Finite Automata And Formal Languages By Padma Reddy Pdf Page

Problem 7 (20 marks) a) Prove that every regular language can be generated by a right-linear grammar; give an algorithm to convert a DFA into an equivalent right-linear grammar and apply it to the DFA from Problem 1. (10 marks) b) State and prove Kleene’s theorem (equivalence of regular expressions and finite automata) at a high level; outline the two directions with algorithms (NFA from RE; RE from DFA/NFA). (10 marks)

Problem 5 (10 marks) Consider the DFA M with states A,B,C, start A, accept C, transitions: A —0→ A, A —1→ B; B —0→ C, B —1→ A; C —0→ B, C —1→ C. a) Determine the equivalence classes of the Myhill–Nerode relation for L(M). (6 marks) b) Using those classes, produce the minimized DFA. (4 marks) finite automata and formal languages by padma reddy pdf

Problem 6 (20 marks) a) Prove that the class of regular languages is closed under intersection and complement. Provide formal constructions (product construction for intersection; complement via DFA state swap). (10 marks) b) Using closure properties, show that the language L3 = w ∈ a,b* is regular or not. Provide a constructive argument or a counterproof. (10 marks) Problem 7 (20 marks) a) Prove that every

Section C — Long-form proofs and constructions (2 × 20 = 40 marks) Answer both. a) Determine the equivalence classes of the Myhill–Nerode