Medium
The reaction: $Cr_{2}O_{3} + 2 Al \rightarrow Al_{2}O_{3} + 2 Cr$ $\quad (\Delta_{r}G^{\Theta} = -421 \ kJ)$ is thermodynamically feasible as is apparent from the Gibbs energy value. Why does it not take place at room temperature?
(N/A) The change in Gibbs energy is related to the equilibrium constant,$K$,as $\Delta G = -RT \ln K$.
At room temperature,all reactants and products of the given reaction are in the solid state. As a result,the activation energy for the reaction is very high,and the kinetics are unfavorable.
Furthermore,according to the equation $\Delta G = \Delta H - T \Delta S$,increasing the temperature increases the value of $T \Delta S$,making the value of $\Delta G$ more negative.
At higher temperatures,the reactants gain sufficient energy to overcome the activation barrier,and the reaction proceeds.
At room temperature,all reactants and products of the given reaction are in the solid state. As a result,the activation energy for the reaction is very high,and the kinetics are unfavorable.
Furthermore,according to the equation $\Delta G = \Delta H - T \Delta S$,increasing the temperature increases the value of $T \Delta S$,making the value of $\Delta G$ more negative.
At higher temperatures,the reactants gain sufficient energy to overcome the activation barrier,and the reaction proceeds.
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