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The pressure of hydrogen gas required to maintain equilibrium at 25 o C is to be determined. Concept introduction: According to the standard reduction potential values, the electrode that has a less negative reduction potential will act as a cathode and undergo reduction. However, if the reduction potential of the electrode is more negative, then that electrode will act as an anode and undergo oxidation. The standard reduction potential of a galvanic cell may be calculated in terms of standard reduction potential of cathode and anode as the relation mentioned below: E c e l l o = E c a t h o d e o − E a n o d e o According to the Nernst equation, the relation between emf, standard cell potential, and reaction quotient at 298 K will be as follows: E = E c e l l o − 0 .0592V n log Q Here, E is the emf of the cell, E c e l l o is the standard reduction potential of the cell, Q is the reaction quotient, and n is the electron change in the half-cell reactions.

The pressure of hydrogen gas required to maintain equilibrium at 25 o C is to be determined. Concept introduction: According to the standard reduction potential values, the electrode that has a less negative reduction potential will act as a cathode and undergo reduction. However, if the reduction potential of the electrode is more negative, then that electrode will act as an anode and undergo oxidation. The standard reduction potential of a galvanic cell may be calculated in terms of standard reduction potential of cathode and anode as the relation mentioned below: E c e l l o = E c a t h o d e o − E a n o d e o According to the Nernst equation, the relation between emf, standard cell potential, and reaction quotient at 298 K will be as follows: E = E c e l l o − 0 .0592V n log Q Here, E is the emf of the cell, E c e l l o is the standard reduction potential of the cell, Q is the reaction quotient, and n is the electron change in the half-cell reactions.

Solution Summary: The author explains that the pressure of hydrogen gas required to maintain equilibrium is determined. The standard reduction potential of a galvanic cell is calculated according to the Nernst equation.

Chemistry

3rd Edition

ISBN: 9780073402734

Author: Julia Burdge

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 19, Problem 111AP

Interpretation Introduction

Interpretation:

The pressure of hydrogen gas required to maintain equilibrium at 25o C is to be determined.

Concept introduction:

According to the standard reduction potential values, the electrode that has a less negative reduction potential will act as a cathode and undergo reduction. However, if the reduction potential of the electrode is more negative, then that electrode will act as an anode and undergo oxidation.

The standard reduction potential of a galvanic cell may be calculated in terms of standard reduction potential of cathode and anode as the relation mentioned below:

Ecello =Ecathodeo −Eanodeo

According to the Nernst equation, the relation between emf, standard cell potential, and reaction quotient at 298 K will be as follows:

E=Ecello− 0.0592VnlogQ

Here, E is the emf of the cell, Ecello is the standard reduction potential of the cell, Q is the reaction quotient, and n is the electron change in the half-cell reactions.

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Chapter 19, Problem 110AP

Chapter 19, Problem 112AP

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