The standard cell potential for the reaction in a fuel cell that uses the reaction CH 4(g) +2O 2(g) → CO 2(g) +2H 2 O (g) is to be calculated. Introduction: The cell potential of a certain electrochemical cell states how much voltage generates between two half cells of that electrochemical cell. We can denote the cell potential as E 0 . On the other hand, the free energy change or Δ G 0 is a thermodynamic quantity that describes the internal energy of the electrochemical cell which is available to generate electricity. There is a relationship between cell potential and free energy change as follows: Δ G 0 = − n F E 0 Where, n is the number of moles of electrons that transfer during the reaction while F is the Faraday Constant. We can calculate the standard cell potential using the standard free energies of formation ( Δ G 0 f ) of reactants and products of a given reaction. The equation for this calculation is Δ G 0 = [ Δ G 0 f ( R e a c t a n t s ) ] − [ Δ G 0 f ( P r o d u c t s ) ]

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Chapter 19, Problem 19.73SP

Interpretation Introduction

Interpretation:

The standard cell potential for the reaction in a fuel cell that uses the reaction CH4(g)+2O2(g)→CO2(g)+2H2O(g) is to be calculated.

Introduction:

The cell potential of a certain electrochemical cell states how much voltage generates between two half cells of that electrochemical cell. We can denote the cell potential as E0. On the other hand, the free energy change or ΔG0 is a thermodynamic quantity that describes the internal energy of the electrochemical cell which is available to generate electricity. There is a relationship between cell potential and free energy change as follows:

ΔG0=−nFE0

Where, n is the number of moles of electrons that transfer during the reaction while F is the Faraday Constant.

We can calculate the standard cell potential using the standard free energies of formation ( ΔG0f ) of reactants and products of a given reaction. The equation for this calculation is

ΔG0=[ΔG0f(Reactants)]−[ΔG0f(Products)]

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