Others already explained the difference - they reduce elements in a different order.

For most of the operations that you can use with `reduce`

or `reduceBack`

, the difference does not actually matter. In more mathematical terms, if your operation is *associative* (such as numeric operations, max, min or sum functions, list concatenation, etc.) then the two behave the same.

An example where you can nicely see the difference is building a tree, because that exactly shows how the evaluation works:

```
type Tree =
| Leaf of int
| Node of Tree * Tree
[ for n in 0 .. 3 -> Leaf n]
|> List.reduce (fun a b -> Node(a, b))
[ for n in 0 .. 3 -> Leaf n]
|> List.reduceBack (fun a b -> Node(a, b))
```

Here are the two trees that you get as the result (but note that if you flatten them, then you get the same list!)

```
reduce reduceBack
-------------------------------------
tree: /\ /\
/\ 3 0 /\
/\ 2 1 /\
0 1 2 3
-------------------------------------
flat: 0 1 2 3 0 1 2 3
```