^{page 475 note *} Elements of Chemistry, 7th edit., p. 275.

^{page 476 note *} Elements of Chemistry, p. 1054.

^{page 478 note *} Lond. and Edin. Phil. Mag., 1844, vol. xxv., pp. 2–3.

^{page 479 note *} The papers shut up with chlorine, and kept in darkness, have not become bleached by two months' longer retention in the gas June 19, 1848

^{page 480 note *} I omit from this list hydrogen, because, although it bleaches powerfully in the nascent state, it has no sensible bleaching action, whether moist or dry, after it has attained the condition of perfect gaseity.

^{page 481 note *} It would be peculiarly interesting to observe the effect of drying this gas in modifying its action on colouring matters. Should it lose its bleaching power when dry, it would be curious to watch the effect of exploding it in the presence of an anhydrous colouring matter. The result would shew whether nascent oxygen and chlorine bleach as powerfully when dry as moist.

^{page 482 note *} The colours are still unaltered ; a remark which applies also to the experiment next recorded, June 19, 1848.

^{page 483 note *} The papers have not sensibly altered after the lapse of two additional months ; nor is there any change in the litmus-paper referred to in the next experiment, June 19, 1848.

^{page 483 note †} One of the arguments in favour of the “Binary Theory of Salts” is the fact, that the so called oxygen acids do not affect vegetable colours unless associated with water, which they are assumed to decompose, so as to become by appropriation of its elements hydracids of new radicals. The experiments recorded in the text, however, shew that one hydracid, at least, has its action on colouring matter as much negatived by the withdrawal of water as any oxyacid. It does not follow that the rationale of the change is the same in both cases ; but the fact that anhydrous gaseous hydrosulphuric acid does not redden vegetable blues, lessens the value of the argument alluded to. In the great majority of cases, the rendering of an oxyacid anhydrous implies its alteration from the liquid state to the solid or gaseous one. This change in condition is of itself sufficient to alter most materially the influence of a reagent. It appears, however, to have been altogether overlooked in explaining the indifference of a dry oxyacid to organic colours. The phenomena recorded further on, as observed with gaseous hydrochloric acid and liquefied sulphurous acid, bear upon this point, but it cannot be discussed at length here.

^{page 487 note *} Elements of Chemistry, p. 852.

^{page 488 note *} In the experiment which yielded the most successful result, the ammonia was first passed through a bulb immersed in a freezing mixture, and afterwards through long tubes containing lime, caustic potass, and its fused carbonate. The gas was then allowed to flow through a tube for some minutes till it had expelled the air, and the tube was sealed. The one end of this tube had been previously expanded into a large ball, which was filled with fragments of the hygrometrics just mentioned : in the other end of the tube a small sealed bulb was placed, containing a piece of carefully dried red litmus-paper. The ammonia was left in contact with the drying agents for a week, when the tube was shaken till the bulb broke, and allowed the gas and the paper to meet. The latter, as mentioned in the text, immediately became purple, and after some hours bright blue.

^{page 490 note *} Phil. Trans., 1845. Part I., p. 155.