123 | | [[latex(e^{n+1}_i=e^n_i + \frac{1}{2}\frac{\Delta t}{\Delta x} \lambda_i \left ( 2 \frac{\kappa^n_i_{0P}}{\kappa^n_i_{0R}}-1 \right ) \left ( v^n_i \left ( E^n_{i+1}-E^n_{i-1} \right ) \right ) )]] |
124 | | |
125 | | [[latex(E^{n+1}_i=E^n_i - \frac{\Delta t}{\Delta x} \left ( \frac{\lambda_i}{2} \left ( 2 \frac{\kappa^n_i_{0P}}{\kappa^n_i_{0R}}-1 \right ) \left ( v^n_i \left ( E^n_{i+1}-E^n_{i-1} \right ) \right ) + \left ( F_{i+1/2}-F_{i-1/2} \right ) \right ))]] |
| 123 | [[latex(e^{n+1}_i=e^n_i + \frac{1}{2}\frac{\Delta t}{\Delta x} \lambda_i \left ( 2 \frac{\kappa^n_{i,0P}}{\kappa^n_{i,0R}}-1 \right ) \left ( v^n_i \left ( E^n_{i+1}-E^n_{i-1} \right ) \right ) )]] |
| 124 | |
| 125 | [[latex(E^{n+1}_i=E^n_i - \frac{\Delta t}{\Delta x} \left ( \frac{\lambda_i}{2} \left ( 2 \frac{\kappa^n_{i,0P}}{\kappa^n_{i,0R}}-1 \right ) \left ( v^n_i \left ( E^n_{i+1}-E^n_{i-1} \right ) \right ) + \left ( F_{i+1/2}-F_{i-1/2} \right ) \right ))]] |