Here's a possible way: convert the `number`

parameter to a list of chars and count the number of chars equal to the char corresponding to the `digit`

received as a parameter:

```
(define (num-digits number digit)
(let ((n (number->string number))
(d (integer->char (+ (char->integer #\0) digit))))
(count (lambda (x) (char=? x d))
(string->list n))))
```

Another way to write the above procedure, shorter but harder to read:

```
(define (num-digits number digit)
(count (curry char=? (integer->char (+ (char->integer #\0) digit)))
(string->list (number->string number))))
```

Yet another alternative would be to process each digit in turn by means of arithmetic operations as in @ChrisJester-Young's answer, but taking into account the edge case where both the number and the digit are exactly zero, and avoiding the redefinition of the built-in `count`

procedure - also bear in mind that this will only work for integer numbers >= 0 and in base 10. Here's how:

```
(define (num-digits number digit)
(if (= number digit 0)
1
(let loop ((num number)
(counter 0))
(cond ((zero? num)
counter)
((= digit (remainder num 10))
(loop (quotient num 10) (add1 counter)))
(else
(loop (quotient num 10) counter))))))
```

The string-based solutions above might seem a bit clunky, but are shorter to write and have the additional advantages of working for negative numbers, numbers with decimals, numbers in bases different from 10, etc. Anyway, this will work in any version:

```
(num-digits 125458563 5)
> 3
```

And this will work with the string-based versions:

```
(num-digits -123.1234152 1)
> 3
```