# How to determine if finite automata will accept empty language

In class we are exploring the properties of finite automaton, both deterministic and non-deterministic. We were presented this homework question:

a). Let M be a finite automata M=(Q,sigma,delta,q0,A). Prove that if L(M) does not accept the empty language, there exists a string w in L(M) of length no more than |Q|.

b). Present an algorithm to determine if L(M) accepts the empty language, in time polynomial in |Q|.

• For part a, I was thinking something along the lines of: if there are |Q| states then there must be some path to an accepting state with at most |Q|-1 transitions, which would imply that there is a string of length |Q| or less that is accepted. This doesn't seem like a very strong argument, and I'm not sure if my head's in the right place at all.
• As for the second part, I know that, based on part a, you could simply test every string of length |Q| or less and if no such string is accepted, the machine accepts the empty language. However, this seems like it would take far more than polynomial time given that it must account for every possible string.

Basically, I'm not even sure what approach to take with these questions, I just need some kind of starting point/idea. Any help at all would be greatly appreciated, thanks!

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Consider asking your teacher. –  Raymond Chen Feb 27 at 4:53
Your answer to the first question seems about right to me, but you'll have to work on the second question, exactly for the reasons you mention. –  Bryan Olivier Apr 28 at 7:39