The way you wrote this, it does not terminate, so it eg ends up alternating between 1 and 4, 2 etc. (all recursive descriptions must eventually bottom out somewhere, and your does not include a case to do that at `n=1`

).

This works:

```
ClearAll[collatz];
collatz[1] = 1;
collatz[n_ /; EvenQ[n]] := collatz[n/2]
collatz[n_ /; OddQ[n]] := collatz[3 n + 1]
```

although it does not give a list of the intermediate results. A convenient way to get them is

```
ClearAll[collatz];
collatz[1] = 1;
collatz[n_ /; EvenQ[n]] := (Sow[n]; collatz[n/2])
collatz[n_ /; OddQ[n]] := (Sow[n]; collatz[3 n + 1])
runcoll[n_] := Last@Last@Reap[collatz[n]]
runcoll[115]
(*
-> {115, 346, 173, 520, 260, 130, 65, 196, 98, 49, 148, 74, 37, 112, 56,
28, 14, 7, 22, 11, 34, 17, 52, 26, 13, 40, 20, 10, 5, 16, 8, 4, 2, 1}
*)
```

or

```
colSeq[x_] := NestWhileList[
Which[
EvenQ[#], #/2,
True, 3*# + 1] &,
x,
# \[NotEqual] 1 &]
```

so that eg

```
colSeq[115]
(*
-> {115, 346, 173, 520, 260, 130, 65, 196, 98, 49, 148, 74, 37, 112, 56,
28, 14, 7, 22, 11, 34, 17, 52, 26, 13, 40, 20, 10, 5, 16, 8, 4, 2, 1}
*)
```

By the way the fastest approach I could come up with (I think I needed it for some project Euler problem) was something like

```
Clear@collatz;
collatz[1] := {1}
collatz[n_] := collatz[n] = If[
EvenQ[n] && n > 0,
{n}~Join~collatz[n/2],
{n}~Join~collatz[3*n + 1]]
```

compare:

```
colSeq /@ Range[20000]; // Timing
(*
-> {6.87047, Null}
*)
```

while

```
Block[{$RecursionLimit = \[Infinity]},
collatz /@ Range[20000];] // Timing
(*
-> {0.54443, Null}
*)
```

(we need to increase the recursion limit to get this to run correctly).