I am not sure how to even start proving this question.
I found the following information about the properties of regular languages.
The regular languages are closed under the various operations, that is, if the languages K and L are regular, so is the result of the following operations: the set theoretic Boolean operations: union , intersection , and complement . From this also difference K − L follows. the regular operations: union , concatenation , and Kleene star L * . the trio operations: string homomorphism, inverse string homomorphism, and intersection with regular languages. As a consequence they are closed under arbitrary finite state transductions, like quotient K / L with a regular language. Even more, regular languages are closed under quotients with arbitrary languages: If L is regular then L/K is regular for any K. the reverse (or mirror image) LR.
Additionally we know:
A specific subset within the class of regular languages is the finite languages – those containing only a finite number of words. These are regular languages, as one can create a regular expression that is the union of every word in the language
Can anyone give me hint