can anyone explain why I get such dramatically different results for the Laplace operator in Matlab when I use

```
laplacian = del2(image);
```

versus

```
[x, y] = gradient(image);
[xx, xy] = gradient(x);
[yx, yy] = gradient(y);
laplacian = xx + yy;
```

Shouldn't these come to the same thing? They get particularly divergent when one includes a dx term.

Putting my example up here in case it helps: I have a test field consisting of

```
[5; 2.5+2.5i; 5i; -2.5+2.5i; -5; -2.5-2.5i; -5i; 2.5-2.5i]
```

times its transpose (I can post the whole matrix if it helps). The inner block (3:6, 3:6) of the del2() of this field is:

```
[-2.5 -0.625-0.625i -2.5i 0.625-0.625i ;
-0.625+0.625i 0 -0.625+0.625i 0 ;
2.5i -0.625+0.625i -2.5 -0.625+0.625i ;
0.625+0.625i 0 -0.625+0.625i 0 ]
```

while the inner block (3:6, 3:6) of the xx + yy is:

```
[-5 -2.5-2.5i -5i -2.5-2.5i ;
-2.5+2.5i -2.5 -2.5-2.5i -2.5i ;
5i -2.5+2.5i -5 -2.5-2.5i ;
2.5+2.5i 2.5i -2.5+2.5i -2.5 ]
```

which as you can see will make a dramatic difference in any further equations. Might anyone have an explanation, thanks very much!

`z=X.^2.*Y`

– Gunther Struyf Sep 10 '12 at 14:54