I have a university project in which we are asked to simulate a satellite approach to Mars using ODE's and SciPy's odeint function.

I manage to simulate it in 2D by making a second-order ODE into two first-order ODE's. However I am stuck in the time limitation because my code is using SI units therefore running in seconds and Python's linspace limits does not even simulate one complete orbit.

I tried converting the variables and constants to hours and kilometers but now the code keeps giving errors.

I followed this method:

http://bulldog2.redlands.edu/facultyfolder/deweerd/tutorials/Tutorial-ODEs.pdf

And the code is:

```
import numpy
import scipy
from scipy.integrate import odeint
def deriv_x(x,t):
return array([ x[1], -55.3E10/(x[0])**2 ]) #55.3E10 is the value for G*M in km and hours
xinit = array([0,5251]) # this is the velocity for an orbit of period 24 hours
t=linspace(0,24.0,100)
x=odeint(deriv_x, xinit, t)
def deriv_y(y,t):
return array([ y[1], -55.3E10/(y[0])**2 ])
yinit = array([20056,0]) # this is the radius for an orbit of period 24 hours
t=linspace(0,24.0,100)
y=odeint(deriv_y, yinit, t)
```

I don't know how to copy/paste the error code from PyLab so I took a PrintScreen of the error:

Second error with t=linspace(0.01,24.0,100) and xinit=array([0.001,5251]):

If anyone has any suggestions on how to improve the code I will be very grateful.

Thank you very much!

`ipython notebook --pylab`

or`ipython qtconsole --pylab`

to get a nicer interface. – J.F. Sebastian Dec 29 '12 at 21:01