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Question 15.9.2: For the following reaction H2 (g) + ½ O2 (g) → H2O (l) The......

For the following reaction

H_2  (g) + ½  O_2  (g) → H_2O  (l)

The value of enthalpy change and free energy change are −68.32 and −56.69 kcal respectively at 25 °C. Calculate the value of free energy change at 30 °C.

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\Delta \mathrm{G}=\Delta \mathrm{H}+\mathrm{T}\left(\frac{\partial \Delta \mathrm{G}}{\partial \mathrm{T}}\right)_{\mathrm{p}}

Here   \Delta \mathrm{G}=-56.69 \mathrm{~kcal} ;   \Delta \mathrm{H}=-68.32 \mathrm{~kcal} \quad \mathrm{T}=273+25=298 \mathrm{~K}\\

\therefore\left(\frac{\partial \Delta \mathrm{G}}{\partial \mathrm{T}}\right)_{\mathrm{P}}=\frac{-56.69+68.32}{298}=0.039

Assuming that \left(\frac{\partial \Delta \mathrm{G}}{\partial \mathrm{T}}\right)_{\mathrm{p}} remains constant over this range of temperature, at 30 °C we can write

\begin{aligned}\Delta \mathrm{G} & =-68.32+303 \times 0.039 \\& =-68.32+11.81 \\& =-56.51 \mathrm{~kcal}\end{aligned}

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