Equilibrium Constant - Temperature Dependence

Temperature Dependence

The van 't Hoff equation.

shows that when the reaction is exothermic (ΔH is negative), then K decreases with increasing temperature, in accordance with Le Chatelier's principle. It permits calculation of the reaction equilibrium constant at temperature T₂ if the reaction constant at T₁ is known and the standard reaction enthalpy can be assumed to be independent of temperature even though each standard enthalpy change is defined at a different temperature. However, this assumption is valid only for small temperature differences T₂ - T₁. In fact standard thermodynamic arguments can be used to show that

where C_p is the heat capacity at constant pressure. The equilibrium constant is related to the standard Gibbs energy change of reaction as

where ΔG is the standard Gibbs free energy change of reaction, R is the gas constant, and T the absolute temperature.

If the equilibrium constant has been determined and the standard reaction enthalpy has also been determined, by calorimetry, for example, this equation allows the standard entropy change for the reaction to be derived.