Explanation The reaction between N i 2 + ( a q ) and Cd(s) is as follows: N i 2 + ( a q ) + C d ( s ) → N i ( s ) + C d 2 + ( a q ) To calculate the equilibrium constant for the reaction, we must know the standard cell potential E cell ° for this reaction. Separate the half-reaction to calculate the standard cell potential ( E cell ° ) . Oxidation ( Anode ) :Cd ( s ) → Cd 2+ ( aq ) + 2 e − E º = − ( − 0.40 V ) Reduction ( cathode ) :Ni 2+ ( aq ) + 2 e − → Ni ( s ) E º = − 0.23 V − − − − − − − − − − − − − − − − − − − − Ni 2+ ( aq ) +Cd ( s ) → Ni ( s ) +Cd 2+ ( aq ) E cell º = − 0

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Chapter 18, Problem 69E

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Interpretation: The equilibrium constant for the reaction between Ni2+(aq) and Cd(s) at 25°C is to be calculated.

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Chapter 18, Problem 68E

Chapter 18, Problem 70E

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Chapter 18 Solutions

Masteringchemistry With Pearson Etext -- Valuepack Access Card -- For Principles Of Chemistry: A Molecular Approach

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The equilibrium constant for the reaction between N i 2 + ( a q ) and Cd(s) at 25 ° C is to be calculated.

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Interpretation: The equilibrium constant for the reaction between Ni2+(aq) and Cd(s) at 25°C is to be calculated.

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Chapter 18 Solutions