Born-Green equation: Difference between revisions

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The '''Born-Green equation''' is given by:
:<math>k_B T \frac{\partial \ln {\rm g}(r_{12})}{\partial {\mathbf r}_1}=
:<math>k_B T \frac{\partial \ln {\rm g}(r_{12})}{\partial {\mathbf r}_1}=
\frac{-\partial \Phi(r_{12})}{\partial {\mathbf r}_1}-  \rho \int \left[ \frac{\partial \Phi(r_{13})}{\partial {\mathbf r}_1} \right] {\rm g}(r_{13}){\rm g}(r_{23})  ~ {\rm d}{\mathbf r}_3</math>
\frac{-\partial \Phi(r_{12})}{\partial {\mathbf r}_1}-  \rho \int \left[ \frac{\partial \Phi(r_{13})}{\partial {\mathbf r}_1} \right] {\rm g}(r_{13}){\rm g}(r_{23})  ~ {\rm d}{\mathbf r}_3</math>

Latest revision as of 17:49, 6 September 2007

The Born-Green equation is given by:

where is the intermolecular pair potential, T is the temperature, and is the Boltzmann constant.

References[edit]

  1. M. Born and Herbert Sydney Green "A General Kinetic Theory of Liquids I: The Molecular Distribution Functions", Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences 188 pp. 10-18 (1946)
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