Consider the following example:

```
(defn pascal-step [v n]
(if (pos? n)
(let [l (concat v [0])
r (cons 0 v)]
(recur (map + l r) (dec n)))
v))
```

This function calculates `n+m`

th line of pascal triangle by given `m`

th line.

Now, imagine, that `let`

is a `recur`

target. In this case I won't be able to recursively call the `pascal-step`

function itself from `let`

binding using `recur`

operator.

Now let's make this example a little bit more complex:

```
(defn pascal-line [n]
(loop [v [1]
i n]
(if (pos? i)
(let [l (concat v [0])
r (cons 0 v)]
(recur (map + l r) (dec i)))
v)))
```

Now we're calculating `n`

th line of a pascal triangle. As you can see, I need both `loop`

and `let`

here.

This example is quite simple, so you may suggest removing `let`

binding by using `(concat v [0])`

and `(cons 0 v)`

directly, but I'm just showing you the concept. There may be a more complex examples where `let`

inside a `loop`

is unavoidable.