Sure. The actual definition in `GHC/Base.hs`

is in terms of the equivalent list comprehension:

```
instance Monad [] where
xs >>= f = [y | x <- xs, y <- f x]
```

Alternatively, you could try the following method of working it out from scratch from the type:

```
(>>=) :: [a] -> (a -> [b]) -> [b]
```

We need to handle two cases:

```
[] >>= f = ???
(x:xs) >>= f = ???
```

The first is easy. We have no elements of type `a`

, so we can't apply `f`

. The only thing we can do is return an empty list:

```
[] >>= f = []
```

For the second, `x`

is a value of type `a`

, so we can apply `f`

giving us a value of `f x`

of type `[b]`

. That's the beginning of our list, and we can concatenate it with the rest of the list generated by a recursive call:

```
(x:xs) >>= f = f x ++ (xs >>= f)
```