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Question 23.7: The thermodynamic equilibrium constant at 25°C for the chemi......

The thermodynamic equilibrium constant at 25°C for the chemical equation

CH_{3}COOH(aq) + H_{2}O(l) ⇋ H_{3}O^+(aq) + CH_{3}COO^−(aq)

is K = 1.8 × 10^{−5}. Calculate the value of ΔG^{\circ}_{rxn} at 25°C.

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The value of ΔG^{\circ}_{rxn} can be calculated from the value of K by using Equation 23.19:

ΔG^{\circ}_{rxn}= –RT\ ln\ K = –(8.3145\ J·mol^{–1}·K^{–1})(298\ K)ln(1.8 × 10^{−5})\\= +2.71 × 10^{4}\ J·mol^{–1} = +27.1\ kJ·mol^{–1}

The positive value of ΔG^{\circ}_{rxn} means that the reaction described by

CH_{3}COOH(aq,\ 1\ M) + H_{2}O(l) ⇋ H_{3}O^+(aq,\ 1\ M) + CH_{3}COO^−(aq,\ 1\ M)

will proceed spontaneously from right to left under standard conditions. We say that the reaction as written is not spontaneous from left to right under standard conditions. The units of kJ·mol^{–1} mean that this is the value of ΔG^{\circ}_{rxn} for one mole of the reaction as written.

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