CHAP. 11: ELECTROCHEMISTRY [CONTENTS] 370
Example
Calculate the ionic strength of
a) a solution of FeCl 3 of the molalitym= 0.1 mol kg−^1 ,
b) a solution containing KCl of the molality 0.1 mol kg−^1 and CuCl 2 of the molality 0.2 mol kg−^1.Solution
a) From the material balance it follows that the molality of the ferric ions is 0.1 mol kg−^1 , the
molality of the chloride ions is 3×0.1 = 0.3 mol kg−^1. From equation (11.41) we obtainI=
1
2
(
0. 1 × 32 + 0. 3 × 12)
= 0. 6 mol kg−^1.b) From the material balance it follows that the molality of the potassium ions is 0.1 mol kg−^1 ,
the molality of the cupric ions is 0.2 mol kg−^1 , and the molality of the chloride ions is0 .1 + 2× 0 .2 = 0. 5 mol kg−^1.From equation (11.41) we obtainI=
1
2
(
0. 1 × 12 + 0. 2 × 22 + 0. 5 × 12)
= 0. 7 mol kg−^1.11.4.4 Debye-H ̈uckel limiting law
Based on a theoretical model of a dilute solution of a strong electrolyte, Debye and H ̈uckel
derived a relation for the calculation of the activity coefficient of an ioni
lnγi=−A z^2 i√
I , (11.43)
whereziis the ion charge number andIis the ionic strength of the solution. For the parameter
Awe have
A=e^3 NA^2√
2 /ρ 1
8 π( 0 rRT)^3 /^2