You're describing the cartesian product of a list of lists, here's a possible implementation (works in Racket):

```
(define (cartesian-product lsts)
(foldr (lambda (lst acc)
(for*/list ((x (in-list lst))
(y (in-list acc)))
(cons x y)))
'(())
lsts))
```

Now, if you're not using Racket, here's a vanilla implementation using mostly standard procedures; it should work on any Scheme interpreter that defines a `fold-right`

-like procedure:

```
(define (flatmap f lst)
(apply append (map f lst)))
(define (cartesian-product lsts)
(foldr (lambda (lst acc)
(flatmap (lambda (x)
(map (lambda (y)
(cons x y))
acc))
lst))
'(())
lsts))
```

Either way, it works as expected:

```
(cartesian-product '((a b c) (e f) (z h)))
=> '((a e z) (a e h) (a f z) (a f h) (b e z) (b e h)
(b f z) (b f h) (c e z) (c e h) (c f z) (c f h))
```