CAROLINE.
A large draught of water to dilute it.
MRS. B.
That would certainly weaken the caustic power of the acid, but it would increase the heat to an intolerable degree. Do you recollect nothing that would destroy its deleterious properties more effectually?
EMILY.
An alkali might, by combining with it; but, then, a pure alkali is itself a poison, on account of its causticity.
MRS. B.
There is no necessity that the alkali should be caustic. Soap, in which it is combined with oil; or magnesia, either in the state of carbonat, or mixed with water, would prove the best antidotes.
EMILY.
In those cases then, I suppose, the potash and the magnesia would quit their combinations to form salts with the sulphuric acid?
MRS. B.
Precisely.
We may now make a few observations on the sulphure_ous_ acid, which we have found to be the product of sulphur slowly and imperfectly burnt.
This acid is distinguished by its pungent smell, and its gaseous form.
CAROLINE.
Its aeriform state is, I suppose, owing to the smaller proportion of oxygen, which renders it lighter than sulphur_ic_ acid?
MRS. B.
Probably; for by adding oxygen to the weaker acid, it may be converted into the stronger kind. But this change of state may also be connected with a change of affinity with regard to caloric.
EMILY.
And may sulphureous acid be obtained from sulphuric acid by a diminution of oxygen?
MRS. B.
Yes; it can be done by bringing any combustible substance in contact with the acid. This decomposition is most easily performed by some of the metals; these absorb a portion of the oxygen from the sulphuric acid, which is thus converted into the sulphureous, and flies off in its gaseous form.
CAROLINE.
And cannot the sulphureous acid itself be decomposed and reduced to sulphur?
MRS. B.
Yes; if this gas be heated in contact with charcoal, the oxygen of the gas will combine with it, and the pure sulphur is regenerated.
Sulphureous acid is readily absorbed by water; and in this liquid state it is found particularly useful in bleaching linen and woollen cloths, and is much used in manufactures for those purposes. I can show you its effect in destroying colours, by taking out vegetable stains--I think I see a spot on your gown, Emily, on which we may try the experiment.
EMILY.
It is the stain of mulberries; but I shall be almost afraid of exposing my gown to the experiment, after seeing the effect which the sulphuric acid produced on that of Caroline--
MRS. B.
There is no such danger from the sulphureous; but the experiment must be made with great caution, for, during the formation of sulphureous acid by combustion, there is always some sulphuric produced.
CAROLINE.
But where is your sulphureous acid?
MRS. B.
We may easily prepare some ourselves, simply by burning a match; we must first wet the stain with water, and now hold it in this way, at a little distance, over the lighted match: the vapour that arises from it is sulphureous acid, and the stain, you see, gradually disappears.
EMILY.
I have frequently taken out stains by this means, without understanding the nature of the process. But why is it necessary to wet the stain before it is exposed to the acid fumes?
MRS. B.
The moisture attracts and absorbs the sulphureous acid; and it serves likewise to dilute any particles of sulphuric acid which might injure the linen.
Sulphur is susceptible of a third combination with oxygen, in which the proportion of the latter is too small to render the sulphur acid. It acquires this slight oxygenation by mere exposure to the atmosphere, without any elevation of temperature: in this case, the sulphur does not change its natural form, but is only discoloured, being changed to red or brown; and in this state it is an oxyd of sulphur.
Before we take leave of the sulphuric acid, we shall say a few words of its princ.i.p.al combinations. It unites with all the alkalies, alkaline earths and metals, to form compound salts.
CAROLINE.
Pray, give me leave to interrupt you for a moment: you have never mentioned any other salts than the compound or neutral salts; is there no other kind?
MRS. B.
The term _salt_ has been used, from time immemorial, as a kind of general name for any substance that has savour, odour, is soluble in water, and crystallisable, whether it be of an acid, an alkaline, or compound nature; but the compound salts alone retain that appellation in modern chemistry.
The most important of the salts, formed by the combinations of the sulphuric acid, are, first, _sulphat of potash_, formerly called _sal polychrest_: this is a very bitter salt, much used in medicine; it is found in the ashes of most vegetables, but it may be prepared artificially by the immediate combination of sulphuric acid and potash.
This salt is easily soluble in boiling water. Solubility is, indeed, a property common to all salts; and they always produce cold in melting.
EMILY.
That must be owing to the caloric which they absorb in pa.s.sing from a solid to a fluid form.
MRS. B.
That is, certainly, the most probable explanation.