There are several problems with your code, most of which you might be able to solve yourself if you read the docstring for `odeint`

more carefully.

To get you started, the following is a simple example of solving a scalar differential equation with `odeint`

. Instead of trying to understand (and possibly debug) your function, I'll use a very simple equation. I'll solve the equation dy/dt = a * y, with initial condition y(0) = 100. Once you have this example working, you can modify `fun`

to solve your problem.

```
import numpy as np
from scipy.integrate import odeint
import matplotlib.pyplot as plt
def fun(y, t, a):
"""Define the right-hand side of equation dy/dt = a*y"""
f = a * y
return f
# Initial condition
y0 = 100.0
# Times at which the solution is to be computed.
t = np.linspace(0, 1, 51)
# Parameter value to use in `fun`.
a = -2.5
# Solve the equation.
y = odeint(fun, y0, t, args=(a,))
# Plot the solution. `odeint` is generally used to solve a system
# of equations, so it returns an array with shape (len(t), len(y0)).
# In this case, len(y0) is 1, so y[:,0] gives us the solution.
plt.plot(t, y[:,0])
plt.xlabel('t')
plt.ylabel('y')
plt.show()
```

Here's the plot:

More complicated examples of the use of `odeint`

can be found in the SciPy Cookbook (scroll down to the bullet labeled "Ordinary differential equations").