changes.mady.by.user Arthur Aslanyan (Nafta College)
Saved on Nov 19, 2019
...
T_g(x,y,z) = T_{ref}n(x,y) + \int_{z_{refn}}^z G_T(x,y,z) dz
T(t, x, y,z) = T_s + \frac{j_z(x,y)}{\lambda_e} (z-z_s) + T_A \, \exp \left[ \, {(z_s-z}) \sqrt{\frac{\pi}{a_e \, \delta_T}} \, \leftright] \, \cos \rightleft[ \, 2 \pi \frac{t - t_{min}}{\delta_T} + (z_s -z) \sqrt {\frac{\pi}{a_e \, \delta_T}} \, \right]
G_T(x, y, z) =\frac{d T_g}{d z}= \frac{j_z(x,y,z)}{\lambda_e}