from vib_undamped import solver, plot_empirical_freq_and_amplitude from math import pi dt_values = [0.1, 0.05, 0.01] u_cases = [] t_cases = [] for dt in dt_values: # Simulate scaled problem for 40 periods u, t = solver(I=1, w=2*pi, dt=dt, T=40) u_cases.append(u) t_cases.append(t) plot_empirical_freq_and_amplitude(u_cases, t_cases, I=1, w=2*pi) raw_input()
from vib_undamped import solver, plot_empirical_freq_and_amplitude from math import pi dt_values = [0.1, 0.05, 0.01] u_cases = [] t_cases = [] for dt in dt_values: # Simulate scaled problem for 40 periods u, t = solver(I=1, w=2 * pi, dt=dt, T=40) u_cases.append(u) t_cases.append(t) plot_empirical_freq_and_amplitude(u_cases, t_cases, I=1, w=2 * pi) raw_input()
# -*- coding: utf-8 -*- from vib_undamped import solver, plot_empirical_freq_and_amplitude from math import pi tau_values = [0.1, 0.5, 0.01] u_cases = [] t_cases = [] for tau in tau_values: # Расчитываем безразмерную модель для 40 периодов u, t = solver(U=1, omega=2 * pi, tau=tau, T=40) u_cases.append(u) t_cases.append(t) plot_empirical_freq_and_amplitude(u_cases, t_cases, U=1, omega=2 * pi)