is a body
which possesses the power of decomposing oxygen gas, by attracting the
oxygen from the caloric with which it was combined. This can very easily
be proved, by means of experiments quite similar to those we have given
with phosphorus; but it is necessary to premise, that in these
operations with sulphur, the same accuracy of result is not to be
expected as with phosphorus; because the acid which is formed by the
combustion of sulphur is difficultly condensible, and because sulphur
burns with more difficulty, and is soluble in the different gasses. But
I can safely assert, from my own experiments, that sulphur in burning
absorbs oxygen gas; that the resulting acid is considerably heavier than
the sulphur burnt; that its weight is equal to the sum of the weights of
the sulphur which has been burnt, and of the oxygen absorbed; and,
lastly that this acid is weighty, incombustible, and miscible with water
in all proportions: The only uncertainty remaining upon this head, is
with regard to the proportions of sulphur and of oxygen which enter into
the composition of the acid.

Charcoal, which, from all our present knowledge regarding it, must be
considered as a simple combustible body, has likewise the property of
decomposing oxygen gas, by absorbing its base from the caloric: But the
acid resulting from this combustion does not condense in the common
temperature; under the pressure of our atmosphere, it remains in the
state of gas, and requires a large proportion of water to combine with
or be dissolved in. This acid has, however, all the known properties of
other acids, though in a weaker degree, and combines, like them, with
all the bases which are susceptible of forming neutral salts.

The combustion of charcoal in oxygen gas, may be effected like that of
phosphorus in the bell-glass, (A. Pl. IV. fig. 3.) placed over mercury:
but, as the heat of red hot iron is not sufficient to set fire to the
charcoal, we must add a small morsel of tinder, with a minute particle
of phosphorus, in the same manner as directed in the experiment for the
combustion of iron. A detailed account of this experiment will be found
in the memoirs of the academy for 1781, p. 448. By that experiment it
appears, that 28 parts by weight of charcoal require 72 parts of oxygen
for saturation, and that the aeriform acid produced is precisely equal
in weight to the sum of the weights of the charcoal and oxygen gas
employed. This aeriform acid was c