def analytic_model_fig(ax, var_md, time=1): lamb = eq.d1_lambda_evol(time) h_a = eq.d1_height(lamb, var_md["x_range"]) v_a = eq.d1_velocity(lamb, var_md["x_range"]) ax.plot( var_md["x_range"], eq.d1_initial(var_md["x_range"]), "k", var_md["x_range"], h_a, "b", var_md["x_range"], var_md["h"], "r", ) ax.plot( var_md["x_range"], 0 * var_md["x_range"], "k-", var_md["x_range"], v_a, "b--", var_md["x_range"], var_md["vx"], "r--", ) ps.ticks_changes(ax)
def analytic_model_fig(ax, var_md, time=1): lamb = eq.d1_lambda_evol(time) h_a = eq.d1_height(lamb, var_md["x_range"]) v_a = eq.d1_velocity(lamb, var_md["x_range"]) ax.plot(var_md["x_range"], eq.d1_initial(var_md["x_range"]), 'k', var_md["x_range"], h_a, 'b', var_md["x_range"], var_md["h"], "r") ax.plot(var_md["x_range"], 0 * var_md["x_range"], "k-", var_md["x_range"], v_a, 'b--', var_md["x_range"], var_md["vx"], "r--") ps.ticks_changes(ax)
def analytic_fig(ax, x_lim, time_l=[0,1,2,3], nx=320): x_range = np.linspace(-x_lim, x_lim, nx) oznacz = ['k', 'b', 'c', 'y', 'g', 'm', 'r'] for it, time in enumerate(time_l): lamb = eq.d1_lambda_evol(time) h = eq.d1_height(lamb, x_range) v = eq.d1_velocity(lamb, x_range) ax.plot(x_range, h, oznacz[it]) ax.plot(x_range, v, oznacz[it]+ "--") ps.ticks_changes(ax)
def analytic_fig(ax, x_lim, time_l=[0, 1, 2, 3], nx=320): x_range = np.linspace(-x_lim, x_lim, nx) oznacz = ['k', 'b', 'c', 'y', 'g', 'm', 'r'] for it, time in enumerate(time_l): lamb = eq.d1_lambda_evol(time) h = eq.d1_height(lamb, x_range) v = eq.d1_velocity(lamb, x_range) ax.plot(x_range, h, oznacz[it]) ax.plot(x_range, v, oznacz[it] + "--") ps.ticks_changes(ax)
def analytic_model_fig(ax, x_range, h_m, v_m, t_m, it): lamb = eq.d1_lambda_evol(t_m[it,0]) h_a = eq.d1_height(lamb, x_range) v_a = eq.d1_velocity(lamb, x_range) ax.plot(x_range, eq.d1_initial(x_range), 'k', x_range, h_a, 'b', x_range, h_m[it], "r") ax.plot(x_range, 0*x_range, "k-", x_range, v_a, 'b--', x_range, v_m[it], "r--") ax.set_ylim(-2,2) ps.ticks_changes(ax)
def analytic_model_fig(ax, x_range, h_m, v_m, t_m, it): lamb = eq.d1_lambda_evol(t_m[it,0]) h_a = eq.d1_height(lamb, x_range) v_a = eq.d1_velocity(lamb, x_range) ax.plot(x_range, eq.d1_initial(x_range), 'k', x_range, h_a, 'b', x_range, h_m[it], "r") ax.plot(x_range, 0*x_range, "k--", x_range, v_a, 'b--', x_range, v_m[it], "r--") ax.set_ylim(-2,2) ps.ticks_changes(ax)