I would start up with something like the following:

```
(define somelist
(list 'a 'and (list 'b 'implies 'c)
'or (list 'd 'and (list 'e 'implies 'f))))
(define (remove-vars xs ys)
(let ((xs-f (flatten xs)))
(filter-two xs-f ys)))
(define (filter-two xs ys)
(foldr (lambda(y acc)
(filter (lambda(x) (not (eq? x y))) acc))
xs
ys))
```

Test:

```
> (remove-vars somelist (list 'and 'or 'implies))
(a b c d e f)
> (remove-vars somelist (list 'and 'or))
(a b implies c d e implies f)
```

**UPDATE**: OK, @karategeek6 reported, that he doesn't have `flatten`

and `filter`

in his Scheme interpreter, and I'm not sure you do, so let's implement them manually, because there are no `filter`

and `flatten`

in R^6RS either:

```
(define (my-flatten xs)
(foldr
(lambda(x acc)
(if (list? x)
(append (my-flatten x) acc)
(cons x acc)))
(list)
xs))
(define (my-filter pred xs)
(let recur ((xs xs)
(acc (list)))
(if (empty? xs)
(reverse acc)
(if (pred (car xs))
(recur (cdr xs) (cons (car xs) acc))
(recur (cdr xs) acc)))))
```

Modify `remove-vars`

and `filter-two`

appropriately:

```
(define (remove-vars xs ys)
(let ((xs-f (my-flatten xs)))
(filter-two xs-f ys)))
(define (filter-two xs ys)
(foldr (lambda(y acc)
(my-filter (lambda(x) (not (eq? x y))) acc))
xs
ys))
```

You should get the same output as with previous versions of the above procedures.