I've run simulations which have given me data points corresponding to `X`

number of different radii, and `Y`

number of angles each one was evaluated at. This means that I have `X`

times `Y`

data points which I need to plot.

I am currently plotting it in an non-ideal fashion: I am using the `x`

and `y`

axes as the `r`

and `theta`

axes. This means that my data appears as a sinusoidal trend which increases with radius on a Cartesian grid, not the circle which it physically represents. This is how I am currently plotting my data:

```
surf(r_val, th_val, v_val);
```

What I wish to do is plot my data on a cylindrical axis, such like that of the function `polar()`

, but in R3 space. I would rather not download a toolbox, or modify the existing polar function; if there is no other solution then I will obviously end up doing this anyways.

Thanks for your help! G.

Also, I am using Matlab 2012a

**EDIT:**

r_val = 1x8 vector containing unique radii

th_val = 1x16 vector containing unique angles

v_val = 8x16 matrix containing voltages corresponding to each position

**NOTE:** (after answered)

The truly ideal solution does not exist to this problem, as Matlab currently supports no true polar axes methods. Resource found here.