You can do this using an iterative function that takes each element of the list in turn, accumulating a result. For example:

```
(define (make-number lst)
(define (make a lst)
(if (null? lst)
a
(make (+ (* 10 a) (car lst)) (cdr lst))))
(make 0 lst))
(display (make-number '(6 3)))
```

The `make`

function uses an accumulator `a`

and the rest of the digits in `lst`

to build up the final result one step at a time:

```
a = 0
a = 0*10 + 6 = 6
a = 6*10 + 3 = 63
```

If you had more digits in your list, this would continue:

```
a = 63*10 + 5 = 635
a = 635*10 + 9 = 6359
```

A less efficient implementation that uses a single function could be as follows:

```
(define (make-number lst)
(if (null? lst)
0
(+ (* (expt 10 (length (cdr lst))) (car lst)) (make-number (cdr lst)))))
```

This function needs to calculate the `length`

of the remainder of the list for each iteration, as well as calling the `expt`

function repeatedly. Also, this implementation is not properly tail recursive so it builds up multiple stack frames during execution before unwinding them all after it reaches its maximum recursion depth.