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CONVERSATION XVI.
ON ACIDS.
MRS. B.
We may now proceed to the acids. Of the metallic oxyds, you have already acquired some general notions. This subject, though highly interesting in its details, is not of sufficient importance to our concise view of chemistry, to be particularly treated of; but it is absolutely necessary that you should be better acquainted with the acids, and likewise with their combinations with the alkalies, which form the triple compounds called NEUTRAL SALTS.
The cla.s.s of acids is characterised by very distinct properties. They all change blue vegetable infusions to a red colour: they are all more or less sour to the taste; and have a general tendency to combine with the earths, alkalies, and metallic oxyds.
You have, I believe, a clear idea of the nomenclature by which the base (or radical) of the acid, and the various degrees of acidification, are expressed?
EMILY.
Yes, I think so; the acid is distinguished by the name of its base, and its degree of oxydation, that is, the quant.i.ty of oxygen it contains, by the termination of that name in _ous_ or _ic_; thus sulphure_ous_ acid is that formed by the smallest proportion of oxygen combined with sulphur; sulphur_ic_ acid that which results from the combination of sulphur with the greatest quant.i.ty of oxygen.
MRS. B.
A still greater lat.i.tude may, in many cases, be allowed to the proportions of oxygen than can be combined with acidifiable radicals; for several of these radicals are susceptible of uniting with a quant.i.ty of oxygen so small as to be insufficient to give them the properties of acids; in these cases, therefore, they are converted into oxyds. Such is sulphur, which by exposure to the atmosphere with a degree of heat inadequate to produce inflammation, absorbs a small proportion of oxygen, which colours it red or brown. This, therefore, is the first degree of oxygenation of sulphur; the 2d converts it into sulphur_ous_ acid; the 3d into the sulphur_ic_ acid; and 4thly, if it was found capable of combining with a still larger proportion of oxygen, it would then be termed _super-oxygenated sulphuric acid_.
EMILY.
Are these various degrees of oxygenation common to all the acids?
MRS. B.
No; they vary much in this respect: some are susceptible of only one degree of oxygenation; others, of two, or three; there are but very few that will admit of more.
CAROLINE.
The modern nomenclature must be of immense advantage in pointing out so easily the nature of the acids, and their various degrees of oxygenation.
MRS. B.
Till lately many of the acids had not been decomposed; but a.n.a.logy afforded so strong a proof of their compound nature, that I never could reconcile myself to cla.s.sing them with the simple bodies, though this division has been adopted by several chemical writers. At present there are only the muriatic and the fluoric acids, which have not had their bases distinctly separated.
CAROLINE.
We have heard of a great variety of acids; pray how many are there in all?
MRS. B.
I believe there are reckoned at present thirty-four, and their number is constantly increasing, as the science improves; but the most important, and those to which we shall almost entirely confine our attention, are but few. I shall, however, give you a general view of the whole; and then we shall more particularly examine those that are the most essential.
This cla.s.s of bodies was formerly divided into mineral, vegetable, and animal acids, according to the substances from which they were commonly obtained.
CAROLINE.
That, I should think, must have been an excellent arrangement; why was it altered?
MRS. B.
Because in many cases it produced confusion. In which cla.s.s, for instance, would you place carbonic acid?
CAROLINE.
Now I see the difficulty. I should be at a loss where to place it, as you have told us that it exists in the animal, vegetable, and mineral kingdoms.
EMILY.
There would be the same objection with respect to phosphoric acid, which, though obtained chiefly from bones, can also, you said, be found in small quant.i.ties in stones, and likewise in some plants.
MRS. B.
You see, therefore, the propriety of changing this mode of cla.s.sification. These objections do not exist in the present nomenclature; for the composition and nature of each individual acid is in some degree pointed out, instead of the cla.s.s of bodies from which it is extracted; and, with regard to the more general division of acids, they are cla.s.sed under these three heads:
First, Acids of known or supposed simple bases, which are formed by the union of these bases with oxygen. They are the following:
The _Sulphuric_ _Carbonic_ _Nitric_ _Phosphoric_ _a.r.s.enical_ Acids, of known and simple bases.
_Tungstenic_ _Molybdenic_ _Boracic_ _Fluoric_ _Muriatic_
This cla.s.s comprehends the most anciently known and most important acids. The sulphuric, nitric, and muriatic were formerly, and are still frequently, called _mineral acids_.
2dly, Acids that have double or binary radicals, and which consequently consist of triple combinations. These are the vegetable acids, whose common radical is a compound of hydrogen and carbon.
CAROLINE.
But if the basis of all the vegetable acids be the same, it should form but one acid; it may indeed combine with different proportions of oxygen, but the nature of the acid must be the same.
MRS. B.
The only difference that exists in the basis of vegetable acids, is the various proportions of hydrogen and carbon from which they are severally composed. But this is enough to produce a number of acids apparently very dissimilar. That they do not, however, differ essentially, is proved by their susceptibility of being converted into each other, by the addition or subtraction of a portion of hydrogen or of carbon. The names of these acids are,
The _Acetic_ _Oxalic_ _Tartarous_ _Citric_ _Malic_ Acids, of double bases, being of vegetable origin.
_Gallic_ _Mucous_ _Benzoic_ _Succinic_ _Camphoric_ _Suberic_
The 3d cla.s.s of acids consists of those which have triple radicals, and are therefore of a still more compound nature. This cla.s.s comprehends the animal acids, which are,
The _Lactic_ _Prussic_ _Formic_ Acids, of triple bases, or animal acids.
_Bombic_ _Sebacic_ _Zoonic_ _Lithic_
I have given you this summary account or enumeration of the acids, as you may find it more satisfactory to have at once an outline or a general notion of the extent of the subject; but we shall now confine ourselves to the first cla.s.s, which requires our more immediate attention; and defer the few remarks which we shall have to make on the others, till we treat of the chemistry of the animal and vegetable kingdoms.
The acids of simple and known radicals are all capable of being decomposed by combustible bodies, to which they yield their oxygen. If, for instance, I pour a drop of sulphuric acid on this piece of iron, it will produce a spot of rust, you know what that is?
CAROLINE.
Yes; it is an oxyd, formed by the oxygen of the acid combining with the iron.