This method traverses the list at most twice:

```
(define (swap-index index1 index2 lst)
;; FIND-ELEMENTS --
;; INPUT: count, an integer; lst, a list
;; OUTPUT: a pair of the form '(a . b)
(define (find-elements count lst)
(cond ((null? lst) '()) ; really, we should never reach this if indices are valid
((= count index1) ; found the first element, so hold on to it while we look for the next one
(cons (car lst) (find-elements (+ 1 count) (cdr lst))))
((= count index2) (car lst)) ; found the second element, return part 2 of the pair
(else ; since we only care about 2 elements we can just skip everything else
(find-elements (+ 1 count) (cdr lst)))))
;; BUILD-LIST --
;; INPUT: count, an integer; elements, a pair; lst, a list
;; OUTPUT: a new list
(define (build-list count elements lst)
(cond ((null? lst) '()) ; again, we shouldn't get here if indices are valid
((= count index1) ; reached first index, substitute 2nd element and keep going
(cons (cdr elements) (build-list (+ 1 count) elements (cdr lst))))
((= count index2) ; reached second index, substitute 1st element and stop
(cons (car elements) (cdr lst)))
(else ; everything else just gets added to the list per usual
(cons (car lst) (build-list (+ 1 count) elements (cdr lst))))))
(build-list 0 (find-elements 0 lst) lst)) ; call build-list using a call to find-elements as a parameter
```

First, `find-elements`

looks through the list and returns a `cons`

'd pair of the elements that we want to swap. **Note:** this code depends on the assumption that the indices are given in order so that the smallest is first.

Next, `build-list`

takes the output from `find-elements`

so that during our next traversal we can substitute the appropriate element.