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transport_coefficients [2013/11/10 22:14]
nikolaj 		transport_coefficients [2013/11/10 23:09]
nikolaj
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-===== Macroscopic observables from kinetic theory ​=====+===== Transport coefficients ​=====
 ==== Definition ==== ==== Definition ====
 | @#88DDEE: $ n,​u,​Q,​T,​\mathrm{P},​K $ ... density, mean velocity, heat flux, pressure tensor, temperature,​ external force | | @#88DDEE: $ n,​u,​Q,​T,​\mathrm{P},​K $ ... density, mean velocity, heat flux, pressure tensor, temperature,​ external force |
  
 | @#FFBB00: $ \langle D,​\kappa,​p,​\eta,​\zeta \rangle $ | | @#FFBB00: $ \langle D,​\kappa,​p,​\eta,​\zeta \rangle $ |
- 
-| @#DDDDDD: $ \Lambda_{ik} = \frac{1}{2}\left( \frac{\partial}{\partial x_k}u_i + \frac{\partial}{\partial x_i}u_k \right) $ | 
  
 | @#55EE55: $ u = - D\ \frac{\nabla n}{n} $ | | @#55EE55: $ u = - D\ \frac{\nabla n}{n} $ |
 +
 | @#55EE55: $ Q = - \kappa\ \nabla T $ | | @#55EE55: $ Q = - \kappa\ \nabla T $ |
 +
 +| @#DDDDDD: $ \Lambda_{ik} = \frac{1}{2}\left( \frac{\partial}{\partial x_k}u_i + \frac{\partial}{\partial x_i}u_k \right) $ |
 | @#55EE55: $ P = p\ I - 2\ \eta\ \Lambda - (\zeta+\frac{2}{3}\eta)\ \nabla u $ | | @#55EE55: $ P = p\ I - 2\ \eta\ \Lambda - (\zeta+\frac{2}{3}\eta)\ \nabla u $ |
  
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