我试图解决这两个方程式,我没有运气,如果有人能指出我哪里出错了那将是非常感谢!
def f(t,alpha):
return t*t/(2*alpha) * (1-sqrt(1-4*alpha))
def f_1 (t,x,params):
alpha=params[0]
return [X[1],-((3/f(t,alpha)*X[0]))]
T=ode_solver()
T.y_0=[1,0]
T.function=f_1
T.scale_abs=[1e-4,1e-4,1e,-5]
T.error_rel=1e-4
T.ode_solve(t_span[0,1000],params=[0.001],num_points=1000)
T.plot_solution(i=0)
答案 0 :(得分:0)
尝试使用scipy。 看这个例子:
from scipy.integrate import odeint
from pylab import * # for plotting commands
def deriv(y,t, alpha): # return derivatives of the array y #edit: put an extra arg
#use the arg whatever you want
a = -2.0
b = -0.1
return array([ y[1], a*y[0]+b*y[1] ])
time = linspace(0.0,10.0,1000)
yinit = array([0.0005,0.2]) # initial values
alpha = 123 #declare the extra(s) agrg
y = odeint(deriv,yinit,time,args=(alpha, )) #pass the extras args as tuple
figure()
plot(time,y[:,0]) # y[:,0] is the first column of y
xlabel('t')
ylabel('y')
show()
结果:
字体:http://bulldog2.redlands.edu/facultyfolder/deweerd/tutorials/Tutorial-ODEs.pdf
一个有趣的链接:http://docs.scipy.org/doc/scipy-0.14.0/reference/generated/scipy.integrate.ode.html