If A is the reactant and P is the product,whi | vedclass

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Question

(B) The Nernst equation is given by: $E = E^{\circ} - \frac{R T}{n F} \ln \frac{[P]}{[A]}$ Rearranging the equation: $E - E^{\circ} = -\frac{R T}{n F}

Vedclass · Accepted Answer

$\frac{[A]}{[P]}=\exp \left(\frac{n F}{R T}(E-E^{\circ})\right)$

Vedclass · Answer

(B) The Nernst equation is given by: $E = E^{\circ} - \frac{R T}{n F} \ln \frac{[P]}{[A]}$ Rearranging the equation: $E - E^{\circ} = -\frac{R T}{n F} \ln \frac{[P]}{[A]}$ $E - E^{\circ} = \frac{R T}{n F} \ln \frac{[A]}{[P]}$ Multiplying by $\frac{n F}{R T}$: $\frac{n F}{R T} (E - E^{\circ}) = \ln \frac{[A]}{[P]}$ Taking the exponential of both sides: $\frac{[A]}{[P]} = \exp \left(\frac{n F}{R T} (E - E^{\circ})\right)$ Thus,option $B$ is the correct answer.

If $A$ is the reactant and $P$ is the product,which one of the following is the correct form of the Nernst equation?

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