Canonical ensemble: Difference between revisions

Variables:

• Number of Particles, ${\displaystyle N}$

• Volume, ${\displaystyle V}$

• Temperature, ${\displaystyle T}$

Partition Function

Classical Partition Function (one-component system) in a three-dimensional space: ${\displaystyle Q_{NVT}}$

${\displaystyle Q_{NVT}={\frac {V^{N}}{N!\Lambda ^{3N}}}\int d(R^{*})^{3N}\exp \left[-\beta U\left(V,(R^{*})^{3N}\right)\right]}$

where:

• ${\displaystyle \Lambda }$ is the de Broglie thermal wavelength (depends on the temperature)

• ${\displaystyle \beta ={\frac {1}{k_{B}T}}}$, with ${\displaystyle k_{B}}$ being the Boltzmann constant

• ${\displaystyle U}$ is the potential energy, which depends on the coordinates of the particles (and on the interaction model)

• ${\displaystyle \left(R^{*}\right)^{3N}}$ represent the 3N position coordinates of the particles (reduced with the system size): i.e. ${\displaystyle \int d(R^{*})^{3N}=1}$