Experiments made in pursuance of those PHILADELPHIA, March 14, 1755. I. ELECTRIC atmospheres, that flow round non-electric bodies, being brought near each other, do not readily mix and unite into one atmosphere, but remain separate, and repel each other. This is plainly seen in suspended cork-balls, and other bodies electrified. II. An electric atmosphere not only repels another electric atmosphere, but will also repel the electric matter contained in the substance of a body approaching it; and without joining or mixing with it, force it to other parts of the body that contained it. This is shown by some of the following experiments. III. Bodies electrified negatively, or deprived of their natural quantity of electricity, repel each other, (or at least appear to do so, by a mutual receding) as well as those electrified positively, or which have electric atmospheres. This is shown by applying the negatively charged wire of a phial to two cork-balls, suspended by silk threads, and many other experiments. PREPARATION. Fix a tassel of fifteen or twenty threads, three inches long, at one end of a tin prime conductor (mine is about five feet long, and four inches diameter) supported by silk lines. Let the threads be a little damp, but not wet. EXPERIMENT I. Pass an excited glass tube near the other end of the prime conductor, so as to give it some sparks, and the threads will diverge. Because each thread, as well as the prime conductor, has acquired an electric atmosphere, which repels and is repelled by the atmospheres of the other threads: if those several atmospheres would readily mix, the threads might unite and hang in the middle of one atmosphere, common to them all. Rub the tube afresh, and approach the prime conductor therewith, crossways, near that end, but not nigh enough to give sparks; and the threads will diverge a little more. Because the atmosphere of the prime conductor is pressed by the atmosphere of the excited tube, and driven towards the end where the threads are, by which each thread acquires more atmosphere. Withdraw the tube, and they will close as much. They close as much, and no more; because the atmosphere of the glass tube not having mixed with the atmosphere of the prime conductor, is withdrawn entire, having made no addition to, or diminution from it. Bring the excited tube under the tuft of threads, and they will close a little. They close, because the atmosphere of the glass tube repels their atmosphere, and drives part of them back on the prime conductor. Withdraw it, and they will diverge as much. For the portion of atmosphere which they had lost returns to them again. EXPERIMENT II. Excite the glass tube, and approach the prime conductor with it, holding it across, near the end opposite to that on which the threads hang, at the distance of five or six inches. Keep it there a few seconds, and the threads of the tassels will diverge. Withdraw it, and they will close. They diverge, because they have received electric atmospheres from the electric matter before contained in the substance of the prime conductor; but which is now repelled and driven away, by the atmosphere of the glass tube, from the parts of the prime conductor opposite and nearest to that atmosphere, and forced out upon the surface of the prime conductor at its other end, and upon the threads hanging thereto. Were it any part of the atmosphere of the glass tube that flowed over and along the prime conductor to the threads, and gave them atmospheres (as is the case when a spark is given to the prime conductor from the glass tube) such part of the tube's atmosphere would have remained, and the threads continue to diverge; but they close on withdrawing the tube, because the tube takes with it all its own atmosphere, and the electric matter, which had been driven out of the substance of the prime conductor, and formed atmospheres round the threads, is thereby permitted to return to its place. Take a spark from the prime conductor near the threads when they are diverged as before, and they will close. For by so doing you take away their atmospheres, composed of the electric matter driven out of the substance of the prime conductor, as aforesaid, by the repellency of the atmosphere of the glass tube. By taking this spark you rob the prime conductor of part of its natural quantity of the electric matter, which part so taken is not supplied by the glass tube, for when that is aferwards withdrawn, it takes with it its whole atmosphere, and leaves the prime conductor electrised negatively, as appears by the next operation. Then withdraw the tube, and they will open again. For now the electric matter in the prime conductor, returning to its equilibrium, or equal diffusion, in all parts of its substance, and the prime conductor having lost some of its natural quantity, the threads connected with it lose part of theirs, and so are elec. trised negatively, and therefore repel each other, by Pr. III. Approach the prime conductor with the tube near the same place as at first, and they will close again. Because the part of their natural quantity of electric fluid, which they had lost, is now restored to them again, by the repulsion of the glass tube forcing that fluid to them from other parts of the prime conductor; so they are now again in their natural state. Withdraw it, and they will open again. For what had been restored to them, is now taken from them again, flowing back into the prime conductor and leaving them once more electrised negatively. Bring the excited tube under the threads, and they will diverge more. Because more of their natural quantity is driven from them into the prime conductor, and thereby their negative electricity in creased. EXPERIMENT III. The prime conductor not being electrified, bring the excited tube under the tassel, and the threads will diverge. Part of their natural quantity is thereby driven out of them into the prime conductor, and they become negatively electrised, and therefore repel each other. Keeping the tube in the same place with one hand, attempt to touch the threads with the finger of the other hand, and they will recede from the finger. did from the finger; which demonstrates the finger to be negatively electrised, as well as the lock of cotton so situated. Turkey killed by Electricity.-Effect of a shock on the Operator in making the Experiment. As Mr. Franklin, in a former letter to Mr. Collinson, mentioned his intending to try the power of a very strong electrical shock upon a turkey, that gentleman accordingly has been so very obliging as to send an account of it, which is to the following purpose. He made first several experiments on fowls, and found, that two large thin glass jars gilt, holding each about six gallons, were sufficient, when fully charged, to kill common hens outright; but the turkeys, though thrown into violent convulsions, and then lying as dead for some minutes, would recover in less than a quarter of an hour. However, having added three other such to the former two, though not fully charged, he killed a turkey of about ten pounds weight, and believes that they would have killed a much larger. He conceited, as himself says, that the birds killed in this manner eat uncommonly tender. In making these experiments, he found, that a man could, without great detriment, bear a much greater shock than he had imagined: for he inadvertently received the stroke of when they were very near fully charged. It two of these jars through his arms and body, seemed to him an universal blow throughout the body, from head to foot, and was followed by a violent quick trembling in the trunk, which went off gradually, in a few seconds. It was some minutes before he could recollect his thoughts, so as to know what was the matter; for he did not see the flash, though his eye was on the spot of the prime conductor, from whence it struck the back of his hand; nor did he hear the crack, though the bystanders said it was a loud one; nor did he particularly feel the stroke on his hand, though he afterwards found it had raised a swelling His arms and the back of the neck felt somethere. of the bigness of half a pistol-bullet. what numbed the remainder of the evening, and his breast was sore for a week after, Because the finger being plunged into the atmosphere of the glass tube, as well as the threads, part of its natural quantity is driven back through the hand and body, by that atmosphere, and the finger becomes, as well as the threads, negatively electrised, and so repels, and is repelled by them. To confirm this, hold a slender light lock of cotton, two as if it had been bruised. From this experior three inches long, near a prime conductor, ment may be seen the danger, even under that is electrified by a glass globe, or tube. the greatest caution, to the operator, when You will see the cotton stretch itself out to- for it is not to be doubted, but several of these making these experiments with large jars; wards the prime conductor. Attempt to touch it with the finger of the other hand, and it will be repelled by the finger. Approach it with a positively charged wire of a bottle, and it will fly to the wire. Bring it near a negatively charged wire of a bottle, it will recede from that wire in the same manner that it laid. fully charged would as certainly, by increasing them, in proportion to the size, kill a man, as they before did a turkey. N. B. The original of this letter, which was read at the Royal Society, has been mis Dr. Lining at Charleston. to support himself chiefly by electricity. A Differences in the Qualities of the Glass.--Ac- strange project! But he was, as you observe, count of Domien, an Electrician and Travel- a very singular character. I was sorry the ler-Conjectures respecting the pores of tubes did not get to the Havanna in time for Glass.-Origin of the author's idea of draw-him. If they are still in being, please to ing down Lightning.-No satisfactory Hypo- send for them, and accept of them. What thesis respecting the manner in which Clouds became of him afterwards I have never become electrified.-Six men knocked down at heard. He promised to write to me as often once by an electrical shock.—Reflections on the spirit of invention. as he could on his journey, and as soon as he should get home after finishing his tour. It is still in New Spain, as you imagine from is now seven years since he was here. If he that loose report, I suppose it must be that they confine him there, and prevent his writing: but I think it more likely that he may PHILADELPHIA, March 18, 1755. I SEND you enclosed a paper containing some new experiments I have made, in pursuance of those by Mr. Canton that are printed with my last letters. I hope these, with my explanation of them, will afford you some entertainment.* be dead. The questions you ask about the pores of In answer to your several inquiries. The tubes and globes we use here, are chiefly glass, I cannot answer otherwise, than that I made here. The glass has a greenish cast, tions, however ingenious, are often mere misknow nothing of their nature; and supposi but is clear and hard, and, I think, better for takes. My hypothesis, that they were smaller clectrical experiments than the white glass of London, which is not so hard. There are mit the passage of electricity, which could near the middle of the glass, too small to adcertainly great differences in glass. A white globe I had made here some years since, pass through the surface till it came near the would never, by any means, be excited. Two had written that letter, I did, in order to conmiddle, was certainly wrong; for soon after I of my friends tried it, as well as myself, with-firm the hypothesis (which indeed I ought to out success. At length, putting it on an have done before I wrote it) make an experielectric stand, a chain from the prime conductor being in contact with it, I found it had the properties of a non-electric; for I could draw sparks from any part of it, though it was very clean and dry. All I know of Domien, is, that by his own account he was a native of Transylvania, of Tartar descent, but a priest of the Greek church he spoke and wrote Latin very readily and correctly. He set out from his own country with an intention of going round the world, as much as possible by land. He travelled through Germany, France, and Holland, to England. Resided some time at Oxford. From England he came to Maryland; thence went to New England; returned by land to Philadelphia; and from hence travelled through Maryland, Virginia, and North Carolina to you. He thought it might be of service to him in his travels to know something of electricity. I taught him the use of the tube; how to charge the Leyden phial, and some other experiments. He wrote to me from Charleston, that he had lived eight hundred miles upon electricity, it had been meat, drink, and clothing to him. His last letter to me was, I think, from Jamaica, desiring me to send the tubes you mention, to meet him at the Havanna, from whence he expected to get a passage to La Vera Cruz; designed travelling over land through Mexico to Acapulco; thence to get a passage to Manilla, and so through China, India, Persia, and Turkey, home to his own country; proposing * See the preceding article, page 292, for the paper here referred to. ment. I ground away five sixths of the thickness of the glass, from the side of one of my phials, expecting that the supposed denser part being so removed, the electric fluid might come through the remainder of the glass, which I had imagined more open; but ed as well after the grinding as before. I am I found myself mistaken. The bottle chargnow, as much as ever, at a loss to know how or where the quantity of electric fluid, on the positive side of the glass, is disposed of. As to the difference of conductors, there is not only this, that some will conduct elecduct it fast enough to produce the shock; but tricity in small quantities, and yet do not coneven among those that will conduct a shock, there are some that do it better than others. Mr. Kinnersley has found, by a very good experiment, that when the charge of a bottle hath an opportunity of passing two ways, i. e. straight through a trough of water ten feet long, and six inches square; or round about through twenty feet of wire, it passes through that is the shortest course; the wire being the wire, and not through the water, though the better conductor. When the wire is taken away, it passes through the water, as but it cannot be felt in the water when the may be felt by a hand plunged in the water; wire is used at the same time. Thus, though a small phial containing water will give a smart shock, one containing the same quantity of mercury will give one much stronger, the mercury being the better conductor; while one containing oil only, will scarce give any shock at all. Your question, how I came first to think | cloud may occasion a neighbouring cloud to of proposing the experiment of drawing down draw into itself from others, an additional the lightning, in order to ascertain its same- quantity, and, passing by it, leave it in a posiness with the electric fluid, I cannot answer better than by giving you an extract from the minutes I used to keep of the experiments I made, with memorandums of such as I purposed to make, the reasons for making them, and the observations that arose upon them, from which minutes my letters were after wards drawn. By this extract you will see that the thought was not so much "an out-of-to the presence of clouds in the same state, the-way one," but that it might have occurred to an electrician. "Nov. 7, 1749. Electrical fluid agrees with lightning in these particulars; 1. Giving light. 2. Colour of the light. 3. Crooked direction. 4. Swift motion. 5. Being conducted by metals. 6. Crack or noise in exploding. 7. Subsisting in water or ice. 8. Rending bodies it passes through. 9. Destroying animals. 10. Melting metals. 11. Firing inflammable substances. 12. Sulphureous smell. The electric fluid is attracted by points. We do not know whether this property is in lightning.-But since they agree in all the particulars wherein we can already compare them, is it not probable they agree likewise in this? Let the experiment be made." tive state. How these effects may be produced, you will easily conceive, on perusing and considering the experiments in the enclosed paper and from them too it appears probable, that every change from positive to negative, and from negative to positive, that, during a thunder-gust, we see in the corkballs annexed to the apparatus, is not owing but often to the absence of positive or negative clouds, that, having just passed, leave the rod in the opposite state. The knocking down of the six men was performed with two of my large jars not fully charged. I laid one end of my discharging rod upon the head of the first; he laid his hand upon the head of the second; the second his hand on the head of the third, and so to the last, who held, in his hand, the chain that was connected with the outside of the jars. When they were thus placed, I applied the other end of my rod to the prime conductor, and they all dropped together. When they got up, they all declared they had not felt any stroke, and wondered how they came to fall; nor did any of them either hear the crack, or see the light of it. You suppose it a dangerous experiment; but I had once suffered the same myself, receiving, by accident, an equal stroke through my head, that struck me down, without hurting me and I had seen a young woman who was about to be electrified through the feet (for some indisposition) receive a greater charge through the head, by inadvertently stooping forward to look at the placing of her feet, till her forehead (as she was very tall) came too near my prime conductor: she dropped, but instantly got up again, complaining of nothing. A person so struck, sinks down doubled, or folded together as it were, the joints losing their strength and stiffness at once, so that he drops on the spot where he stood, instantly, and there is no previous staggering, nor does he ever fall lengthwise. Too great a charge might, indeed, kill a man, but I have not yet seen any hurt done by it. It would certainly, as you observe, be the easiest of all deaths. I wish I could give you any satisfaction in the article of clouds. I am still at a loss about the manner in which they become charged with electricity; no hypothesis I have yet formed perfectly satisfying me. Some time since, I heated very hot, a brass plate two feet square, and placed it on an electric stand. From the plate a wire extended horizontally four or five feet, and, at the end of it, hung, by linen threads, a pair of cork balls. I then repeatedly sprinkled water over the plate, that it might be raised from it in vapour, hoping that if the vapour either carried off the electricity of the plate, or left behind it that of the water, (one of which I supposed it must do, if, like the clouds, it became electrised itself, either positively or negatively) I should perceive and determine it by the separation of the balls, and by finding whether they were positive or negative; but no alteration was made at all, nor could I perceive that the steam was itself electrised, though I have The experiment you have heard so imperstill some suspicion that the steam was not fect an account of, is merely this: I electrifully examined, and I think the experiment fied a silver pint can, on an electric stand, should be repeated. Whether the first state and then lowered into it a cork ball, of about of electrised clouds is positive or negative, if an inch diameter, hanging by a silk string, I could find the cause of that, I should be at till the cork touched the bottom of the can. no loss about the other, for either is easily de- The cork was not attracted to the inside of the duced from the other, as one state is easily can as it would have been to the outside, and produced by the other. A strongly positive though it touched the bottom, yet when drawn cloud may drive out of a neighbouring cloud out, it was not found to be electrified by that much of its natural quantity of the electric touch, as it would have been by touching the fluid, and, passing by it, leave it in a negative outside. The fact is singular. You require state. In the same way, a strongly negative the reason; I do not know it. Perhaps you we are indebted for the compass, and for spectacles, nor have even paper and printing, that record every thing else, been able to preserve with certainty the name and reputation of their inventors. One would not, therefore, of all faculties, or qualities of the mind, wish, for a friend, or a child, that he should have that of invention. For his attempts to benefit mankind in that way, however well imagined, if they do not succeed, expose him, though very unjustly, to general ridicule and contempt; and, if they do succeed, to envy, robbery, and abuse. B. FRANKLIN. Mons. Dalibard, Paris. Beccaria's work on Electricity.-Sentiments of Franklin on pointed Rods, not fully understood in Europe.-Effect of Lightning on the Church of Newbury, in New England.-Remarks on the subject.-Read at the Royal Society, Dec. 18, 1775. PHILADELPHIA, June 29, 1755. may discover it, and then you will be so good as to communicate it to me.* I find a frank acknowledgment of one's ignorance is not only the easiest way to get rid of a difficulty, but the likeliest way to obtain information, and therefore I practise it: I think it an honest policy. Those who affect to be thought to know every thing, and so undertake to explain every thing, often remain long ignorant of many things that others could and would instruct them in, if they appeared less conceited. The treatment your friend has met with is so common, that no man who knows what the world is, and ever has been, should expect to escape it. There are every where a number of people, who being totally destitute of any inventive faculty themselves, do not readily conceive that others may possess it: they think of inventions as of miracles; there might be such formerly, but they are ceased. With these, every one who offers a new invention is deemed a pretender: he had it from some other country, or from some book: a man of You desire my opinion of Père Beccaria's their own acquaintance; one who has no Italian book.* I have read it with much pleamore sense than themselves, could not possi- sure, and think it one of the best pieces on bly, in their opinion, have been the inventor the subject that I have seen in any language. of any thing. They are confirmed too, in Yet as to the article of water-spouts, I am not these sentiments, by frequent instances of pre- at present of his sentiments; though I must tensions to invention, which vanity is daily own with you, that he has handled it very inproducing. That vanity too, though an in- geniously. Mr. Collinson has my opinion of citement to invention, is, at the same time, whirlwinds and water-spouts at large, written the pest of inventors. Jealousy and envy desome time since. I know not whether they ny the merit or the novelty of your invention; will be published; if not, I will get them tranbut vanity, when the novelty and merit are scribed for your perusal. It does not appear established, claims it for its own. The smaller to me that Père Beccaria doubts of the absoyour invention is, the more mortification you lute impermeability of glass in the sense I receive in having the credit of it disputed meant it; for the instances he gives of holes with you by a rival, whom the jealousy and made through glass by the electric stroke are envy of others are ready to support against such as we have all experienced, and only you, at least so far as to make the point show that the electric fluid could not pass doubtful. It is not in itself of importance without making a hole. In the same manner enough for a dispute; no one would think we say, glass is impermeable to water, and your proofs and reasons worth their atten- yet a stream from a fire-engine will force tion: and yet, if you do not dispute the point, through the strongest panes of a window. As and demonstrate your right, you not only to the effect of points in drawing the electric lose the credit of being in that instance in-matter from clouds, and thereby securing genious, but you suffer the disgrace of not be- buildings, &c. which, you say, he seems to ing ingenuous; not only of being a plagiary, doubt, I must own I think he only speaks mobut of being a plagiary for trifles. Had the in- destly and judiciously. I find I have been but vention been greater it would have disgraced partly understood in that matter. I have you less; for men have not so contempti- mentioned it in several of my letters, and exble an idea of him that robs for gold on the cept once, always in the alternative, viz. that highway, as of him that can pick pockets for pointed rods erected on buildings, and comhalf-pence and farthings. Thus, through municating with the moist earth, would either envy, jealousy, and the vanity of competitors prevent a stroke, or, if not prevented, would for fame, the origin of many of the most extra- conduct it, so as that the building should sufordinary inventions, though produced within fer no damage. Yet whenever my opinion is but a few centuries past, is involved in doubt examined in Europe, nothing is considered but and uncertainty. We scarce know to whom Dr. F. afterwards thought, that, possibly, the mu tual repulsion of the inner opposite sides of the electrised might prevent the accumulating of an electric atmosphere upon them, and occasion it to stand chiefly on the outside. But recommended it to the farther examination of the curious. This work is written conformable to Dr. Franklin's theory, upon artificial and natural electricity, which compose the two parts of it. It was printed in Italian, at Turin, in 4to. 1753; between the two parts is a letter to the Abbe Nollet, in defence of Dr. Franklin's system. †These papers will be found in a subsequent part of this volume. |