Canonical ensemble: Difference between revisions

Revision as of 19:47, 19 February 2007

Canonical Ensemble:

Variables:

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

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

where:

$U$ is the potential energy, which depends on the coordinates of the particles (and on the interaction model)

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

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

			== [[Free energy]] ==