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I have this confusion in mind about the reductions related to NP complete problems. Let's say we have 2 problems R and S not known to be in NP . Now if we have a polynomial time reduction of a well known NP complete problem to R and we also have a polynomial time reduction from S to the NP complete problem..what can be said about the problems R and S.Are they NP complete or NP hard?

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If an NP-complete problem reduces in polynomial time to R, then so do all problems in NP; hence, R is NP-Hard.

If S reduces to an NP-complete problem, then S is NP.

Neither is necessarily NP-complete; we don't know whether R is NP (maybe it's undecidable) or whether S is NP-Hard (maybe it's trivial?).

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Thanks for that, i have another doubt in my mind lets say a problem L which is in NP is reduced to a problem L' ..then what can be said about the problem L' –  user2044593 Feb 5 '13 at 20:38
@user2044593 Nothing of substance: L' may be undecidable, NP-Complete, NP but not NP-Complete (assuming P != NP), or P. Note that any problem reduces to itself. Even if you throw out this trivial case, it's not hard to find problems L' such that L' and L are solved by algorithms which do essentially the same thing. –  Patrick87 Feb 5 '13 at 20:41
Thanks for the clarification ! –  user2044593 Feb 5 '13 at 20:45

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