I bet when you did this in other languages you used a stack for dfs and a queue for bfs. When you do depth first search, you're fundamentally using a stack to decide which node to explore next, and recursion gives you a function call stack, so it's easy to conceptualize how the two mirror each other. With breadth first search, the question becomes, how do you traverse a queue recursively?

Now recall that anything you can do iteratively, you can do recursively. Where you might write "while x < 10: x += 1", you can instead write

```
(define (my-loop x)
(if (< x 10)
(my-loop (+ x 1))
... ;; your base case
))
```

and suddenly you're doing the iteration recursively. Great.

So we have this queue. We put things on one end, take things off the other. Just like we passed around the loop control variable x in the loop above, you'll have to explicitly pass around the queue. In the next "iteration", which becomes now the next level of recursion, you'll want to have put some new children on the queue, and that next recursion will take one child off the other end of the queue, or stop (return) if there are no more children.

Now the call stack no longer mirrors your location in the tree, so it's hard to see why recursion would be better or more intuitive, but it's always possible.

Hope that helps,

Grem