first a few notes:
(define f (lambda (x) l ))
is the same as
(define (f x) l ))
You however are combining them with
(define (board) (lambda (matrix) l ))
which is the same as
(define board (lambda () (lambda (matrix) l )))
The distinction is important. The first two I have listed bind f to a function that take one parameter and return l. I'm guessing this is what you want to do. In the second two, you're binding board to a function that takes no parameters and returns a function that takes 1 parameter, matrix, (which it doesn't seem to do anything with), and returns a l.
(list ((b w....) ...)) isn't going to work because it will try to evaluate
(b w ...). you need to have list in the function application position for each row of your board like so
(list (list b w ...) (list w b ...) ...) in order for you code to even compile.
On to your question. link-ref is included in racket/base and is used for referencing elements in a list when you know the index into the list.
(list-ref 2 (list 'a 'b 'c 'd))
will return 'c. The index starts at 0. Since you have a list of lists, you will need to apply list-ref twice to retrieve a 'b or 'w.
As for changing it, well, you can't. As of r6rs, pairs (which make up lists) are immutable. The recommended way of doing things when possible is to return a new list with your change. you can use this somewhat inefficient version of
list-set which returns a copy of the list with your new value at an index.
(define (list-set lis idx val)
(map (lambda (e i)
(if (= i idx) val e))
(iota (length lis))))
In this case however, I would recommend switching to a different data structure more appropriate to the task at hand since you probably want O(1) access to the elements in the board. Look into vectors which behave much like lists but are used for constant lookups and updates. there is a built in
vector-set! operations, which you should use instead of my above function.
Incase this is part of a larger problem and you're already using lists everywhere, you can use the
list->vector functions to go back and forth. Also, you can use mutable lists but don't.
Better still is the multidimensional array library offered in srfi/25, but that might be more complicated that you want to get.
The second part of your question was how to construct the board recursively. Well, here's a version using map.
(require (lib "1.ss" "srfi"))
(map (lambda (x)
(map (lambda (y)
(if (odd? (+ x y)) b w))
and here's a recursive version
(if (eq? x 8) '()
(cons (row-helper x 0) (board-helper (+ 1 x))))))
(lambda (x y)
(if (eq? y 8) '()
(cons (if (odd? (+ x y)) b w) (row-helper x (+ 1 y)))))))