You need to *compose* the functions you receive in the `f`

parameter. For simplicity's sake, let's say that there are only two functions in the list - then you need to apply the first function to the current element in the list of numbers and then apply the second function to the result of that. If you can use the `compose`

procedure go ahead with it and change this line in your code:

```
((car f) (car l)) ; you're applying only the 1st function! what about the 2nd?
```

... with this one:

```
((compose (cadr f) (car f)) (car l)) ; now we're applying both functions
```

If you can't use `compose`

, then replace the same line with this one:

```
((cadr f) ((car f) (car l))) ; now we're applying both functions
```

Now, if the problem is more general and you're required to map a list of functions with *more than two* elements, then once more replace the same line in your code with this:

```
((compose-multi f) (car l))
```

And implement a helper function that composes and returns all the functions in the list, by successive calls to `compose`

. This one is left as an exercise for you, given that it's homework - but if you understand how the above code works for just two functions, it should be easy enough to extend the result for a list of multiple functions:

```
(define (compose-multi flist) ; procedure for composing a list of functions
(if (null? flist) ; if the list is empty then
<???> ; return the identity function
(<???> (compose-multi <???>) ; else compose the result of recursive call
<???>))) ; with the current element in the list
```

Notice that the identity function is required for handling the case where there are no elements in the list of functions; it's very simple to define, it just returns the same value that was passed as parameter.

Also be aware that `compose-multi`

returns a *function*, the result of composing all the functions in the list - `compose`

does this for you, but if you're not allowed to use it just remember that this:

```
(compose x y)
```

... is equivalent to this:

```
(lambda (n) (x (y n)))
```

`square`

rather than`double`

in order to get the result shown?). You might find the answers to this question helpful: stackoverflow.com/questions/9919732/… . – Jon O. May 19 '12 at 14:22