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I have two functions, f(n)=log2n and g(n)=log10n. I am trying to decide whether f(n) is O(g(n)), or Ω(g(n)) or Θ(g(n)). I thinks i should take the limit f(n)/g(n) as n goes to infinity, and I think that limit is constant so f(n) must be Θ(n).

Am I right?

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3 Answers 3

up vote 4 down vote accepted

log2n = log10n / log102 (from here)

So f(n) = g(n) / log102

So f(n) and g(n) only differ by a constant factor (since log102 is constant).

So, from the definitions of O(x), Ω(x) and Θ(x), I'd say:

f(n) ∈ O(g(n)),
f(n) ∈ Ω(g(n)),
f(n) ∈ Θ(g(n))

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Yes, you are right. From complexity point of view (at least big O point of view) doesn't matter if it is log2 or log10.

f(n) is both O(g(n)) and f(n) is Ω(g(n)), f(n) is Θ(g(n))

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As the limit is constant, you are right that f(n) ∈ Θ(g(n)) (assuming you have a typo in the question). Also of course g(n) ∈ Θ(f(n)).

BTW: Not only the limit of the ratio is constant but log2n/log10n is always a constant(log210).

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