RS Aggarwal - Definite Integrals Solution For Class 12 Mathematics

Class 12^th Mathematics RS Aggarwal Solution

Exercise 16a

integrate _{2}^{3}x^{4} dx Evaluate:
Evaluate:
Evaluate:
Evaluate:
Evaluate:
Evaluate:
Evaluate:
Evaluate:
integrate _{2}^{4}3dx Evaluate:
integrate _{0}^{1} {dx}/{ ( 1+x^{2} ) } Evaluate:
integrate _{0}^ { infinity } {dx}/{ ( 1+x^{2} ) } Evaluate:
integrate _{0}^{1} {dx}/{ root { 1-x^{2} } } Evaluate:
integrate _{0}^ { pi /6 } sec^{2}xdx Evaluate:
integrate _ { - pi /4 } ^ { pi/4 } cosec^{2}xdx Evaluate:
integrate _ { pi /4 } ^ { pi/2 } cot^{2}xdx Evaluate:
integrate _{0}^ { pi /4 } tan^{2}xdx Evaluate:
integrate _{0}^ { pi /2 } sin^{2}xdx Evaluate:
integrate _{0}^ { pi /4 } cos^{2}xdx Evaluate:
integrate _{0}^ { pi /3 } tanxdx Evaluate:
integrate _ { pi /6 } ^ { pi/4 } cosecxdx Evaluate:
integrate _{0}^ { pi /3 } cos^{3}xdx Evaluate:
integrate _{0}^ { pi /2 } sin^{3}xdx Evaluate:
integrate _ { pi /4 } ^ { pi/2 } { (1-3cosx) }/{sin^{2}x}dx Evaluate:…
integrate _{0}^ { pi /4 } root {1+cos2x}dx Evaluate:
integrate _{0}^ { pi /4 } root {1-sin2x}dx [CBSE 2004] Evaluate:…
integrate _ { - pi /4 } ^ { pi/4 } {dx}/{ (1+sinx) } Evaluate:…
integrate _{0}^ { pi /4 } {dx}/{ (1+cos2x) } Evaluate:
integrate _ { pi /4 } ^ { pi/2 } {dx}/{1-cos2x} Evaluate:
integrate _{0}^ { pi /4 } sin2xsin3xdx Evaluate:
integrate _{0}^ { pi /6 } cosxcos2xdx Evaluate:
integrate _{0}^ { pi } sin2xcos3xdx Evaluate:
integrate _{0}^ { pi /2 } root {1+sinx}dx Evaluate:
integrate _{0}^ { pi /2 } root {1+cosx}dx Evaluate:
integrate _{0}^{2} { ( x^{4} + 1 ) }/{ ( x^{2} + 1 ) } dx Evaluate:…
integrate _{1}^{2} {dx}/{ (x+1) (x+2) } Evaluate:
integrate _{1}^{2} { (x+3) }/{ x (x+2) } dx Evaluate:
integrate _{3}^{4} {dx}/{ ( x^{2} - 4 ) } Evaluate:
integrate _{0}^{4} {dx}/{ root { x^{2} + 2x+3 } } Evaluate:
integrate _{1}^{2} {dx}/{ root { x^{2} + 4x+3 } } Evaluate:
integrate _{0}^{1} {dx}/{ ( 1+x+2x^{2} ) } Evaluate:
integrate _{0}^ { pi /2 } (acos^{2}x+bsin^{2}x) dx Evaluate:
integrate _ { pi /3 } ^ { pi/4 } (tanx+cotx)^{2} dx Evaluate:
integrate _{0}^ { pi /2 } cos^{4}xdx Evaluate:
integrate _{0}^{a} {dx}/{ ( ax+a^{2} - x^{2} ) } Evaluate:
integrate _{1/4}^{1/2} {dx}/{ root { x-x^{2} } } Evaluate:
integrate _{0}^{1}root { x (1-x) } dx Evaluate:
integrate _{1}^{3} {dx}/{ x^{2} (x+1) } Evaluate:
integrate _{1}^{2} {dx}/{ x (1+2x)^{2} } Evaluate:
integrate _{0}^{1}xe^{x} dx Evaluate:
integrate _{0}^ { pi /2 } x^{2}cosxdx Evaluate:
integrate _{0}^ { pi /4 } x^{2}sinxdx Evaluate:
integrate _{0}^ { pi /2 } x^{2}cos2xdx Evaluate:
integrate _{0}^ { pi /2 } x^{3}sin3xdx Evaluate:
integrate _{0}^ { pi /2 } x^{2}cos^{2}xdx Evaluate:
integrate _{1}^{2}logxdx Evaluate:
integrate _{1}^{3} {logx}/{ (1+x)^{2} } dx Evaluate:
integrate _{0}^ { e^{2} } { {1}/{ (logx) } - frac {1}/{ (logx)^{2} } } dx…
integrate _{1}^ { theta } e^{x} ( {1+xlogx}/{x} ) dx Evaluate:…
integrate _{0}^{1} { xe^{x} }/{ (1+x)^{2} } dx Evaluate:
integrate _{0}^ { pi /2 } 2tan^{3}xdx [CBSE 2004] Evaluate:
integrate _{1}^{2} { 5x^{2} }/{ ( x^{2} + 4x+3 ) } dx Evaluate:…

Exercise 16b

integrate _{0}^{1} {dx}/{ (2x-3) } Evaluate the following integrals…
integrate _{0}^{1} {2x}/{ ( 1+x^{2} ) } dx Evaluate the following integrals…
integrate _{1}^{2} {3x}/{ ( 9x^{2} - 1 ) } dx Evaluate the following…
integrate _{0}^{1} {tan^{-1}x}/{ ( 1+x^{2} ) } dx Evaluate the following…
Evaluate the following integrals
integrate _{0}^{1} {2x}/{ ( 1+x^{4} ) } dx Evaluate the following integrals…
integrate _{0}^{1}xe^ { x^{2} } dx Evaluate the following integrals…
integrate _{1}^{2} {e^{1/x}}/{ x^{2} } dx Evaluate the following integrals…
integrate _{0}^ { pi /6 } {cosx}/{ (3+4sinx) } dx Evaluate the following…
integrate _{0}^ { pi /2 } {sinx}/{ (1+cos^{2}x) } dx Evaluate the following…
integrate _{0}^{1} {dx}/{ ( e^{x} + e^{-x} ) } Evaluate the following…
integrate _{1/e}^{e} {dx}/{ x (logx)^{1/3} } Evaluate the following…
integrate _{0}^{1} { root {tan^{-1}x} }/{ ( 1+x^{2} ) } dx Evaluate the…
integrate _{0}^ { pi /2 } {sinx}/{ root {1+cosx} } dx Evaluate the…
integrate _{0}^ { pi /2 } root {sinx} c. cos^{5}xdx Evaluate the following…
integrate _{0}^ { pi /2 } {sinxcosx}/{ (1+sin^{4}x) } dx Evaluate the…
integrate _{0}^{a}root { a^{2} - x^{2} } dx Evaluate the following integrals…
integrate _{0}^ { root {2} } sqrt { 2-x^{2} } dx Evaluate the following…
integrate _{0}^{a} { x^{4} }/{ root { a^{2} - x^{2} } } dx Evaluate the…
integrate _{0}^{a} {x}/{ root { a^{2} + x^{2} } } dx Evaluate the…
integrate _{0}^{2}x root {2-x}dx Evaluate the following integrals…
integrate _{0}^{1}sin^{-1} ( {2x}/{ 1+x^{2} } ) dx Evaluate the following…
integrate _{0}^ { pi /2 } root {1+cosx}dx Evaluate the following integrals…
integrate _{0}^ { pi /2 } root {1+sinx}dx Evaluate the following integrals…
25. integrate _{0}^ { pi /2 } {dx}/{ (a^{2}cos^{2}x+b^{2}sin^{2}x) }…
integrate _{0}^ { pi /2 } {dx}/{ (1+cos^{2}x) } Evaluate the following…
integrate _{0}^ { pi /2 } {dx}/{ (4+9cos^{2}x) } Evaluate the following…
integrate _{0}^ { pi /2 } {dx}/{ (5+4sinx) } Evaluate the following…
integrate _{0}^ { pi } {dx}/{ (6-cosx) } Evaluate the following integrals…
integrate _{0}^ { pi } {dx}/{ (5+4cosx) } Evaluate the following integrals…
integrate _{0}^ { pi /2 } {dx}/{ (cosx+2sinx) } Evaluate the following…
integrate _{0}^ { pi } {dx}/{ (3+2sinx+cosx) } Evaluate the following…
integrate _{0}^ { pi /4 } {tan^{3}x}/{ (1+cos2x) } dx Evaluate the…
integrate _{0}^ { pi /2 } {sinxcosx}/{ (cos^{2}x+3cosx+2) } dx Evaluate the…
integrate _{0}^ { pi /2 } {sin2x}/{ (sin^{4}x+cos^{4}x) } dx Evaluate the…
integrate _ { pi /3 } ^ { pi/2 } { root {1+cosx} }/{ (1-cosx)^ { frac…
integrate _{0}^{1} (cos^{-1}x)^{2} dx Evaluate the following integrals…
integrate _{0}^ { {1}/{2} } x (tan^{-1}x)^{2} dx Evaluate the following…
integrate _{0}^{1}sin^{-1}root {x}dx Evaluate the following integrals…
integrate _{0}^{a}sin^{-1}root { {x}/{a+x} } dx Evaluate the following…
integrate _{0}^{9} {dx}/{ ( 1 + root {x} ) } Evaluate the following…
integrate _{0}^{1}x^{3}root { 1+3x^{4} } dx Evaluate the following integrals…
integrate _{0}^{1} { ( 1-x^{2} ) }/{ ( 1+x^{2} ) ^{2} } dx Evaluate the…
integrate _{1}^{2} {dx}/{ (x+1) root { x^{2} - 1 } } Evaluate the…
integrate _{0}^ { pi /2 } ( root {tanx} + sqrt{cotx} ) dx Evaluate the…
integrate _{2}^{3} { (2-x) }/{ root { 5x-6-x^{2} } } dx Evaluate the…
integrate _ { pi /4 } ^ { pi/2 } {costheta }/{ ( cos frac { theta }/{2} +…
integrate _{0}^ { ( pi /2 ) ^{1/3} } x^{2}sinx^{3} dx Evaluate the following…
integrate _{1}^{2} {dx}/{ x (1+logx)^{2} } Evaluate the following integrals…
integrate _ { pi /6 } ^ { pi/2 } {cosecxcotx}/{1+cosec^{2}x}dx Evaluate the…

Exercise 16c

Prove that integrate _{0}^ { pi /2 } {cosx}/{ (sinx+cosx) } dx = frac { pi…
Prove that integrate _{0}^ { pi /2 } { root {sinx} }/{ ( sqrt{sinx} +…
integrate _{0}^ { pi /2 } {sin^{3}x}/{ (sin^{3}x+cos^{3}x) } dx = frac { pi…
integrate _{0}^ { pi /2 } {cos^{3}xdx}/{ (sin^{3}x+cos^{3}x) } = frac { pi…
integrate _{0}^ { pi /2 } {sin^{7}x}/{ (sin^{7}x+cos^{7}x) } dx = frac { pi…
integrate _{0}^ { pi /2 } {cos^{4}x}/{ (sin^{4}x+cos^{4}x) } dx = frac { pi…
Prove that integrate _{0}^ { pi /2 } {cos^{4}x}/{ (sin^{4}x+cos^{4}x) } dx =…
Prove that integrate _{0}^ { pi /2 } {cos^{1/4}x}/{ (sin^{1/4}x+cos^{1/4}x)…
Prove that integrate _{0}^ { pi /2 } {sin^{3/2}x}/{ (sin^{3/2}x+cos^{3/2}x)…
Prove that integrate _{0}^ { pi /2 } {sin^{n}x}/{ (sin^{n}x+cos^{n}x) } dx =…
Prove that integrate _{0}^ { pi /2 } { root {tanx} }/{ ( sqrt{tanx} +…
Prove that integrate _{0}^ { pi /2 } { root {cotx} }/{ ( sqrt{tanx} +…
Prove that integrate _{0}^ { pi /2 } {dx}/{ (1+tanx) } = frac { pi }/{4}…
Prove that integrate _{0}^ { pi /2 } {dx}/{ (1+cotx) } = frac { pi }/{4}…
Prove that integrate _{0}^ { pi /2 } {dx}/{ (1+tan^{3}x) } = frac { pi…
Prove that integrate _{0}^ { pi /2 } {dx}/{ (1+cot^{3}x) } = frac { pi…
Prove that integrate _{0}^ { pi /2 } {dx}/{ ( 1 + root {tanx} ) } = frac {…
Prove that integrate _{0}^ { pi /2 } { root {cotx} }/{ ( 1 + sqrt{cotx} ) }…
Prove that integrate _{0}^ { pi /2 } { root {tanx} }/{ ( 1 + sqrt{tanx} ) }…
Prove that integrate _{0}^ { pi /2 } { (sinx-cosx) }/{ (1+sinxcosx) } dx =…
Prove that integrate _{0}^{1}x (1-x)^{3} dx = {1}/{42}
Prove that integrate _{0}^{2}x root {2-x}dx = { 16 sqrt{2} }/{15}…
Prove that integrate _{0}^ { pi } xcos^{2}xdx = { pi^{2} }/{4}…
Prove that integrate _{0}^ { pi } {xtanx}/{ (secxcosecx) } dx = frac {…
Prove that integrate _{0}^ { pi /2 } {cos^{2}x}/{ (sinx+cosx) } dx = frac…
Prove that integrate _{0}^ { pi } {xtanx}/{ (secx+cosx) } dx = frac {…
Prove that integrate _{0}^ { pi } {xsinx}/{ (1+sinx) } dx = pi ( frac { pi…
Prove that integrate _{0}^ { pi } {x}/{ (1+sin^{2}x) } dx = frac { pi^{2}…
Prove that integrate _{0}^ { pi /2 } (2logcosx-logsin2x) dx = - { pi }/{4}…
Prove that integrate _{0}^ { infinity } {x}/{ (1+x) ( 1+x^{2} ) } dx =…
Prove that integrate _{0}^{8} {dx}/{ x + root { a^{2} - x^{2} } } = frac {…
integrate _{0}^{0} { root {x} }/{ ( sqrt{x} + sqrt{a-x} ) } dx = frac { pi…
Prove that integrate _{0}^ { pi } sin^{2}xcos^{3}xdx = 0
Prove that integrate _{0}^ { pi } sin^{2m}xcos^{2m+1}xdx = 0 where m is a…
Prove that integrate _{0}^ { pi /2 } (sinx-cosx) log (sinx+cosx) dx = 0…
Prove that integrate _{0}^ { pi /2 } log (sin2x) dx = - { pi }/{2} (log2)…
Prove that integrate _{0}^ { pi } xlog (sinx) dx = - { pi^{2} }/{2} (log2)…
Prove that integrate _{0}^ { pi } log (1+cosx) dx = - pi (log2)…
Prove that integrate _{0}^ { pi /2 } log (tanx+cotx) dx = pi (log2)…
Prove that integrate _ { pi /8 } ^ { 3 pi/8 } {cosx}/{ (cosx+sinx) } dx =…
Prove that integrate _ { pi /6 } ^ { pi/3 } {1}/{ ( 1 + root {tanx} ) } dx…
Prove that integrate _ { pi /4 } ^ { 3 pi/4 } {dx}/{ (1+cosx) } = 2…
Prove that integrate _ { pi /4 } ^ { 3 pi/4 } {x}/{ (1+sinx) } dx = pi (…
Prove that integrate _ { alpha /4 } ^ { 3 alpha/4 } { root {x} }/{ (…
Prove that integrate _{1}^{4} { root {x} }/{ ( sqrt{5-x} + sqrt{x} ) } dx =…
Prove that integrate _{0}^ { pi /2 } xcotxdx = { pi }/{4} (log2)…
Prove that integrate _{0}^{1} ( {sin^{-1}x}/{x} ) dx = frac { pi }/{2}…
Prove that integrate _{0}^{1} {logx}/{ root { 1-x^{2} } } dx = - frac { pi…
Prove that integrate _{0}^{1} { log (1+x) }/{ ( 1+x^{2} ) } dx = frac { pi…
Prove that integrate _{-a}^{a}x^{3}root { a^{2} - x^{2} } dx = 0…
Prove that integrate _ { - pi } ^ { pi } ( sin^{75}x+x^{125} ) dx = 0…
Prove that integrate _ { - pi } ^ { pi } x^{12}sin^{9}xdx = 0
Prove that integrate _{-1}^{1}e^{|x|}dx = 2 (e-1)
integrate _{-2}^{2} |x+1|dx = 6
Prove that integrate _{0}^{8} |x-5|dx = 17
Prove that integrate _{0}^ { 2 pi } | cosx|dx = 4
Prove that integrate _ { - pi /4 } ^ { pi/4 } | sinx|dx = ( 2 - root {2} )…
Prove thatLet f (x) = { { 2x+1 , 1 less than equal to x leq2 } { x^{2} + 1 ,…
Prove thatLet f (x) = { { 3x^{2} + 4 , 0 less than equal to x leq2 } { 9x-2 ,…
Prove that integrate _{0}^{4} { |x|+|x-2|+|x-4|dx } = 20

Exercise 16d

integrate _{0}^{2} (x+4) dx Evaluate each of the following integrals as the…
integrate _{1}^{2} (3x-2) dx Evaluate each of the following integrals as the…
integrate _{1}^{3}x^{2} dx Evaluate each of the following integrals as the…
integrate _{0}^{3} ( x^{2} + 1 ) dx Evaluate each of the following integrals…
integrate _{2}^{5} ( 3x^{2} - 5 ) dx Evaluate each of the following integrals…
integrate _{0}^{3} ( x^{2} + 2x ) dx Evaluate each of the following integrals…
integrate _{1}^{4} ( 3x^{2} + 2x ) dx Evaluate each of the following integrals…
integrate _{1}^{3} ( x^{2} + 5x ) dx Evaluate each of the following integrals…
integrate _{1}^{3} ( 2x^{2} + 5x ) dx Evaluate each of the following integrals…
integrate _{0}^{2}x^{3} dx Evaluate each of the following integrals as the…
integrate _{2}^{4} ( x^{2} - 3x+2 ) dx Evaluate each of the following…
integrate _{0}^{2} ( x^{2} + x ) dx Evaluate each of the following integrals…
integrate _{0}^{3} ( 2x^{2} + 3x+5 ) dx Evaluate each of the following…
integrate _{0}^{1} |3x-1|dx Evaluate each of the following integrals as the…
integrate _{0}^{2}e^{x} dx Evaluate each of the following integrals as the…
integrate _{1}^{3}e^{-x} dx Evaluate each of the following integrals as the…
integrate _{a}^{b}cosxdx Evaluate each of the following integrals as the…

Objective Questions

integrate _{1}^{4}x root {x}dx = ? Mark (√) against the correct answer in the…
integrate _{0}^{2}root {6x+4}dx = ? Mark (√) against the correct answer in the…
integrate _{0}^{1} {dx}/{ root {5x+3} } = ? Mark (√) against the correct answer in…
integrate _{0}^{1} {1}/{ ( 1+x^{2} ) } dx = ? Mark (√) against the correct answer in…
integrate _{0}^{2} {dx}/{ root { 4-x^{2} } } = ? Mark (√) against the correct…
integrate _ { root {3} } ^ { sqrt{8} } x sqrt { 1+x^{2} } dx = ? Mark (√) against the…
integrate _{0}^{1} { x^{3} }/{ ( 1+x^{8} ) } dx = ? Mark (√) against the correct…
integrate _{1}^{e} { (logx)^{2} }/{x}dx = ? Mark (√) against the correct answer in…
integrate _ { pi /4 } ^ { pi/2 } cotxdx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { pi /4 } tan^{2}xdx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { pi /2 } cos^{2}xdx = ? Mark (√) against the correct answer in the…
integrate _ { pi /3 } ^ { pi/2 } cosecxdx = ? Mark (√) against the correct answer in…
integrate _{0}^ { pi /2 } cos^{3}xdx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { pi /4 } {e^{tanx}}/{cos^{2}x}dx = ? Mark (√) against the correct…
integrate _{0}^ { pi /2 } {cosx}/{ (1+sin^{2}x) } dx = ? Mark (√) against the…
integrate _ { 1 / pi } ^ { 2 / pi } { sin (1/x) }/{ x^{2} } dx = ? Mark (√)…
integrate _{0}^ { pi } {dx}/{ (1+sinx) } = ? Mark (√) against the correct answer…
integrate _{0}^ { pi /2 } ( root {sinx} cosx ) ^{3} dx = ? Mark (√) against the…
integrate _{0}^{1} { xe^{x} }/{ (1+x)^{2} } dx = ? Mark (√) against the correct…
integrate _{0}^ { pi /2 } e^{x} ( {1+sinx}/{1+cosx} ) dx = ? Mark (√) against the…
integrate _{0}^ { pi /4 } root {1+sin2x}dx = ? Mark (√) against the correct answer in…
integrate _{0}^ { pi /2 } root {1+cos2x}dx = ? Mark (√) against the correct answer in…
integrate _{0}^{1} { (1-x) }/{ (1+x) } dx = ? Mark (√) against the correct answer…
integrate _{0}^ { pi /2 } sin^{2}xdx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { pi /6 } cosxcos2xdx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { pi /2 } sinxsin2xdx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { pi } (sin2xcos3x) dx = ? Mark (√) against the correct answer in…
integrate _{0}^{1} {dx}/{ ( e^{x} + e^{-x} ) } = ? Mark (√) against the correct…
integrate _{0}^{9} {dx}/{ ( 1 + root {x} ) } = ? Mark (√) against the correct…
integrate _{0}^ { pi /2 } xcosxdx = ? Mark (√) against the correct answer in the…
integrate _{0}^{1} {dx}/{ ( 1+x+x^{2} ) } = ? Mark (√) against the correct answer…
integrate _{0}^{1}root { {1-x}/{1+x} } dx = ? Mark (√) against the correct answer…
integrate _{0}^{1} { (1-x) }/{ (1+x) } dx = ? Mark (√) against the correct answer…
integrate _{-a}^{a}root { {a-x}/{a+x} } dx = ? Mark (√) against the correct answer…
integrate _{0}^ { root {3} } sqrt { 2-x^{2} } dx = ? Mark (√) against the correct…
integrate _{-2}^{2} |x|dx = ? Mark (√) against the correct answer in the following:…
integrate _{0}^{1} |2x-1|dx = ? Mark (√) against the correct answer in the following:…
integrate _{-2}^{1} |2x+1|dx = ? Mark (√) against the correct answer in the…
integrate _{-2}^{1} {|x|}/{x}dx = ? Mark (√) against the correct answer in the…
integrate _{-a}^{2}x|x|dx = ? Mark (√) against the correct answer in the following:…
integrate _{0}^ { pi } | cosx|dx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { 2 pi } | sinx|dx = ? Mark (√) against the correct answer in the…
integrate _{0}^ { pi /2 } {sinx}/{ (sinx+cosx) } dx = ? Mark (√) against the…
integrate _{0}^ { pi /2 } { root {cosx} }/{ ( sqrt{cosx} + sqrt{sinx} ) } dx = ?…
integrate _{0}^ { pi /2 } {sin^{4}x}/{ (sin^{4}x+cos^{4}x) } dx = ? Mark (√)…
integrate _{0}^ { pi /3 } {cos^{1/4}x}/{ (sin^{1/4}x+cos^{1/4}x) } dx = ? Mark (√)…
Mark (√) against the correct answer in the following:
integrate _{0}^ { pi /3 } { root {cotx} }/{ sqrt { cotx + sqrt{tanx} } } dx = ?…
integrate _{0}^ { pi /2 } { cube root {tanx} }/{ ( root [3]{tanx} + sqrt[3]{cotx} )…
integrate _{0}^ { pi /2 } {1}/{ (1+tanx) } dx = ? Mark (√) against the correct…
integrate _{0}^ { pi /2 } {1}/{ ( 1 + root {cotx} ) } dx = ? Mark (√) against the…
integrate _{0}^ { pi /2 } {1}/{ (1+tan^{3}x) } dx = ? Mark (√) against the correct…
integrate _{0}^ { pi /2 } {sec^{5}x}/{ (sec^{5}x+cosec^{5}x) } dx = ? Mark (√)…
integrate _{0}^ { pi /2 } { root {cotx} }/{ ( 1 + sqrt{cotx} ) } dx = ? Mark (√)…
integrate _{0}^ { pi /3 } {tanx}/{ (1+tanx) } dx = ? Mark (√) against the correct…
integrate _ { - pi } ^ { pi } x^{4}sinxdx = ? Mark (√) against the correct answer in…
integrate _ { - pi } ^ { pi } x^{3}cos^{3}xdx = ? Mark (√) against the correct…
integrate _ { - pi } ^ { pi } sin^{5}xdx = ? Mark (√) against the correct answer in…
integrate _{-1}^ { - {2}/{x} } x^{3} ( 1-x^{2} ) dx = ? Mark (√) against the…
integrate _{-a}^{a}log ( {a-x}/{a+x} ) dx = ? Mark (√) against the correct answer…
integrate _ { - pi } ^ { pi } ( sin^{81}x+x^{123} ) dx = ? Mark (√) against the…
integrate _ { - pi } ^ { pi } tanxdx = ? Mark (√) against the correct answer in the…
integrate _{-1}^{1}log ( x + root { x^{2} + 1 } ) dx = ? Mark (√) against the…
integrate _ { - pi /2 } ^ { pi/2 } cosxdx = ? Mark (√) against the correct answer in…
integrate _{0}^{4} { root {x} }/{ ( sqrt{x} + sqrt{a-x} ) } dx = ? Mark (√) against…
integrate _{0}^ { pi /4 } log (1+tanx) dx = ? Mark (√) against the correct answer in…
integrate _{-a}^{2}f (x) dx = ? Mark (√) against the correct answer in the following:…
Let [x] denote the greatest integer less than or equal to x.Then, integrate…
Let [x] denote the greatest integer less than or equal to x.Then, integrate…
integrate _{1}^{2} |x^{2} - 3x+2|dx = ? Mark (√) against the correct answer in the…
integrate _ { pi } ^ { 2 pi } | sinx|dx = ? Mark (√) against the correct answer in…
integrate _{0}^ { 1 / root {2} } {sin^{-1}x}/{ ( 1-x^{2} ) ^{3/2} } dx = ? Mark (√)…
integrate _{0}^{1}sin^{-1} ( {2x}/{ 1+x^{2} } ) dx = ? Mark (√) against the correct…

Exercise 16a

Question 1.

Evaluate:

Answer:

Evaluation:

Question 2.

Evaluate:

Answer:

Evaluation:

Question 3.

Evaluate:

Answer:

Evaluation:

Question 4.

Evaluate:

Answer:

Evaluation:

Question 5.

Evaluate:

Answer:

Evaluation:

=[log(-1)-log(-4)]

=-[log(-4)-log(-1)]

=-log 4

Question 6.

Evaluate:

Answer:

Evaluation:

=[2√4-2]

=[4-2]

Question 7.

Evaluate:

Answer:

Evaluation:

Question 8.

Evaluate:

Answer:

Evaluation:

=[6-3]

Question 9.

Evaluate:

Answer:

Evaluation:

=3[4-2]

Question 10.

Evaluate:

Answer:

Evaluation:

=[tan^-1 1-tan^-1 0]

=π/4

Question 11.

Evaluate:

Answer:

_Evaluation:

=[tan^-1 ∞-tan^-1 0]

=π/2

Question 12.

Evaluate:

Answer:

_Evaluation:

=[sin^-1 1-sin^-1 0]

Question 13.

Evaluate:

Answer:

_Evaluation:

Question 14.

Evaluate:

Answer:

-2

_Evaluation:

=-2

Question 15.

Evaluate:

Answer:

_Evaluation:

Question 16.

Evaluate:

Answer:

_Evaluation:

Question 17.

Evaluate:

Answer:

Evaluation:

Question 18.

Evaluate:

Answer:

Evaluation:

Question 19.

Evaluate:

Answer:

log 2

Evaluation:

=log|2|-log|1|

=log2

Question 20.

Evaluate:

Answer:

Evaluation:

=-log|√2+1|+log|2+√3|

Question 21.

Evaluate:

Answer:

_Evaluation:

Question 22.

Evaluate:

Answer:

_Evaluation:

Question 23.

Evaluate:

Answer:

_Evaluation:

Question 24.

Evaluate:

Answer:

Evaluation:

Question 25.

Evaluate:

[CBSE 2004]

Answer:

_Evaluation:

=[sin x + cos x]

=[√2-1]

Question 26.

Evaluate:

Answer:

Evaluation:

Let

Question 27.

Evaluate:

Answer:

_Evaluation:

Question 28.

Evaluate:

Answer:

_Evaluation:

Question 29.

Evaluate:

Answer:

_Evaluation:

Question 30.

Evaluate:

Answer:

_Evaluation:

Question 31.

Evaluate:

Answer:

_Evaluation:

Question 32.

Evaluate:

Answer:

Explanation:

Question 33.

Evaluate:

Answer:

Explanation:

Question 34.

Evaluate:

Answer:

_Explanation:

Question 35.

Evaluate:

Answer:

(2 log 3 – 3 log 2)

Explanation:

=2log3-3log2

Question 36.

Evaluate:

Answer:

_Explanation:

Question 37.

Evaluate:

Answer:

_Evaluation:

Question 38.

Evaluate:

Answer:

Evaluation:

Substitute:

Undo substitution:

Question 39.

Evaluate:

Answer:

_Evaluation:

Substitute:

x+2=u

∴ dx=du

Undo substitution:

=log(4+√15)-log(3+√8)

Question 40.

Evaluate:

Answer:

Evaluation:

Substitute 4x+1√7=u

Now solving:

Question 41.

Evaluate:

Answer:

_Evaluation:

Question 42.

Evaluate:

Answer:

_Evaluation:

Substitute:

tan(x)=u

Question 43.

Evaluate:

Answer:

_Evaluation:

_{By reduction formula:}

We know that,

Question 44.

Evaluate:

Answer:

_Evaluation:

Assume that a≠0.

Now,

Substitute:

u=2x+(-√5-1)a

Undo substitution:

Now,

Substitute:

Undo substitution:

Question 45.

Evaluate:

Answer:

_Evaluation:

Substitute:

2x-1=u

Undo Substitution:

u=2x-1

∴=sin^-1 (2x-1)

Question 46.

Evaluate:

Answer:

_Evaluation:

Substitute:

2x-1=u

Substitute:

u=sin(v)

∴sin^-1 (u)=v

∴du=cos(v)dv

We know that,

Undo Substitution:

v=sin^-1 (u)
sin(sin^-1 (u))=u

Undo Substitution:

u=2x-1

Question 47.

Evaluate:

Answer:

_Evaluation:

Perform partial fraction decomposition:

Question 48.

Evaluate:

Answer:

_Evaluation:

Question 49.

Evaluate:

Answer:

Evaluation:

=[(x-1)e^x ]

=[(1-1) e¹-(0-1) e⁰]

Question 50.

Evaluate:

Answer:

Evaluation:

Question 51.

Evaluate:

Answer:

Evaluation:

From integrate by parts:

Question 52.

Evaluate:

Answer:

_Evaluation:

Question 53.

Evaluate:

Answer:

_Evaluation:

Question 54.

Evaluate:

Answer:

_Evaluation:

Question 55.

Evaluate:

Answer:

(2 log 2 – 1)

Evaluation:

Question 56.

Evaluate:

Answer:

_Evaluation:

Now,

Let,

∴dx=-x² du

Undo substitution:

Question 57.

Evaluate:

Answer:

_{Correct answer is}

Evaluation:

Let,

log(x)=u

→x=e^u

→dx=e^u du

Undo substitution:

Question 58.

Evaluate:

Answer:

Evaluation:

=log(x) e^x

=log(e) e^e-log(1) e¹

=e^e

Question 59.

Evaluate:

Answer:

_Evaluation:

From Integrates by parts:

=-e^x

Question 60.

Evaluate:

[CBSE 2004]

Answer:

(1 – log 2)

Evaluation:

Substitute:

Undo substitution:

=1-log2

Question 61.

Evaluate:

Answer:

_Explanation:

Exercise 16b

Question 1.

Evaluate the following integrals

Answer:

Let

Let 2x-3=t

⇒ 2dx=dt.

Hence,

Question 2.

Evaluate the following integrals

Answer:

Let

Let 1+x²=t

⇒ 2xdx=dt.

Also,

when x=0, t=1

and

when x=1, t=2

Hence,

Question 3.

Evaluate the following integrals

Answer:

Let

Let 9x²-1=t

⇒ 18xdx=dt.

Also,

when x=1, t=8

and

when x=2, t=35.

Hence,

Question 4.

Evaluate the following integrals

Answer:

Let

Let tan^-1x=t

⇒ .

Also, when x=0, t=0

and when x=1,

Hence,

Question 5.

Evaluate the following integrals

Answer:

Let

Let e^x=t

⇒ e^x dx=dt.

Also,

when x=0, t=1

and

when x=1, t=e.

Hence,

Question 6.

Evaluate the following integrals

Answer:

Let

Let x²=t

⇒ 2xdx=dt.

Also,

when x=0, t=0

and

when x=1, t=1.

Hence,

Question 7.

Evaluate the following integrals

Answer:

Let

Let x²=t

⇒ 2xdx=dt.

Also,

when x=0, t=0

and

when x=1, t=1.

Hence,

Question 8.

Evaluate the following integrals

Answer:

Let

⇒ .

Also,

when x=1, t=1

and

when x=2, .

Hence,

Question 9.

Evaluate the following integrals

Answer:

Let

Let 3+4sinx=t

⇒ 4cosxdx=dt.

Also,

when x=0, t=3

and

when , t=5.

Hence,

Question 10.

Evaluate the following integrals

Answer:

Let

Let cos x=t

⇒ -sin x dx=dt.

Also,

when x=0, t=1

and

when , t=0.

Hence,

Question 11.

Evaluate the following integrals

Answer:

Let

Let e^x=t

⇒ e^x dx=dt.

Also,

when x=0, t=1

and

when x=1, t=e.

Hence,

Question 12.

Evaluate the following integrals

Answer:

Let

⇒ .

Also,

when , t=-1

and

when x=e, t=1.

Hence,

Question 13.

Evaluate the following integrals

Answer:

Let

Let tan^-1x=t

Also,

when x=0, t=0

and

when x=1,

Hence,

Question 14.

Evaluate the following integrals

Answer:

Let

Let 1+cos x=t

⇒ -sin x dx=dt.

Also, when x=0, t=2

and

when , t=1

Hence,

=2(√2-1)

Question 15.

Evaluate the following integrals

Answer:

Let

Let sinx=t

⇒ cos x dx=dt.

Also,

when x=0, t=0

and

when , t=1.

Consider cos⁵x=cos⁴x×cosx=(1-sin²x)²×cosx (Using sin²x+cos²x=1)

Hence,

Question 16.

Evaluate the following integrals

Answer:

Let

Let sin²x=t

⇒ 2sin x cos x=dt.

Also,

when x=0, t=0

and

when , t=1.

Hence,

Question 17.

Evaluate the following integrals

Answer:

Let

Let x=a sin t

⇒ a cos t dt=dx.

Also,

when x=0, t=0

and

when x=a, .

Hence,

Using , we get

Question 18.

Evaluate the following integrals

Answer:

Let

Consider,

Let x=a sin t

⇒ a cos t dt=dx.

Also, when x=0, t=0

and when x=a, .

Hence,

Using , we get

Here , hence

Question 19.

Evaluate the following integrals

Answer:

Let

Let x=a sin t

⇒ a cos t dt=dx.

Also, when x=0, t=0

and when x=a, .

Hence,

Using , we get

⇒

Hence,

Question 20.

Evaluate the following integrals

Answer:

Let

Let a²+x²=t²

⇒ x dx=t dt.

Also, when x=0, t=a

and when x=a, .

Hence,

=a(√2-1)

Question 21.

Evaluate the following integrals

Answer:

Let

Using the property that , we get

Hence,

Question 22.

Evaluate the following integrals

Answer:

Let

Let x=tanθ

⇒ θ=tan^-1x

=sin^-1 (2sinθcosθ)

=sin^-1 (sin2θ)

Hence f(x)=2θ

=2tan^-1x

Hence

Using integration by parts, we get

-(1)

Let

Let 1+x²=t

⇒ 2x dx=dt.

Also, when x=0, t=1

and when x=1, t=2

Hence,

–(2)

Substituting value of (2) in (1), we get

Question 23.

Evaluate the following integrals

Answer:

Let

Using , we get

Question 24.

Evaluate the following integrals

Answer:

Let

Using and

=-(√2-2) +(√2)

Question 25.

Evaluate the following integrals

25.

Answer:

Let

Dividing by cos²x in numerator and denominator, we get

Let tan x=t

⇒ sec²xdx=dt

Let

Question 26.

Evaluate the following integrals

Answer:

Let

Dividing by cos²x in numerator and denominator, we get

Consider

Let tan x=t

⇒ sec²xdx=dt

Let

=tan x

Here, a=1 and b=√2

Hence,

Question 27.

Evaluate the following integrals

Answer:

Let

Dividing by cos²x in numerator and denominator, we get

Consider

Let tan x=t

⇒ sec²xdx=dt

Let

=tan x

Here, a=2 and b=√13

Hence,

Question 28.

Evaluate the following integrals

Answer:

Let

Using , we get

Let

⇒ ,

when x=0, t=0 and when , t=1.

Hence,

Let

⇒ dt=du.

When t=0, and when t=1, .

Question 29.

Evaluate the following integrals

Answer:

Let

Using , we get

Let

when x=0, t=0 and when x=π, t=∞.

Hence,

Question 30.

Evaluate the following integrals

Answer:

Let

Using , we get

Let

⇒ ,

when x=0, t=0 and when x=π, t=∞.

Hence,

Question 31.

Evaluate the following integrals

Answer:

Let

Using

And

we get

Let

⇒ ,

when x=0, t=0

and when , t=1.

Hence,

Let t-2=u

⇒ dt=du.

Also, when t=0, u=-2

and when t=1, u=-1.

Hence,

(Using )

Question 32.

Evaluate the following integrals

Answer:

Let

Using

And

we get

Let

when x=0, t=0

and when , t=∞.

Hence,

Let t+1=u

⇒ dt=du.

Also, when t=0, u=1

and when t=∞, u=∞.

Question 33.

Evaluate the following integrals

Answer:

Let

Using 1+cos2x=2cos²x, we get

Let tan x=t

⇒ sec²xdx=dt.

when x=0, t=0

and when , t=1.

Question 34.

Evaluate the following integrals

Answer:

Let

Let cos x=t

⇒ -sin x dx=dt.

Also, when x=0, t=1

and when , t=0.

Hence,

Hence

Question 35.

Evaluate the following integrals

Answer:

Let

Using sin 2x =2 sin x cos x, we get

Let tan x=t

⇒ sec²xdx=dt.

Also, when x=0, t=0

and when , t=∞.

Hence,

Let x²=t

⇒ 2xdx=dt.

Also, when x=0, t=0

and when x=∞, t=∞.

Hence,

Question 36.

Evaluate the following integrals

Answer:

Let

Using

And

we get

Let

⇒ .

Also, when ,

and when , t=1

Hence,

Question 37.

Evaluate the following integrals

Answer:

Let

Let x=cost ⇒ dx=-sin t dt.

Also, when x=0,

and when x=1, t=0.

Hence,

Using integration by parts, we get

Hence, I=π-2

Question 38.

Evaluate the following integrals

Answer:

Let

Using integration by parts, we get

Let tan^-1x=t

⇒ .

When x=0, t=0 and when x=1, .

Hence

Let 1+x²=y

⇒ 2xdx=dy.

Also, when x=0, y=1

and when x=1, y=2.

Question 39.

Evaluate the following integrals

Answer:

Let

Let √x=t

⇒

dx=2tdt.

When, x=0, t=0

and when x=1, t=1.

Hence,

Using integration by parts, we get

Let t=sin y

⇒ dt=cos y dy.

When t=0, y=0, when t=1, .

….. (1)

Using, , we get

…..(2)

Adding (1) and (2), we get

Hence,

Question 40.

Evaluate the following integrals

Answer:

Let

Let x=a tan²y

⇒ dx=2a tan y sec²y dy.

Also, when x=0, y=0

and when x=a,

Hence

Using integration by parts, we get

Let tan y=t

⇒ sec²ydy=dt.

Also, when y=0, t=0

and when , t=1.

Also, y=tan^-1t

Let

Hence

Substituting value of I’ in I, we get

Question 41.

Evaluate the following integrals

Answer:

Let

Let √x=u

or dx=2udu.

Also, when x=0, u=0 and x=9, u=3.

Hence,

Question 42.

Evaluate the following integrals

Answer:

Let

Let 1+3x⁴=t

⇒ 12x³dx=dt.

Also, when x=0, t=1 and when x=1, t=4.

Question 43.

Evaluate the following integrals

Answer:

Let

Let x=tan t

⇒ dx=sec²tdt.

Also when x=0, t=0 and when x=1, .

Hence,

Using , we get

Let

Let 1+x²=t ⇒ 2xdx=dt.

When x=0, t=1 and when x=1, t=2.

Substituting t=1+x²

⇒ 2xdx=dt.

When t=1, x=0 and when t=2, x=1.

Hence,

Question 44.

Evaluate the following integrals

Answer:

Let

Let x=sect

⇒ dx=sec t tan t dt.

Also,

when x=1, t=0 and when x=2,

Hence,

Using , we get

Question 45.

Evaluate the following integrals

Answer:

Let

Let sin x- cos x=t

⇒ (cos x + sin x)dx=dt.

When x=0, t=-1 and , t=1.

Also, t²=(sin x – cos x)²

=sin²x+cos²x-2sinxcosx

=1-2sinxcosx

Hence

Let t=sin y

⇒ dt=cos y dy.

Also, when t=-1,

and when t=1, .

Question 46.

Evaluate the following integrals

Answer:

Let

Let,

=-2ax+5a+b

Hence -2a=-1 and 5a+b=2.

Solving these equations,

we get and .

We get,

Let

Let 5x-6-x²=t

⇒ (5-2x) dx=dt.

When x=2, t=0 and when x=3, y=0.

Hence

Let,

=π

Hence,

Question 47.

Evaluate the following integrals

Answer:

Let

Using , we get

Let

⇒ .

Also, when ,

and when ,

Question 48.

Evaluate the following integrals

Answer:

Let

Let x³=t

⇒ 3x²=dt.

Also, when x=0, t=0 and when , .

Hence,

Question 49.

Evaluate the following integrals

Answer:

Let

⇒ .

Also, when x=1, t=1 and when x=2,

Hence

Question 50.

Evaluate the following integrals

Answer:

Let

Let sinx=t

⇒ cos x dx=dt.

Also, when , and when , t=1.

(Using )

Exercise 16c

Question 1.

Prove that

Answer:

Let, sin x + cos x = t

⇒ (cos x – sin x) dx = dt

At x = 0, t = 1

At x = π/2, t = 1

Question 2.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 3.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 4.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 5.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 6.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 7.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 8.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 9.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 10.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 11.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 12.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 13.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 14.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 15.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 16.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 17.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 18.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 19.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 20.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

y = 0

Question 21.

Prove that

Answer:

Use King theorem of definite integral

Question 22.

Prove that

Answer:

Use King theorem of definite integral

Question 23.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 24.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 25.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 26.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, cos x = t

⇒ -sin x dx = dt

At x = 0, t = 1

At x = π, t = -1

Question 27.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, cos x = t

⇒ -sin x dx = dt

At x = 0, t = 1

At x = π, t = -1

Question 28.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

We break it in two parts

Let, tan x = t

⇒ sec²x dx = dt

At x = 0, t = 0

At x = π, t = 0

We know that when upper and lower limit is same in definite

integral then value of integration is 0.

So, y = 0

Question 29.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

[Use cot x tan x = 1]

Question 30.

Prove that

Answer:

Let, x = tan t

⇒ dx = sec²t dt

At x = 0, t = 0

At x = ∞, t = π/2

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 31.

Prove that

Answer:

Let, x = a sin t

⇒ dx = a cos t dt

At x = 0, t = 0

At x = a, t = π/2

Again, sin t + cos t = z

⇒ (cos t – sin t) dt = dz

At t = 0, z = 1

At t = π/2, z = 1

Question 32.

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 33.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

y = 0

Question 34.

Prove that

where m is a positive integer

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

y = 0

Question 35.

Prove that

Answer:

Let, sin x + cos x = t

⇒ cos x – sin x dx = dt

At x = 0, t = 1

At x = π/2, t = 1

We know that when upper and lower limit in definite integral is

equal then value of integration is zero.

So, y = 0

Question 36.

Prove that

Answer:

Let, …(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, 2x = t

⇒ 2 dx = dt

At x = 0, t = 0

At x = π/2, t = π

Similarly,

Question 37.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

…(3)

Use King theorem of definite integral

…(4)

Adding eq.(3) and eq.(4)

Let, 2x = t

⇒ 2 dx = dt

At x = 0, t = 0

At x = π/2, t = π

Question 38.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

…(3)

Use King theorem of definite integral

…(4)

Adding eq.(3) and eq.(4)

Let, 2x = t

⇒ 2 dx = dt

At x = 0, t = 0

At x = π/2, t = π

Question 39.

Prove that

Answer:

Let, …(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, 2x = t

⇒ 2 dx = dt

At x = 0, t = 0

At x = π/2, t = π

Similarly,

Question 40.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 41.

Prove that

Answer:

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 42.

Prove that

Answer:

Question 43.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, cos x = t

⇒ -sin x dx = dt

At x = π/4, t =

At x = 3π/4, t =

Question 44.

Prove that

Answer:

…(1)

Use King theorem of definite integral

Adding eq.(1) and eq.(2)

Question 45.

Prove that

Answer:

Use King theorem of definite integral

Adding eq.(1) and eq.(2)

Question 46.

Prove that

Answer:

Use integration by parts

Let, …(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, 2x = t

⇒ 2 dx = dt

At x = 0, t = 0

At x = π/2, t = π

Question 47.

Prove that

Answer:

Let, x = sin t

⇒ dx = cos t dt

At x = 0, t = 0

At x = 1, t = π/2

Use integration by parts

Let, …(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, 2t = z

⇒ 2 dt = dz

At t = 0, z = 0

At t = π/2, z = π

Question 48.

Prove that

Answer:

Use integration by parts

Let, x = sin t

⇒ dx = cos t dt

At x = 0, t = 0

At x = 1, t = π/2

Use integration by parts

Let, …(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Let, 2t = z

⇒ 2 dt = dz

At t = 0, z = 0

At t = π/2, z = π

Question 49.

Prove that

Answer:

Let x = tan t

⇒ dx = sec²t dt

At x = 0, t = 0

At x = 1, t = π/4

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

Question 50.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

y = 0

Question 51.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

y = 0

Question 52.

Prove that

Answer:

…(1)

Use King theorem of definite integral

…(2)

Adding eq.(1) and eq.(2)

y = 0

Question 53.

Prove that

Answer:

We know that

|x| = -x in [-1, 0)

|x| = x in [0, 1]

y= -(1-e)+(e-1)

y = 2(e – 1)

Question 54.

Answer:

We know that

|x+1| = -(x+1) in [-2, -1)

|x+1| = (x+1) in [-1, 2]

Question 55.

Prove that

Answer:

We know that

|x – 5| = -(x – 5) in [0, 5)

|x – 5| = (x – 5) in [5, 8]

=17

Question 56.

Prove that

Answer:

We know that

|cos x| = cos x in [0, π/2)

|cos x| = -cos x in [π/2, 3π/2)

|cos x| = cos x in [3π/2, 2π]

y=(1-0)—1-1+(0+1)

Question 57.

Prove that

Answer:

We know that

|sin x| = -sin x in [-π/4, 0)

|sin x| = sin x in [0, π/4]

Question 58.

Prove that

Let

Show that

Answer:

Question 59.

Prove that

Let

Show that

Answer:

y=(8+8)+(72-8-18+4)

=66

Question 60.

Prove that

Answer:

y=(-2+12)+(8+8-2-4)

=20

Exercise 16d

Question 1.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [0,2]

here h=2/n

=10

Question 2.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [1,2]

here h=1/n

=5/2

Question 3.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [1,3]

here h=2/n

=26/3

Question 4.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [0,3]

here h=3/n

=12

Question 5.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [2,5]

here h=3/n

=102

Question 6.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [2,5]

here h=3/n

=18

Question 7.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [1,4]

here h=3/n

=78

Question 8.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [1,3]

here h=3/n

=86/3

Question 9.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [1,3]

here h=2/n

=112/3

Question 10.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [0,2]

here h=2/n

Question 11.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [2,4]

here h=3/n

=14/3

Question 12.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [0,2]

here h=2/n

=14/3

Question 13.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [0,3]

here h=3/n

=93/2

Question 14.

Evaluate each of the following integrals as the limit of sums:

Answer:

Since it is modulus function so we need to break the function and then solve it

it is continuous in [0,1]

let and

here h=1/3n

=1/3

here h=2/3n

=2/3

f(x)=g(x)+h(x)

=(1/3)+(2/3)

=3/3

Question 15.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [0,2]

here h=2/n

Which is g.p with common ratio e^1/n

Whose sum is

As h=2/n

=e²-1

Question 16.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [1,3]

here h=2/n

Common ratio is

Which is g.p. with common ratio e^1/n

Whose sum is

As h=-2/n

Question 17.

Evaluate each of the following integrals as the limit of sums:

Answer:

f(x) is continuous in [a,b]

here h=(b-a)/n

S=cos(a)+ cos(a+h)+ cos(a+2h)+ cos(a+3h)+…………………..+ cos(a+(n-1)h)

Putting h=(b-a)/n

As we know

Which is trigonometry formula of sin(b)-sin(a)

Final answer is sin(b)-sin(a)

Objective Questions

Question 1.

Mark (√) against the correct answer in the following:

A. 12.8

B. 12.4

C. 7

D. none of these

Answer:

=12.4

Question 2.

Mark (√) against the correct answer in the following:

A.

B. 7

C.

D.

Answer:

Question 3.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

Question 4.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

Question 5.

Mark (√) against the correct answer in the following:

A. 1

B.

C.

D. none of these

Answer:

Use formula

Question 6.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Let, x² = t

Differentiating both side with respect to t

At ,

Question 7.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Let, x⁴ = t

Differentiating both side with respect to t

At x = 0, t = 0

At x = 1, t = 1

Question 8.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

Let, log x = t

Differentiating both side with respect to t

At x = 1, t = 0

At x = e, t = 1

Question 9.

Mark (√) against the correct answer in the following:

A. log 2

B. 2 log 2

C.

D. none of these

Answer:

Question 10.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Question 11.

Mark (√) against the correct answer in the following:

A.

B. π

C.

D. 1

Answer:

Question 12.

Mark (√) against the correct answer in the following:

A.

B.

C. - log 2

D. none of these

Answer:

Question 13.

Mark (√) against the correct answer in the following:

A. 1

B.

C.

D. none of these

Answer:

Let, sin x = t

Differentiating both side with respect to t

At x = 0, t = 0

At x = , t = 1

Question 14.

Mark (√) against the correct answer in the following:

A. (e – 1)

B. (e + 1)

C.

D.

Answer:

Let, tan x = t

Differentiating both side with respect to t

At x = 0, t = 0

At x =, t = 1

= e¹ – e⁰

= e – 1

Question 15.

Mark (√) against the correct answer in the following:

A.

B.

C. π

D. none of these

Answer:

Let, sin x = t

Differentiating both side with respect to t

At x = 0, t = 0

At x = , t = 1

= tan^-11 – tan^-10

= π/4

Question 16.

Mark (√) against the correct answer in the following:

A. 1

B.

C.

D. none of these

Answer:

Let, 1/x = t

Differentiating both side with respect to t

At x = 1/π, t = π

At x = 2/π, t = π/2

= 1

Question 17.

Mark (√) against the correct answer in the following:

A.

B. 1

C. 2

D. 0

Answer:

Let, cos x = t

Differentiating both side with respect to t

At x = 0, t = 1

At x = π, t = -1

Question 18.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Let, sin x = t

Differentiating both side with respect to t

⇒cos x dx=dt

At x = 0, t = 0

At x = π/2, t = 1

Question 19.

Mark (√) against the correct answer in the following:

A.

B. (e – 1)

C. e(e – 1)

D. none of these

Answer:

Use formula ∫e^x(f(x) + f’(x))dx = e^x f(x)

then

Question 20.

Mark (√) against the correct answer in the following:

A. 0

B.

C.

D.

Answer:

Use formula ∫e^x(f(x) + f’(x))dx = e^x f(x)

If then

Question 21.

Mark (√) against the correct answer in the following:

A. 0

B. 1

C. 2

D.

Answer:

y = 1

Question 22.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. 2

Answer:

=√2

Question 23.

Mark (√) against the correct answer in the following:

A.

B. (2 log 2 + 1)

C. (2 log 2 – 1)

D.

Answer:

= 2 ln 2 – 1

Question 24.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Question 25.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Let, sin x = t

Differentiating both side with respect to t

At x = 0, t = 0

At x = π/6, t = 1/2

Question 26.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Let, sin x = t

Differentiating both side with respect to t

At x = 0, t = 0

At x = π/2, t = 1

Question 27.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

Let, cos x = t

Differentiating both side with respect to t

At x = 0, t = 1

At x = π, t = -1

Question 28.

Mark (√) against the correct answer in the following:

A.

B. tan^-1 e

C.

D.

Answer:

Let e^x = t

Differentiating both side with respect to t

At x = 0, t = 1

At x = 1, t = e

= tan^-1e – tan^-11

= tan^-1e – π/4

Question 29.

Mark (√) against the correct answer in the following:

A. (3 – 2 log 2)

B. (3 + 2 log 2)

C. (6 – 2 log 4)

D. (6 + 2 log 4)

Answer:

Let, x = t²

Differentiating both side with respect to t

At x = 0, t = 0

At x = 9, t = 3

y = 2[(3 – ln 4) – (0 – ln 1)]

= 6 – 2 log 4

Question 30.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

Use integration by parts

Question 31.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

We have to convert denominator into perfect square

Use formula

Question 32.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

Let, x = sin t

Differentiating both side with respect to t

At x = 0, t = 0

At x = 1, t = π/2

Question 33.

Mark (√) against the correct answer in the following:

A. (log 2 + 1)

B. (log 2 – 1)

C. (2 log 2 – 1)

D. (2 log 2 + 1)

Answer:

= 2 log 2 – 1

Question 34.

Mark (√) against the correct answer in the following:

A. aπ

B.

C. 2 aπ

D. none of these

Answer:

Let, x = a sin t

Differentiating both side with respect to t

At x = -a, t = - π/2

At x = a, t = π/2

= aπ

Question 35.

Mark (√) against the correct answer in the following:

A. π

B. 2π

C.

D. none of these

Answer:

Use formula

Question 36.

Mark (√) against the correct answer in the following:

A. 4

B. 3.5

C. 2

D. 0

Answer:

We know that

|x| = -x in [-2, 0)

|x| = x in [0, 2]

y = 0 – (-2) + 2 – 0

= 4

Question 37.

Mark (√) against the correct answer in the following:

A. 2

B.

C. 1

D. 0

Answer:

We know that

|2x – 1| = -(2x – 1) in [0, 1/2)

|2x – 1| = (2x – 1) in [1/2, 1]

Question 38.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. 0

Answer:

We know that

|2x + 1| = -(2x + 1) in [-2, -1/2)

|2x + 1| = (2x + 1) in [-1/2, 1]

Question 39.

Mark (√) against the correct answer in the following:

A. 3

B. 2.5

C. 1.5

D. none of these

Answer:

We know that

|x| = -x in [-2, 0)

|x| = x in [0, 1]

= -(0 – (-2)) + (1 – 0)

= -1

Question 40.

Mark (√) against the correct answer in the following:

A. 0

B. 2a

C.

D. none of these

Answer:

We know that

|x| = -x in [-a, 0) where a > 0

|x| = x in [0, a] where a > 0

= 0

Question 41.

Mark (√) against the correct answer in the following:

A. 2

B.

C. 1

D. 0

Answer:

Find the equivalent expression to |cos x| at 0x

=cos x

=-cos x

⇒1-0-(-1) +0=2

Question 42.

Mark (√) against the correct answer in the following:

A. 2

B. 4

C. 1

D. none of these

Answer:

Find the equivalent expression to |sin x| at 0x

|sin x| = sin x

|sin x| = -sin x

=-cos π-(-cos 0)+cos 2π-cos π

=-(-1)+1+1-(-1)

=2+2

Question 43.

Mark (√) against the correct answer in the following:

A. π

B.

C. 0

D.

Answer:

We know that,

…(let)

Here,

Question 44.

Mark (√) against the correct answer in the following:

A.

B.

C. π

D. 0

Answer:

We know that,

…(let)

Here,

Question 45.

Mark (√) against the correct answer in the following:

A.

B.

C. 1

D. 0

Answer:

We know that,

…(let)

Here,

Question 46.

Mark (√) against the correct answer in the following:

A. 0

B. 1

C.

D. none of these

Answer:

We know that,

…(let)

Here,

Question 47.

Mark (√) against the correct answer in the following:

A.

B.

C. 1

D. 0

Answer:

We know that,

…(let)

Here,

Question 48.

Mark (√) against the correct answer in the following:

A. 0

B.

C.

D. none of these

Answer:

We know that,

…(let)

Here,

Question 49.

Mark (√) against the correct answer in the following:

A. 0

B.

C.

D. π

Answer:

We know that,

…(let)

Here,

Question 50.

Mark (√) against the correct answer in the following:

A. 0

B.

C.

D. π

Answer:

So our integral becomes,

We know that,

…(let)

Here,

Question 51.

Mark (√) against the correct answer in the following:

A. 0

B.

C.

D. π

Answer:

So our integral becomes

Here,

Question 52.

Mark (√) against the correct answer in the following:

A.

B. 0

C.

D. none of these

Answer:

Here,

We know that,

…(let)

Question 53.

Mark (√) against the correct answer in the following:

A.

B. 0

C.

D. π

Answer:

so our integral becomes,

Here and

We know that,

…(let)

Question 54.

Mark (√) against the correct answer in the following:

A.

B.

C. 0

D. 1

Answer:

So our integral becomes,

We know that,

…(let)

so, we know that,

Here,

Question 55.

Mark (√) against the correct answer in the following:

A. 0

B. 1

C.

D. π

Answer:

So our integral becomes,

We know that,

…(let)

Here,

Question 56.

Mark (√) against the correct answer in the following:

A. 2π

B. π

C. 0

D. none of these

Answer:

If f is an odd function,

as,

here f(x)=x⁴sinx

we will see f(-x)=(-x)⁴sin(-x)

=- x⁴sinx

Therefore, f(x) is a odd function,

Question 57.

Mark (√) against the correct answer in the following:

A. π

B.

C. 2π

D. 0

Answer:

If f is an odd function,

as,

here f(x)=x³ cos³ x

we will see f(-x)=(-x)³ cos³(-x)

=-x³ cos ³ x

Therefore, f(x) is a odd function,

Question 58.

Mark (√) against the correct answer in the following:

A.

B. 2π

C.

D. 0

Answer:

If f is an odd function,

as,

f(x)=sin⁵x

f(-x)=sin⁵(-x)

=-sin⁵x

Therefore, f(x) is a odd function,

Question 59.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. 0

Answer:

Question 60.

Mark (√) against the correct answer in the following:

A. 2a

B. a

C. 0

D. 1

Answer:

If f is an odd function,

as,

Hence it is a odd function

Question 61.

Mark (√) against the correct answer in the following:

A. 2π

B. 0

C.

D. 125π

Answer:

If f is an odd function,

as,

sin⁶¹x and x¹²³is an odd function,

so there integral is zero.

Question 62.

Mark (√) against the correct answer in the following:

A. 2

B.

C. -2

D. 0

Answer:

f(x)=tan x

f(-x) =tan(-x)

=-tan x

hence the function is odd,

therefore, I=0

Question 63.

Mark (√) against the correct answer in the following:

A.

B. log 2

C.

D. 0

Answer:

By by parts,

x-= x-

Question 64.

Mark (√) against the correct answer in the following:

A. 0

B. 2

C. -1

D. none of these

Answer:

cosx is an even function so,

=2(1-0)

Question 65.

Mark (√) against the correct answer in the following:

A.

B. 2a

C.

D.

Answer:

Here,

We know that,

…(let)

Question 66.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. 0

Answer:

let

We know that,

Question 67.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

Question 68.

Mark (√) against the correct answer in the following:

Let [x] denote the greatest integer less than or equal to x.

Then,

A.

B.

C. 2

D. 3

Answer:

Question 69.

Mark (√) against the correct answer in the following:

Let [x] denote the greatest integer less than or equal to x.

Then,

A. -1

B. 0

C.

D. 2

Answer:

=-1-0+0

=-1

Question 70.

Mark (√) against the correct answer in the following:

A.

B.

C.

D.

Answer:

∴ x²-3x+2=0

(x-2)(x-1)=0

so, 2, and 1 itself are the limits so no breaking points for the integral,

Question 71.

Mark (√) against the correct answer in the following:

A. 0

B. 1

C. 2

D. none of these

Answer:

∴ sin x=0

∴ x=0,π,2π….

So are the limits so no breaking points for the integral,

Question 72.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

put

x=sin t

=t;

and sin^-1 0=0

Limit changes to,

Question 73.

Mark (√) against the correct answer in the following:

A.

B.

C.

D. none of these

Answer:

put x=tan y

dx=sec²ydy

Definite Integrals

Class 12th Mathematics RS Aggarwal Solution

Exercise 16a

Exercise 16b

Exercise 16c

Exercise 16d

Objective Questions

Class 12^th Mathematics RS Aggarwal Solution