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Question
What is Nernst equation for the potential of an electrode?
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Solution
For a general redox half cell reaction:
\[\ce{Mn^n+ + ne- <=> M_{(s)}}\]
Nernst equation: \[\ce{E = E{^{\circ}} - \frac{0.0591}{n} log \frac{1}{[Mn^{n+}]}}\]
Or more commonly written as:
\[\ce{E = E{^{\circ}} + \frac{0.0591}{n} log [Mn^{n+}]}\]
Where,
E = Electrode potential at a given concentration
E° = Standard electrode potential
n = Number of electrons involved in the reaction
[Mn+] = Molar concentration of metal ion in solution
0.0591 is the value of \[\ce{\frac{2.303 RT}{F}}\] at 298 K.
The nernst equation becomes:
\[\ce{E = E{^{\circ}_{cell}} - \frac{0.0591}{n} log \frac{[Reduction]}{[Oxidation]}}\]
This equation is used extensively to calculate the electrode potential under varying ion concentrations and to determine the cell potential and feasibility of redox reactions.
