I said that the attraction of lime for carbonic acid was so strong, that it would absorb it from the atmosphere. We may see this effect by exposing a gla.s.s of lime-water to the air; the lime will then separate from the water, combine with the carbonic acid, and re-appear on the surface in the form of a white film, which is carbonat of lime, commonly called _chalk_.
CAROLINE.
Chalk is, then, a compound salt! I never should have supposed that those immense beds of chalk, that we see in many parts of the country, were a salt. --Now, the white film begins to appear on the surface of the water; but it is far from resembling hard solid chalk.
MRS. B.
That is owing to its state of extreme division; in a little time it will collect into a more compact ma.s.s, and subside at the bottom of the gla.s.s.
If you breathe into lime-water, the carbonic acid, which is mixed with the air that you expire, will produce the same effect. It is an experiment very easily made; --I shall pour some lime-water into this gla.s.s tube, and, by breathing repeatedly into it, you will soon perceive a precipitation of chalk--
EMILY.
I see already a small white cloud formed.
MRS. B.
It is composed of minute particles of chalk; at present it floats in the water, but it will soon subside.
Carbonat of lime, or chalk, you see, is insoluble in water, since the lime which was dissolved re-appears when converted into chalk; but you must take notice of a very singular circ.u.mstance, which is, that chalk is soluble in water impregnated with carbonic acid.
CAROLINE.
It is very curious, indeed, that carbonic acid gas should render lime soluble in one instance, and insoluble in the other!
MRS. B.
I have here a bottle of Seltzer water, which, you know, is strongly impregnated with carbonic acid:-- let us pour a little of it into a gla.s.s of lime-water. You see that it immediately forms a precipitation of carbonat of lime?
EMILY.
Yes, a white cloud appears.
MRS. B.
I shall now pour an additional quant.i.ty of the Seltzer water into the lime-water--
EMILY.
How singular! The cloud is re-dissolved, and the liquid is again transparent.
MRS. B.
All the mystery depends upon this circ.u.mstance, that carbonat of lime is soluble in carbonic acid, whilst it is insoluble in water; the first quant.i.ty of carbonic acid, therefore, which I introduce into the lime-water, was employed in forming the carbonat of lime, which remained visible, until an additional quant.i.ty of carbonic acid dissolved it.
Thus, you see, when the lime and carbonic acid are in proper proportions to form chalk, the white cloud appears, but when the acid predominates, the chalk is no sooner formed than it is dissolved.
CAROLINE.
That is now the case; but let us try whether a further addition of lime-water will again precipitate the chalk.
EMILY.
It does, indeed! The cloud re-appears, because, I suppose, there is now no more of the carbonic acid than is necessary to form chalk; and, in order to dissolve the chalk, a superabundance of acid is required.
MRS. B.
We have, I think, carried this experiment far enough; every repet.i.tion would but exhibit the same appearances.
Lime combines with most of the acids, to which the carbonic (as being the weakest) readily yields it; but these combinations we shall have an opportunity of noticing more particularly hereafter. It unites with phosphorus, and with sulphur, in their simple state; in short, of all the earths, lime is that which nature employs most frequently, and most abundantly, in its innumerable combinations. It is the basis of all calcareous earths and stones; we find it likewise in the animal and the vegetable creations.
EMILY.
And in the arts is not lime of very great utility?
MRS. B.
Scarcely any substance more so; you know that it is a most essential requisite in building, as it const.i.tutes the basis of all cements, such as mortar, stucco, plaister, &c.
Lime is also of infinite importance in agriculture; it lightens and warms soils that are too cold, and compact, in consequence of too great a proportion of clay. --But it would be endless to enumerate the various purposes for which it is employed; and you know enough of it to form some idea of its importance; we shall, therefore, now proceed to the third alkaline earth, MAGNESIA.
CAROLINE.
I am already pretty well acquainted with that earth; it is a medicine.
MRS. B.
It is in the state of carbonat that magnesia is usually employed medicinally; it then differs but little in appearance from its simple form, which is that of a very fine light white powder. It dissolves in 2000 times its weight of water, but forms with acids extremely soluble salts. It has not so great an attraction for acids as lime, and consequently yields them to the latter. It is found in a great variety of mineral combinations, such as slate, mica, amianthus, and more particularly in a certain lime stone, which has lately been discovered by Mr. Tennant to contain it in very great quant.i.ties. It does not attract and solidify water, like lime: but when mixed with water and exposed to the atmosphere, it slowly absorbs carbonic acid from the latter, and thus loses its causticity. Its chief use in medicine is, like that of lime, derived from its readiness to combine with, and neutralise, the acid which it meets with in the stomach.
EMILY.
Yet, you said that it was taken in the state of carbonat, in which case it has already combined with an acid?
MRS. B.
Yes; but the carbonic is the last of all the acids in the order of affinities; it will therefore yield the magnesia to any of the others.
It is, however, frequently taken in its caustic state as a remedy for flatulence. Combined with sulphuric acid, magnesia forms another and more powerful medicine, commonly called _Epsom salt_.
CAROLINE.
And properly, _sulphat of magnesia_, I suppose? Pray why was it ever called Epsom salt?
MRS. B.
Because there is a spring in the neighbourhood of Epsom which contains this salt in great abundance.
The last alkaline earth which we have to mention is STRONTIAN, or STRONt.i.tES, discovered by Dr. Hope a few years ago. It so strongly resembles barytes in its properties, and is so sparingly found in nature, and of so little use in the arts, that it will not be necessary to enter into any particulars respecting it. One of the remarkable characteristic properties of stront.i.tes is, that its salts, when dissolved in spirit of wine, tinge the flame of a deep red, or blood colour.