Here's what's happening:

When you `(define fact x!)`

, you aren't permanently linking `fact`

to `x!`

. You're making `fact`

equal to **whatever **`x!`

is at the time of `fact`

's definition.

So `(define fact x!)`

is actually equivalent to:

```
(define fact
(lambda(x)
(if (= x 1) 1 (* x (x! (- x 1))))))
```

Next, you redefine x!:

```
(define x! (lambda (x) x))
```

But that **does not** change `fact`

- it only changes `x!`

. Next, you do this:

```
(fact 5)
```

Here's what the interpreter 'does' next (it may actually do it slightly differently - but only trivially so, and this should at least help you understand the behaviour of your program):

Replacing `fact`

with its definition gives:

```
(lambda(x)
(if (= x 1) 1 (* x (x! (- x 1)))))
```

Replacing `x!`

with its *new* definition gives:

```
((lambda(x)
(if (= x 1)
1
(* x
(- ((lambda (x)
x)
x)
1))))
5)
```

...Simplifying gives:

```
((lambda(x)
(if (= x 1)
1
(* x (- x 1))))
5)
```

...

```
(if (= 5 1)
1
(* 5 (- 5 1)))
```

...

```
(if #f
1
(* 5 (- 5 1)))
```

...Resolving the conditional and simplifying the substraction gives:

```
(* 5 4)
```

...Which yields 20.