What factors affect electrochemical cells?

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What factors affect electrochemical cells?

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Answer 1 · 2014-02-11T18:38:44

The Gibbs free energy change determines the voltage of an electrochemical cell. This in turn depends on factors such as concentration, gas pressure, and temperature.

Explanation:

Gibbs Free Energy

The Gibbs free energy measures how far a system is from equilibrium.

It therefore determines the voltage (driving force) of an electrochemical cell.

$Δ G = - n F E$ $ΔG = -nFE$ or $E = - \frac{Δ G}{n F}$ $E = -(ΔG)/(nF)$

where $n$ $n$ is the number of moles of electrons transferred and $F$ $F$ is the Faraday Constant.

Concentration and Gas Pressure

$Δ G = Δ G ° - R T ln Q$ $ΔG = ΔG° - RTlnQ$ , where $Q$ $Q$ is the reaction quotient.

For an equilibrium reaction such as $A ⇌ B + C$ $"A" ⇌ "B + C"$ ,

$Q = \frac{[B] [C]}{[A]}$ $Q =(["B"]["C"])/(["A"])$ or $Q = \frac{P_{B} P_{C}}{P_{A}}$ $Q = (P_"B" P_"C")/P_"A"$ if the substances are gases.

$E$ $E$ depends on $Δ G$ $ΔG$ , $Δ G$ $ΔG$ depends on $Q$ $Q$ , and $Q$ $Q$ depends on concentration and pressure.

Therefore both concentration and gas pressure affect the voltage of the cell.

Temperature

According to the Nernst Equation,

$E = E ° - (\frac{R T}{n F}) ln Q$ $E = E° - ((RT)/(nF))lnQ$

The temperature term in this equation shows that temperature also affects the cell voltage.

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What factors affect electrochemical cells?

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