SimPEG.flow.richards.empirical.Vangenuchten_theta.derivM#
- Vangenuchten_theta.derivM(u)[source]#
derivative with respect to m
import sympy as sy alpha, u, n, I, Ks, theta_r, theta_s = sy.symbols( 'alpha u n I Ks theta_r theta_s', real=True ) m = 1.0 - 1.0/n theta_e = 1.0 / ((1.0 + sy.functions.Abs(alpha * u) ** n) ** m) f_n = ( ( theta_s - theta_r ) / ( (1.0 + abs(alpha * u)**n) ** (1.0 - 1.0 / n) ) + theta_r )