There are several things wrong in your attempt:

- The parameters. You have
`zipWith xs ys`

, but the type says that the first parameter has to be a function, so change that to `zipWith f xs ys`

.
- You're calling zipWith recursively. ListPair.foldr takes care of that for you, though, so don't.
- You're giving ListPair.foldr 0 as its starting value. Fold-functions always take a starting value
*of the same type as the return value* - we want zipWith to return a list, so the fold-function should take a list as its starting value. The empty list, that is.

Think about how ListPair.foldr works. We can do it one parameter at a time. The type of ListPair.foldr is:

```
fn : ('a * 'b * 'c -> 'c) -> 'c -> 'a list * 'b list -> 'c
```

The first parameter is a function with the type:

```
fn : 'a * 'b * 'c -> 'c
```

Let's make a toy function as an example:

```
fun foo (a, b, acc) = a+b :: acc
```

This function takes two numbers and a list, adds the two numbers together, puts them in front of the list, and returns it. The type is:

```
fn : int * int * int list -> int list
```

Which corresponds nicely with our type signature from the first parameter of ListPair.foldr.

Now, let's look at the type of `ListPair.foldr foo`

.

```
fn : int list -> int list * int list -> int list
```

The next parameter is an int list - the starting value for the folding. Great, we already figured out that this is the empty list. The type of `ListPair.foldr foo []`

is:

```
fn : int list * int list -> int list
```

The last parameter is a tuple containing two lists. We put in some random lists, and try it out in an sml interpreter:

```
- ListPair.foldr foo [] ([1,2,3],[10,20,30])
> val it = [11, 22, 33] : int list
```

Now, all you need to do is to replace the parameters to ListPair.foldr (foo and the two random lists) with parameters from zipWith, and you're done.