Essentially, a tail recursive function keeps calling itself until it reaches its end condition. Unlike "regular" recursion, however, it passes intermediate answers to itself until it reaches the end.
An example would be this:
(define (find-length i lst)
(null? lst) i
(find-length (+ i 1) (cdr lst))))
The function takes two values:
i, which tracks the length of the list so far, and
lst, the list we're counting the elements of.
i, for all intents and purposes, is our running count of the elements in the list. So if we call this method, we'll want to call it with
i initialized to 0.
First we check that the list is not empty. (
null?) If the list is empty, we can assume that we've counted all the elements, so we simply return
i, which is our running count. This is our end condition.
Otherwise, we call
find-length again. This time, however, we've incremented
i by one and dropped the first element from the list
For example, let's say we call the function like this:
(find-length 0 (list 2 3 4 3 5 3))
As we evaluate, the program would recursively call:
(find-length 1 '(3 4 3 5 3))
(find-length 2 '(4 3 5 3))
(find-length 3 '(3 5 3))
(find-length 4 '(5 3))
(find-length 5 '(3))
(find-length 6 '()) ; end condition, return 6
This question is a good reference for tail recursion in general.