Charged  interfaces  179

          p is related  to $ by Poisson's equation, which for a flat double layer
         takes the  form




                                                                (7,2)
         where  e is the permittivity*.
           Combination  of equations  (7.1)  and  (7.2) gives



              ck 2  ~  €     KT                                 (73)

                     87
          The solution  of this expression,  with the boundary conditions (^
        =  t^o when x  =  0;  and ^  =  0,  d^/dx  =  0 when  jc  =  °°)  taken  into
        account,  can  be written in the  form

                                                                (7,4)









                                                                ..,,
                                                                (7 6)
                                                                  '
        where  N A  is  Avogadro's  constant  and  c  is  the  concentration  of
        electrolyte.
          If  ze^J2kT  «  1 (kT/e  =  25.6  mV  at  25°C),  the  Debye-Huckel
        approximation,

                         1+
                   2kT       2kT
        can  be  made  and  equations  (7.4)  and  (7.5)  simplify  to

        *The  permittivity of  a material is the constant  e  in  the  rationalised  expression,  F  =
                  2
        (Q,Q 2X(47rer ),  where  F  is  the  force  between  charges d  and Q 2  separated  by a
        distance  r. The permittivity of a vacuum  Co according  to this definition is equal to 8.854
                         2
                       4
        x  HT 12  kg  ' m~  3  s  A .  The  dielectric  constant  of  a  material is equal  to  the ratio
        between  its  permittivity and  the  permittivity of  a  vacuum,  and  is  a  dimensionless
        quantity.