# Is (log n)^k = O(n^1/2)? For k greater or equal to 0 [closed]

In big-O notation is `O((log n)^k) = O(log n)`, where `k` is some constant right? So what's happening with the `(log n)^k` when `k>=0`?

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## closed as off topic by talonmies, 3nigma, Troy Alford, Mario Sannum, Rob MenschingMar 5 '13 at 23:06

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`O(log(n^k)) = O(log n)` is true, but not what you wrote. – Maroun Maroun Mar 5 '13 at 19:47
@MarounMaroun Maroun Hmmm i think about that aswell but i saw that (check the last answer): link and i wanted to ask again to be sure ! – User1911 Mar 5 '13 at 19:50

## 2 Answers

O((log n) * k) == O(log n), but (log n)^k is definitely not the same thing. I believe you're thinking of constant multiplication, which is equivalent in big O notation. However, raising f(n) to a power changes the time to completion. This is the same concept as O(n) being different from O(n^2).

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So the right answer to that is : O((log n)^k) = O(log n) for k>=0? – User1911 Mar 5 '13 at 19:57
No, O((log n)^k) = O(log n) for k == 1, it = O(1) for k==0 of course, and everything else it is bigger. – Steven Westbrook Mar 5 '13 at 20:02
Thanks a lot for the answer , i will have to study more as it seems ! – User1911 Mar 5 '13 at 20:07

Perhaps this might be the source of the misunderstanding? log(n^k) = k * log(n), but no such simplification works for log(n)^k = (log(n))^k.

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I see but look here the last answer : (stackoverflow.com/questions/7523070/…) – User1911 Mar 5 '13 at 20:01