The classic is the binary tree search:

```
def findval (node,val):
if node == null:
return null
if node.val = val:
return node
if node.val > val:
return findval (node.left,val)
return findval (node.right,val)
findval (root,thing_to_find)
```

That may be a little more complex than a simple formula but it's the "bread and butter" use of recursion, and it illustrates the best places to use it, that where the recursion levels are minimised.

By that I mean: you *could* add two non-negative numbers with:

```
def add (a,b):
if b == 0:
return a
return add (a+1,b-1)
```

but you'd find yourself running out of stack space pretty quickly for large numbers (unless the compiler optimised tail-end recursions of course, but you should probably ignore that for the level of teaching you're concerned with).

phenomenalexample because it’s amenable to so many smart optimizations and it can serve to explain not only vanilla recursion but also memoization and dynamic programming.`"Hey, give me an example of ____."`

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