Kirchoff’s Equation MCQ - Practice Questions with Answers

Kirchhoff's Law describes the variation of enthalpy of a reaction with changes in temperature. In general, enthalpy of any substance increases with temperature, which means both the products and the reactants' enthalpies increase. The overall enthalpy of the reaction will change if the increase in the enthalpy of products and reactants is different.

At constant pressure, the heat capacity is equal to change in enthalpy divided by the change in temperature.

...............1

Therefore, if the heat capacities do not vary with temperature then the change in enthalpy is a function of the difference in temperature and heat capacities. The amount that the enthalpy changes by is proportional to the product of temperature change and change in heat capacities of products and reactants. A weighted sum is used to calculate the change in heat capacity to incorporate the ratio of the molecules involved since all molecules have different heat capacities at different states.

...........2

If the heat capacity is temperature-independent over the temperature range, then Equation 1 can be approximated as

...............3

where

•  is the change in heat capacity of reaction and is defined as 

It has exact same treatment for Cp as we have for calculation of change in enthalpy 

• H_Ti and H_Tf are the enthalpy at the respective temperatures.

Equation 3  can only be applied to small temperature changes, (<100 K) because over a larger temperature change, the heat capacity is not constant. There are many biochemical applications because it allows us to predict enthalpy changes at other temperatures by using standard enthalpy data.

In case the variation of C_p with temperature is given then we can use the equation 2 and integrate the function of Cp as f(T) with respect to T and obtain the result.