`big`

is called `max`

. Use standard library functionality when it's there.

My approach is different. Rather than lots of tests, I simply add the squares of all three, then subtract the square of the smallest one.

```
(define (exercise1.3 a b c)
(let ((smallest (min a b c))
(square (lambda (x) (* x x))))
(+ (square a) (square b) (square c) (- (square smallest)))))
```

Whether you prefer this approach, or a bunch of `if`

tests, is up to you, of course.

Alternative implementation using SRFI 95:

```
(define (exercise1.3 . args)
(let ((sorted (sort! args >))
(square (lambda (x) (* x x))))
(+ (square (car sorted)) (square (cadr sorted)))))
```

As above, but as a one-liner (thanks synx @ freenode #scheme); also requires SRFI 1 and SRFI 26:

```
(define (exercise1.3 . args)
(apply + (map! (cut expt <> 2) (take! (sort! args >) 2))))
```