Here's my solution. It's based on a tortoise-and-hare algorithm (which is used in any kind of list traversal where you need to detect circular lists), so it doesn't do any more work than a sane list traversal has to do anyway. :-)

```
(define (middle-elements lst)
(if (null? lst) '()
(let loop ((tortoise lst)
(hare (cdr lst)))
(cond ((eq? tortoise hare) #f)
((null? hare) (list (car tortoise)))
((null? (cdr hare)) (list (car tortoise) (cadr tortoise)))
(else (loop (cdr tortoise) (cddr hare)))))))
```

It covers the following cases:

- If given an empty list, returns an empty list.
- If given a list with an odd number of elements, returns a singleton list with the middle element.
- If given a list with an even number of elements, returns a list with the two middle elements.
- If given a circular list, returns
`#f`

.
- If given an improper list (including a non-list), summons nasal demons.