Like others have said, all you need to do is create separate functions to compute the intersection, union, and subtraction of the two sets, and call them from checkresult:

```
(define (checkresult a b)
(list (subtract a b)
(subtract b a)
(union a b)
(intersect a b)))
```

Here are some example union, intersection, and subtraction functions:

```
(define (element? x lst)
(cond ((null? lst) #f)
((eq? x (car lst)) #t)
(#t (element? x (cdr lst)))))
(define (union a b)
(cond ((null? b) a)
((element? (car b) a)
(union a (cdr b)))
(#t (union (cons (car b) a) (cdr b)))))
(define (intersect a b)
(if (null? a) '()
(let ((included (element? (car a) b)))
(if (null? (cdr a))
(if included a '())
(if included
(cons (car a) (intersect (cdr a) b))
(intersect (cdr a) b))))))
(define (subtract a b)
(cond ((null? a) '())
((element? (car a) b)
(subtract (cdr a) b))
(#t (cons (car a) (subtract (cdr a) b)))))
```

Note: since these are sets and order doesn't matter, the results are not sorted. Also, the functions assume that the inputs are sets, and therefore don't do any duplicate checking beyond what's required for union.