Consider following function definition in ghci.

```
let myF = sin . cos . sum
```

where, . stands for composition of two function (right associative). This I can call

```
myF [3.14, 3.14]
```

and it gives me desired result. Apparently, it passes list [3.14, 3.14] to function 'sum' and its 'result' is passed to cos and so on and on. However, if I do this in interpreter

```
let myF y = sin . cos . sum y
```

or

```
let myF y = sin . cos (sum y)
```

then I run into troubles. Modifying this into following gives me desired result.

```
let myF y = sin . cos $ sum y
```

or

```
let myF y = sin . cos . sum $ y
```

The type of (.) suggests that there should not be a problem with following form since 'sum y' is also a function (isn't it? After-all everything is a function in Haskell?)

```
let myF y = sin . cos . sum y -- this should work?
```

What is more interesting that I can make it work with two (or many) arguments (think of passing list [3.14, 3.14] as two arguments x and y), I have to write the following

```
let (myF x) y = (sin . cos . (+ x)) y
myF 3.14 3.14 -- it works!
let myF = sin . cos . (+)
myF 3.14 3.14 -- -- Doesn't work!
```

There is some discussion on HaskellWiki regarding this form which they call 'PointFree' form http://www.haskell.org/haskellwiki/Pointfree . By reading this article, I am suspecting that this form is different from composition of two lambda expressions. I am getting confused when I try to draw a line separating both of these styles.