ABIETINE. Chem. A crystallisable re

ABIETINE. Chem. A crystallisable resin
discovered by Caillot, in Strasburg turpentine,
of which it constitutes about 11 per ct., and
believed by him to be peculiar to the genus
Abies of Decandolle.
ABRAZITE. Min. See Zeagonite.
ABSINTHIINE. Chem. The bitter principle
of the wormwood {Artemisia absinthium).
It is prepared by a succession of operations almost
identical with those describedfor obtaining
senegine. See Senegtne. When completely
pure, it is white and r ystalline ; its taste is intensely
bitter ; it fuses at a high temperature, and
closely resembles a resin ; its best solvent is
alcohol. It possesses the characters of a weak
acid, beingmuch more soluble in alkaline liquors
than in pure water, and being precipitated from
such solutions on the addition of an acid.
With oil of vitriol, it is coloured first yellow,
and then dark reddish purple.
ABSOLUTE ALCOHOL. Chem. A term
applied to pure alcohol, absolutely free from
water, or containing 98 to 99 perct.of anhydrous
alcohol. See Alcohol.
ABSORBENT. Chem. A substance possessing
the power of receiving liquids or gaseous
bodies into itself, with or without chemical
action. Thus charcoal absorbs gaseous matter
; dry clay is an absorbent of fats and oils
;
and boiled plaster and quicklime take up water.
The last is a case of chemical combination.
See Absorptions
ABSORPTION. Physics, Chem. A term variously
employed to denote the property and
action of certain solids and liquids to take up
gases and vapors. Quicklime absorbs carbonic
acid, with which it forms a definite chemical
compound, the carbonate of lime, and then
absorption ceases ; now if we take two equal
weights of marble (crystalline carbonate of
lime), the one solid and the other powdered, the
latter will be found to weigh heavier from the
abstraction of moisture from the air ; but this
instance of absorption is very different from
the preceding, since it is not definite in quantity,
may vary according to the pressure and
temperature of the air, the fineness of the powder,
&c, while in the former case an exact
amount is absorbed, within a very wide range
of pressure and temperature. Moreover, the
moisture may be expelled from the powdered
marble by a very slight increase of temperature,
while its carbonic acid requires a white
heat for its expulsion. The latter holds its
carbonic acid in obedience to chemical attraction,
while the powder absorbs moisture apparently
in accordance with another kind of
attraction, which we shall denominate absorption.
It would not be difficult to determine the
limits of this mechanical absorption, if we
could exactly define what a chemical compound
is ; but the latter is frequently so loose
in its nature, existing only in solution, decomposable
by such slight differences of temperature,
that we must often be in doubt whether to
regard it as a mixture or definite compound.
We may in general define it as the power possessed
by liquids and solids, the latter either
porous or pulverulent, to receive vapors and
gases into their own mass, without materially
altering their principal and essential characters.
The following essay on this subject is
taken chiefly from an excellent article by Poggendorf
in the Worterbuch der Chemic
I. Absorption of Gases and Vapors by
solid Bodies.
All solids, as soon as they acquire the requisite
degree of porosity or division, exhibit the
faculty of absorbing gases, but few possess it
in a striking degree, and among these charcoal
has always held a prominent position, and was
for a long time regarded as alone possessed of
it. Scheele and Fontana discovered this power
in charcoal, independently of each other, about
1777, since which period it has been more or
less investigated by Priestley, Saluzzo, Morveau,
Morozzo, Delametherie, Rouppe and Van
Noorden, Parrot and Grindel,Van Mons,Brugnatelli,
and Vogel. But the researches ofTheodore
de Saussure are the most extensive and
appear to be most carefully made, and we shall
draw chiefly from them.
Absorption by Charcoal.—The amount of absorption,
i. e. the rapidity and quantity of the
same, appears to depend on, 1st, the dryness
and freedom from air of the coal ; 2d, its degree
of density or porosity; 3d, the pressure of the
gas to be absorbed ; 4th, the temperature ; 5th,
the nature of the gas; and 6th, on its purity.
These conditions hold good of the other solid
bodies.
1. Dryness and freedom from air of the coal.—
The absorbent power of coal can only be determined
when it is wholly free from gases,
vapors, or liquids. Aqueous vapor in par