter the Ingenious Tryers of it found That their Glass Vessel of the capacity of 32 measures was lighter when the Air had been drawn out of it then before by no less then one ounce and 1 10 that is an ounce and very near a third But of the gravity of the Air we may elsewhere have occasion to make further mention Taking it then for granted that the Air is not devoid of weight it will not be uneasie to conceive that that part of the Atmosphere wherein we live being the lower part of it the Corpuscles that compose it are very much compress'd by the weight of all those of the like nature that are directly over them that is of all the Particles of Air that being pil'd up upon them reach to the top of the Atmosphere And though the height of this Atmosphere according to the famous Kepler and some others scarce exceeds eight common miles yet other eminent and later Astronomers would promote the confines of the Atmosphere to exceed six or seven times that number of miles And the diligent and learned Riviolo makes it probable that the Atmosphere may at least in divers places be at least 50 miles high So that according to a moderate estimate of the thickness of the Atmosphere we may well suppose that a Column of Air of many miles in height leaning upon some springy Corpuscles of Air here below may have weight enough to bend their little springs and keep them bent As to resume our former comparison if there were fleeces of Wooll pil'd up to a mountainous height upon one another the Hairs that compose the lowermost locks which support the rest would by the weight of all the Wool above them be as well strongly compressed as if a man should squeeze them together in his hands or imploy any such other moderate force to compress them So that we need not wonder that upon the taking off the incumbent Air from any parcel of the Atmosphere here below the Corpuscles whereof that undermost Air consists should display themselves and take up more room then before And if it be objected That in Water the weight of the upper and of the lower part is the same I answer That besides that it may be well doubted whether the observation by reason of the great difficulty have been exactly made there is a manifest disparity betwixt the Air and Water For I have not found that upon an Experiment purposely made and in another Treatise Recorded that Water will suffer any considerable compression whereas we may observe in Wind-Guns to mention now no other Engines that the Air will suffer it self to be crouded into a comparatively very little room in so much that
the stopple must with his hand support a pressure equal to the disproportion betwixt the force of the internal expanded Air and that of the Atmosphere incumbent upon the upper part of the same key or stopple And so men being unus'd to finde any resistance in lifting things up from the free Air above them they are forward to conclude that that which depresses their hands must needs be some weight though they know not where plac'd drawing beneath it And that we have not mis-assign'd the cause of this Phaenomenon seems evident enough by this That as Air is suffered by little and little to get into the Receiver the weight that a man fancies his hand supports is manifestly felt to decrease more and more the internal Air by this recruit approaching more to an Aequilibrium with the external till at length the Receiver growing again full of Air the stopple may be lifted up without any difficulty at all By several other of the Experiments afforded us by our Engine the same notion of the great and equal pressure of the free Air upon the Bodies it environs might be here manifested but that we think it not so fit to anticipate such Experiments And therefore shall rather employ a few lines to clear up a difficulty touching this matter which we have observ'd to have troubled some even of the Philosophical and Mathematical Spectators of our Engine who have wonder'd that we should talk of the Air exquisitely shut up in our Receiver as if it were all one with the pressure of the Atmosphere whereas the thick and close body of the Glass wholly impervious to the Air does manifestly keep the incumbent Pillar of the Atmosphere from pressing in the least upon the Air within the Glass which it can no where come to touch To elucidate a little this matter let us consider That if a man should take a fleece of Wool and having first by compressing it in his hand reduc'd it into a narrower compass should nimbly convey and shut it close up into a Box just fit for it though the force of his hand would then no longer bend those numerous springy Body's that compose the Fleece yet they would continue as strongly bent as before because the Box they are inclos'd in would as much resist their re-expanding of themselves as did the hand that put them in For thus we may conceive that the Air being shut up when its parts are bent by the whole weight of the incumbent Atmosphere though that weight can no longer lean upon it by reason it is kept off by the Glass yet the Corpuscles of the Air within that Glass continue as forcibly bent as they were before their inclusion because the sides of the Glass hinder them from displaying or stretching out themselves And if it be objected that this is unlikely because ev'n Glass bubles such as are wont to be blown at the flame of a Lamp exceeding thin and Hermetically seal'd will not break whereas it cannot be imagin'd that so thin a Prison of Glass could resist the Elastical force of all the included Air if that Air were so compress'd as we suppose It may be easily reply'd That the pressure of the inward Air against the Glass is countervail'd by the equal pressure of the outward against the same Glass And we see in bubles that by reason of this an exceeding thin film of Water is often able for a good while to hinder the eruption of a pretty quantity of Air. And this may be also more conspicuous in those great Spherical bubles that boyes sometimes blow with Water to which Sope has given a Tenacity But that if the pressure of the ambient Air were remov'd the internal Air may be able to break thicker Glasses then those lately mention'd will appear by some of the following Experiments to which we shall therefore now hasten having I fear been but too prolix in this Excursion though we thought it not amiss to annex to our first Experiments some general Considerations touching the Spring of the Air because this Doctrine being yet a stranger to the Schools not onely we finde not the thing it self to be much taken notice of but of those few that have heard of it the greater part have been forward to reject it upon a mistaken Perswasion that those Phaenomena are the effects of natures abhorrency of a Vacuum which seem to be more fitly ascribeable to the weight and Spring of the Air. Experiment 3. WE will now proceed to observe that though by the help of the handle the Sucker be easily drawn down to the bottom of the Cylinder yet without the help of that Leaver there would be required to the same effect a force or weight great enough to surmount the pressure of the whole Atmosphere Since otherwise the Air would not be driven out of its place when none is permitted to succeed into the place deserted by the Sucker This seems evident from the known Torricellian Experiment in which if the inverted Tube of Mercury be but 25 Digits high or somewhat more the Quick-silver will not fall but remain suspended in the Tube because it cannot press the subjacent Mercury with so great a force as does the incumbent Cylinder of the Air reaching thence to the top of the Atmosphere Whereas if the Cylinder of Mercury were three or four digits longer it would over-power that of the external Air and run out into the Vessel'd Mercury till the two Cylinders came to an Aequilibrium and no further Hence we need not wonder that though the Sucker move easily enough up and down in the Cylinder by the help of the Manubrium yet if the Manubrium be taken off it will require a considerable strength to move it either way Nor will it seem strange that if when the Valve and Stop-cock are well shut you draw down the Sucker and then let go the Manubrium the Sucker will as it were of it self re-ascend to the top of the Cylinder since the spring of the external Air findes nothing to resist its pressing up the Sucker And for the same reason when the Receiver is almost evacuated though having drawn down the Sucker you open the way from the Receiver to the Cylinder and then intercept that way again by returning the Key the Sucker will upon the letting go the Manubrium be forcibly carried up almost to the top of the Cylinder Because the Air within the Cylinder being equally dilated and weakned with that of the Glass is unable to withstand the pressure of the external Air till it be driven into so little space that there is an Aequilibrium betwixt its force and that of the Air without And congruously hereunto we finde that in this case the Sucker is drawn down with little less difficulty then if the Cylinder being devoid of Air the Stop-cock were exactly shut We might take notice of some other things that depend upon the Fabrick of our Engine it self but to shun
Next Experience may be pleaded to the same purpose for I have read of some who have in vain attempted to turn Air into Water or VVater into Air. The diligent Schottus tells us Schottus Mechâ—â— hydrauâ—icopneâ—mat Part 3. Claâ—â— 1. That amongst the other rarities to be met with in that great Repository of them the Musaeum Kercherianum there is a round Glass with a tapering Neck near half full as one may guess by the Scheme he annexes of ordinary Spring-water which having been Hermetically shut up there by Clavius the famous Geometrician The included water is to this day preserv'd not onely clear and pure as if it were but newly put in But as it seems without in the least turning into Air notwithstanding its having been kept there these fifty years For he tells us That the Water hath continued there all this while without any diminution Nor does it appear in those Glasses which for Chymical Experiments we usually close with Hermes his Seal as they call it that the included Air does during its long Imprisonment notwithstanding the alteration it receives from various degrees of heat discernably alter its nature Whereas we plainly perceive in our Digestions and Distillations that though it may be rarified into invisible Vapors yet it is not really chang'd into Air but onely divided by heat and scatter'd into very minute parts which meeting together in the Alembick or in the Receiver do presently return into such Water as they constituted before And we also see that ev'n Spirit of Wine and other subtle and fugitive Spirits though they easily fly into the Air and mingle with it do yet in the Glasses of Chymists easily lay aside the disguise of Air and resume the devested form of Liquors And so volatile Salts as of Urine Harts-horn c. though they will readily disperse themselves through the Air and play up and down in the capacity of an Alembick or a Receiver yet will they after a while fasten themselves to the insides of such Glasses in the form of Salts Besides since Air is confessedly endow'd with an Elastical power that probably proceeds from its Texture it appears not what it is that in such light alterations of Water as are by many presum'd capable of turning it into Air can be reasonably suppos'd so to contrive the Particles of Water as to give them and that permanently the structure requisite to a Spring I adde the word Permanently because the newly mention'd observations seem to argue the Corpuscles of Air to be irreducible into Water whereas the Aqueous Particles may perhaps for a while be so vehemently agitated as to press almost like Springs upon other Bodies yet upon the ceasing of the agitation they quickly by relapsing into Water disclose themselves to have been nothing else whil'st they counterfeited the Air. Lastly The Experiment formerly made in our Engine with a piece of Match seems to evince that even those light and subtle Fumes for the most part not aqueous neither into which the Fire it self shatters dry Bodies have no such Spring in them as the Air since they were unable to hinder or repress the expansion of the Air included in the Bladder they surrounded Natural Moâ—al Hist. of the Indies Lib. 3. C. 9. I remember indeed that the Learned Iosephus Acosta in his History of the West Indies tells us That he saw in those parts some Grates of Iron so rusted and consum'd by the Air that the Metal being press'd between the Fingers dissolv'd to use his words to powder as if it had been Hay or parched Straw And I remember too Geogr. Genâ—â—al Lib. 1. c. 19. that the accurate Varenius tells us That in the Islands commonly called Azores the Air and Wind is so sharp that in a short time it frets not only Iron Plates but the very Tiles upon the Roofs of Houses and reduces them to dust And I have elsewhere mention'd some recent Observations of this kinde But it may be said That the above-mention'd Authors ascribe the recited effects chiefly to the Winds and that however the corrosion of the Iron and the Tiles may proceed not from the Air it self or any of its genuine parts but from some â—aline Corpuscles dispers'd through the Air and driven by the Winds against the Bodies it is presum'd to fret And that such volatile Salts may copiously ascend into the Air and yet retain their Nature as doth the more fixt Salt in the Sea Water the sublimations of Sal-Armoniack may sufficiently evince Not to mention that I have shown some Friends a secret kinde of saline Substance incomparably subtler then Sal-Armoniack which did not onely easily enough ascend it self but carried up with it and that in a very great proportion the solid and ponderous Body ev'n of uncalcin'd Gold in the form of subtle exhalations which did afterwards fasten themselves to the upper parts of the Vessels and yet manifest themselves to continue Gold We remember also that to try whether Water could be turn'd into Air we once took an Aeolipile into which we had before convey'd some Water and placing it upon kindled Coals when the heat forc'd out a vehement stream of aqueous Vapors we ty'd about the neck of it that of a Bladder which we had before empty'd of Air and finding the Aeolipile after a while to blow up the Bladder we carefully ty'd it again that the included substance might not get away Then slipping it off from the Aeâ—lipile we convey'd it into our Receiver to try whether or no that which in part distended the Bladder would appear by its Spring to be true Air whereby we found that upon the exsuction of the ambient Air the included substance expanded it self and the Bladder to a very much greater bulk then it was of before And for further satisfaction having again taken out the Bladder we suffer'd it to remain ty'd up till next morning to try whether time and the coldness of the night would make the contain'd substance relapse into Water But the next Morning we found it little less tumid then before I remember I say that I once made this Experiment but I might say in answer to it that the chief reason of my mentioning it is To let Your Lordship see how requisite it is to be circumspect and considerate when we are to make and to build upon nice Experiments For though I may seem to have used sufficient caution yet afterward considering with my self that the Aeolipile I had imploy'd was a very large one and that it required much more care then one that has not try'd it would imagine to drive out all the Air from a large Aeolipile I easily suspected that the distension of the Bladder in our pneumatical Vessel might proceed not from the Watery steams that came out at the narrow mouth of the Aeolipile and had very much wetted the Bladder but from the rarified Air which in that sort of Vessels is wont for a good while
together to come out with the rarified Water and accordingly having reiterated the Experiment I found it very difficult by reason of the shrinking of the Bladders upon their being heated and of other impediments to make it so accurately as to deduce from it that Water may be rarified into true Air. Against the four other above-mention'd Considerations we cannot spend time to frame Objections but must forth with proceed to the mention of those things that seem to argue that Air at least such as produc'd our bubbles maybe generated of Water and other Bodies First then we have found by Experience that a vapid Air or Water rarified into vapor may at least for a while emulate the elastical power of that which is generally acknowledg'd to be true Air. For if you take a good Aeolipile with a moderately strong and slender Neck and filling it with Water lay it upon quick Coals you may after a while observe so great a pressure by some of the parts contain'd in the Aeolipile upon others that the Water will sometimes be thrown up into the Air above three or four Foot high and if you then take the Aeolipile almost red hot from off the Fire you may perceive that the Water will for a longer time then one would easily imagine continue to be spouted out in a violent Stream And if there remains but little Water in the Aeolipile when t is taken very hot from the Fire immersing the Neck of it into cold Water you will finde that after it begins to suck in some Water there will be made from time to time store of large bubbles in that Water whereinto the neck was plunged Which bubbles seem manifestly to proceed from hence that for a while the heat in the Aeolipile continues strong enough to rarifie part of the Water that is suck'd in and expel it in the form of Vapors through the Water incumbent on the Pipe If also when the Aeolipile is almost full of water and therefore can contain but little Air you hold a Coal or Brand in that stream of Vapors that issues out of the narrow mouth of it you will finde this vapid or rorid Air if I may so call it to blow the Fire very strongly and with a roaring noise And that it be not said that 't is by the external Air which the aqueous steams drive before them and not by the Steams themselves that the Blast is made and the Flame excited it has been observ'd that by approaching the Coal or Brand almost to the mouth of the Aeolipile the winde appear'd more vehement then if the Body to be kindled were held some Inches off But in regard the elastical power of the Stream issuing out of an Aeolipile seems manifestly due to the heat that expands and agitates the aqueous Particles whereof that Stream consists and that such rapid winds seem to be but water scatter'd into little parts and set a moving since we finde that holding a Knife or any solid smooth and close Body against the stream that issues out of the Aeolipile the vapors condensing upon it will presently cover it with water It will be very pertinent to subjoyn a notable Experiment that I remember I have met with in the description given us by the Industrious Kircher of several Musical Engines And though it may seem somewhat prolix we will recite what he delivers in his own words which are these 〈…〉 〈◊〉 lib. 9. p. 309. Cum eodem tempore quo haec scripsi summi Pont Innocentii X mi mandato organi hydraulici in horto Quirinali constituendi cur a mihi commendata esset Aeoliam cameram insigni sane successu construi jussimus eâ quae sequitur ratione Erat longitudo sive altitudo camerae AH 5 Pedum Latitudine 3 fere ex lateribus constructa in medio duo tenebat Diaphragmata CD EJ in modum cribri pluribus for aminibus pertusa Paulo infra canalis G aquam advehens inserebatur in H eidem epistomium parabat exitum Aqua itáque per canalem G maximo impetu ruenâ— vehementissimum ventum mox intus excitabat qui ventus nimia humiditate imbutus ut purior exiret sicciorque Diaphragmata illa in cribri modum pertusa ordinata sunt Intra haec enim aquae vehemens agitatio rupta fractaque aerem puriorem per A canalem subtilioremque emittebat Verum cum postea inventuÌ„ sit acreÌ„ plus aequo humiduÌ„ interioribus Organi meatibus maximuÌ„ detrimentum inferre Hinc ut aer aquosus siccissimam coÌ„sistentiam acquireret ordinavimus canalem plumbeum QR in helicem contortum vasi S aliquantulum capaciori in modum Urnae efformato inserâ—um Intra urnam enim plumbeam canalem tortuosum illisus aer humidus ita ab omni aquositate defaecabatur ut ex furno in Organum derivatus dici potuerit Urna S canalis tortuosus QR ultimum orificium Q inseritur anemothecae organi Et hunc modum organis hydraulicis omniuÌ„ aptissimuÌ„ reperi Debet autem camera illa situari in loco quantum fieri potest sicciori ita ut longo canali aqua intra eam derivetur ne locus humiditate sua Organis officiat Thus far the Ingenious Kircherus whom I the rather cite because although I have been informed of divers Ventiducts as they call them by very knowing Travellers that have observ'd them Yet this relation of our Author being very punctual and deliver'd upon his own particular Experience has I confess made me wish I had had the good fortune when I was at Rome to take notice of these Organs or that I had now the opportunity of examining of such an Experiment For if upon a strict inquiry I should find that the breath that blows the Organs does not really upon the ceasing of its unusual agitation by little and little relapse into water I should strongly suspect that 't is possible for Water to be easily turn'd into Air. I remember indeed that we have formerly taught that there lurks an interspersed Air in the pores of ordinary Water which may possibly be struck out by the breaking of the Water in its fall into the Aeolian Chamber as he calls it But in regard the Scheme seems to represent that Chamber as closely shut and thereby forbids us to suppose that any Air is carried into it but what is latitant in the Water it will scarce seem probable to him who remembers how small a proportion of Air that appear'd to be when its rarification seased which was conceal'd in the Water we freed from bubbles in our Receiver that so little Air as is commonly dispers'd through Water should be able in so little Water as was requisite for so small a room to make so vehement a Wind as our Author here tells us of I have sometime therefore suspected that in this case the Wind may be produc'd by small particles of the water it self forcibly expell'd out of the Chamber into
flexible Plate of Silver unto which by some stroaks of a Hammer you may give a Spring and by onely heating it red hot you may make it again flexible as before These My Lord are some of the Considerations at present occurring to my thoughts by which it may be made probable that Air may be generated anew And though it be not impossible to propose Objections against these as well as against what has been represented in favor of the contrary Doctrine yet having already almost tyr'd my self and I fear more then almost tyr'd Your Lordship with so troublesome an Enquiry after the Nature of bubbles I shall willingly leave Your Lordship to judge of the Arguments alledged on either side and I should scarce have ventur'd to entertain You so long concerning such empty things as the Bubbles which have occasion'd all this Discourse but that I am willing to invite You to take notice with me of the obscurity of things or the dimness of our created Intellects which yet of late too many so far presume upon as either to Deny or Censure the Almighty and Omniscient Creator himself and to learn hence this Lesson That there are very many Things in Nature that we disdainfully over-look as obvious or despicable each of which would exercise our Understandings if not pose them too if we would but attentively enough consider it and not superficially contemplate but attempt satisfactorily to explicate the nature of it Experiment 23. SInce the writing of the twenty one and twenty second Experiments and notwithstanding all that hath been on their occasion deliver'd concerning bubbles we made some further tryals in prosecution of the same inquiry whereto they were designed We chose then amongst those Glasses which Chymists are wont to call Philosophical Eggs one that containing about nine Ounces of Water had a Neck of half an Inch in Diameter at the top and as we ghest almost an Inch at the bottom which breadth we pitch'd upon for a reason that will by and by appear then filling it with common Water to the height of about a Foot and a half so that the upper part remain'd empty we shut it into the Receiver and watch'd what would follow upon pumping which proved that a great part of the Air being drawn out the bubbles began to discover themselves at the bottom and sides of the Glass and increasing as the Air was more and more drawn away they did from time to time ascend copiously enough to the top of the Water and there quickly break but by reason that the wideness of the Glass allow'd them free passage through the Water they did not appear as in the former Experiments to make it swell The Water scarce ever rising at all above the mark affixt to its upper surface when it was put in and upon the return permitted to the outward Air and consequently the shrinking in of the remaining bubbles the Water seem'd to have lost of its first extent by the avolation of the formerly interspers'd Air. Being willing likewise to try whether distilled Water were by having been divided into minute parts and then re-united more or less dispos'd to expand it self then Water not distill'd We took out of our Laboratory some carefully distill'd Rain-water and put about two Ounces of it into a round Glass bubble with a very small Neck not exceeding the sixth part of an Inch in Diameter which we fill'd half way to the top and then convey'd it into the Receiver the issue was That though we drew out more then ordinary yet there appear'd not the least intumescence of the Water nor any ascending bubbles But suspecting that either the small quantity of the water or the Figure of the Vessel might have an interest in this odde Phaenomenon we took the lately mention'd Philosophical Egge and another not much differing from it the former we fill'd up with distill'd Rain-water to the old mark and into the latter we put a long Cylinder or Rod of solid Glass to streighten the cavity of the Neck by almost filling it up and then pouring some distilled Water into that also till it reach'd within some Fingers breadth of the top the Eggs were let down into the Receiver In this Experiment the Air was so far drawn forth before there appear'd any bubble in either of the Glasses that the disparity betwixt this and common water was manifest enough But at length when the Air was almost quite pump'd out the bubbles began to disclose themselves and to increase as the pressure of the Air in the Receiver decreas'd But whereas in the first mention'd Philosophical Egge the bubbles were very small and never able to swell the Water that we took notice of at all above the mark In the other whose Neck as we lately said was straightned and their passage obstructed great numbers of them and bigger fastned themselves to the lower end of the Glass rammer if we may so call it and gather'd in such numbers between that and the sides of the Neck that the Water swell'd about a Fingers breadth above the mark though upon the admitting of the external Air it relaps'd to the former mark or rather fell somewhat below it And although thereupon in the first nam'd Vessel all the bubbles presently dis-appear'd yet in the other we observ'd that divers remained fastned to the lower part of the Glass rammer and continued there somewhat to our wonder for above an hour after but contracted in their Dimensions Moreover having suffered the Glasses to remain above twenty four hours in the Receiver we afterwards repeated the Experiment to try what change the exsuction of the external Air would produce in the Water after the internal and latitant Air had as is above recited in great measure got away in bubbles and whether or no the Water would by standing re-admit any new particles of Air in the room of those that had forsaken it But though we exhausted the Receiver very diligently yet we scarce saw a bubble in either of the Glasses notwithstanding which we perceiv'd the Water to rise about the breadth of a Barly-corn or more in the Neck of that Glass wherein the solid Cylinder had been put The Liquor in the other Glass not sensibly swelling And lastly upon the letting in of the Air the Water in the straightned Neck soon subsided to the mark above which it had swollen which whether it ought to be ascrib'd to the same small expansion of the parts of the Water it self or to the rarifaction of some yet latitant Air broken into such small particles as to escape our observation seems not easily determinable without such further tryals as would perhaps prove tedious to be recited as well as to be made though I was content to set down those already mention'd that it might appear how requisite it is in nice Experiments to consider variety of Circumstances AFter having thus discover'd what operation the exsuction of the ambient Air had upon Water
Experiment 24. we thought good to try also what changes would happen in other Liquors upon the like taking off the pressure of the external Air. We took â—â—en a Glass Egge somewhat bigger then a Turkey Egge which had a long Neck or Stem of about a â…“ part of an Inch in Diameter and filling it up with Sallet Oyl until it reach'd above half way to the top of the Neck we inclos'd it in the Receiver together with common Water in a resembling Vessel that we might the better compare together the operation of the exsuction of the Air upon those two Liquors The Pump being set awork there began to appear bubbles in the Oyl much sooner then in the Water and afterwards they also ascended much more copiously in the former Liquor then the latter Nay and when by having quite tired the Pumper and almost our own patience we gave over the bubbles rise almost if not altogether in as great numbers as ever insomuch as none of the various Liquors we tryed either before or since seem'd to abound more with Aerial Particles then did this Oyl In which it was further remarkable that between the time it was set into the Receiver and that at which we could get ready to Pump it subsided notably by ghess about half an Inch below the mark it reach'd before it was put in After this express'd Oyl we made tryâ—â— of a distill'd one and for that purpose made choice of the common Oyl or Spirit for in the Shops where it is sold the same Liquor is promiscuously call'd by either name of Turpentine because 't was onely of that Chymical Oyl we had a sufficient quantity which being put into a small Glass bubble with a slender Neck so as to fill it to about two Inches from the top did upon the evacuating of the Receiver present us with great store of bubbles most of which rising from the bottom expanded themselves exceedingly in their ascent and made the Liquor in the Neck to swell so much by degrees that at length it divers times ran over at the top by which means we were hindred from being able to discern upon the letting in of the Air how much the subsidence of the Oyl below the first mark was due to the recess of the bubbles Having likewise a minde to try whether as strong a solution of Salt of Tartar in fair Water as could be made we having then no Oyl of Tartar per deliquium at hand though it be accounted Quick-silver excepted the heaviest of Liquors would afford us any bubbles we put in a Glass Egge full of it at the same time with other Liquors and found that they did long yield store of bubbles before any discovered themselves in the Liquor of Tartar and having pursued the Experiment it appear'd That of all the Liquors we made tryal of this afforded the fewest and the smallest Bubbles Spirit of Vinager being try'd after the same manner exhibited a moderate number of bubbles but scarce any thing else worth the mentioning Nor could we in red Wine try'd in a Glass Egge take notice of any thing very observable For though upon the exsuction of the Air the bubbles ascended in this Liquor as it were in sholes and shifted places among themselves in their ascent yet the Intumescence of the whole bulk of the Liquor was scarce at all sensible the bubbles most commonly breaking very soon after their arrival at the top where during their stay they compos'd a kinde of shallow froth which alone appear'd higher in the Neck of the Glass then was the Wine when it was first let down Neither yet did Milk convey'd into our Pneumatical Vessel present us with any thing memorable save that as it seem'd by reason of some unctuousness of the Liquor the bubbles not easily breaking at the top and thrusting up one another made the intumescence appear much greater then that of common Water We likewise convey'd Hens Eggs into the Receiver but after the exsuction of the Air took them out whole again That which invited us to put them in was That as perhaps we mention in other Papers we had among other Experiments of cold made Eggs burst by freezing them within doors with Snow and Salt The Ice into which the aqueous parts of the Egge were turned by the cold so distending probably by reason of the numerous bubbles wont to be observable in Ice the outward parts of the Egge that it usually crack'd the shell though the inner Membrane that involv'd the several Liquors of the Egge because it would stretch and yield remain'd unbroken And hereupon we imagin'd that in our Engine it might appear whether or no there were any considerable Spring either in any of the Liquors or in any other more spirituous substance included in the Egge We took also some Spirit of Urine carelesly enough deflegmed and put it into the same Glass first carefully scowr'd and cleans'd wherein we had put the Oyl-olive above mention'd We took also another Glass differing from a Glass Egge onely in that its bottom was flat and fill'd it up to about 2 5 of the Neck which was wider then that of the Egge with rectified Spirit of Wine We took also another Glass Egge and having fill'd it with common Water till it reach'd to the middle of the Neck we pour'd to it of the same Spirit of Wine till it reach'd about an Inch higher These three Glasses having marks set on them over against the edges of the contain'd Liquors were put into the Receiver and that beginning to be evacuated the bubbles in all the three Liquors began to appear The mixture of the Spirit of Wine and Water disclos'd a great store of bubbles especially towards the top but scarce afforded us any thing worth remembring The Spirit of Urine appear'd to swell near an Inch and an half above the mark and besides that sent forth store of bubbles which made a kinde of froth at the upper part of it And above that spume there appear'd eight or ten great bubbles one above another in a very decent order each of them constituting as it were a Cylinder of about half an Inch high and as broad as the internal cavity of the Neck So that all the upper part of the Neck for these bubbles reach'd to the top seem'd to be divided into almost equal parts by certain Diaphragmes consisting of the coats of the bubbles whose edges appear'd like so many Rings suspended one above another In the Spirit of Wine there did arise a great multitude of bubbles even till weariness did make us give over the Experiment And in these bubbles two or three things were remarkable as first That they ascended with a very notable celerity Next That being arriv'd at the top they made no stay there and yet notwithstanding the great thinness and spirituousness of the Liquor did before they broke lift up the upper surface of it and for a moment or two form thereof a thin
film or skin which appear'd protuberant above the rest of the superficies like a small Hemisphere Thirdly That they ascended straight up whereas those produc'd at the lower part of the Vessel containing the mixture of the Water and Spirit of Wine ascended with a wavering or wrigling motion whereby they describ'd an indented Line Lastly It was observable in the Spirit of Wine and we took notice of the like in the Oyl of Turpentine lately mention'd that not onely the bubbles seem'd to rise from certain determinate places at the bottom of the Glass but that in their ascension they kept an almost equal distance from each other and follow'd one another in a certain order whereby they seem'd part of small Bracelets consisting of equally little incontiguous Beads the lower end of each Bracelet being as it were fasten'd to a certain poâ—nt at the bottom of the Glass The Air being sparingly let into the Receiver the great bubbles formerly mention'd as incumbent upon one another in that Glass that contain'd the Spirit of Urine were by orderly degrees lessen'd till at length they wholly subsided notwithstanding the recess of so many bubbles as broke on the top of the Spirit of Urine during all the time of the Experiment yet it scarcely appear'd at all to be sunk below the mark Nor did the mixture of Spirit of Wine and Water considerably subside But that is nothing to what we observ'd in the Spirit of Wine for not onely it conspicuously expanded it self in the Neck of the Vessel that contain'd it notwithstanding the largeness of it and that the bubbles were about to break at the top of it almost assoon as they arriv'd there but upon the re-admission of the external Air the Spirit of Wine retain'd its newly acquired expansion And though we let it alone for near an hour together in expectation that it might subside yet when we took it out we found it still swell'd between a quarter and half an Inch above the mark and although it was not easily imaginable how this Phaenomenon could proceed from any mistake in trying the Experiment yet the strangenesse of it invited me to repeat it with fresh Spirit of Wine which swelling in the Neck as formerly I left all Night in the Receiver allowing free access to the external Air at the Stop-cock and the next day found it still expanded as before save that it seem'd a little lower which decrement perhaps proceeded from the avolation of some of the fugitive parts of so volatile a Liquor And for better satisfaction having taken out the Glass and consider'd it in the open Air and at a Window I could not finde that there was any remaining Bubbles that could occasion the persevering and admir'd expansion BEing desirous to discover what difference there might be as to gravity and levity Experiment 25. between Air expanded under Water and it selfe before such expansion we took two very small Viols such as Chymical Essences as they call them are wont to be kept in and of the size and shape expressed by the 8th Figure into one of these we put so much of a certain ponderous Mercurial mixture hapning to be then at hand that the mouth being stopt with a little soft Wax the Glass would just sink in Water and no more this we let fall to the bottom of a wide-mouth'd Crystal Jar fill'd with about half a pint of common Water and into the same Vessel we sunk the other Essence Glass unstopp'd with as much Water in it as was more then sufficient to make it subside Both these sunk with their mouthes downward the former being about three quarters full of Air the latter containing in it a bubble of Air that was ghess'd to be of the bigness of half a Pea This done the wide-mouth'd Glass was let down into the Receiver and the way of imploying the Engine was carefully made use of The success was That having drawn out a pretty quantity of Air the bubbles began to disclose themselves in the Water as in the former Experiments and though for a good while after the bubbles ascended in swarms from the lower parts of the Water and hastily broke at the top yet we prosecuted the Experiment so long without seeing any effect wrought upon the Essence Bottles that we began to dispair of seeing either of them rise but continuing to ply the Pump that little Glass whose mouth was open'd came to the top of the Water being as it were boy'd up thither by a great number of bubbles that had fastned themselves to the sides of it swimming thus with the mouth downward we could easily perceive that the internal Air above mention'd had much delated it self and thereby seem'd to have contributed to the emerging of the Glass which remain'd floating notwithstanding the breaking and vanishing of most of the contiguous bubbles being hereby incouraged to persist in pumping we observed with some pleasure that at each time we turn'd the Key the Air in the little Glass did manifestly expand it self and thrust out the water generally retaining a very protuberant surface where it was contiguous to the remaining Water And when after divers exsuctions of the Air in the Receiver that in the little Viol so dilated it self as to expel almost all the Water it turn'd up its mouth towards the surface of the Water in the Jar and there deliver'd a large bubble and then relapsed into its former floating posture And this Experiment taught us among other things that it was a work of more time and labor then we imagin'd to exhaust our Engine as much as it may be exhausted for although before the emerging of the small Viol we did as has been touch'd already think we had very considerably emptyed the Receiver because there seem'd to come out but very little or almost no sensible Air at each exsuction into and out of the Cylinder yet afterwards at each drawing down the Sucker the Air included in the Viol did manifestly dilate it self so long that it did no less then nine times turn its mouth upwards and discharge a bubble by conjecture about the bigness of a Pea after the manner newly recited But as for that Violl which had the weight in it it rose not at all So that being not able by quick pumping to gain another bubble from the Air in the swimming Glass which proceeded from some small leak in the Vessel though it held in this Experiment more stanch then was usual we thought fit to let in leasurely the Air from without upon whose admission that within the Viol shrinking into a very narrow compass the Glass did as we expected fall down to the bottom of the Jar. But being desirous before we proceeded to any new Experiment to try once more whether the little Glass that had the weight in it might not also be rais'd After we had suffer'd the Engine to remain clos'd as it was for five or six hours the Pump was again ply'd with so
but be always ready to expand it selfe where it found least resistance so was it unable to fill the Receiver any more then until the Air within was reduc'd to the same measure of Compactness with that without We may also from our two already often mention'd Experiments further deduce that since Natures hatred of a Vacuum is but Metaphorical and Accidental being but a consequence or result of the pressure of the Air and of the Gravity and partly also of the Fluxility of some other bodies The power shee makes use of to hinder a Vacuum is not as we have else-where also noted any such boundless thing as men have been pleas'd to imagine And the reason why in the former Experiments mentioned in favour of the Plenists Bodies seem to forget their own Natures to shun a Vacuum seems to be but this That in the alleadged cases the weight of that Water that was either kept from falling or impell'd up was not great enough to surmount the pressure of the contiguous Air which if it had been the Water would have subsided though no Air could have succeeded For not to repeat that Experiment of Monsieur Paschal formerly mention'd to have been try'd in a Glass exceeding 32 Foot wherein the inverted Pipe being long enough to contain a competent weight of Water that Liquor freely ran out at the lower Orifice Not to mention this I say we saw in our nineteenth Experiment that when the pressure of the ambient Air was sufficiently weaken'd the Water would â—all out apace at the Orifice even of a short Pipe though the Air could not succeed into the room deserted by it And it were not amiss if tryal were made on the tops of very high Mountains to discover with what ease a Vacuum could be made near the confines of the Atmosphere where the Air is probably but light in comparison of what it is here below But our present three and thirtieth Experiment seems to manifest not onely that the power exercis'd by Nature to shun or replenâ—sh a Vacuum is limited but that it may be determin'd even to Pounds and Ounces Insomuch that we might say such a weight Nature will sustain or will lift up to resist a Vacuum in our Engine but if an Ounce more be added to that weight it will surmount Her so much magnifi'd detestation of Vacuities And thus My Lord our Experiments may not onely answer those of the Plenists but enable us to retort their Arguments against themselves since if that be true which they alleadge that when Water falls not down according to its nature in a Body wherein no Air can succeed to fill up the place it must leave the suspension of the Liquor is made Ne detur Vacuum as they speak it will follow that if the Water can be brought to subside in such a case that deserted space may be deem'd empty according to their own Doctrine especially since Nature as they would perswade us bestirs her self so mightily to keep it from being deserted I hope I shall not need to reminde Your Lordship that I have all this while been speaking of a Vacuum not in the strict and Philosophical sense but in that more obvious and familiar one that has been formerly declar'd And therefore I shall now proceed to observe in the last place that our 33d Experiment affords us a notable proof of the unheeded strength of that pressure which is sustain'd by the Corpuscles of what we call the free Air and presume to be uncompress'd For as fluid and yielding a Body as it is our Experiment teaches us That ev'n in our Climate and without any other compression then what is at least here below Natural or to speak more properly ordinary to it it bears so strongly upon the Bodies whereunto it is contiguous that a Cylinder of this free Air not exceeding three Inches in Diameter is able to raise and carry up a weight amounting to between sixteen and seventeen hundred Ounces I said even in our Climate Aere frigido existente taâ—dius moventur Automata quaÌ„ 〈◊〉 caâ—ido adeo quidem ut Automaton quod Belâ—â—e iâ— Noâ—a Zembla agentâ—s in aedibus 〈…〉 omnino 〈…〉 Varenius Geo Genevat lib. 111. Propo 7. pag. 648. because that is temperate enough and as far as my observations assist me to conjecture the Air in many other more Northern Countries may be much thicker and able to support a greater weight which is not to be doubted of if there be no mistake in what is Recorded concerning the Hollanâ—ers that were forc'd by the Ice to Winter in Nova Zembla namely That they found there so condens'd an Air that they could not make their Clock goe ev'n by a very great addition to the weights that were wont to move it I suppose Your Lordship will readily take notice that I might very easily have discoursed much more fully and accuratly then I have done against the common opinion touching Suction and touching natures hatred of a Vacuum But I was willing to keep my self to those considerations touching these matters that might be verifi'd by our Engine it self especially since as I said at first it would take up too much time to insist particularly upon all the Reflections that may be made even upon our two last Experiments And therefore passing to the next I shall leave it to your Lordship to consider how far these tryals of ours will either confirm or disfavor the new Doctrine of several eminent Naturalists who teach That in all motion there is necessarily a Circle of Bodies as they speak moving together and whether the Circles in such motion be an Accidental or Consequential thing or no. Experiment 34. T Is a known thing to those that are convesant in the Hydrostaticks That two Bodies which in the Air are of equal weight but of unequal bulk as Gold for instance and Iron being afterwards weighed in Water will lose their Aequilibrium upon the change of the ambient Body so that the Gold will sink lower then the Iron which by reason of its greater bulk has more Water to lift or displace that it may sink By Analogy to this Experiment it seem'd probable that if two weights did in our Engine ballance each other when the Glass was full of Air upon the exsuction of a great part of that Air so notable a change in the consistence of the ambient Body would make them lose their Aequilibrium But being desirous at the same time to make a tryal for a certain Design that needs not here be mention'd we took for one of our weights a dry Bladder strongly tyed at the Neck and about half fill'd with Air that being a weight both flight and that would expand it self in the evacuated Glass and fastning that to one part of our formerly mention'd exact ballance which turns with the 32d part of a Grain we put a Metalline counterpoise into the opposite Scale and so the two weights being brought to an
Aequilibrium the ballance was convey'd into the Receiver and suspended from the Cover of it But before we proceed further we must note That presently after the laying on of the Cover the Bladder appear'd to preponderate whereupon the Scales being taken out and reduc'd very near to an Aequilibrium yet so that a little advantage remain'd on that side to which the Metalline weight belong'd they were again let down into the Receiver which was presently made fast with Plaister and a hot Iron Soon after which before the Pump was employ'd the Bladder seem'd again a little to preâ—onderate Afterwards the Air in the Glass being begun to be drawn out the Bladder began according to the formerly mention'd Observations to expand it self and manifestly to outweigh the opposite weight drawing down the Scale to which it was fastned very much beneath the other especially when the Air had swell'd it to its full extent This done we very leisurely let in the external Air and observ'd that upon the flagging of the Bladder the Scale whereto it was fastned not onely by degrees return'd to an Aequilibrium with the other but at length was a little out-weighed by it But because we suspected there might have interven'd some unheeded Circumstance in this last part of the Experiment we would not presently take out the Scales nor meddle with the Cover but leaving things as they were we perceiv'd that after a little while the Bladder began again to preponderate and by degrees to sink lower and lower for divers hours wherefore leaving the Vessel clos'd up all night we repair'd to it next Morning and found the Bladder fallen yet lower As if the very substance of it had imbibed some of the moisture wherewith the Air the Season being very rainy did then abound As Lute-strings which are made likewise of the Membranous parts of Guts strongly wreath'd are known to swell so much oftentimes as to break in rainy and wet weather Which conjecture is the more to be regarded because congruously unto it one of the company having a little warm'd the Bladder found it then lighter then the opposite weight But this must be look'd upon as a bare conjecture till we can gain time to make further tryals about it In the mean while we shall adde that without removing the Scales or the Cover of the Receiver we again caus'd the Aâ—r to be drawn out the weather contiing very moist but found not any manifest alteration in the ballance whether because the Aequilibrium was too far lost to let a small change appear we determine not But to make the Experiment with a Body less apt to be altered by the temperature of the Air then was the Bladder we brought the Scales again to an Aequilibrium with two weights whereof the one was of Lead the other of Cork And having evacuated the Receiver we observed that both upon the exsuction and after the return of the Air the Cork did manifestly preponderate and much more a while after the Air had been let in again then whilst it was kept out Wherefore in the room of the Cork we substituted a piece of Char-coal as less likely to imbibe any moisture from the Air but the event proved much the same with that newly related So that this Experiment seems more liable to Casualties then any excepting one we have made in our Engine And as it is difficult to prevent them so it seems not very easie to discover the causes of them whereof we shall therefore at present forbear mentioning our Conjectures Experiment 35. SOme Learned Mathematicians have of late ingeniously endeavored to reduce Filters to Siphons but still the true cause of the ascension of Water and other Liquors both in Siphons and in Filtration needing for ought we have yet found a clearer Discovery and Explication we were desirous to try whether or no the pressure of the Air might reasonably be suppos'd to have either the principal or at least a considerable Interest in the raising of those Liquors But because we found that we could not yet so evacuate our Receiver but that the remaining Air though but little in comparison of the exhausted would be able to impell the the Water to a greater height then is usual in ordinary Filtrations we resolved instead of a List of Cotton or the like Filtre to make use of a Siphon of Glass delineated in the third Figure consisting of three pieces two straight and the third crooked to joyn them together whose Junctures were diligently clos'd that no Air might finde entrance at them One of the Legs of this Siphon was as it should be somewhat longer then the other and was pervious at the bottom of it onely by a hole almost as slender as a hair that the Water might but very leasurely drop out of it lest it should all run out before the Experiment were compleated The other and shorter Leg of the Siphon was quite open at the end and of the same widenesse with the rest of the Pipe whose bore was about â— 4 of an Inch. The whole Siphon made up of these several pieces put together was design'd to be about a Foot and a half long that the remaining Air when the Vessel was exhausted after the wonted manner might not be able to impell the Water to the top of the Siphon which being inverted was fill'd with Water and of which the Shorter leg being let down two or three Inches deep into a Glass Vessel full of Water and the upper parts of it being fasten'd to the inside of the Cover of the Receiver we proceeded to close first and then to empty the Vessel The effect of the tryal was this that till a pretty quantity of Air had been drawn out the Water dropp'd freely out at the lower end of the lower leg of the Siphon as if the Experiment had been performed in the free Air. But afterwards the Bubbles as had been apprehended began to disclose themselves in the Water and ascending to the top of the Siphon imbodyed themselves there into one which was augmented little by little by the rising of other bubbles that from time to time broke into it but much more by its own dilatation which encreas'd proportionably to the exsuction that was made of the Air out of the Receiver So that at length the Water in the shorter Leg of the Siphon was reduc'd partly by the extraction of the ambient Air and partly by the expansion of the great Bubble at the upper part of the Siphon to be but about a Foot high if so much whereby it came to pass that the course of the Water in the Siphon was interrupted and that which remain'd in the longer Leg of it continu'd suspended there without dropping any longer But upon the turning of the Stop-cock the outward Air being let into the Receiver got into the Siphon by the little hole at which the Water formerly dropt out and traversing all the incumbent Cylinder of Water in the form
of Bubbles joyn'd it self with that Air that before possess'd the top of the Siphon To prevent the inconveniences arising from these Bubbles two Glass Pipes like the former were so placed as to terminate together in the midst of the Belly of a Glass Viol into whose Neck they were carefully fastned with Cement and then both the Viols and the Pipes being which was not done without difficulty totally fill'd with Water the Siphon describ'd in the fifth Figure was plac'd with its shorter Leg in the Glass of Water as formerly and the Experiment being prosecuted after the same manner much more Air then formerly was drawn out before the Bubbles disclosing themselves in the Water were able to disturb the Experiment because that in the capacity of the Viol there was room enough for them to stretch themselves without depressing the Water below the ends of the Pipes and during this time the Water continued to drop out of the propending Leg of the Siphon But at length the Receiver being very much emptyâ—d the passage of the Water through the Siphon ceas'd the upper ends of the Pipes beginning to appear a little above the remaining Water in the Viol whose dilated Air appear'd likewise to press down the Water in the Pipes and fill the upper part of them And hereby the continuity of the Water and so the Experiment it self being interrupted we were invited to let in the Air again which according to its various proportions of pressure to that of the Air in the Viol and the Pipes did for a good while exhibite a pleasing variety of Phaenomena which we have not now the leisure to recâ—te And though upon the whole matter there seem'd little or no cause to doubt but that if the Bubbles had not disturb'd the Experiment it would manifestly enough have appear'd that the course of Water through Siphons depends upon the pressure of the Air yet we resolv'd at our next leisure and conveniency to try the Experiment again with a quantity of Water before freed from Bubbles by the help of the same Engine This occasion I have had to take notice of Siphons puts me in minde of an odde kinde of Siphon that I caus'd to be made a pretty while ago and which has been since by an Ingenious Man of Your acquaintance communicated to divers others The occasion was this An eminent Mathematician told me one day that some inquisitive French Men whose Names I know not had observ'd That in case one end of a slender and perforated Pipe of Glass be dipt in Water the Liquor will ascend to some height in the Pipe though held perpendicular to the plain of the Water And to satisfie me that he mis related not the Experiment he soon after brought two or three small Pipes of Glass which gave me the opportunity of trying it though I had the less reason to distrust it because I remember I had often in the long and slender Pipes of some Weather Glasses which I had caus'd to be made after a somewhat peculiar fashion taken notice of the like ascension of the Liquor though presuming it might be casual I had made but little reflection upon it But after this tryal beginning to suppose that though the Water in these Pipes that were brought me rise not above a quarter of an Inch if near so high yet iâ— the Pipes were made slender enough the Water might rise to a very much greater height I caus'd several of them to be by a dexterous Hand drawn out at the flame of a Lamp in one of which that was almost incredibly slender we found that the Water ascended as it were of it self five Inches by measure to the no small wonder of some famous Mathematicians who were Spectators of some of these Experiments And this height the Water reach'd to though the Pipe were held in as erected a posture as we could For if it were inclin'd the Water would fill a greater part of it though not rise higher in it And we also found that when the inside of the Pipe was wetted before-hand the Water would rise much better then otherways But we caus'd not all our slender Pipes to be made straight but some of them crooked like Siphons And having immers'd the shorter Leg of one of these into a Glass that held some fair Water we found as we expected that the Water arising to the top of the Siphon though that were high enough did of it self run down the longer Leg and continue running like an ordinary Siphon The cause of this ascension of the Water appear'd to all that were present so difficult that I must not stay to enumerate the various Conjectures that were made at it much less to examine them especially having nothing but bare Conjectures to substitute in the room of those I do not approve We try'd indeed by conveying a very slender Pipe and a small Vessel of Water into our Engine whether or no the Exsuction of the ambient Air would assist us to finde the cause of the ascension we have been speaking of But though we imploy'd red Wine instead of Water yet we could scarce certainly perceive thorow so much Glass as was interpos'd betwixt our Eyes and the Liquor what happen'd in a Pipe so slender that the redness of the Wine was scarce sensible in it But as far as we could discern there happen'd no great alteration to the Liquor which seem'd the less strange because the Spring of that Air that might depress the Water in the Pipe was equally debilitated with that which remain'd to press upon the surface of the Water in the little Glass Wherefore in favor of his Ingenious Conjecture who ascrib'd the Phaenomenon under consideration to the greater pressure made upon the Water by the Air without the Pipe then by that within it where so much of the Water consisting perhaps of Corpuscles more pliant to the internal surfaces of the Air was contiguous to the sides it was shown that in case the little Glass Vessel that held the Water of which a part ascended into the slender Pipe were so clos'd that a Man might with his mouth suck the Air out of it the Water would immediately subside in the small Pipe And this would indeed infer that it ascended before onely by the pressure of the incumbent Air But that it may how justly I know not be objected that peradventure this would not happen in case the upper end of the Pipe were in a Vacuum And that 't is very probable the Water may subside not because the pressure of the internal Air is taken off by Exsuction but by reason of the Spring of the external Air which impels the Water it findes in its way to the Cavity deserted by the other Air and would as well impell the same Water upwards as make it subside if it were not for the accidental posture of the Glasses However having not now leisure to examine any further this Matter I shall onely minde Your
the juncture there was setled a round whitish Spot or two which at first we thought might be some stain upon the Glass but after finding it to be in divers Qualities like the Oyl and Salt of the Concrete we were Distilling we began to suspect that the most subtle and fugitive parts of the impetuously ascending Steams had penetrated the substance as they speak of the Glass and by the cold of the ambient Air were condens'd on the surface of it And though we were very backward to credit this suspition and therefore call'd in an Ingenious Person or two both to assist us in the Observation and have Witness of its event we continued a while longer to watch the escape of such unctuous Fumes and upon the whole matter unanimously concluded That all things consider'd the subtle parts of the distill'd matter being violently agitated by the excessive heat had pass'd through the Pores of the Glass widen'd by the same heat But this having never happen'd but once in any of the Distillations we have either made or seen though these be not a few it is much more reasonable to suppose that the perviousness of our Receiver to a Body much more subtle then Air proceeded partly from the looser Texture of that particular parcel of Glass the Receiver was made of for Experience has taught us that all Glass is not of the same compactness and solidity and partly from the enormous heat which together with the vehement agitation of the penetrant Spirits open'd the Pores of the Glass then to imagine that such a substance as Air should be able to permeate the Body of Glass contrary to the testimony of a thousand Chymical and Mechanical Experiments and of many of those made in our Engine especially that newly recited Nay by our fifth Experiment it appears that a thin Bladder will not at its Pores give passage even to rarified Air. And on this occasion we will annex an Experiment which has made some of those we have acquainted with it doubt whether the Corpuscles of the Air be not lesse subtle then those of Water But without examining here the reasonablenesse of that doubt we will proceed to recite the Experiment it self which seems to teach That though Air when sufficiently compress'd may perchance get entrance into narrower holes and crannies then Water yet unless the Air be forc'd in at such very little holes it will not get in at them though they may be big enough to let Water pass through them The Experiment then was this I took a fair Glass Siphon the lower end o◠whose longest Leg was drawn by degrees to such a slenderness that the Orifice at which the Water was to fall out would hardly admit a very small Pin This Siphon being inverted the matter was so order'd that a little Bubble of Air was intercepted in the slenderest part of the Siphon betwixt the little hole newly mention'd and the incumbent Water upon which it came to pass that the Air being not to be forc'd through so narrow a passage by so light a Cylinder of Water though amounting to the length of divers Inches as lean'd upon it hinder'd the further Efflux of the Water as long as I pleas'd to let it stay in that narrow place whereas when by blowing a little at the wider end of the Siphon that little parcel of Air was forc'd out with some Water the remaining Water that before continu'd suspended began freely to drop down again as formerly And if you take a Glass Pipe whether it be in the form of a Siphon or no that being for the most part of the thickness of a Mans Finger is yet towards one end so slender as to terminate in a hole almost as small as a Horse-hair and if you fill this Pipe with Water you will finde that Liquor to drop down freely enough thorow the slender Extream But if you then invert the Pipe you will finde that the Air will not easily get in at the same hole through which the Water pass'd For in the sharp end of the Pipe some Inches of Water will remain suspended which 't is probable would not happen if the Air could get in to succeed it since if the hole were a little wider the Water would immediatly subside And though it be true that if the Pipe be of the length of many Inches a great part of the Water will run down at the wider Orifice yet that seems to happen for some other reason then because the Air succeeds it at the upper and narrow Orifice since all the slender part of the Pipe and perhaps some Inches more will continue full of Water And on this occasion I remember that whereas it appears by our fifth Experiment That the Aërial Corpuscles except perhaps some that are extraordinarily fine will not passe thorow the Pores of a Lambs Bladder yet Particles of Water will as we have long since observ'd and as may be easily try'd by very closely tying a little Alcalizate Salt we us'd the Calx of Tartar made with Nitre in a fine Bladder and dipping the lower end of the Bladder in Water for if you hold it there for a competent while you will finde that there will strain thorow the Pores of the Bladder Water enough to dissolve the Salt into a Liquor But I see I am slipt into a Digression wherefore I will not examine whether the Experiment I have related proceeded from hence That the springy Texture of the Corpuscles of the Air makes them less apt to yield and accommodate themselves easily to the narrow Pores o◠Bodies then the more flexible Particles of Water or whether it may more probabiy be ascrib'd to some other Cause Nor will I stay to consider how far we may hence be assisted to ghess at the cause of the ascension of Water in the slender Pipes and Siphons formerly mention'd but will return to our Bubble and take notice That we thought fit also to endeavor to measure the capacity of the Bubble we had made use of by filling it with Water that we might the better know how much Water answered in weight to ¾ of a Grain of Air but notwithstanding all the diligence that was used to preserve so brittle a Vessel it broke before we could perfect what we were about and we were not then provided of another Bubble fit for our turn The haste I was in My Lord when I sent away the last Sheet made me forget to take notice to you of a Problem that occurr'd to my thoughts upon the occasion of the slow breaking of the Glass Bubble in our evacuated Receiver For it may seem strange since by our sixth Experiment it appears that the Air when permitted will by its own internal Spring expand it selfe twice as much as Mersennus was able to expand it by the heat even of a candent Aeolipile Yet the Elater of the Air was scarce able to break a very thin Glass Bubble and utterly unable to break one
somewhat thicker within whose cavity it was imprison'd whereas Air pent up and agitated by heat is able to perform so much more considerable effects that not to mention those of Rarefaction that are more obvious the Learned Jesuit Cabaeus he that writ of the Load-stone relates P Nicol Cab lib 4. Metâ—oâ— Aristot That he saw a Marble Pillar so vast that three men together with display'd arms could not imbrace it and that 1000 Yoke of Oxen drawing it several ways with all their strength could not have torn it assunder quite broken off in the midst by reason of some Wood which happening to be burnt just by the Pillar the heat proceeding from the neighboring Fire so rarified some Air or Spirituous Matter which was shut up in the cavities of the Marble that it broke through the solid Body of the Stone to obtain room to expand it self I remember I have taken notice that probably the reason why the included Air did not break the hermetically seal'd Bubbles that remain'd intire in our emptyed Receiver was That the Air being somewhat rarefied by the Flame imploy'd to close the Glass its Spring upon the recess of the heat grew weaker then before But though we reject not that ghess yet it will not in the present case serve the turn because that much smaller Glass bubbles exactly clos'd will by the included Air though agitated but by the heat of a very moderate Fire be made to fly in pieces Whether we may be assisted to salve this Problem by considering that the heat does from within vehemently agitate the Corpuscles of the Air and adde its assistance to the Spring they had before I shall not now examine since I here but propose a Problem and that chiefly that by this memorable Story of Cabaeus notice may be taken of the prodigious power of Rarefaction which hereby appears capable of performing stranger things then any of our Experiments have hitherto ascrib'd to it We should hence My Lord immediatly proceed to the next Experiment but that we think it fit on this occasion to acquaint You with what some former tryals though not made in our Engine have taught us concerning what we would have discover'd by the newly mention'd Bubble that broke And this the rather because a great part of this letter supposing the gravity of the Aire it will not be impertinent to determine more particularly then hitherto we have done what gravity we ascribe to it We tooke then an Aeolipile made of copper weighing six ounces five drachms and eight and forty graines this being made as hot as we durst make it for feare of melting the mettle or at least the Sodar was removed from the fire and immediately stopped with hard wax that no Aire at all might get in at the little hole wont to be left in Aeolipiles for the fumes to issue out at Then the Aeolipile being suffer'd leasurely to coole was again weighed together with the wax that stopt it and was found to weigh by reason of the additionall weight of the wax six ounces sixe drachmes and 39 graines Lastly the wax being perforated without taking any of it out of the Scale the externall Aire was suffered to rush in which it did with some noyse and then the Aeolipile and wax being againe weighed amounted to six ounces six drachmes and 50. graines So that the Aeolipile freed as farre as our fire could free it from it's Aire weighed lesse then it selfe when replenished with Air full eleven graines That is the Air containable within the cavity of the Aeolipile amounted to eleven graines and somewhat more I say somewhat more because of the particles of the Air that were not driven by the fire out of the Aeolipile And by the way if there be no mistake in the observations of the diligent Mersennus it may seeme strange that it should so much differ from 2. or 3. of ours in none of which we could rarifie the Air in our Aeolipile though made red hot almost all over and so immediately plung'd into cold water to halfe that degree which he mentions namely to 70. times it 's naturall extent unlesse it were that the Aeolipile he imploy'd was able to sustaine a more vehement heat then ours which yet we kept in so great an one that once the soder melting it fell asunder into the two Hemispheres it consists of The fore-mentioned way of weighing the Air by the help of an Aeolipile seems somewhat more exact then that which Mersennus used In that in ours the Aeolipile was not weighed till it was cold whereas in his being weighed red hot it is subject to loose of it's substance in the cooling for as we have elsewhere noted on another occasion Copper heated red hot is wont in the cooling to throw off little thin scales in such plenty that having purposely watcht a Copper Aeolipile during its refrigeration we have seen the place round about it almost covered with those little scales it had every way scatter'd which however they amount not to much ought not to be over-looked when 't is so light a body as Air that is to be weighed We will not examine whether the Aeolipile in cooling may not receive some little increment of weight either from the vapid or faline Steames that wander up and downe in the Air But we will rather mention that for the greater exactnesse we imployed to weigh our Aeolipile both when fill'd onely with Air and when replenisht with Water a paire of scales that would turne as they speak with the fourth part of a grain As to the proportion of weight betwixt Air and Water some learned men have attempted it by wayes so unaccurate that they seeme to have much mistaken it For not to mention the improbable accounts of Kepler and others The learned and diligent Ricciolus having purposely endeavoured to investigate this proportion by meanes of a thin bladder estimates the weight of the Air to that of the Water to be as one to ten thousand or thereabouts And indeed I remember that having formerly on a certain occasion weighed a large bladder full of Air and found it when the Air was all squeesed out to have contained fourteen graines of Air. I found the same bladder afterwards fill'd with water to containe very neer 14. pound of that liquor according to which account the proportion of Air to Water was almost as a graine to a pound that is as one to above 7600. To this we may adde that on the other side Galileo himselfe using another but an unaccurate way too defined the Air to be in weight to Water but as one to 4. hundred But the way formerly proposed of weighing the Air by an Aeolipile seemes by great oddes more exact and as farre as we could ghesse seemed to agree well enough with the experiment made in our Receiver Wherefore it will be best to trust our Aeolipile in the enquiry we are about and according to our observations the water
it contained amounting to one and twenty ounces and an halfe and as much Air as was requisite to fill it weighing eleven graines the proportion in gravity of Air to Water of the same bulk will be as one to 938. And though we could not fill the Aeolipile with water so exactly as we would yet in regard we could not either as perfectly as we would drive the Air out of it by heat we think the proportion may well enough hold but those that are delighted with round numbers as the phrase is will not be much mistaken if they reckon water to be neere a thousand times heavier than Air. And for further proof that we have made the proportion betwixt these two bodies rather greater then lesser then indeed it is and also to confirme our former observation of the weight of the Air we will adde That having another time put some Water into the Aeolipile before we set it on the fire that the copious vapours of the rarefied liquor might the better drive out the Air we found upon tryall carefully made that when the Aeolipile was refrigerated and the included vapours were by the cold turned againe into water which could not have happen'd to the Air that the preceeding Steams expell'd the Air when it was let in increas'd the weight of the Aeolipile as much as before namely Eleven Grains though there were already in it twelve Drachmes and a half besides a couple of Grains of Water which remain'd of that we had formerly put into it to drive out the Air. Mersennus indeed tells us that by his account Air is in weight to Water as 1 to 1356. And adds that we may without any danger believe that the gravity of Water to that of Air of a like bulk is not less then of 1300 to 1. And consequently that the quantity of Air to a quantity of Water equiponderant thereto is as 1300 to 1. But why we should relinquish our own carefully repeated tryals I see not Yet I am unwilling to reject those of so accurate and useful a Writer And therefore shall propose a way of reconciling our differing Observations by presenting that the discrepance between them may probably arise from the differing consistence of the Air at London and at Paris For our Air being more cold and moist then that which Your Lordship now breaths may be suppos'd also to be a fourth or fifth part more heavy I leave it to be consider'd whether it be of any moment that our Observations were made in the midst of Winter whereas his were perhaps made in some warmer time of the Year But I think it were not amiss that by the method formerly propos'd the gravity of the Air were observ'd both in several Countries and in the same Country in the several Seasons of the Year and differing Temperatures of the Weather And I would give something of value to know the weight of such an Aeolipile as ours full of air in the midst of Winter in Nova Zembla if that be true which we formerly took notice of namely That the Hollanders who Wintered there found that Air so thick that their Clock would not go If Your Lordship should now ask me if I could not by the help of these and our other Observations decide the Controversies of our Modern Mathematicians about the height of the Air or Atmosphere by determining how high it doth indeed reach I should answer That though it seems easie enough to shew that divers Famous and Applauded Writers have been mistaken in assigning the heigth of the Atmosphere Yet it seems very difficult precisely to define of what height it is And because we have hitherto but lightly touch'd upon a matter of such importance we presume it wil not be thought impertinent upon this occasion to annex something towards the Elucidation of it What we have already try'd and newly set down allows us to take it for granted that at least about London the proportion of gravity betwixt Water and Air of equal bulk is as of a thousand to one The next thing therefore that we are to enquire after in order to our present design is the difference in weight betwixt Water and Quick-silver And though this hath been defin'd already by the Illustrious Verulam and some other inquisitive Persons that have compar'd the weight of several Bodies and cast their Observations into Tables yet we shall not scruple to annex our own tryals about it Partly because we finde Authors considerably to dis-agree partly because we us'd exacter Scales and a somewhat more wary method then others seem to have done And partly also because having prosecuted our inquiry by two or three several ways the small difference between the events may assure us that we were not much mistaken We took then a Glass Pipe of the form of an inverted Siphon whose shape is delineated in the sixteenth Figure And pouring into it a quantity of Quick silver we held it so that the superficies of the Liquor both in the longer and shorter leg lay in a Horizontal Line denoted in the Scheme by the prick'd Line EF then pouring Water into the longer Leg of the Siphon till that was almost fill'd we observ'd the surface of the Quick-silver in that leg to be by the weight of the Water depress'd as from E to B and in the shorter leg to be as much impell'd upward as from F to G Whereupon having formerly stuck marks as well at the point B as at the opposite point D we measurâ—d both the distance DC to have the height of the Cylinder of Quick-silver which was raisâ—d above the Point D level with the surface of the Quick-silver in the other leg by the weight of the Water and the distance BA which gave us the height of the Cylinder of Water So that the distance D C amounting to 2 â—â— â—â— Inches and the height of the Water amounting 30 45 5â— Inches and the whole numbers on both sides which the annexed Fractions being reduc'd to improper Fractions of the same denomination the proportion appear'd to be the denominators beng left out as equal on both sides as 121 to 1665 or by reduction as one to 13 â—â— â—â— Besides this unusual way of determining the gravity of some things we measur'd the proportion betwixt Quick-silver and Water by the help of so exact a ballance as looses its Aequilibrium by the hundredth part of a Grain But because there is wont to be committed an oversight in weighing Quick-silver and Water especially if the Orifice of the Vessel wherein they are put be any thing wide in regard that men heed not that the surface of Water in Vessels will be concave but that of Quick-silver notably convex or protuberant To avoid this usual oversight I say we made use of a glass bubble blown very thin at the Flame of a Lamp that it might not be too heavy for the Ballance and terminating in a very slender neck wherein the concavity or convexity
of a Liquor could not be considerable This Glass weighing 23 1 â— Grains we fill'd almost with Quick-silver and fastning a mark over against the middle of the protuberant Superficies as near as our Eyes could judge we found that the Quick-silver alone weighed 299 â— 3â— Grains Then the Quick-silver being pour'd out and the same Glass being fill'd as full of common Water we found the Liquor to weigh 21 7 8 Grains Whereby it appear'd that the weight of Water to Quick-silver is as one to 13 â—9 2â— Though our Illustrious Verulam questionless not for want of Judgement or Care but of exact Instruments makes the proportion betwixt those two Liquors to be greater then of 1 to 17. And to adde that upon the by since Quick-silver and well rectified Spirit of Wine are how justly I say not accounted the one the heaviest and the other the lightest of Liquors we thought to fill in the same Glass and with the same Scales to observe the difference betwixt them which we found to be as of 1 to 16 64â— â—0â—4 whereby it appear'd That the difference betwixt Spirit of Wine that may be made to burn all away such as was ours and common Water is as betwixt 1 and 1 â—â— â—â—â— We might here take occasion to admire that though Water as appear'd by the Experiment formerly mention'd of the Pewter Vessel seems not capable of â—ny considerable condensation and seems not to have interspers'd in it any store of Air yet Quick-silver of no greater bulk then Water should weigh near fourteen times as much But having onely pointed at this as a thing worthy of consideration we will proceed in our inquiry after the heigth of the Atmosphere And to avoid the trouble of Fractions we will assume that Quick-silver is fourteen times as heavy as Water since it wants so little of being so Wherefore having now given us the proportion of Air to Water and Water to Quick-silver it will be very easie to finde the proportion betwixt Air and Quick-silver in case we will suppose the Atmosphere to be uniformly of such a consistence as the Air we weighed here below For since our Engine hath sufficiently manifested that 't is the Aequilibrium with the external Air that in the Torricellian Experiment keeps the Quick-silver from subsiding And since by our accurate Experiment formerly mention'd it appears that a Cylinder of Mercury able to ballance a Cylinder of the whole Atmosphere amounted to near about thirty Inches and since consequently we may assume the proportion of Quick-silver to Air to be as fourteen thousand to one it will follow that a Cylinder of Air capable to maintain an Aequilibrium with a Mercurial Cylinder of two Foot and an half in height must amount to 35000 Feet of our English Measure and consequently reckoning five Foot to a Geometrical Pace and one thousand such Paces to a Mile to seven full Miles But this as we lately intimated proceeds upon the supposition that the Air is every where of the same consistence that we found it near the surface of the Earth but that cannot with any safety be concluded not onely for the reason I finde to have been taken notice of by the Antients and thus exprest in Seneca Omnis Aër says he quo propior est terris hoc crassior Senec Nat quest lib. 4. cap. 10. quemadmodum in aqua in omni humore faex ima est ita in Aëre spississima quaeque desidunt but much more because the springy Texture of the Aërial Corpuscles makes them capable of a very great compression which the weight of the incumbent part of the Atmosphere is very sufficient to give those that be undermost and near the surface of the Earth And if we recall to minde those former Experiments whereby we have manifested That Air much rarefied without heat may easily admit a further rarefaction from heat and that the Air even without being expanded by heat is capable of being rarefied to above one hundred and fifty times the extent it usually possesses here below How can it be demonstrated that the Atmosphere may not for ought we know or at least for ought can be determin'd by our Statical and Mechanical Experiments rise to the height of Five and twenty German Leagues if not of some hundred of common Miles And this conjecture it self may appear very injurious to the height whereunto Exhalations may ascend Ricciol Alma Nov Tom 2. lib. 10 sect 6. prop. 50. Ex magnan lib. 1. Perspective horarie prop 38. if we will allow that there was no mistake in that strange Observation made at Tolous in a clear Night in August by the diligent Mathematician Emanuel Magnan and thus Recorded by Ricciolus for I have not at hand the Authors own Book Vidit says he ab hor a undecima post meridiem usque ad mediam noctem Lunâ infra horizontem posit â nubeculam quandam lucidam prope Meridianum fere usque ad Zenith diffusam quae consideratis omnibus non poterat nisi à sole illuminari ideoque altior esse debuit tota umbra terrae Addit continues Ricciolus simile quid evenisse Michaeli Angelo Riccio apud Sabinos versanti nempe viro in Mathesi eruditissimo Various Observations made at the feet tops and interjacent parts of high Mountains might perchance somewhat assist us to make an estimate in what proportion if in any certain one the higher Air is thicker then the lower and ghess at the dis-form consistence as to laxity and compactness of the Air at several distances from us And if the difficulties about the refractions of the Celestial Lights were satisfactorily determin'd that might also much conduce to the placing due limits to the Atmosphere whose Dimensions those Observations about Refractions seem hitherto much to contract But for the present we dare not pronounce any thing peremptorily conâ—cerning the height of it but leave it to further inquiry contenting our selves to have manifested the mistake of divers eminent Modern Writers who will not allow the Atmosphere to exceed above two or three Miles in height as the Famous Kepler will not the Aër refractivus and to have rendred a reason why in the mention we made in the Notes upon the first Experiment touching the height of the Atmosphere we scrupled not to speak of it as if it might be many Miles high WE will now proceed to recite a Phaenomenon Experiment 37. which though made amongst the first we thought fit not to mention till after many others that we might have the opportunity to observe as many Circumstances of it as we could and so present Your Lordship at once most of what we at several times have taken notice of concerning so odde a Phaenomenon Our Engine had not been long finish'd when at the first leasure we could steal from our occasions to make tryal of it we caus'd the Air to be pump'd out of the Receiver and whil'st I was busied in entertaining a Learned
force in Water expos'd to Congelation may be gather'd not onely from what may be often observ'd in Winter of the bursting of Glasses too close stopp'd fill'd with Water or aqueous Liquors but by Instances as much more considerable as less obvious For I remember that an Ingenious Stone-cutter not long since complain'd to me That sometimes through the negligence of Servants the Rain being suffered to soak into Marble Stones the supervening violent Frosts would burst the Stones to the Professors no small damage And I remember another Tradesman in whose House I had Lodgings was last Winter complaining that even Implements made of Bell-metal being carelesly expos'd to the wet have been broken and spoil'd by the Water which having gotten into the little Cavities and Crannies of the Metal was there afterwards frozen and expanded into Ice And to these Relations In lâ—b 4. 〈…〉 we can adde one of the formerly mention'd Cabaeus's whereby they not onely may be confirm'd but are surpass'd For he tells us That he saw a huge Vessel of exceeding hard Marble split asunder by congel'd Water whose Rarefaction says our Author prov'd so vehement that the hardness of the Stone yielded to it and so a Vessel was broken which would not have been so by 100 Yoke of Oxen drawing it several ways I know My Lord that to solve this Problem it will be said That Congelation does not as is commonly but erroneously presum'd reduce water into less room then it possess'd before but rather makes it take up more And I have elsewhere prov'd by particular Experiments That whether or no Ice may be truly said to be Water rarefi'd for that seems questionable it may be said to take up more room then the Water did before Glaciation But though we grant that freezing makes Water swell yet how Cold which in Weather-Glasses manifestly condences the Air should expand either the Water or the intercepted Air so forcibly as to perform such things as we have newly related will yet remain a Problem Experiment 39. WE took an Oval Glass clear and least it should break pretty strong with a short Neck at the obtuser end through this Neck we thrust almost to the bottom a Pipe of Glass which was closely Cemented to the newly mention'd Neck the upper part of which Pipe was drawn in some places more slender then a Crows Quill that the changes of the Air in that Glass Egge might be the more conspicuous Then there was convey'd into the Glass five or six Spoonfulls of Water part of which by blowing Air into the Egge was rais'd into the above-mention'd slender part of the Pipe so that the Water was interpos'd between the external Air and that included in the Egge This Weather-glass delineated in the fourteenth Figure was so plac'd and clos'd up in the cavity of one of our small Receivers that onely the slender part of the Pipe to the heigth of four or five Inches passing thorow a hole in the Cover remain'd expos'd to the open Air. The Pump being set a work upon the Exsuction of the Air the Water in the Pipe descended about a quarter of an Inch and this upon two or three reiterated tryals which seem'd sufficiently to argue that there was no heat produc'd in the Receiver upon the Exsuction of the Air For even a little heat would probably have been discover'd by that Weather-glass since upon the bare application of my hand to the outside of the Receiver the warmth having after some time been communicated or propagated through both the Glasses and the interval betwixt them to the Imprison'd Air did so rarifie that as to inable it by pressing upon the subjacent Water to impel that in the Pipe very many times as far as it had fallen downwards upon the Exsuction of the Air. Yet shall not we conclude that in the cavity of the Receiver the cold was greater after the Exsuction of the Air then before For if it be demanded what then could cause the fore-mention'd subsiding of the Water it may be answered That probably it was the reaching of the Glass Egge which upon the Exsuction of the ambient Air was unable to resist altogether as much as formerly the pressure of the included Air and of the Atmosphere which by the intervension of the Water press'd upon its concave surface Which seem'd probable as well by what was above deliver'd in the Experiment about the breaking of the Glass by the force of the Atmosphere as by this notable Circumstance which we divers times observ'd That when by drawing the Air out of the Receiver the Water in the Pipe was subsided upon the readmission of the external Air to press against the convex surface of the Egge the Water was presently re-impell'd to its former height Which would perhaps appear less strange to Your Lordship if You had yet seen what we have heretofore taught in another Treatise concerning the Spring that may be discover'd in Glass as rigid and â—â—â—lexible a Body as it is generally esteem'd And in the mean while it may seâ—ve the turn to cause a Glass Egge to be blown exceeding thin and then having broken it try how far you can by degrees bend some narrow parts of it and how readily upon the removal of what kept it bent it will restore it self to its former state or posture But to return to our Experiment From thence it seems probable either that there succeeds no Body in the room of the Air drawn out of our Receiver or that it is not every Matter that is subtle enough readily to pass through the Pores of Glass that is always agitated enough to produce Heat where ever it is plentifully found So that if no Vacuum be to be admitted this Experiment seems to invite us to allow a great disparity either as to bulk or as to agitation or as to both betwixt some parts of the Etherial Substance and those that are wont here below to produce Heat and Fire We try'd also what Operation the drawing out of the Air would have upon Camphire that being a Body which though not a Liquor consists of such Volatile or Fugitive parts that without any greater agitation then that of the open Air it self they will copiously flie away But we found not that even this loose Body was sensibly alter'd by the Exsuction of the ambient Air. Experiment 40. IT may seem well worth trying whether or no in our exhausted Glass the want of an ambient Body of the wonted thicness of Air would disable even light and little Animals as Bees and other winged Insects to flie But though we easily foresaw how difficult it would be to make such an Experiment yet not to omit our endeavors we procur'd a large Flesh-fly which we convey'd into a small Receiver We also another time shut into a great Receiver a Humming Bee that appear'd strong and lively though we had rather have made the tryal with a Butter-fly if the cold Season would have permitted
secundines may live a good while without a Respiration but in case after having once begun to breath its respiration be stoppâ—d it will presently die We are far from pretending to solve so hard a Problem but this we try'd in relation to it We took a Bitch that was said to be almost ready to whelp and having caus'd her to be hang'd we presently open'd her Abdomen and found four Puppeys in her Womb one of these we took out and having freed him from the Teguments thâ—â— involv'd him and from the Liquor he swam in we observ'd that he quickly open'd his Mouth very wide mov'd his Tongue and exercis'd Respiration then we open'd both his Abdomen and his Chest and cut assunder the Diaphragme notwithstanding which he seemâ—d often to endeavor Respiring and mov'd in a notable manner both the Intercostal Muscles part of the Diaphragme the Mouth and the Tongue But that which we mention this Puppy for was this That being desirous to try whether the other yong ones that had not yet breath'd at all would long survive this or no we took them also out of the Womb and having open'd them found none of them so much alive as to have any perceptible motion in his heart whereas the heart of that Puppy which had once enjoy'd the benefit of Respiration continu'd beating so long that we our selves observ'd the Auricle to beat after five or six hours and a Servant that staid up and watch'd it after we were gone to Bed affirm'd That he saw the Pulsation continue about two hours longer I shall leave it to others to make Reflections upon this Observation compar'd with Dr. Harvey's Problem It is much doubted whether Fishes breath under Water and we shall not take upon us as yet to determine the Question either way because we have not yet been able to procure little Fishes alive to make Experiments upon That such as are not Setaceous for such manifestly breath have not Respiration properly so call'd such as is exercis'd by four footed Beasts and Birds may be argu'd from their having but one cavity in their Hearts from their want of Lungs whence they are observ'd to be Mute unless we say what is not altogether absurd That their Gills seem somewhat Analogous as to their use to Lungs But that on the other side Air is necessary to the Lives even of Fishes and that therefore 't is probable they have some obscure kinde of Respiration seems manifest by two or three Observations and Experiments mention'd by divers Authors who tell us That Fishes soon die in Ponds and Glasses quite fill'd with Water if the one be so frozen over and the other so closely stopp'd that the Fishes cannot enjoy the benefit of the Air if we allow them to be true But because these Relations are not wont to be deliver'd by Writers upon their own Knowledge as I shall not reject them so I dare not build upon them till I have opportunity to examine them by experience In the mean time we will adde That our Engine has taught us two things that may illustrate the matter in hand The one That there is wont to lurk in Water many little parcels of interspers'd Air whereof it seems not impossible that Fishes may make some use either by separating it when they strain the Water thorow their Gills or by some other way The other what may be collected from the following Experiment We took a large Eele being able to procure no other Fish alive and removing it out of the Vessel of Water wherein it was brought us into our great Receiver we caus'd the Air to be pump'd out and observ'd That the Eele after some motion to and fro in the Glass seem'd somewhat dis-compos'd and that when we had prosecuted the Exsuction of the Air somewhat obstinately she turn'd up her Belly as dying Fishes are wont to do and from thence-forward lay altogether moveless just as if she were stark dead and though I did not think her so yet the continuing in that Posture even after the Cover of the Receiver was taken off whereby the Air was let in I shoulâ— have been of the Opinion of the By standers if the Diffidence I am wont to exercise in trying Experiments especially such as are not usual had not invited me to take the Fish out of the Receiver upon which she shew'd her self by her vivid motions as much alive as before But that is most strange which we observ'd of a great gâ—ay House Snail as they call it which being closâ—d up in one of our small Receivers did not onely not fall down from the side of the Glass upon the drawing-out of the Air For that may be ascrib'd to the tenacity of the Liquor wherewith Sâ—â—il use to stick themselves even to the smoothest Bodies but was not so much as depriv'd of progressive motion by the recess of the Air Though except this Snail we never put any living Creature into our Receiver whom it did not either kill or at least reduce to seem ready to dye But as we shall not here examine what interest the glutinous and uneasily dissipable Nature of the Juices of Snails may have on this event so whether this escape of our Eele be to be ascrib'd to the particular and vivacious Nature of this sort of Fishes or to this That the Air is not indeed necessary to the life of Fishes or finally to this That though these Animals need some Air yet they need so little that that which could not be drawn out of the Receiver might at least for a while suffice them we will not now determine Nor are we at leisure to examine that Paradox of Hippocrates which some Learned Physitians have of late reviv'd namely That the Foetus respires in the Womb For on the one side it seems very difficult to conceive how Air should traverse the Body of the Mother and the Teguments of the Childe And since Nature has in new-born Babes contriv'd peculiar and temporary Vessels that the Blood may circulate thorow other Passages then it is wont to do in the same Individuals when they come to have the free use of their Lungs it seems unlikely thâ—t Infants in the Womb do properly respire But then since our Experiments have manifested That almost all kinde of Liquors do as well as Water abound with interspers'd Corpuscles of Air it seems not altogether absurd to say That when the Foetus is grown big he may especially the upper part of the involving Amnios being destitute of Liquor and fill'd onely with an halituous Substance exercise some obscure Respiration especially since 't is not as many wise Men think it a Fable That Children have been heard to cry in the Mothers Womb. For though it happens exceeding rarely yet sometimes it has been observ'd And I know a young Lady whose Friends when she was some Years since with Childe complain'd to me That she was several times much frighted with the Cryes of her Infant
themselves such then it was whilst the wonted pressure of the Air continued unremoved It may indeed be suspected that those vast numerous Bubbles proceeded not from the action of the Menstruum upon the Corall but from the suddain emersion of those many little parcels of air that as we formerly observd are wont to be dispers'd in liquors without excluding Spirit of Vinegar but having had this suspition before we tryd the Experiment we convey'd our distill'd Vinager alone into the Receiver and kept it awhile there to free it from its Bubbles which were but very small before ever we put the Corall into it It may be suspected likewise that the agitation of the Liqour necessary following upon the shaking of the Glass by pumping might occasion the recited Ebullition but upon tryal made there appear'd not any notable change in the liquor or its operation though the containing Vessel were shaken provided no Air were suck'd out of it The former Experiment was another time tryd in another small Receiver with Coral grosly poudred and the success was very much alike scarce differing in any thing but that the Coral being reduc'd to smaller parts upon the ebullition of the liquor so many little lumps of Coral would be carryed Boy'd up by the emerging Bubbles as sometimes to darken the Viol though the same Coralline Corpuscles would be let fall again upon the letting in of the Air. Something also we try'd in our great Receiver concerning the solution of Metals in Aqua fortis and other Corrosive Liquors but partly the stink and partly some accidents kept us from observing any thing peculiar remarkable about those Solutions One thing we must not omit that when the Spirit of Vinager was boiling upon the Coral we took off the Cover of the Receiver and took out the Viol but could not finde that notwithstanding so very late an Ebullition the Liquor had any heat great enough to be at all sensible to our hands Experiment 43. WE will now subjoyn an Experiment which if the former did not lessen the wonder of it would probably appear very strange to Your Lordship as it did to the first Spectators of it The Experiment was this We caus'd Water to be boyl'd a pretty while that by the heat it might be freed from the latitant Air so often already taken notice of in common Water Then almost filling with it a Glass Viol capable of containing near four Ounces of that Liquor we convey'd it whil'st the Water was yet hot into one of our small Receivers big enough to hold about a pound of Water and having luted on the Cover we caus'd the Air to be drawn out Upon the two first Exsuctions there scarce appear'd any change in the Liquor nor was there any notable alteration made by the third but at the fourth and afterwards the Water appear'd to boyl in the Viol as if it had stood over a very quick Fire for the Bubbles were much greater then are usually found upon the Ebullition of very much more Water then was contain'd in our Viol. And this Effervescence was so great in the upper part of the Water that the Liquor boyling over the top of the Neck a pretty deal of it ran down into the Receiver and sometimes continued though more languidly boyling there Prosecuting this Experiment we observ'd that sometimes after the first Ebullition we were reduc'd to make divers Exsuctions of the Air before the Liquor would be brought to boyl again But at other times as often as the Key was turn'd to let the Air pass from the Receiver into the Pump the Effervescence would begin afresh though the Pump were ply'd for a pretty while together which seem'd to argue that the boyling of the Water proceeded from hence That upon the withdrawing the pressure of the incumbent Air either the Fiery Corpuscles or rather the Vapors agitated by the heat in the Water which last what we have formerly noted touching the rarefied Water of an Aeolipile manifest to be capable of an Elastical Power were permitted to expand themselves mightily in the evacuated Receiver and did in their tumultuous Dilatio lift up as the Air is wont to do the uppermost part of the Water and turning it into Bubbles made the Water appear boiling This conjecture was further confirm'd by these additional Circumstances First The Effervescence was confin'd to the upper part of the Water the lower remaining quiet unless the Liquor were but shallow Next although sometimes as is already noted the Ebullition began again after it had ceas'd a pretty while which seem'd to infer That some concurrent cause whatever that were did a little Modifie the operation of heat yet when the water in the Viol could by no pumping be brought to boil any more the self-same Water being in the very same Viol warm'd again and reconvey'd into the Pneumatical Glass was quickly brought to boyl afresh and that vehemently and long enough not to mention that a new parcel taken out of the same parcel of the boyled Water with the former and put in cold could by no pumping be brought to the least shew of Effervescence Besides having try'd this Experiment in hot Sallet Oyl being a much more tenacious Liquor and requiring a stronger heat to make it boil could not be brought to an Effervescence in our Reciver whereas the Chymical Oyl of Turpentine being thinner and more volatile was presently made to boyl up till it reach'd four or five times its former height in the Viol in whose bottom it lay and continuâ—d boyling till it was almost reduc'd to be but luke-warm Wine also being a more thin and spirituous Liquor then Water being convey'd in hot instead of the Oyl did as I remember at the very first Exsuction begin to boyl so vehemently that in a short time that the Pump was kept moving four parts of five by our ghess boyl'd over out of the Viol though it had a pretty long Neck On which occasion we will adde that even the Water it self near one half would sometimes boyl over into the Receiver before it became luke-warm And it was also remarkable that once when the Air had been drawn out the Liquor did upon a single Exsuction boyl so long with prodigiously vast Bubbles that the Effervescence lasted almost as long as was requisite for the rehearsing of a Pater Noster Now the Experiment having been try'd more then once and found to succeed as to the main seems much to countenance the conjecture we made at the beginning of this Letter where we told your Lordship That perhaps the pressure of the Air might have an interest in more Phaenomena then men have hitherto thought For as we had not then made this Experiment so now we have made it it seems to teach That the Air by its stronger or weaker pressure may very much Modifie as the School-men speak divers of the Operations of that vehement and tumultuous Agitation of the small parts of Bodies