CHAP. 6: THERMODYNAMICS OF HOMOGENEOUS MIXTURES [CONTENTS] 143
6.2 Integral quantities.
The assumption of an ideal mixture (6.1) does not apply to most common mixtures. Conse-
quently, we use mixing, excess or solution (differential or integral) quantities to describe changes
in thermodynamic quantities during mixing.
6.2.1 Mixing quantities
A change in the molar thermodynamic quantityYm, which accompanies the formation of a
mixture from pure substances in the same phase at constant temperature and pressure, is
termed themolar mixing quantity
∆YM=Ym−∑ki=1xiYm•,i. (6.18)For an ideal mixture [see6.1] we get∆VM = 0, (6.19)
∆HM = 0, (6.20)
∆UM = 0, (6.21)
∆CVM = 0, (6.22)
∆CpM = 0, (6.23)∆SM = −R∑ki=1xilnxi, (6.24)∆GM = RT
∑ki=1xilnxi, (6.25)∆FM = RT
∑ki=1xilnxi. (6.26)