Prove binary tree properties using induction

I am having trouble proving binary tree properties using induction:

``````Property 1 - A tree with N internal nodes has a maximum height of N+1
base case - 0 internal nodes has a height of 0
assume - a tree with k internal nodes has a maximum height of k+1 where k exists in n
show - true for all k+1 or true for all k-1

Property 2 - A tree with a tree with N internal nodes has N + 1 leaf nodes
base case - 0 internal nodes has 1 leaf node (null)
assume - a tree with k internal nodes has k + 1 leaf nodes where k exists in n
show - true for all k+1 or true for all k-1
``````

Is my setup correct? And if so, how do I actually show these things. Everything I have tried has just ended up becoming a mess. Thanks for the help

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You're missing a few things.

For property 1, your base case must be consistent with what you're trying to prove. So a tree with 0 internal nodes must have a height of at most 0+1=1. This is true: consider a tree with only a root.

For the inductive step, consider a tree with k-1 internal nodes. If its height is at most k (assumed), adding one more node can only raise it to k+1, and no higher. So the k-internal-node tree has height at most k+1.

Property 2 is false. Counterexample:

``````    5
4  6
3    7
2      8
``````

5 internal nodes, 2 leaves.

So there's probably something different you wanted to prove.

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Hey, forgot that the second property is for a perfect binary tree (thus at level 4 you would have 7 internal nodes and 8 leaves. Thank you for the response. –  Zach Caudle Nov 4 '12 at 19:03