much more or less then one of the twenty six divisions this Air took up By this means after a tryal or two we were inabled to convey to the top of the Glass a bubble of Air equal enough as to sight to one of those Divisions Then the open end of the Tube being put into a small Viol whose bottom was cover'd with Water about half an Inch high we included both Glasses into a small and slender Receiver and caused the Pump to be set awork The event was That at the first exsuction of the Air there appear'd not any expansion of the bubble comparable to what appear'd at the second and that upon a very few exsuctions the bubble reaching as low as the surface of the subjacent Water gave us cause to think that if our Pipe had not been broken it would have expanded it self much further Wherefore we took out the little Tube and found that besides the twenty six divisions formerly mention'd the Glass bubble and some part of the Pipe to which the divided Parchment did not reach amounted to six divisions more Whereby it appears that the air had taken up one and thirty times as much room as before and yet seem'd capable of a much greater expansion if the Glass would have permitted it Wherefore after the former manner we let in another bubble that by our guess was but half as big as the former and found that upon the exsuction of the Air from the Receiver this little bubble did not onely fill up the whole Tube but in part break through the subjacent Water in the Viol and thereby manifest it self to have possessed sixty and odde times its former room These two Experiments are mention'd to make way for the more easie belief of that which is now to follow Finding then that our Tube was too short to serve our turn we took a slender Quill of Glass which happen'd to be at hand though it were no so fit for our purpose as we could have wished in regard it was three or four times as big at one end as the other This Pipe which was thirty Inches long being Hermetically seal'd at the slender end was almost filled with Water and after the above-related manner a bubble was convey'd to the top of it and the open extream was put into a Viol that had a little fair Water at the bottom Then the Cover by means of a small hole purposely made in it for the Glass Pipe to stand out at was cemented on to the Receiver and the Pump being set awork after some exsuctions not onely the Air manifestly appear'd extended below the surface of the subjacent Water but one of the By-standers affirms that he saw some bubbles come out at the bottom of the. Pipe and break through the Water This done we left off Pumping and observ'd how at the unperceiv'd leaks of the Receiver the Air got in so fast that it very quickly impell'd up the Water to the top of the Tube excepting a little space whereinto that bubble was repuls'd which had so lately possess'd the whole Tube this Air at the slender end appear'd to be a Cylinder of ⅚ parts of an Inch in length but when the Pipe was taken out and turn'd upside down it appear'd at the other end inferior in bulk to a Pea. These things being thus done we took to make the Experiment the more exactly a small pair of Scales such as Gold-Smiths use to weigh Gold Coyn in and weighing the Tube and Water in it we found them to amount to one Ounce thirty Grains and an half Then we pour●d in as much Water as serv'd to fill up the Tube wherein before we had left as much space unfill'd up as was possess'd by the bubble and weighing again the Pipe and Water we found the weight increas'd onely by one Grain Lastly pouring out the Water and carefully freeing the Pipe from it which yet we could not perfectly doe we weighed the Glass alone and found it to want two Drachmes and thirty two Grains of its former weight So that the bubble of Air taking up the room but of one Grain in weight of Water it appear'd that the Air by its own 〈◊〉 〈◊〉 〈◊〉 〈◊〉 〈◊〉 was so ●arified as to take up one hundred fifty two times as much room as it did before though it were then compress'd by nothing but the ordinary pressure of the contiguous Air. I know not whether it be requisite to take notice that this Experiment was made indeed in a moist Night but in a Room in whose Chimney there was burning a good Fire which did perhaps somewhat rarifie the Air of which the bubble consisted It has seem'd almost incredible which is related by the Industrious Mersennus That the Air by the violence of heat though as great as our Vessels can support without fusion can be so dilated as to take up seventy times as much room as before Wherefore because we were willing to have a confirmation of so strange a Phaenomenon we once more convey'd into the Tube a bubble of the bigness of the former and prosecuting the Experiment as before with the same Water we observed that the Air did manifestly stretch it self so far as to appear several times a good way below the surface of the Water in the Viol and that too with a surface very convex toward the bottom of the Pipe Nay the Pump being ply'd a little longer the Air did manifestly reach to that place where the bottom of the Tube lean'd upon the bottom of the Viol and seem'd to knock upon it and rebound from it Which Circumstances we adde partly that the Phaenomenon we have been relating may not be imputed to the bare subsiding of the Water that fill'd the Tube upon the taking off the pressure of the ambient Air. And partly also that it may appear that if our Experiments have not been as accurately made as with fitter Instruments might perhaps be possible yet the expansion of the Air is likely to be rather greater then lesser then we have made it Since the Air was able to press away the Water at the bottom of the Pipe though that were about two Inches below the surface of the Water that was then in the Viol and would have been at least as high in the Pipe if the Water had onely subsided and not been depressed So that it seems not unlikely that if the Experiment could be so made as that the expansion of the Air might not be resisted by the Neighboring Bodies it would yet inlarge its bounds and perhaps stretch it self to two hundred times its former bulk if not more However what we have now try'd will I hope suffice to hinder divers of the Phaenomena of our Engine from being distrusted Since in that part of the Atmosphere we live in that which we call the free Air and presume to be so uncompress'd is crouded into so very small a part of that space which if it were not hindred

the Organs And to the Objection to which I foresaw this ghess to be liable namely That no heat intervening there appear'd nothing that should raise the Water into exhalations and give them an impulse I thought it might be said that motion alone if vehement enough may without sensible heat suffice to break Water into very minute parts and make them ascend upwards if they can no where else more easily continue their agitation For I remember that Travelling betwixt Lyons and Geneva I saw not very far out of the Way a place where the River of Rhone coming suddenly to be streighten'd betwixt two Rocks so near each other that a Man may if my Memory fail me not stand astride upon both at once that rapid Stream dashing with great impetuosity against its Rocky Boundaries does break part of its Water into such minute Corpuscles and put them into such a motion that Passengers observe at a good distance off as it were a Mist arising from that place and ascending a good way up into the Air. Such I say was my suspicion touching the Wind we have been considering but it seems something odde that aqueous Vapors should like a dry Wind pass through so long and tortuous a Pipe of Lead as that describ'd by our Author since we see in the Heads of Stills and the Necks of Aeolipiles how quickly such vapors are even by a very little cold recondensed into Water But to this also something may be speciously reply'd wherefore contenting my self to have mention'd our Authors Experiment as a plausible though not demonstrative proof that Water may be transmuted into Air. We will pass on to mention in the third place another Experiment which we try'd in order to the same enquiry We took a clear Glass bubble capable of containing by ghess about three Ounces of Water with a Neck somewhat long and wide of a Cylindrical form this we fill'd with Oyl of Vitriol and fair water of each almost a like quantity and casting in half a dozen small Iron Nails we stopt the mouth of the Glass which was top-full of Liquor with a flat piece of Diapalma provided for the purpose that accommodating it self to the surface of the water the Air might be exquisitely excluded and speedily inverting the Viol we put the Neck of it into a small wide-mouth'd Glass that stood ready with more of the same Liquor in it to receive it As soon as the neck had reach'd the bottom of the Liquor it was dipp'd into there appear'd at the upper part which was before the bottom of the Viol a bubble of about the bigness of a Pea which seem'd rather to consist of small and recent bubbles produc'd by the action of the dissolving Liquor upon the Iron then any parcel of the external Air that might be suspected to have got in upon the inversion of the Glass especially since we gave time to those little Particles of Air which were carried down with the Nails into the Liquor to fly up again But whence this first bubble was produced is not so material to our Experiment in regard it was so small For soon after we perceiv'd the bubbles produced by the action of the Menstruum upon the Metal ascending copiously to the bubble already named and breaking into it did soon exceedingly increase it and by degrees depress the water lower and lower till at length the substance contain'd in these bubbles possessed the whole cavity of the Glass Viol and almost of its Neck too reaching much lower in the Neck then the surface of the ambient Liquor wherewith the open-mouth'd Glass was by this means almost replenished And because it might be suspected that the depression of the Liquor might proceed from the agitation whereinto the exhaling and imprison'd steams were put by that heat which is wont to result from that action of corrosive salts upon Metals we suffered both the Viol and the open-mouthed Glass to remain as they were in a Window for three or four days and nights together but looking upon them several times during that while as well as at the expiration of it the whole cavity of the Glass bubble and most of its Neck seem'd to be possess'd by Air since by its spring it was able for so long to hinder the expell'd and ambient Liquor from regaining its former place And it was remarkable that just before we took the Glass bubble out of the other Glass upon the application of a warm hand to the convex part of the bubble the Imprison'd substance readily dilated it self like Air and broke through the Liquor in divers bubbles succeeding one another Having also another time try'd the like Experiment with a small Viol and with Nails dissolv'd in Aquafortis we found nothing incongruous to what we have now deliver'd And this Circumstance we observ'd that the newly generated steams did not onely possess almost all the whole cavity of the Glass but divers times without the assistance of the heat of my hand broke away in large bubbles through the ambient Liquor into the open Air So that these Experiments with corrosive Liquors seem'd manifestly enough to prove though not that Air may be generated out of the Water yet that in general air may be generated anew Lastly to the foregoing Arguments from Experience we might easily subjoyn the Authority of Aristotle and of his followers the Schools who are known to have taught that Air and Water being Symbolizing Elements in the quality of moisture are easily transmutable into one another But we shall rather to the foregoing Argument adde this drawn from Reason That if as Leucippus Democritus Epicurus and others follow'd by divers modern Naturalists have taught the difference of Bodies proceeds but from the various Magnitudes Figures Motions and Textures of the small parts they consist of all the qualities that make them differ being deducible from thence there appeares no reason why the minute parts of Water and other Bodies may not be so agitated or connected as to deserve the name of Air. For if we allow the Cartesian Hypothesis according to which as we noted at the beginning of this Letter the Air may consist of any terrene or aqueous Corpuscles provided they be kept swimming in the interfluent Celestial Matter it is obvious that Air may be as often generated as Terrestrial Particles minute enough to be carried up and down by the Celestial Matter ascend into the Atmosphere And if we will have the Air to be a congeries of little slender Springs it seems not impossible though it be difficult that the small parts of divers Bodies may by a lucky concourse of causes be so connected as to constitute such little Springs since as we note in another Treatise Water in the Plants it nourishes is usually contriv'd into Springy Bodies and even the bare alter'd position and connexion of the parts of a Body may suffice to give it a Spring that it had not before as may be seen in a thin and

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-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

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

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 po●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

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 measur●d both the distance DC to have the height of the Cylinder of Quick-silver which was rais●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 ●● ●● Inches and the height of the Water amounting 30 45 5● 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 ●● ●● 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

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 continu●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