Thermodynamic integration

Thermodynamic integration is used to calculate the difference in the Helmholtz energy function between two states. The path must be continuous and reversible. One has a continuously variable energy function ${\displaystyle U_{\lambda }}$ such that ${\displaystyle \lambda =0}$, ${\displaystyle U_{\lambda }=U_{0}}$ and ${\displaystyle \lambda =1}$, ${\displaystyle U_{\lambda }=U}$

${\displaystyle \Delta A=A-A_{0}=\int _{0}^{1}d\lambda \left\langle {\frac {\partial U_{\lambda }}{\partial \lambda }}\right\rangle _{\lambda }}$

where

${\displaystyle \left.U_{\lambda }\right.=(1-\lambda )U_{0}+\lambda U}$.

See also

• Gibbs-Duhem integration

References