I'm studying P, NP, and NP-Complete problems and I've encountered some questions.

I understand that a problem is P if you can solve it in polynomial time, and a problem is NP if it is verifiable in polynomial time. I also understand that a problem is NP-Complete if it is NP and can be reduced from an existing NP-Complete problem.

I know that SAT, 3-SAT, Independent Set, Vertex Cover, Hamiltonian Cycle, Subset Sum, and Traveling Salesman are all NPC. But I encountered a problem where I was told that deciding whether an independent set of 5 vertices exists in a graph is actually polynomial time solvable instead of NPC. This then confused me because I thought independent set problems were NPC.

So then it made me wonder, in what scenarios are these "NPC" problems not NPC and are in fact P? When given a problem, how do I determine whether a problem is P or NPC? What if the problem does have a poly time solvable solution I just wasn't able to come up with it and therefore went down the NPC path. How do I know that I've made a mistake?

constant time. P, NP, etc. says something about the asymptotic behavior. Furthermore it is definitely possible that subsets of certain problems are easier to solve. For example 2-SAT can be solved in polynomial time. So if we use a 3-SAT problem, but where per clause there are only two different terms (like a OR a OR b), then this is in fact 2-SAT. – Willem Van Onsem Feb 12 at 20:59