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Could someone tell me which function grows faster :lg( √n ) vs. √ lg n

When I did the calculations, I get lg (√n) is faster. Is this correct?

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Perhaps looking at a graph would be useful. –  Jerry Coffin Apr 9 '12 at 20:21
What calculations did you use? As some have pointed out in the answers, this one can be figured out by recognizing that one term is the square of the other. L'Hôpital's rule is helpful in the general case –  gcbenison Apr 9 '12 at 22:39
@gcbenison - One is half the square of the other. –  Ted Hopp Apr 10 '12 at 22:31

3 Answers 3

up vote 6 down vote accepted

Your calculations are correct. lg (√n) = lg (n1/2) = lg(n) / 2, which grows as (√ log n)2

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As mentioned in the comments, I usually graph two functions if I'm unsure which one grows faster. Normally you'd graph them for values of n that are around your expected range of inputs, but in this case you can see that lg (√n) does grow faster for even small values of n.

Function Graph

Note: The graph above assumed a base of 2 for lg and a base of 10 for log.

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It's worth pointing out that the bases used for the log functions are irrelevant to big-O calculations. –  Ted Hopp Apr 9 '12 at 20:48
I am sorry for typo...both the functions are lg, i.e log base 2...will the answer still be same? –  user1253637 Apr 9 '12 at 20:56
@user1253637 Yes, the answer would be the same because constants don't matter much for asymptotic growth. lg( n ) is equal to log ( n ) / log ( 2 ). See my answer. –  Murat Derya Özen Apr 9 '12 at 21:04
@user1253637 Yes, the graph would only look slightly different if you change the base. –  Bill the Lizard Apr 9 '12 at 21:34

You are comparing

(1) lg( √n ) = lg( n ^ (1/2) ) = (1/2) * lg( n )


(2) √ log n = (√ lg n) / (√ lg 10)

Drop out the constants and that leaves us lg( n ) and √ lg n. Clearly, the first one is growing faster.

As a side note, logarithm of A in base B is equal to the logarithm of A in base X divided by the logarithm of B in base X, where X is a valid value as a logarithm base.

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