You have several things wrong, and your code is very non-idiomatic. First, the number 1 is not prime; in fact, is it neither prime nor composite. Second, the
result variable isn't doing what you think it is. Third, your use of
if is incorrect everywhere it appears;
if is an expression, not a statement as in some other programming languages. And, as a matter of style, closing parentheses are stacked at the end of the line, and don't occupy a line of their own. You need to talk with your professor or teaching assistant to clear up some basic misconceptions about Scheme.
The best algorithm to find the primes less than n is the Sieve of Eratosthenes, invented about twenty-two centuries ago by a Greek mathematician who invented the leap day and a system of latitude and longitude, accurately measured the circumference of the Earth and the distance from Earth to Sun, and was chief librarian of Ptolemy's library at Alexandria. Here is a simple version of his algorithm:
(define (primes n)
(let ((bits (make-vector (+ n 1) #t)))
(let loop ((p 2) (ps '()))
(cond ((< n p) (reverse ps))
((vector-ref bits p)
(do ((i (+ p p) (+ i p))) ((< n i))
(vector-set! bits i #f))
(loop (+ p 1) (cons p ps)))
(else (loop (+ p 1) ps))))))
(primes 50), that returns the list
(2 3 5 7 11 13 17 19 23 29 31 37 41 43 47). It is much faster than testing numbers for primality by trial division, as you are attempting to do. If you must, here is a proper primality checker:
(define (prime? n)
(let loop ((d 2))
(cond ((< n (* d d)) #t)
((zero? (modulo n d)) #f)
(else (loop (+ d 1))))))
Improvements are possible for both algorithms. If you are interested, I modestly recommend this essay on my blog.
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