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For a balanced search tree, it is O(log(N)) for all cases. For unbalanced search trees, the worst case is O(N), e.g., insert 1, 2, 3, 4,.. and best case complexity is when it is balanced, e.g., insert 6, 4, 8, 3, 5 7. How do we define the average case complexity for unbalanced search tree?

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I'd expect about O(n^.5) due to similarity to random walks, but I'm not posting an answer as I can't quite prove this. BTW, if this is homework, could you tag it as such? – pavpanchekha Feb 25 '10 at 3:42
this is not homework. this is out of curiosity as most search trees in standard libraries in C++, Java are implemented as unbalanced. – user236215 Feb 25 '10 at 3:46
This is too tough to be homework. – Aryabhatta Feb 25 '10 at 5:26
It is not true that search trees in C++ and Java's libraries are unbalanced. Both use red-black trees. – jkff Feb 25 '10 at 5:27
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The average height of Binary Trees is Theta(sqrt(n)). This has been shown (or referenced, not very sure) in the following paper: http://www.dtc.umn.edu/~odlyzko/doc/arch/extreme.heights.pdf.

But perhaps you are more interested in the average depth of a random node and this is Theta(log n), as can be seen here: http://www.toves.org/books/data/ch05-trees/index.html (Section 5.2.4).

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