SECT. IT.]
PROPERTIES OF STEAM.
85
Experience proves that these gases would gradually mix together till they
became completely intermixed. It further shows that during this operation heat
is neither evolved nor absorbed ; so that after a certain time the mixture is per
fectly homogeneous, the two gases holding the same proportion in every part, and
the temperature and pressure being t and p. From these facts, established by
observation, we may deduce another equally well verified by experience.
123. If two gases, or a gas and vapour, mixed together at the temperature t,
fill a volume v ; and if p and / denote the pressures they would separately exert
when separately occupying the same volume v, at the same temperature t, the
pressure of the mixture will be p +/.
In effect, let us suppose that the two gases at first are distinct, and let / be
greater than p ; then dilating the gas under the pressure /, until / changes to p,
its volume will become
v f
P
provided the same temperature t has been preserved. Placing the two gases now
one on the other, their united volume is
, V f V , , -v
v + —- or _ (p+f).
p p
124. These gases, according to what we have said above, will equally intermix
without changing their temperature or common pressure p. Now according to the
law of the volume being inversely as the pressure, which is true of mixed as well
as of simple gases, if we compress the mixture without changing its temperature
until its volume ~ ip+f) becomes v, the pressure p will become p+f, the same
as we had to prove.
Equally good would the principle hold with three or more gases, or with a mix
ture of gases and vapour : in all cases the united pressure will be equal to the sum
of all the pressures which the gases or vapours would each exert, when separately
occupying the same volume v at the same temperature t.
When a change of temperature takes place, either after or during the mixture,
the first temperature being t; then
X V ^ = v °l ume a t the new temperature t', and pressure p.
125. This is compared with General Roy’s experiments in the following table,
formed from the mean results which he obtained. 1 Commencing at zero, 1000
parts of air, in contact with water, and under a pressure of 32T8 inches, is
1 Philosophical Transactions, vol. Ixvii. p. 653.