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Experimental Researches in Electricity Part 9

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318. A piece of turmeric paper moistened in solution of sulphate of soda was reddened at _n_ by two or three turns of the machine, and in twenty or thirty turns plenty of alkali was there evolved. On turning the paper round, so that the spot came under _p_, and then working the machine, the alkali soon disappeared, the place became yellow, and a brown alkaline spot appeared in the new part under _n_.

319. On combining a piece of litmus with a piece of turmeric paper, wetting both with solution of sulphate of soda, and putting the paper on the gla.s.s, so that _p_ was on the litmus and _n_ on the turmeric, a very few turns of the machine sufficed to show the evolution of acid at the former and alkali at the latter, exactly in the manner effected by a volta-electric current.

320. All these decompositions took place equally well, whether the electricity pa.s.sed from the machine to the foil _a_, through water, or through wire only; by _contact_ with the conductor, or by _sparks_ there; provided the sparks were not so large as to cause the electricity to pa.s.s in sparks from _p_ to _n_, or towards _n_; and I have seen no reason to believe that in cases of true electro-chemical decomposition by the machine, the electricity pa.s.sed in sparks from the conductor, or at any part of the current, is able to do more, because of its tension, than that which is made to pa.s.s merely as a regular current.

321. Finally, the experiment was extended into the following form, supplying in this case the tidiest a.n.a.logy between common and voltaic electricity. Three compound pieces of litmus and turmeric paper (319.) were moistened in solution of sulphate of soda, and arranged on a plate of gla.s.s with platina wires, as in fig. 45. The wire _m_ was connected with the prime conductor of the machine, the wire _t_ with the discharging train, and the wires _r_ and _s_ entered into the course of the electrical current by means of the pieces of moistened paper; they were so bent as to rest each on three points, _n, r, p; n, s, p_, the points _r_ and _s_ being supported by the gla.s.s, and the others by the papers; the three terminations _p, p, p_ rested on the litmus, and the other three _n, n, n_ on the turmeric paper. On working the machine for a short time only, acid was evolved at _all_ the poles or terminations _p, p, p_, by which the electricity entered the solution, and alkali at the other poles _n, n, n_, by which the electricity left the solution.

322. In all experiments of electro-chemical decomposition by the common machine and moistened papers (316.), it is necessary to be aware of and to avoid the following important source of error. If a spark pa.s.ses over moistened litmus and turmeric paper, the litmus paper (provided it be delicate and not too alkaline,) is reddened by it; and if several sparks are pa.s.sed, it becomes powerfully reddened. If the electricity pa.s.s a little way from the wire over the surface of the moistened paper, before it finds ma.s.s and moisture enough to conduct it, then the reddening extends as far as the ramifications. If similar ramifications occur at the termination _n_, on the turmeric paper, they _prevent_ the occurrence of the red spot due to the alkali, which would otherwise collect there: sparks or ramifications from the points _n_ will also redden litmus paper. If paper moistened by a solution of iodide of pota.s.sium (which is an admirably delicate test of electro-chemical action,) be exposed to the sparks or ramifications, or even a feeble stream of electricity through the air from either the point _p_ or _n_, iodine will be immediately evolved.

323. These effects must not be confounded with those due to the true electro-chemical powers of common electricity, and must be carefully avoided when the latter are to be observed. No sparks should be pa.s.sed, therefore, in any part of the current, nor any increase of intensity allowed, by which the electricity may be induced to pa.s.s between the platina wires and the moistened papers, otherwise than by conduction; for if it burst through the air, the effect referred to above (322.) ensues.

324. The effect itself is due to the formation of nitric acid by the combination of the oxygen and nitrogen of the air, and is, in fact, only a delicate repet.i.tion of Cavendish's beautiful experiment. The acid so formed, though small in quant.i.ty, is in a high state of concentration as to water, and produces the consequent effects of reddening the litmus paper; or preventing the exhibition of alkali on the turmeric paper; or, by acting on the iodide of pota.s.sium, evolving iodine.

325. By moistening a very small slip of litmus paper in solution of caustic pota.s.sa, and then pa.s.sing the electric spark over its length in the air, I gradually neutralized the alkali, and ultimately rendered the paper red; on drying it, I found that nitrate of pota.s.sa had resulted from the operation, and that the paper had become touch-paper.

326. Either litmus paper or white paper, moistened in a strong solution of iodide of pota.s.sium, offers therefore a very simple, beautiful, and ready means of ill.u.s.trating Cavendish's experiment of the formation of nitric acid from the atmosphere.

327. I have already had occasion to refer to an experiment (265. 309.) made by Dr. Wollaston, which is insisted upon too much, both by those who oppose and those who agree with the accuracy of his views respecting the ident.i.ty of voltaic and ordinary electricity. By covering fine wires with gla.s.s or other insulating substances, and then removing only so much matter as to expose the point, or a section of the wires, and by pa.s.sing electricity through two such wires, the guarded points of which were immersed in water, Wollaston found that the water could be decomposed even by the current from the machine, without sparks, and that two streams of gas arose from the points, exactly resembling, in appearance, those produced by voltaic electricity, and, like the latter, giving a mixture of oxygen and hydrogen gases. But Dr. Wollaston himself points out that the effect is different from that of the voltaic pile, inasmuch as both oxygen and hydrogen are evolved from _each_ pole; he calls it "a very close _imitation_ of the galvanic phenomena," but adds that "in fact the resemblance is not complete," and does not trust to it to establish the principles correctly laid down in his paper.

328. This experiment is neither more nor less than a repet.i.tion, in a refined manner, of that made by Dr. Pearson in 1797[A], and previously by MM. Paets Van Troostwyk and Deiman in 1789 or earlier. That the experiment should never be quoted as proving true electro-chemical decomposition, is sufficiently evident from the circ.u.mstance, that the _law_ which regulates the transference and final place of the evolved bodies (278. 309.) has no influence here. The water is decomposed at both poles independently of each other, and the oxygen and hydrogen evolved at the wires are the elements of the water existing the instant before in those places. That the poles, or rather points, have no mutual decomposing dependence, may be shown by subst.i.tuting a wire, or the finger, for one of them, a change which does not at all interfere with the other, though it stops all action at the changed pole. This fact may be observed by turning the machine for some time; for though bubbles will rise from the point left unaltered, in quant.i.ty sufficient to cover entirely the wire used for the other communication, if they could be applied to it, yet not a single bubble will appear on that wire.

[A] Nicholson's Journal, 4to. vol. I. pp. 311, 299. 349.

329. When electro-chemical decomposition takes place, there is great reason to believe that the _quant.i.ty_ of matter decomposed is not proportionate to the intensity, but to the quant.i.ty of electricity pa.s.sed (320.). Of this I shall be able to offer some proofs in a future part of this paper (375.

377.). But in the experiment under consideration, this is not the case. If, with a constant pair of points, the electricity be pa.s.sed from the machine in sparks, a certain proportion of gas is evolved; but if the sparks be rendered shorter, less gas is evolved; and if no sparks be pa.s.sed, there is scarcely a sensible portion of gases set free. On subst.i.tuting solution of sulphate of soda for water, scarcely a sensible quant.i.ty of gas could be procured even with powerful sparks, and nearly none with the mere current; yet the quant.i.ty of electricity in a given time was the same in all these cases.

330. I do not intend to deny that with such an apparatus common electricity can decompose water in a manner a.n.a.logous to that of the voltaic pile; I believe at present that it can. But when what I consider the true effect only was obtained, the quant.i.ty of gas given off was so small that I could not ascertain whether it was, as it ought to be, oxygen at one wire and hydrogen at the other. Of the two streams one seemed more copious than the other, and on turning the apparatus round, still the same side in relation to the machine; gave the largest stream. On subst.i.tuting solution of sulphate of soda for pure water (329.), these minute streams were still observed. But the quant.i.ties were so small, that on working the machine for half an hour I could not obtain at either pole a bubble of gas larger than a small grain of sand. If the conclusion which I have drawn (377.) relating to the amount of chemical action be correct, this ought to be the case.

331. I have been the more anxious to a.s.sign the true value of this experiment as a test of electro-chemical action, because I shall have occasion to refer to it in cases of supposed chemical action by magneto-electric and other electric currents (336. 346.) and elsewhere.

But, independent of it, there cannot be now a doubt that Dr. Wollaston was right in his general conclusion; and that voltaic and common electricity have powers of chemical decomposition, alike in their nature, and governed by the same law of arrangement.

332. iv. _Physiological effects._--The power of the common electric current to shock and convulse the animal system, and when weak to affect the tongue and the eyes, may be considered as the same with the similar power of voltaic electricity, account being taken of the intensity of the one electricity and duration of the other. When a wet thread was interposed in the course of the current of common electricity from the battery (291.) charged by eight or ten[A] revolutions of the machine in good action (290.), and the discharge made by platina spatulas through the tongue or the gums, the effect upon the tongue and eyes was exactly that of a momentary feeble voltaic circuit.

[A] Or even from thirty to forty.

333. v. _Spark._--The beautiful flash of light attending the discharge of common electricity is well known. It rivals in brilliancy, if it does not even very much surpa.s.s, the light from the discharge of voltaic electricity; but it endures for an instant only, and is attended by a sharp noise like that of a small explosion. Still no difficulty can arise in recognising it to be the same spark as that from the voltaic battery, especially under certain circ.u.mstances. The eye cannot distinguish the difference between a voltaic and a common electricity spark, if they be taken between amalgamated surfaces of metal, at intervals only, and through the same distance of air.

334. When the Leyden battery (291.) was discharged through a wet string placed in some part of the circuit away from the place where the spark was to pa.s.s, the spark was yellowish, flamy, having a duration sensibly longer than if the water had not been interposed, was about three-fourths of an inch in length, was accompanied by little or no noise, and whilst losing part of its usual character had approximated in some degree to the voltaic spark. When the electricity r.e.t.a.r.ded by water was discharged between pieces of charcoal, it was exceedingly luminous and bright upon both surfaces of the charcoal, resembling the brightness of the voltaic discharge on such surfaces. When the discharge of the unr.e.t.a.r.ded electricity was taken upon charcoal, it was bright upon both the surfaces, (in that respect resembling the voltaic spark,) but the noise was loud, sharp, and ringing.

335. I have a.s.sumed, in accordance, I believe, with the opinion of every other philosopher, that atmospheric electricity is of the same nature with ordinary electricity (284.), and I might therefore refer to certain published statements of chemical effects produced by the former as proofs that the latter enjoys the power of decomposition in common with voltaic electricity. But the comparison I am drawing is far too rigorous to allow me to use these statements without being fully a.s.sured of their accuracy; yet I have no right to suppress them, because, if accurate, they establish what I am labouring to put on an undoubted foundation, and have priority to my results.

336. M. Bonijol of Geneva[A] is said to have constructed very delicate apparatus for the decomposition of water by common electricity. By connecting an insulated lightning rod with his apparatus, the decomposition of the water proceeded in a continuous and rapid manner even when the electricity of the atmosphere was not very powerful. The apparatus is not described; but as the diameter of the wire is mentioned as very small, it appears to have been similar in construction to that of Wollaston (327.); and as that does not furnish a case of true polar electro-chemical decomposition (328.), this result of M. Bonijol does not prove the ident.i.ty in chemical action of common and voltaic electricity.

[A] Bibliotheque Universelle, 1830, tome xlv. p. 213.

337. At the same page of the Bibliotheque Universelle, M. Bonijol is said to have decomposed, _potash_, and also chloride of silver, by putting them into very narrow tubes and pa.s.sing electric sparks from an ordinary machine over them. It is evident that these offer no a.n.a.logy to cases of true voltaic decomposition, where the electricity only decomposes when it is _conducted_ by the body acted upon, and ceases to decompose, according to its ordinary laws, when it pa.s.ses in sparks. These effects are probably partly a.n.a.logous to that which takes place with water in Pearson's or Wollaston's apparatus, and may be due to very high temperature acting on minute portions of matter; or they may be connected with the results in air (322.). As nitrogen can combine directly with oxygen under the influence of the electric spark (324.), it is not impossible that it should even take it from the pota.s.sium of the potash, especially as there would be plenty of pota.s.sa in contact with the acting particles to combine with the nitric acid formed. However distinct all these actions may be from true polar electro-chemical decompositions, they are still highly important, and well-worthy of investigation.

338. The late Mr. Barry communicated a paper to the Royal Society[A] last year, so distinct in the details, that it would seem at once to prove the ident.i.ty in chemical action of common and voltaic electricity; but, when examined, considerable difficulty arises in reconciling certain of the effects with the remainder. He used two tubes, each having a wire within it pa.s.sing through the closed end, as is usual for voltaic decompositions. The tubes were filled with solution of sulphate of soda, coloured with syrup of violets, and connected by a portion of the same solution, in the ordinary manner; the wire in one tube was connected by a _gilt thread_ with the string of an insulated electrical kite, and the wire in the other tube by a similar _gilt thread_ with the ground. Hydrogen soon appeared in the tube connected with the kite, and oxygen in the other, and in ten minutes the liquid in the first tube was green from the alkali evolved, and that in the other red from free acid produced. The only indication of the strength or intensity of the atmospheric electricity is in the expression, "the usual shocks were felt on touching the string."

[A] Philosophical Transactions, 1831, p. 165.

339. That the electricity in this case does not resemble that from any ordinary source of common electricity, is shown by several circ.u.mstances.

Wollaston could not effect the decomposition of water by such an arrangement, and obtain the gases in _separate_ vessels, using common electricity; nor have any of the numerous philosophers, who have employed such an apparatus, obtained any such decomposition, either of water or of a neutral salt, by the use of the machine. I have lately tried the large machine (290.) in full action for a quarter of an hour, during which time seven hundred revolutions were made, without producing any sensible effects, although the shocks that it would then give must have been far more powerful and numerous than could have been taken, with any chance of safety, from an electrical kite-string; and by reference to the comparison hereafter to be made (371.), it will be seen that for common electricity to have produced the effect, the quant.i.ty must have been awfully great, and apparently far more than could have been conducted to the earth by a gilt thread, and at the same time only have produced the "usual shocks."

340. That the electricity was apparently not a.n.a.logous to voltaic electricity is evident, for the "usual shocks" only were produced, and nothing like the terrible sensation due to a voltaic battery, even when it has a tension so feeble as not to strike through the eighth of an inch of air.

341. It seems just possible that the air which was pa.s.sing by the kite and string, being in an electrical state sufficient to produce the "usual shocks" only, could still, when the electricity was drawn off below, renew the charge, and so continue the current. The string was 1500 feet long, and contained two double threads. But when the enormous quant.i.ty which must have been thus collected is considered (371. 376.), the explanation seems very doubtful. I charged a voltaic battery of twenty pairs of plates four inches square with double coppers very strongly, insulated it, connected its positive extremity with the discharging train (292.), and its negative pole with an apparatus like that of Mr. Barry, communicating by a wire inserted three inches into the wet soil of the ground. This battery thus arranged produced feeble decomposing effects, as nearly as I could judge answering the description Mr. Barry has given. Its intensity was, of course, far lower than the electricity of the kite-string, but the supply of quant.i.ty from the discharging train was unlimited. It gave no shocks to compare with the "usual shocks" of a kite-string.

342. Mr. Barry's experiment is a very important one to repeat and verify.

If confirmed, it will be, as far as I am aware, the first recorded case of true electro-chemical decomposition of water by common electricity, and it will supply a form of electrical current, which, both in quant.i.ty and intensity, is exactly intermediate with those of the common electrical machine and the voltaic pile.

III. _Magneto-Electricity._

343. _Tension_.--The attractions and repulsions due to the tension of ordinary electricity have been well observed with that evolved by magneto-electric induction. M. Pixii, by using an apparatus, clever in its construction and powerful in its action[A], was able to obtain great divergence of the gold leaves of an electrometer[B].

[A] Annales de Chimie, l. p. 322.

[B] Ibid. li. p 77.

344. _In motion_: i. _Evolution of Heat._--The current produced by magneto-electric induction can heat a wire in the manner of ordinary electricity. At the British a.s.sociation of Science at Oxford, in June of the present year, I had the pleasure, in conjunction with Mr. Harris, Professor Daniell, Mr. Duncan, and others, of making an experiment, for which the great magnet in the museum, Mr. Harris's new electrometer (287.), and the magneto-electric coil described in my first paper (34.), were put in requisition. The latter had been modified in the manner I have elsewhere described[A] so as to produce an electric spark when its contact with the magnet was made or broken. The terminations of the spiral, adjusted so as to have their contact with each other broken when the spark was to pa.s.s, were connected with the wire in the electrometer, and it was found that each time the magnetic contact was made and broken, expansion of the air within the instrument occurred, indicating an increase, at the moment, of the temperature of the wire.

[A] Phil, Mag. and Annals, 1832, vol. xi. p. 405.

315. ii. _Magnetism._--These currents were discovered by their magnetic power.

346. iii. _Chemical decomposition._--I have made many endeavours to effect chemical decomposition by magneto-electricity, but unavailingly. In July last I received an anonymous letter (which has since been published[A],) describing a magneto-electric apparatus, by which the decomposition of water was effected. As the term "guarded points" is used, I suppose the apparatus to have been Wollaston's (327. &c.), in which case the results did not indicate polar electro-chemical decomposition. Signor Botto has recently published certain results which he has obtained[B]; but they are, as at present described, inconclusive. The apparatus he used was apparently that of Dr. Wollaston, which gives only fallacious indications (327. &c.).

As magneto-electricity can produce sparks, it would be able to show the effects proper to this apparatus. The apparatus of M. Pixii already referred to (343.) has however, in the hands of himself[C] and M.

Hachctte[D], given decisive chemical results, so as to complete this link in the chain of evidence. Water was decomposed by it, and the oxygen and hydrogen obtained in separate tubes according to the law governing volta-electric and machine-electric decomposition.

[A] Lond. and Edinb. Phil. Mag. and Journ., 1832, vol. i. p. 161.

[B] Ibid. 1832. vol. i. p. 441.

[C] Annales de Chimie, li, p. 77.

[D] Ibid. li. p. 72

347. iv. _Physiological effects._--A frog was convulsed in the earliest experiments on these currents (56.). The sensation upon the tongue, and the flash before the eyes, which I at first obtained only in a feeble degree (56.), have been since exalted by more powerful apparatus, so as to become even disagreeable.

348. v. _Spark._--The feeble spark which I first obtained with these currents (32.), has been varied and strengthened by Signori n.o.bili and Antinori, and others, so as to leave no doubt as to its ident.i.ty with the common electric spark.

IV. _Thermo-Electricity._

349. With regard to thermo-electricity, (that beautiful form of electricity discovered by Seebeck,) the very conditions under which it is excited are such as to give no ground for expecting that it can be raised like common electricity to any high degree of tension; the effects, therefore, due to that state are not to be expected. The sum of evidence respecting its a.n.a.logy to the electricities already described, is, I believe, as follows:--_Tension._ The attractions and repulsions due to a certain degree of tension have not been observed. _In currents_: i. _Evolution of Heat._ I am not aware that its power of raising temperature has been observed. ii.

_Magnetism._ It was discovered, and is best recognised, by its magnetic powers. iii. _Chemical decomposition_ has not been effected by it. iv.

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