As Chris observes you need to localize `i`

within the function, but I recommend you use `Module`

to localize `i`

. `v`

is already localized by `Function`

itself so you do not need `Clear`

. Also, avoid starting user function names with a capital letter, as by convention those are reserved for system functions.

```
final = 4;
recursion =
Function[{v},
Module[{i},
For[i = 1, i <= 2, i++,
Print["Current level ", v];
Print["Try: ", i];
If[v == final, Print["End"], recursion[v + 1]];
Print["Back! i:", i];
]]];
recursion[1];
```

Beyond this, the problem doesn't appear to require `For`

and would be better written with `Do`

. Also, you may want to choose a different structure: either a function defined with `DownValues`

(meaning `f[x_] := ...`

rather than `f = Function[...]`

), or a `Function`

using `Slot`

(`#`

) where `#0`

can be used for recursion. I will illustrate both methods for you.

### DownValues

```
recursion2[v_Integer] :=
Do[
Print["Current level ", v];
Print["Try: ", i];
If[v == final, Print["End"], recursion2[v + 1]];
Print["Back! i:", i],
{i, 2}
]
```

### Pure Function with `Slot`

Here `#`

(also written `#1`

) represents the single parameter of the function, and `#0`

is used to represent the function itself. See `Slot`

for more.

```
recursion3 =
Do[
Print["Current level ", #];
Print["Try: ", i];
If[# == final, Print["End"], #0[# + 1]];
Print["Back! i:", i],
{i, 2}
] &;
```