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In big-O notation is O((log n)^k) = O(log n), where k is some constant (e.g. the number of logarithmic for loops), true?

I was told by my professor that this statement was true, however he said it will be proved later in the course. I was wondering if any of you could demonstrate its validity or have a link where I could confirm if it is true.

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Better ask this at math.stackexchange.com –  Michael Piefel Jan 10 '12 at 19:24
What is k? A constant? Another parameter describing the problem size? If k is applied to the entire logarithm, did you intend to write O((log n) ^ k) instead? –  Michael Piefel Jan 10 '12 at 19:54
Changes made, k is a constant. –  user1084113 Jan 10 '12 at 19:59
@user1084113: It's possible that you didn't understand your professor correctly, or that he goofed. Either way, please see my answer for clarification. –  Patrick87 Jan 10 '12 at 21:05

3 Answers 3

up vote 3 down vote accepted

(1) It is true that O(log(n^k)) = O(log n).

(2) It is false that O(log^k(n)) (also written O((log n)^k)) = O(log n).

Observation: (1) has been proven by nmjohn.

Exercise: prove (2). (Hint: f(n) = log^2 n is O(log^2 n). Is it O(log n)? What is a sufficiently large constant c such that, for all n greater than n0, c log n > log^2 n?)


On a related note, anybody who finds this question helpful and/or interesting should go show some love for the new "Computer Science" StackExchange site. Here's a link. Go make this new place a reality!


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+1. Nice CS site publicity :) –  helios Sep 18 '12 at 11:00

Are you sure he didn't mean O(log n^k), because that equals O(k*log n) = k*O(log n) = O(log n).

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the problem was 2 logarithmic for loops, and he explicitly put the brackets there to indicate k is applied to the entire log –  user1084113 Jan 10 '12 at 19:29

O(log n) is a class of functions. You cannot perform computations such as ^k on it. Thus, the term O(log n)^k does not even look sensible to me.

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nested logarithmic for loops –  user1084113 Jan 10 '12 at 19:32
-1. This is a comment, not an answer. –  Patrick87 Jan 10 '12 at 20:25

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