Q. Which one of the following regular expressions is NOT equivalent to the regular expression (a + b + c) *?

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Q. Let L be a regular language and M be a context-free language, both over the alphabet Σ. Let Lc and Mc denote the complements of L and M respectively. Which of the following statements about the language Lc∪ Mc is TRUE?

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Q. Which of the following statements is TRUE about the regular expression 01*0?

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Q. The language {0^n 1^n 2^n | 1 ≤ n ≤ 10^6} is

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Q. A language L satisfies the Pumping Lemma for regular languages, and also the Pumping Lemma for context-free languages. Which of the following statements about L is TRUE?

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Q. Consider the context-free grammar E → E + E E → (E * E) E → id
where E is the starting symbol, the set of terminals is {id, (,+,),*}, and the set of nonterminals is {E}.
Which of the following terminal strings has more than one parse tree when parsed according to the above grammar?

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Q. Consider the context-free grammar E → E + E E → (E * E) E → id
where E is the starting symbol, the set of terminals is {id, (,+,),*}, and the set of non-terminals is {E}.
For the terminal string id + id + id + id, how many parse trees are possible?

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Q. The number of states in the minimum sized DFA that accepts the language defined by the regular expression (0+1)*(0+1)(0+1)* is __________________ .

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Q. Consider the following two statements:

I. If all states of an NFA are accepting
states then the language accepted by
the NFA is Σ∗ .
II. There exists a regular language A such
that for all languages B, A ∩ B is regular.

Which one of the following is CORRECT?

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Q. In the context-free grammar below, S is the start symbol, a and b are terminals, and ϵ denotes the empty string S → aSa | bSb | a | b | ϵ Which of the following strings is NOT generated by the grammar?

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Q. Consider an ambiguous grammar G and its disambiguated version D. Let the language recognized by the two grammars be denoted by L(G) and L(D) respectively. Which one of the following is true ?

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Q. Which of the following regular expressions describes the language over {0, 1} consisting of strings that contain exactly two 1's?

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Q. Let N be an NFA with n states and let M be the minimized DFA with m states recognizing the same language. Which of the following in NECESSARILY true?

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Q. Consider the following languages.

L1 = {a^i b^j c^k | i = j, k ≥ 1}
L1 = {a^i b^j | j = 2i, i ≥ 0}

Which of the following is true?

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Q. Which of the following languages is (are) non-regular?

L1 = {0^m1^n | 0 ≤ m ≤ n ≤ 10000}
L2 = {w | w reads the same forward and backward}
L3 = {w ∊ {0, 1} * | w contains an even number of 0's and an even number of 1's}

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Q. Which of the following intuitive definition is true about LR(1) Grammar.

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Q. Consider the Following regular expressions

r1 = 1(0 + 1)*
r2 = 1(1 + 0)+
r3 = 11*0

What is the relation between the languages generated by the regular expressions above ?

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Q. Consider regular expression r, where r = (11 + 111)* over Ʃ = {0, 1}. Number of states in minimal NFA and DFA respectively are:

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Q. Consider the grammar G.

E -> TE’
E’ -> +TE’ | ԑ
T’ -> FT’
T’ -> *FT’ | ԑ
F -> (E) | id

If LL(1) parsing table is constructed using the grammar G, then how many entries are present in the row that represents E’ nonterminal ? (consider the entries which are not error/not blank entries)

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Q. Let, init (L) = {set of all prefixes of L},
Let L = {w | w has equal number of 0’s and 1’s}
init (L) will contain:

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