I'm trying to plot a 2-dimensional function (specifically, a 2-d Laplace solution). I defined my function and it returns the right value when I put in specific numbers, but when I try running through an array of values (x,y below), it still returns only one number. I tried with a random function of x and y (e.g., f(x,y) = x^2 + y^2) and it gives me an array of values.

```
def V_func(x,y):
a = 5
b = 4
Vo = 4
n = np.arange(1,100,2)
sum_list = []
for indx in range(len(n)):
sum_term = (1/n[indx])*(np.cosh(n[indx]*np.pi*x/a))/(np.cosh(n[indx]*np.pi*b/a))*np.sin(n[indx]*np.pi*y/a)
sum_list = np.append(sum_list,sum_term)
summation = np.sum(sum_list)
V = 4*Vo/np.pi * summation
return V
x = np.linspace(-4,4,50)
y = np.linspace(0,5,50)
V_func(x,y)
```

Out: 53.633709914177224

`sum_list`

starts as a list`[]`

.`sum_term`

looks like it would produce an array the same size as`x`

and`y`

. Then you append this to`sum_list`

using`np.append`

(why not`sum_list.append`

?). So`sum_list`

ends up a 1d array (read the`np.append`

docs). Then you`np.sum`

that reducing it to one number (read its docs). It isn't clear where the 2d is supposed to come from? From`x`

,`y`

,`n`

or some outer product? – hpaulj Nov 9 '18 at 5:042 + y2 was given the same values for x and y as above, it returns an array. – user10476896 Nov 9 '18 at 9:28