# Find the number of nodes of n-element heap of given height

We have came across a question in Thomas H. Cormen which are asking for showing

Here I am confused by this question that how there will be at most nodes

For instance, consider this problem:

In the above problem at height 2 there are 2 nodes. But if we calculate by formula:

``````Greatest Integer of  (10/2^2+1) = 4
``````

it does not satisfy Thomas H. Cormen questions.

Please correct me if I am wrong here.

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Not that it matters for the question, but the tree in your question is not a heap. –  sepp2k Jan 11 '12 at 6:11
sepp2k, yaa you are correct after appliying subroutine Heapify it will become Binary Heap, But here my question is different i am asking regarding How many nodes at height h. –  Nishant Jan 11 '12 at 6:18

It looks like your formula says there are at most [n/2^h+1] nodes of height h. In your example there are two nodes of height 2, which is less than your computed possible maximum of 4(ish).

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colin is this possible that ever at height 2 there will be 4 nodes.... ? –  Nishant Jan 11 '12 at 6:12

In Tmh Corman I observed that he is doing height numbering from 1 not from 0 so the formula is correct, I was doing wrong Interpration. So leaf as height 1 and root has height 4 for above question

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While calculating the tight bound for Build-Max-Heap author has used this property in the equation.
In this case we call the helper Max-Heapify which takes O(h) where h is the height of the sub-tree rooted at the current node (not the height of node itself with respect to the full tree).
Therefore if we consider the sub tree rooted at leaf node, it will have height 0 and number of nodes in the tree at that level would be at most n / 20+1 = n/2 (i.e h=0 for the sub tree formed from node at leaves).
Similarly for sub-tree rooted at actual root the height of the tree would be log(n) and in that case the number of nodes at that level would be 1 i.e floor of n / 2logn+1 = [n/n+1].

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Formula for

``````no. of nodes = n/(2^(h+1))
``````

so when `h` is `2`, and `n = 10`

``````no. of nodes = 10/(2^(2+1)) = 10/(2^3) = 10/8 = 1.25
``````

But

``````ceil of 10/8 = 2
``````

Hence there are 2 nodes which you can see from the figure.

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