Others have pointed out that you are having nan/inf problems which is true, but here is how to fix your code to give you the results that I believe you are looking for.

Since no one else has really pointed it out (that I've noticed), you are trying to solve a system of differential equations using the Euler method. The coupled differential equations that you are solving are:

```
dy/dt = e*(1 - x * x) * y - x + f * cos(w * t)
dx/dt = y
```

However, your solution is faulty which gives huge numerical instability (and the wrong answer). These two lines:

```
y = y + ((e*(1 - x*x)*y) - x + f*cos(w*t))*t;
x = x + y*t;
```

should be:

```
y = y + ((e*(1 - x*x)*y) - x + f*cos(w*t))*.01;
x = x + y*.01;
```

where I have changed t to your delta t (time step) because that's what Euler's method calls for. I would make a new variable called delt or something like that so that you can easily change the time step. The solution is beautifully stable now and plotting x vs. t and y vs. t gives some very nice plots. I'd post them, but I have a feeling that this might be homework.

Also, if with different equations you need more stability, you can use smaller time steps or some better numerical ODE methods like Runge-Kutta or implicit methods.

`y == nan`

will always (i.e. "defined") be false, even if`y`

is`nan`

. – kennytm Apr 26 '10 at 17:49