Physical Chemistry     70





        since A is a pure liquid. Thus the vapor pressure of the gas, p A (in atmospheres), gives the
        value of the equilibrium constant directly. This is also  the  case  for  a  system  which
        sublimes (transforms directly from a pure solid to a gas). For a system where a species is
        soluble in two immiscible liquid phases, i.e.    where A partitions between
        liquid 1 (l1) and liquid 2 (l2), the equilibrium constant for the partitioning process is:



        where c A,l2 and c A,l1 are the concentrations of A in the liquids l2 and l1 respectively if
        γ A,l1=γ A,l2. This equilibrium constant is termed a partition coefficient.



                                Thermodynamic data from K

        Given that (see Topic B6).


        then     values can be determined at any T if   can be obtained. Combining these


        expressions,                            , and for a small change in temperature,
        dT, both    and      can be assumed to be independent of T. Therefore at constant
        pressure:




        This equation is called the van’t Hoff equation and allows   to be measured at any
        temperature,  T.  This  is  done  by using the small changes in the concentrations and
        pressures of the species in equilibrium to calculate the small change in lnK, dlnK, when T
        is changed by a small amount dT from T to (T+dT).
           Often,    and     show little variation over a much wider temperature range. In
        this case the equation:





        can be used to determine    , where  K T1 and  K T2 are the equilibrium  constants
        measured at any two temperatures, T 1 and T 2 respectively, within this range.