The value of E°cell at 25.0°C for the equation Zn(s) + Cu^2+(aq) ⇋ Cu(s) + Zn^2+(aq) (25.11) is 1.10 V. Calculate the equilibrium constant at 25.0°C for this equation.

Question

The value of [latex]E^{\circ}_{cell}[/latex] at 25.0°C for the equation

[latex]Zn(s) + Cu^{2+}(aq) ⇋ Cu(s) + Zn^{2+}(aq)[/latex] (25.11)

is 1.10 V. Calculate the equilibrium constant at 25.0°C for this equation.

Accepted Answer

From Equation 25.10, we have

[latex]ln\ K =\frac{ν_{e}E^{\circ}_{cell}}{0.02570\ V} \qquad (at\ 25.0^{\circ}C)[/latex] (25.10)

[latex]ln\ K =\frac{ν_{e}E^{\circ}_{cell}}{0.02570\ V}[/latex]

For each mole of [latex]Zn(s)[/latex] in the oxidation-reduction reaction described by Equation 25.11, two moles of electrons are transferred to a mole of [latex]Cu^{2+}(aq)[/latex]. Thus, the value of [latex]ν_{e}[/latex] is 2. Therefore,

[latex]ln\ K =\frac{(2)(1.10\ V)}{0.02570\ V}=85.6[/latex]

and

[latex]K =\frac{[Zn^{2+}]eq}{[Cu^{2+}]eq} =e^{ 85.6} = 1.50 × 10^{37} ≈ 2 × 10^{37}[/latex]

The very large value of K means that at equilibrium, the ratio of [latex][Zn^{2+}][/latex] to [latex][Cu^{2+}][/latex] is very large or, in other words, that the value of [latex][Cu^{2+}][/latex] at equilibrium is very small. (The subscript eq on a concentration term denotes a chemical equilibrium value of that concentration.)

Question 25.5: The value of E°cell at 25.0°C for the equation Zn(s) + Cu^2+......

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