Q. NFAs are ___ DFAs

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Q. For every NFA a deterministic finite automaton (DFA) can be found that accepts the same language.

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Q. Like DFAs, NFAs only recognize regular languages

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Q. For any DFA state {qi,qj…qm} If some qj is a final state in the NFA Then {qi,qj…qm}, is a final state in the DFA.True or False

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Q. Is empty string a valid input in Ndfa

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Q. Given the language L = {ab, aa, baa}, whih of the following strings are in L*?
1) abaabaaabaa

2) aaaabaaaa

3) baaaaabaaaab

4) baaaaabaa

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Q. Which of the following problems occur?
1) Does a given program ever produce an output?

2) If L is a CFL, then is L’ is also context-free?

3)L’ is regular only if L is regular?

4) If L is a recursive language, then, L’ is also recursive?

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Q. Definition of a language L with alphabet {a} is given as following. L= { ank | k > 0, and n is a positive integer constant} What is the minimum number of states needed in a DFA to recognize L?

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Q. S –> aSa| bSb| a| b ;the language generated by the above grammar is the set of

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Q. Which one of the following languages over the alphabet {0, 1} is described by the regular expression: (0+1)*0(0+1)*0(0+1)*?

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Q. Match the following
Group 1 Group 2

P. Regular expression 1. Syntax analysis

Q. Pushdown automata 2. Code generation

R. Dataflow analysis 3. Lexical analysis

S. Register allocation 4. Code optimization

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Q. Let L = L1 ∩ L2, where L1 and L2 are languages as defined below:
L1 = {ambmcanbn | m, n >= 0 }

L2 = {aibjck | i, j, k >= 0 }

Then L is

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Q. Does epsilon ring any change in the automata

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Q. NFA-εs are defined because certain properties can be more easily proved on them as compared to NFA.

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Q. E(q) is known ε-closure of q.

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Q. ε-transitions does not add any extra capacity of recognizing formal

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Q. A nondeterministic finite automaton with ε-moves is an extension of nondeterministic finite automaton

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Q. Is an ordinary NFA and a NFA-ε are equivalent

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Q. Which grammar is not regular

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Q. If is a language, and is a symbol, then, the quotient of and, is the set of strings such that is in: is in. Suppose is regular, which of the following statements is true?

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