The correct representation of Nernst's equation is - Vidyadip

MCQ

The correct representation of Nernst's equation is

✓
${E_{{M^{n + }}/M}} = {E^o}_{{M^{n + }}/M} + \frac{{0.0591}}{n}\log \,({M^{n + }})$
B
${E_{{M^{n + }}/M}} = {E^o}_{{M^{n + }}/M} - \frac{{0.0591}}{n}\log \,({M^{n + }})$
C
${E_{{M^{n + }}/M}} = {E^o}_{{M^{n + }}/M} + \frac{n}{{0.0591}}\log \,({M^{n + }})$
D
None of the above

✓

Answer

Correct option: A.

${E_{{M^{n + }}/M}} = {E^o}_{{M^{n + }}/M} + \frac{{0.0591}}{n}\log \,({M^{n + }})$

a
(a)$E = {E^o} - \frac{{RT}}{{nF}}\ln \frac{1}{{[{M^{n + }}]}}$; $E = {E^o} + \frac{{RT}}{{nF}}\ln [{M^{n + }}]$

$E = {E^o} + \frac{{2.303RT}}{{nF}}\log [{M^{n + }}]$

Substituting the value of $ R, T (298\,K) $ and $F $ we get

$E = {E^o} + \frac{{0.0591}}{n}\log ({M^{n + }})$.

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