It must be, no doubt, the extrications of latent heat, at the instant the water freezes, that raises the temperature.
MRS. B.
Certainly; and if you now examine the thermometer, you will find that its rise was but temporary, and lasted only during the disengagement of the latent heat--now that all the water is frozen it falls again, and will continue to fall till the ice and mixture are of an equal temperature.
EMILY.
And can you show us any experiments in which liquids, by being mixed, become solid, and disengage latent heat?
MRS. B.
I could show you several; but you are not yet sufficiently advanced to understand them well. I shall, however, try one, which will afford you a striking instance of the fact. The fluid which you see in this phial consists of a quant.i.ty of a certain salt called _muriat of lime_, dissolved in water. Now, if I pour into it a few drops of this other fluid, called _sulphuric acid_, the whole, or very nearly the whole, will be instantaneously converted into a solid ma.s.s.
EMILY.
How white it turns! I feel the latent heat escaping, for the bottle is warm, and the fluid is changed to a solid white substance like chalk!
CAROLINE.
This is, indeed, the most curious experiment we have seen yet. But pray what is that white vapour that ascends from the mixture?
MRS. B.
You are not yet enough of a chemist to understand that. --But take care, Caroline, do not approach too near it, for it has a very pungent smell.
I shall show you another instance similar to that of the water, which you observed to become warmer as it froze. I have in this phial a solution of a salt called sulphat of soda or Glauber"s salt, made very strong, and corked up when it was hot, and kept without agitation till it became cold, as you may feel the phial is. Now when I take out the cork and let the air fall upon it, (for being closed when boiling, there was a vacuum in the upper part) observe that the salt will suddenly crystallize. . . .
CAROLINE.
Surprising! how beautifully the needles of salt have shot through the whole phial!
MRS. B.
Yes, it is very striking--but pray do not forget the object of the experiment. Feel how warm the phial has become by the conversion of part of the liquid into a solid.
EMILY.
Quite warm I declare! this is a most curious experiment of the disengagement of latent heat.
MRS. B.
The slakeing of lime is another remarkable instance of the extrication of latent heat. Have you never observed how quick-lime smokes when water is poured upon it, and how much heat it produces?
CAROLINE.
Yes; but I do not understand what change of state takes place in the lime that occasions its giving out latent heat; for the quick-lime, which is solid, is (if I recollect right) reduced to powder, by this operation, and is, therefore, rather expanded than condensed.
MRS. B.
It is from the water, not the lime, that the latent heat is set free.
The water incorporates with, and becomes solid in the lime; in consequence of which, the heat, which kept it in a liquid state, is disengaged, and escapes in a sensible form.
CAROLINE.
I always thought that the heat originated in the lime. It seems very strange that water, and cold water too, should contain so much heat.
EMILY.
After this extrication of caloric, the water must exist in a state of ice in the lime, since it parts with the heat which kept it liquid.
MRS. B.
It cannot properly be called ice, since ice implies a degree of cold, at least equal to the freezing point. Yet as water, in combining with lime, gives out more heat than in freezing, it must be in a state of still greater solidity in the lime, than it is in the form of ice; and you may have observed that it does not moisten or liquefy the lime in the smallest degree.
EMILY.
But, Mrs. B., the smoke that rises is white; if it was only pure caloric which escaped, we might feel, but could not see it.
MRS. B.
This white vapour is formed by some of the particles of lime, in a state of fine dust, which are carried off by the caloric.
EMILY.
In all changes of state, then, a body either absorbs or disengages latent heat?
MRS. B.
You cannot exactly say _absorbs latent heat_, as the heat becomes latent only on being confined in the body; but you may say, generally, that bodies, in pa.s.sing from a solid to a liquid form, or from the liquid state to that of vapour, absorb heat; and that when the reverse takes place, heat is disengaged.*
[Footnote *: This rule, if not universal, admits of very few exceptions.]
EMILY.
We can now, I think, account for the ether boiling, and the water freezing in vacuo, at the same temperature.
[Footnote : See page 102.]
MRS. B.
Let me hear how you explain it.
EMILY.
The latent heat, which the water gave out in freezing, was immediately absorbed by the ether, during its conversion into vapour; and therefore, from a latent state in one liquid, it pa.s.sed into a latent state in the other.
MRS. B.
But this only partly accounts for the result of the experiment; it remains to be explained why the temperature of the ether, while in a state of ebullition, is brought down to the freezing temperature of the water. --It is because the ether, during its evaporation, reduces its own temperature, in the same proportion as that of the water, by converting its free caloric into latent heat: so that, though one liquid boils, and the other freezes, their temperatures remain in a state of equilibrium.