# Proving NP complexity

I'm learning how to prove something is NP. In Thomas Cormen's intro to algorithm book, he states something is NP if given a solution to some problem, you can verify it is correct in polynomial time.

Say the problem is 2x + 9 = 55, and let's pretend I don't know how long it takes the find the correct x value, but an algorithm to solve the problem returned the solution 23. Then to show it is NP, do I only need to plug 23 in back in the equation, and see if that took a polynomial time and gave me 55? Thanks.

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I think this one is more appropriate for cstheory.stackexchange.com – Seth Battin Dec 1 '12 at 5:00
@SethBattin: Not quite, but perhaps it would be for cs.stackexchange.com – Mehrdad Dec 1 '12 at 5:09
Ahha, that is the other site I meant to link to. :) And it appears to be the newest question on that site at this instant. – Seth Battin Dec 1 '12 at 5:12
How in the world is this considered off-topic?! It's asking a computer science question on Stack Overflow, for God's sake!! – Mehrdad Dec 1 '12 at 19:32

Yes; if you can check the correctness of every correct and every incorrect answer for every instance of this problem in polynomial time, then the problem is in NP.

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NO! You are describing an algorithm not a problem! NP-Completeness is defined on problems not algorithms. A problem is NP-Complete if and only if it is: (1) In NP. (2) has a polynomial reduction from each problem in NP. – amit Dec 1 '12 at 7:43
@amit: ...who was talking about NP-completeness in the first place? – Mehrdad Dec 1 '12 at 7:46
Apologies. I misread. – amit Dec 1 '12 at 7:49
@amit: Haha no worries. =P – Mehrdad Dec 1 '12 at 7:55
However - note that the answer is still not complete, a problem is in NP if you can check the correctness of every correct and every incorrect answer for every instance of this problem in polynomial time. – amit Dec 1 '12 at 7:57