Consider the following lambda function in Haskell:

```
(\x g n -> g (x * n))
```

It takes two parameters: a `Num`

named `x`

and a function `g`

which takes a `Num`

named `n`

and returns something else. The lambda function returns another function of the same type as `g`

:

```
(\x g n -> g (x * n)) :: Num a => a -> (a -> t) -> a -> t
```

What I don't understand is what does the expression `g (x * n)`

actually represent. For example consider the following use case:

```
((\x g n -> g (x * n)) 2 id)
```

In this case `x`

is `2`

and `g`

is `id`

. However what is `n`

? What does `g (x * n)`

represent? By simple substitution it can be reduced to `id (2 * n)`

. Is this the same as `id . (2 *)`

? If so then why not simply write `(\x g -> g . (x *))`

?

threeparameters. – chirlu Sep 13 '13 at 17:03