Arjun Suresh (talk | contribs) |
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'''(A) Regular''' (B) CFL but not regular (C) CSL but not CFL (D) None of these | '''(A) Regular''' (B) CFL but not regular (C) CSL but not CFL (D) None of these | ||
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'''(2) $L_1$ - $L_3$ is''' | '''(2) $L_1$ - $L_3$ is''' |
Consider $L_1 = \{a^nb^nc^md^m | m,n \ge 1\}$
$L_2 = \{a^nb^n | n \ge1\}$
$L_3 = \{(a+b)^*\}$
(1) Intersection of $L_1$ and $L_2$ is
(A) Regular (B) CFL but not regular (C) CSL but not CFL (D) None of these
(2) $L_1$ - $L_3$ is
(A) Regular (B) CFL but not regular (C) CSL but not CFL (D) None of these
(1) Regular.
L₁ ∩ L₂ = {abcd,aabbcd,aaabbbccdd,.....} ∩ {ab, aabb, aaabbb,....} = ϕ
(2) CFL L₁ - L₂ = L₁, hence CFL
Alternatively,
L₁ - L₃ = L₁ ∩ L₃' = L₁ ∩ {∊,a,b,ab,aab,....}' = L₁ ∩ (a+b)* (c+d)⁺ = L₁
Consider $L_1 = \{a^nb^nc^md^m | m,n \ge 1\}$
$L_2 = \{a^nb^n | n \ge1\}$
$L_3 = \{(a+b)^*\}$
(1) Intersection of $L_1$ and $L_2$ is
(A) Regular (B) CFL but not regular (C) CSL but not CFL (D) None of these
(2) $L_1$ - $L_3$ is
(A) Regular (B) CFL but not regular (C) CSL but not CFL (D) None of these
(1) Regular.
L₁ ∩ L₂ = {abcd,aabbcd,aaabbbccdd,.....} ∩ {ab, aabb, aaabbb,....} = ϕ
(2) CFL L₁ - L₂ = L₁, hence CFL
Alternatively,
L₁ - L₃ = L₁ ∩ L₃' = L₁ ∩ {∊,a,b,ab,aab,....}' = L₁ ∩ (a+b)* (c+d)⁺ = L₁