CHAP. 2: STATE BEHAVIOUR [CONTENTS] 59
2.4.2 Amagat’s law
According to Amagat’s law, the volumeV, the molar volumeVmand the compressibility factor
zof a mixture are given by
V=
∑kj=1Vj•, Vm=∑kj=1xjVm•,j, z=∑kj=1xjzj•, (2.39)whereVj•=Vj•(T, p, nj) is the volume,Vm•,j=Vm•,j(T, p) is the molar volume, andz•j=z•(T, p)
is the compressibility factor of a pure substance j at the temperature and pressure of the
mixture and in the same state of matter as the mixture.
If pure gases obey the equation of state of an ideal gas, we must have
Vi•=V xi, (2.40)whereV is the volume of the mixture andxiis the mole fraction of substanceiin the mixture.
Example
At a temperature of 25◦C and a pressure of 101 325 Pa, the molar volume of water is
18.07 cm^3 mol−^1 , and the molar volume of methanol is 40.73 cm^3 mol−^1. Using Amagat’s law,
estimate the molar volume of a mixture containing 2 moles of water and 5 moles of methanol at
the same temperature and pressure.Solution
The mole fractions of the components in the mixture arexH 2 O=2
2 + 5
=
2
7
, xmethanol=5
7
.
We estimate the molar volume of the mixture using the second of equations (2.39).Vm=2
7
18 .07 +
5
7
40 .73 = 34. 26 cm^3 mol−^1.