Introduction  to Physical Chemistry                        9

                    Conclusion of the Kinetic Theory of Gases
       The kinetic theory of gases is a good approximation, used to explain
       the behaviour of real gases. The theory has to be modified at very high
       pressures and in the presence of van der Waals forces, and for polar
       molecules  where  stronger  intermolecular  forces  of  attraction  are
       involved.


                     THE GENERAL GAS EQUATION
       Consider a  gas at temperature  TI, pressure p1 and  volume  V1, and
       another gas at temperature  T2  and pressure p2. The volume of  the
       latter gas can be determined easily using the equation:






       A useful way  of remembering this is 'peas  and Vegetables go on the
       Table'! In fact, given any five of the above variables, the sixth can be
       evaluated using the equation. This will form the basis of the worked
       example at the end of this chapter.


                               Standard State
       The standard state of a body is the most stable state of that body at
       25°C and 1 bar pressure (its symbol is ", e.g. E", AH", AS", defined
       later in Chapters 2,3 and 6 respectively).

       I Standard State-Most  Stable State-S.S.-25   "C and 1 bar pressure. 1


           IMPORTANCE OF UNITS IN PHYSICAL CHEMISTRY

       In physical chemistry questions, the International system of units (SI)
       should be used. In any problem, one of the first steps is to convert all
       units to SI; note especially that  temperature must  always be given in
       kelvins, never degrees centigrade:
                   1   Remember: T(K) = T("C) + 273  I


       e.g. 25 "C is equal to 298 K since (25 + 273) K  = 298 K. Table 1.2 lists
        (a) the basic SI units, (b) the derived SI units, and (c) some examples of
       non-SI units, which are commonly used in physical chemistry.