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I have this as a homework question and don't remember learning it in class. Can someone point me in the right direction or have documentation on how to solve these types of problems?

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5 Answers 5

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You can prove it by applying L'Hopitals rule to lim n-> infinity of 5n/nlogn

g(n) = 5n and f(n)=nlogn

Derivate g(n) and f(n) so you will get something like this

5/(some stuff here that will contain n)

5/infinity = 0 so 5n = O(nlogn) is true

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More formally...

First, we prove that if f(n) = 5n, then f ∈ O(n). In order to show this, we must show that for some sufficiently large k and i ≥ k, f(i) ≤ ci. Fortunately, c = 5 makes this trivial.

Next, I'll prove that for all f ∈ O(n) that f ∈ O(n * log n). Hence, we must show that for some sufficiently large k, all i ≥ k, f(i) ≤ ci * log i. Hence, if we let k be large enough that f(i) ≤ ci, and i ≥ 2, then the result is trivial since ci ≤ ci * log i.


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Look into the definition of big-O-notation. It means that 5n will run no slower the nlogn, which is true. nlogn is an upper bound of the number of operations to be performed.

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so do i just have to show that 5n<nlogn? –  CAPSLOCK May 18 '11 at 2:51
@Ellipsis: Assuming you were being sloppy with the notation, yes. If that's literally what you mean, no... you need to take the limit as n goes to infinity. –  Mehrdad May 18 '11 at 2:52
@Mehrdad yes, that's why I said to look at the definition, but you're right –  systemizer May 18 '11 at 2:55
could I cancel n out from both sides and say lim n->inf nlogn>5 ? –  CAPSLOCK May 18 '11 at 2:55
If that works better for you, then yes. But it should be obvious by looking at it that nlogn will grow faster than n as n goes to infinity –  systemizer May 18 '11 at 2:57

I don't remember the wording of the formal definition, but what you have to show is:

c1 * 5 * n < c2 * n * logn, n>c3

where c1 and c2 are arbitrary constants, for some number c3. Define c3 in terms of c1 and c2, and you're done.

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It's been three years since I touched big-O stuff. But I think you can try to show this:

O(5n) = O(n) = O(nlogn)

O(5n) = O(n) is very easy to show, so all you have to do now is to show O(n) = O(nlogn) which shouldn't be too hard too.

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