CHAP. 8: CHEMICAL EQUILIBRIUM [CONTENTS] 252
Solution−∆rG◦= 400 (190. 079 −1
2
205. 029 − 131 .721) + 241827 = 224164. 2 J mol−^1 ,K= exp(−∆rG◦
RT) = 1. 9 × 1029.
- Calculation from thestandard electrode potentialof galvanic cells
If a given reaction can be carried out using a reversible electrochemical cell, then it is also
possible to calculate ∆rG◦from the standard electrode potential of the cellE◦because we have
∆rG◦=−zF E◦, (8.36)whereFis the Faraday constant andzis the number of electrons exchanged during one mole
of reaction [see11.2.2].
8.4.3 Calculation from the equilibrium constants of other reactions.
For the calculation of ∆rGstjust like ∆rH◦, reactions may be combined [see Hess’s law,5.1.2]
Example
Calculate the equilibrium constant of the reaction0 =CO 2 (g) + 2H 2 (g)− C(s)− 2 H 2 O(g),ifK 1 is the equilibrium constant of the reaction0 = CO 2 (g)−C(s)−O 2 (g)andK 2 is the equilibrium constant of the reaction0 = H 2 O(g)−H 2 (g)−1
2
O 2 (g).