CAROLINE.
Pray is not carbonic acid a very wholesome gas to breathe, as it contains so much oxygen?
MRS. B.
On the contrary, it is extremely pernicious. Oxygen, when in a state of combination with other substances, loses, in almost every instance, its respirable properties, and the salubrious effects which it has on the animal economy when in its unconfined state. Carbonic acid is not only unfit for respiration, but extremely deleterious if taken into the lungs.
EMILY.
You know, Caroline, how very unwholesome the fumes of burning charcoal are reckoned.
CAROLINE.
Yes; but, to confess the truth, I did not consider that a charcoal fire produced carbonic acid gas. --Can this gas be condensed into a liquid?
MRS. B.
No: for, as I told you before, it is a permanent elastic fluid. But water can absorb a certain quant.i.ty of this gas, and can even be impregnated with it, in a very strong degree, by the a.s.sistance of agitation and pressure, as I am going to show you. I shall decant some carbonic acid gas into this bottle, which I fill first with water, in order to exclude the atmospherical air; the gas is then introduced through the water, which you see it displaces, for it will not mix with it in any quant.i.ty, unless strongly agitated, or allowed to stand over it for some time. The bottle is now about half full of carbonic acid gas, and the other half is still occupied by the water. By corking the bottle, and then violently shaking it, in this way, I can mix the gas and water together. --Now will you taste it?
EMILY.
It has a distinct acid taste.
CAROLINE.
Yes, it is sensibly sour, and appears full of little bubbles.
MRS. B.
It possesses likewise all the other properties of acids, but, of course, in a less degree than the pure carbonic acid gas, as it is so much diluted by water.
This is a kind of artificial Seltzer water. By a.n.a.lysing that which is produced by nature, it was found to contain scarcely any thing more than common water impregnated with a certain proportion of carbonic acid gas.
We are, therefore, able to imitate it, by mixing those proportions of water and carbonic acid. Here, my dear, is an instance, in which, by a chemical process, we can exactly copy the operations of nature; for the artificial Seltzer waters can be made in every respect similar to those of nature; in one point, indeed, the former have an advantage, since they may be prepared stronger, or weaker, as occasion requires.
CAROLINE.
I thought I had tasted such water before. But what renders it so brisk and sparkling?
MRS. B.
This sparkling, or effervescence, as it is called, is always occasioned by the action of an elastic fluid escaping from a liquid; in the artifical Seltzer water, it is produced by the carbonic acid, which being lighter than the water in which it was strongly condensed, flies off with great rapidity the instant the bottle is uncorked; this makes it necessary to drink it immediately. The bubbling that took place in this bottle was but trifling, as the water was but very slightly impregnated with carbonic acid. It requires a particular apparatus to prepare the gaseous artificial mineral waters.
EMILY.
If, then, a bottle of Seltzer water remains for any length of time uncorked, I suppose it returns to the state of common water?
MRS. B.
The whole of the carbonic acid gas, or very nearly so, will soon disappear; but there is likewise in Seltzer water a very small quant.i.ty of soda, and of a few other saline or earthy ingredients, which will remain in the water, though it should be kept uncorked for any length of time.
CAROLINE.
I have often heard of people drinking soda-water. Pray what sort of water is that?
MRS. B.
It is a kind of artificial Seltzer water, holding in solution, besides the gaseous acid, a particular saline substance, called soda, which imparts to the water certain medicinal qualities.
CAROLINE.
But how can these waters be so wholesome, since carbonic acid is so pernicious?
MRS. B.
A gas, we may conceive, though very prejudicial to breathe, may be beneficial to the stomach. --But it would be of no use to attempt explaining this more fully at present.
CAROLINE.
Are waters never impregnated with other gases?
MRS. B.
Yes; there are several kinds of gaseous waters. I forgot to tell you that waters have, for some years past, been prepared, impregnated both with oxygen and hydrogen gases. These are not an imitation of nature, but are altogether obtained by artificial means. They have been lately used medicinally, particularly on the continent, where, I understand, they have acquired some reputation.
EMILY.
If I recollect right, Mrs. B., you told us that carbon was capable of decomposing water; the affinity between oxygen and carbon must, therefore, be greater than between oxygen and hydrogen?
MRS. B.
Yes; but this is not the case unless their temperature be raised to a certain degree. It is only when carbon is red-hot, that it is capable of separating the oxygen from the hydrogen. Thus, if a small quant.i.ty of water be thrown on a red-hot fire, it will increase rather than extinguish the combustion; for the coals or wood (both of which contain a quant.i.ty of carbon) decompose the water, and thus supply the fire both with oxygen and hydrogen gases. If, on the contrary, a large ma.s.s of water be thrown over the fire, the diminution of heat thus produced is such, that the combustible matter loses the power of decomposing the water, and the fire is extinguished.
EMILY.
I have heard that fire-engines sometimes do more harm than good, and that they actually increase the fire when they cannot throw water enough to extinguish it. It must be owing, no doubt, to the decomposition of the water by the carbon during the conflagration.
MRS. B.
Certainly. --The apparatus which you see here (PLATE XI. fig. 3.), may be used to exemplify what we have just said. It consists in a kind of open furnace, through which a porcelain tube, containing charcoal, pa.s.ses. To one end of the tube is adapted a gla.s.s retort with water in it; and the other end communicates with a receiver placed on the water-bath. A lamp being applied to the retort, and the water made to boil, the vapour is gradually conveyed through the red-hot charcoal, by which it is decomposed; and the hydrogen gas which results from this decomposition is collected in the receiver. But the hydrogen thus obtained is far from being pure; it retains in solution a minute portion of carbon, and contains also a quant.i.ty of carbonic acid. This renders it heavier than pure hydrogen gas, and gives it some peculiar properties; it is distinguished by the name of _carbonated hydrogen gas_.
CAROLINE.
And whence does it obtain the carbonic acid that is mixed with it?
EMILY.
I believe I can answer that question, Caroline. --From the union of the oxygen (proceeding from the decomposed water) with the carbon, which, you know, makes carbonic acid.