Changes between Version 12 and Version 13 of u/johannjc/scratchpad4
- Timestamp:
- 09/30/15 20:44:26 (9 years ago)
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u/johannjc/scratchpad4
v12 v13 113 113 114 114 $E_{ij}=\frac{1}{2}\kappa_\parallel n b_i b_j$ 115 116 117 118 Now for the perpendicular term, we have 119 120 $\frac{\partial T}{\partial t} = \nabla \cdot \left [ n \hat{b} \frac{-n \kappa_\perp}{B^2 \left (\Lambda+1\right )} \left ( \hat{b} \cdot \nabla T_*^{\Lambda+1} \right ) - \frac{-n \kappa_\perp}{B^2 \left (\Lambda+1\right )}\nabla^2 T_*^{\Lambda+1} \right ]$