You can view a line/curve plot as a function of a single variable, `y=f(x)`

, and typically, `x`

and `y`

are both vectors. For e.g., you can plot the Gaussian bell curve as

```
x=linspace(-3,3,1000);
y=exp(-x.^2/2);
plot(x,y)
```

A surface plot, on the other hand, is a function of two variables, `z=f(x,y)`

where `x`

and `y`

can be either vectors or matrices and `z`

is a matrix. `meshgrid`

is a very handy function that generates 2D `x`

and `y`

arrays from 1D vectors by proper replication.

It is the `z`

matrix that you plot either as a 2D image (values of `z`

are represented by colors) or a 3D plot (values of `z`

are represented as heights along the z-axis). For e.g., a 3D Gaussian bell curve can be plotted as

```
x=linspace(-3,3,1000);y=x'; %'
[X,Y]=meshgrid(x,y);
z=exp(-(X.^2+Y.^2)/2);
surf(x,y,z);shading interp
```

This is how the respective plots should look like

`x`

vs`y`

. they are of different lengths. – user564376 May 7 '11 at 6:37