So your version of curry takes a function with two args, let's say:

```
(define (cons a b) ...)
```

and turns that into something you can call like this:

```
(define my-cons (curry cons))
((my-cons 'a) '(b c)) ; => (cons 'a '(b c)) => '(a b c)
```

You actually have a function that takes three args. If you had a `curry3`

that managed 3-ary functions, you could do something like:

```
(define (consElem2All0 the-conser x lst) ...)
```

(like you did, but allowing cons-like functions other than cons to be used!)

and then do this:

```
(define consElem2All (curry3 consElem2All0))
```

You don't have such a `curry3`

at hand. So you can either build one, or work around it by "manually" currying the extra variable yourself. Working around it looks something like:

```
(define (consElem2All0 the-conser)
(lambda (x lst) ...something using the-conser...))
(define (consElem2All the-conser)
(curry (consElem2All0 the-conser)))
```

Note that there's one other possible use of curry in the map expression itself, implied by you wrapping a lambda around cons to take the element to pass to cons. How could you curry `x`

into `cons`

so that you get a one-argument function that can be used directly to map?...