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The number ofmoles of cyt c ( Fe 3 + ) formed from cyt c ( Fe 2 + ) is to be calculated. Concept introduction: The standard free energy change of the reaction is the difference of the sum of the standard free energy change of the products and the sum of the standard free energy change of the reactants. Δ G r x n ∘ = ∑ Δ G p r o d u c t ∘ − ∑ Δ G r e a c tan t ∘ The relation between the cell potential and the free energy change is as follows: Δ G ° = − n F E c e l l ∘ Here, E c e l l ∘ is the standard cell potential, Δ G ∘ is the standard Gibb’s free energy change, F is the Faraday constant ( 1F = 96500 J/V . mol e − ) , and n is the transfer of electrons in the half-cell reactions.

The number ofmoles of cyt c ( Fe 3 + ) formed from cyt c ( Fe 2 + ) is to be calculated. Concept introduction: The standard free energy change of the reaction is the difference of the sum of the standard free energy change of the products and the sum of the standard free energy change of the reactants. Δ G r x n ∘ = ∑ Δ G p r o d u c t ∘ − ∑ Δ G r e a c tan t ∘ The relation between the cell potential and the free energy change is as follows: Δ G ° = − n F E c e l l ∘ Here, E c e l l ∘ is the standard cell potential, Δ G ∘ is the standard Gibb’s free energy change, F is the Faraday constant ( 1F = 96500 J/V . mol e − ) , and n is the transfer of electrons in the half-cell reactions.

Solution Summary: The author explains the relationship between the cell potential and the free energy change of the reaction.

Chemistry

3rd Edition

ISBN: 9780073402734

Author: Julia Burdge

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 19, Problem 122AP

Interpretation Introduction

Interpretation:

The number ofmoles of cyt c(Fe3+) formed from cyt c(Fe2+) is to be calculated.

Concept introduction:

The standard free energy change of the reaction is the difference of the sum of the standard free energy change of the products and the sum of the standard free energy change of the reactants.

ΔGrxn∘ = ∑ΔGproduct∘− ∑ΔGreactant∘

The relation between the cell potential and the free energy change is as follows:

ΔG° = − n F Ecell∘

Here, Ecell∘ is the standard cell potential, ΔG∘ is the standard Gibb’s free energy change, F is the Faraday constant (1F = 96500 J/V . mol e−), and n is the transfer of electrons in the half-cell reactions.

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Chapter 19, Problem 121AP

Chapter 19, Problem 123AP

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Chapter 19 Solutions

Chemistry

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