Helmholtz energy function: Difference between revisions

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Hermann Ludwig Ferdinand von Helmholtz Definition of A (for arbeit):

${\displaystyle \left.A\right.=U-TS}$

where U is the internal energy, T is the temperature and S is the entropy. (TS) is a conjugate pair. The differential of this function is

${\displaystyle \left.dA\right.=dU-TdS-SdT}$

From the second law of thermodynamics one obtains

${\displaystyle \left.dA\right.=TdS-pdV-TdS-SdT}$

thus one arrives at

${\displaystyle \left.dA\right.=-pdV-SdT}$.

For A(T,V) one has the following total differential

${\displaystyle dA=\left({\frac {\partial A}{\partial T}}\right)_{V}dT+\left({\frac {\partial A}{\partial V}}\right)_{T}dV}$

The following equation provides a link between classical thermodynamics and statistical mechanics:

${\displaystyle \left.A\right.=-k_{B}T\ln Q_{NVT}}$

where ${\displaystyle k_{B}}$ is the Boltzmann constant, T is the temperature, and ${\displaystyle Q_{NVT}}$ is the canonical ensemble partition function.

See also

• Canonical ensemble
• Grand canonical ensemble

References

1. Enrique de Miguel, Ramona G. Marguta and Elvira M. del Río "System-size dependence of the free energy of crystalline solids", Journal of Chemical Physics 127 154512 (2007)