You're right, that statement is incorrect. Mathematica evaluates it to something like

```
x^2[x]
```

when you call `PersonalPlot`

and that evaluates to, well, in words to `x to the power of 2 of x`

which doesn't make a lot of sense. There are a number of ways round the problem. The simplest would be to dispense with a Module altogether and define:

```
PersonalPlot1[fun0_, var0_, min0_, max0_] := Plot[fun0, {var0, min0, max0}]
```

which you would call like this:

```
PersonalPlot1[x^2, x, 0, 3]
```

Note that a call like this `PersonalPlot1[x^2, y, 0, 3]`

produces an empty plot because the variable in the function passed in is not the same variable as the second argument. Read on.

If you want to define a module which takes a function as an argument, then this is one way of doing it:

```
PersonalPlot2[fun0_, var0_, min0_, max0_] :=
Module[{fun = fun0, var = var0, min = min0, max = max0},
Plot[fun[var], {var, min, max}]]
```

which you would call like this

```
PersonalPlot2[#^2 &, x, 0, 3]
```

Note:

- The function passed into the function is a pure function. If you are not already familiar with Mathematica's pure functions now would be a good time to consult the relevant parts of the documentation.
- This explicitly tells the
`Plot`

command to evaluate `fun[var]`

over the range you specify.
Your local variables are not strictly necessary since your function works by side-effect, producing a plot rather than manipulating (copies of) the arguments passed to it. You could rewrite this simply as:

```
PersonalPlot2b[fun0_, var0_, min0_, max0_] := Module[{},
Plot[fun0[var0], {var0, min0, max0}]]
```

Another possibility would be to drop the argument which represents the variable input to the function passed to `PersonalPlot`

, like this:

```
PersonalPlot3[fun0_, min0_, max0_] := Module[{x},
Plot[fun0[x], {x, min0, max0}]]
```

which you would call like this

```
PersonalPlot3[#^2 &, 0, 3]
```

In this version I've made `x`

local to the `Module`

to avoid clashes with any workspace variable also called `x`

. This avoids errors arising from using different names for the argument to the function (the pure function has no argument names) and the second argument to `PersonalPlot`

; that has now been dropped.

There are probably several other useful ways of passing arguments to functions whether those functions use modules or not.

**EDIT**

Most of us who've used Mathematica for a while don't, I think, regard `#^2&`

as something to avoid. If you don't like it, you could use the more explicit syntax, like this:

```
fun1 = Function[x,x^2]
```

which you can then pass around like this

```
PersonalPlot[fun1,0.0,4.0]
```

By using this approach you can make your functions a bit less error prone by requiring the right types to be passed in, like this

```
PersonalPlot[fun_Function, min_Real, max_Real] := ...
```

but it's really up to you.

Off the top of my head I don't know how `Plot`

does it, I'd have to look in the documentation.