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Differentiation

Class 12th Mathematics RS Aggarwal Solution
Exercise 10a
  1. sin 4x Differentiate each of the following w.r.t. x:
  2. cos 5x Differentiate each of the following w.r.t. x:
  3. tan 3x Differentiate each of the following w.r.t. x:
  4. cos x3 Differentiate each of the following w.r.t. x:
  5. cot2x Differentiate each of the following w.r.t. x:
  6. tan3x Differentiate each of the following w.r.t. x:
  7. cotroot {x} Differentiate each of the following w.r.t. x:
  8. root {tanx} Differentiate each of the following w.r.t. x:
  9. (5 + 7x)6 Differentiate each of the following w.r.t. x:
  10. (3 – 4x )5 Differentiate each of the following w.r.t. x:
  11. (2x2 – 3x +4)5 Differentiate each of the following w.r.t. x:
  12. (𝔞𝓍2 + 𝔟𝓍 + c )6 Differentiate each of the following w.r.t. x:…
  13. {1}/{ ( x^{2} - 3x+5 ) ^{3} } Differentiate each of the following w.r.t. x:…
  14. root { { a^{2} - x^{2} }/{ a^{2} + x^{2} } } Differentiate each of the…
  15. root { {1+sinx}/{1-sinx} } Differentiate each of the following w.r.t. x:…
  16. cos2𝓍3 Differentiate each of the following w.r.t. x:
  17. sec3 (𝓍2+1) Differentiate each of the following w.r.t. x:
  18. root {cos3x} Differentiate each of the following w.r.t. x:
  19. cube root {sin2x} Differentiate each of the following w.r.t. x:
  20. root {1+cotx} Differentiate each of the following w.r.t. x:
  21. cosec^{3} {1}/{ x^{2} } Differentiate each of the following w.r.t. x:…
  22. root { sinx^{3} } Differentiate each of the following w.r.t. x:
  23. root {xsinx} Differentiate each of the following w.r.t. x:
  24. root { cotsqrt{x} } Differentiate each of the following w.r.t. x:…
  25. cot3𝓍2 Differentiate each of the following w.r.t. x:
  26. cos ( sinroot {9x+b} ) Differentiate each of the following w.r.t. x:…
  27. root { cosec ( x^{3} + 1 ) } Differentiate each of the following w.r.t. x:…
  28. sin 5𝓍 cos 3𝓍 Differentiate each of the following w.r.t. x:
  29. sin 2𝓍 sin 𝓍 Differentiate each of the following w.r.t. x:
  30. cos 4𝓍 cos 2𝓍 Differentiate each of the following w.r.t. x:
  31. Find {dy}/{dx} , when:𝒴 =sin ( { 1+x^{2} }/{ 1-x^{2} } ) Find ,…
  32. Find {dy}/{dx} , when:𝒴 = { ( sinx+x^{2} ) }/{cot2x} Find , when:…
  33. If 𝒴 = { (cosx-sinx) }/{ (cosx+sinx) } , prove that {dy}/{dx} + 𝒴2…
  34. If 𝒴 = { (cosx+sinx) }/{ (cosx-sinx) } , prove that {dy}/{dx} =sec2…
Exercise 10j
  1. Find the second derivate of :(i) x11 (ii) 5x(iii) tan x (iv) cos-1x…
  2. Find the second derivative of:(i) x sin x(ii) e2x cos 3x(iii) x3 log x…
  3. If 𝒴 = x + tan x, show that cos2 . {d^{2}y}/{ dx^{2} } - 2𝒴+ 2x = 0.…
  4. If 𝒴 = 2 sin x + 3 cos x, s how that 𝒴 + {d^{2}y}/{ dx^{2} } =0.…
  5. If 𝒴 = 3 cos (log x) + 4 sin (log x), prove that x2𝒴2 + x𝒴1 + 𝒴 = 0.…
  6. If y = e- cos x , show that {d^{2}y}/{ dx^{2} } = 2e-xsin x .…
  7. If 𝒴 = sec x – tan x. show that (cos x) {d^{2}y}/{ dx^{2} } = 𝒴2.…
  8. If 𝒴 = (cosec x + cot x), prove that (sin x) {d^{2}y}/{ dx^{2} } - 𝒴2 =…
  9. If 𝒴 = tan-1 , show that (1 + x2) {d^{2}y}/{ dx^{2} } + 2x {dy}/{dx}…
  10. If 𝒴 = sin (sin x), prove that {d^{2}y}/{ dx^{2} } + (tan )…
  11. If 𝒴 = a cos (log x) + b sin (log x), prove that x2𝒴2 + x𝒴1 + 𝒴 = 0.…
  12. Find the second derivative of e3x sin 4x .
  13. Find the second derivative of sin 3 x cos 5x.
  14. If 𝒴 = etan , prove that (cos2x) {d^{2}y}/{ dx^{2} } - (1+ sin 2x).…
  15. If 𝒴 = {logx}/{x} , show that {d^{2}y}/{ dx^{2} } = { (2logx-3)…
  16. If 𝒴 = eax cos bx, show that {d^{2}y}/{ dx^{2} } - 2a {dy}/{dx} +…
  17. If 𝒴 = ea cos-1x, - 1 ≤ x ≤ 1, show that (1 - x2) {d^{2}y}/{ dx^{2} } -…
  18. If x = at2 and 𝒴 = 2at, find {d^{2}y}/{ dx^{2} } at t = 2.…
  19. If x = a(θ – sin θ ) and 𝒴 = a(1 – cos θ), find {d^{2}y}/{ dx^{2} } at θ…
  20. If 𝒴 = sin (log x), prove that x2 {d^{2}y}/{ dx^{2} } +x {dy}/{dx}…
  21. If 𝒴 = {sin^{-1}x}/{ root { 1-x^{2} } } , show that (1 - x2)…
  22. If 𝒴 = ex sin x, prove that {d^{2}y}/{ dx^{2} } - 2 {dy}/{dx} + 2𝒴…
  23. If x = a ( costheta +logtan { theta }/{2} ) and 𝒴 = a sin θ, show that…
  24. If x = cos t + log tan {t}/{2} , 𝒴 = sin t then find the values of…
  25. If 𝒴 = xx, prove that {d^{2}y}/{ dx^{2} } - {1}/{y} ( {dy}/{dx}…
  26. If 𝒴 = (cot-1 )2, then show that (x2 + 1)2 {d^{2}y}/{ dx^{2} } + 2x (x2 +…
  27. If 𝒴 = { x + root { x^{2} + 1 } } ^{m} , then show that (x2 + 1)…
  28. If 𝒴 = log [x + [x + root { x^{2} + a^{2} } ] , then prove that…
  29. If x = a(cos θ + θ sin θ ) and 𝒴 = a(sin θ - θ cos θ), show that…
  30. If x = a cos θ + b sin θ and 𝒴 = a sin θ – b cos θ , show that y^{2}…
Exercise 10b
  1. (i) e^{4x} (ii) e^{-5x} (iii) (e)^ { x^{3} } Differentiate each of the…
  2. (i) e^{2/x} (ii) e^ { root {x} } (iii) e^ { - 2 root {x} } Differentiate…
  3. (i) e^{cotx} (ii) e^{-sin2x} (iii) e^ { root {sinx} } Differentiate each of…
  4. (i) tan (log x)(ii) log (sec x)(iii) log (sin (x/2)) Differentiate each of the…
  5. (i)log3 x(ii) 2^{-x} (iii) 3^{x+2} Differentiate each of the following…
  6. (i) log ( x + {1}/{x} ) (ii) log (sin (3x))(iii) log ( x + root { 1+x^{2}…
  7. e^ { root {x} } logx Differentiate each of the following w.r.t. x:…
  8. logsinroot { x^{2} + 1 } Differentiate each of the following w.r.t. x:…
  9. e2x sin 3x Differentiate each of the following w.r.t. x:
  10. e3x cos 2x Differentiate each of the following w.r.t. x:
  11. e-5x cot 4x Differentiate each of the following w.r.t. x:
  12. ex log (sin 2x) Differentiate each of the following w.r.t. x:
  13. log (cosecx-cotx) Differentiate each of the following w.r.t. x:
  14. log ( sec {x}/{2} + tan frac {x}/{2} ) Differentiate each of the following…
  15. root { { 1+e^{x} }/{ 1-e^{x} } } Differentiate each of the following w.r.t.…
  16. { e^{x} + e^{-x} }/{ e^{x} - e^{-x} } Differentiate each of the following…
  17. xe^ { root {sinx} } Differentiate each of the following w.r.t. x:…
  18. e^{sinx} sin ( e^{x} ) Differentiate each of the following w.r.t. x:…
  19. e^ { root { 1-x^{2} } } tanx Differentiate each of the following w.r.t. x:…
  20. { e^{x} }/{1+cosx} Differentiate each of the following w.r.t. x:
  21. x^{3}e^{x}cosx Differentiate each of the following w.r.t. x:
  22. e^{x}cosx Differentiate each of the following w.r.t. x:
Exercise 10c
  1. cos^{-1}2x Differentiate each of the following w.r.t. x:
  2. tan^{-1}x^{2} Differentiate each of the following w.r.t. x:
  3. sec^{-1}root {x} Differentiate each of the following w.r.t. x:
  4. sin^{-1} {x}/{a} Differentiate each of the following w.r.t. x:
  5. tan^{-1} (logx) Differentiate each of the following w.r.t. x:
  6. cot^{-1} ( e^{x} ) Differentiate each of the following w.r.t. x:
  7. log (tan^{-1}x) Differentiate each of the following w.r.t. x:
  8. cot^{-1}x^{3} Differentiate each of the following w.r.t. x:
  9. sin^{-1} (cosx) Differentiate each of the following w.r.t. x:
  10. ( 1+x^{2} ) tan^{-1}x Differentiate each of the following w.r.t. x:…
  11. tan^{-1} (cotx) Differentiate each of the following w.r.t. x:
  12. log ( sin^{-1}x^{4} ) Differentiate each of the following w.r.t. x:…
  13. ( cot^{-1}x^{2} ) ^{3} Differentiate each of the following w.r.t. x:…
  14. tan^{-1} ( cosroot {x} ) Differentiate each of the following w.r.t. x:…
  15. tan (sin^{-1}x) Differentiate each of the following w.r.t. x:
  16. e^ { tan^{-1}root {x} } Differentiate each of the following w.r.t. x:…
  17. root { sin^{-1}x^{2} } Differentiate each of the following w.r.t. x:…
  18. If y = sin^{-1} (cosx) + cos^{-1} (sinx) prove that {dy}/{dx} = - 2 .…
  19. Prove that {d}/{dx} { 2xtan^{-1}x-log ( 1+x^{2} ) } = 2tan^{-1}x .…
Exercise 10d
  1. sin^{-1} { root { {1-cosx}/{2} } } Differentiate each of the following w.r.t…
  2. tan^{-1} ( {sinx}/{1+cosx} ) Differentiate each of the following w.r.t x:…
  3. cot^{-1} ( {1+cosx}/{sinx} ) Differentiate each of the following w.r.t x:…
  4. cot^{-1} ( root { {1+cosx}/{1-cosx} } ) Differentiate each of the following…
  5. tan^{-1} ( {cosx+sinx}/{cosx-sinx} ) Differentiate each of the following…
  6. cot^{-1} ( {cosx-sinx}/{cosx+sinx} ) Differentiate each of the following…
  7. cot^{-1} ( root { {1+cos3x}/{1-cos3x} } ) Differentiate each of the…
  8. sec^{-1} ( {1+tan^{2}x}/{1-tan^{2}x} ) Differentiate each of the following…
  9. sin^{-1} ( {1-tan^{2}x}/{1+tan^{2}x} ) Differentiate each of the following…
  10. cosec^{-1} ( {1+tan^{2}x}/{2tanx} ) Differentiate each of the following…
  11. cot^{-1} (cosecx+cotx) Differentiate each of the following w.r.t x:…
  12. tan^{-1} (cotx) + cot^{-1} (tanx) Differentiate each of the following w.r.t x:…
  13. sin^{-1} { root { 1-x^{2} } } Differentiate each of the following w.r.t x:…
  14. sin^{-1} ( root { {1-x}/{2} } ) Differentiate each of the following w.r.t…
  15. cos^{-1} { root { {1+x}/{2} } } Differentiate each of the following w.r.t…
  16. cos^{-1} { root { 1-x^{2} } } Differentiate each of the following w.r.t x:…
  17. sin^{-1} { 2x root { 1-x^{2} } } Differentiate each of the following w.r.t x:…
  18. sin^{-1} ( 3x-4x^{3} ) Differentiate each of the following w.r.t x:…
  19. sin^{-1} ( 1-2x^{2} ) Differentiate each of the following w.r.t x:…
  20. sec^{-1} ( {1}/{ root { 1-x^{2} } } ) Differentiate each of the following…
  21. tan^{-1} ( {x}/{ root { 1-x^{2} } } ) Differentiate each of the following…
  22. tan^{-1} ( {x}/{ 1 + root { 1-x^{2} } } ) Differentiate each of the…
  23. cot^{-1} ( { root { 1-x^{2} } }/{x} ) Differentiate each of the following…
  24. sec^{-1} ( {1}/{ 1-2x^{2} } ) Differentiate each of the following w.r.t x:…
  25. sin^{-1} { {1}/{ root { 1+x^{2} } } } Differentiate each of the following…
  26. tan^{-1} ( {1+x}/{1-x} ) Differentiate each of the following w.r.t x:…
  27. cot^{-1} ( {1+x}/{1-x} ) Differentiate each of the following w.r.t x:…
  28. tan^{-1} ( { 3x-x^{3} }/{ 1-3x^{2} } ) Differentiate each of the following…
  29. cosec^{-1} ( { 1+x^{2} }/{2x} ) Differentiate each of the following w.r.t x:…
  30. sec^{-1} ( { 1+x^{2} }/{ 1-x^{2} } ) Differentiate each of the following…
  31. sin^{-1} ( {1}/{ root { 1+x^{2} } } ) Differentiate each of the following…
  32. sec^{-1} ( { x^{2} + 1 }/{ x^{2} - 1 } ) Differentiate each of the following…
  33. cos^{-1} ( { 1-x^{2n} }/{ 1+x^{2n} } ) Differentiate each of the following…
  34. tan^{-1} { {x}/{ root { a^{2} - x^{2} } } } Differentiate each of the…
  35. sin^{-1} { 2ax root { 1-a^{2}x^{2} } } Differentiate each of the following…
  36. tan^{-1} { { root { 1+a^{2}x^{2} } - 1 }/{ax} } Differentiate each of the…
  37. sin^{-1} { { x^{2} }/{ root { x^{4} + a^{4} } } } Differentiate each of the…
  38. tan^{-1} { { e^{2x} + 1 }/{ e^{2x} - 1 } } Differentiate each of the…
  39. cos^{-1} (2x) + 2cos^{-1}root { 1-4x^{2} } Differentiate each of the…
  40. tan^{-1} ( {a-x}/{1+ax} ) Differentiate each of the following w.r.t x:…
  41. tan^{-1} { { root {x}-x }/{1+x^{3/2}} } Differentiate each of the following…
  42. tan^{-1} ( { root {a} + sqrt{x} }/{ 1 - sqrt{ax} } ) Differentiate each of…
  43. tan^{-1} ( {3-2x}/{1+6x} ) Differentiate each of the following w.r.t x:…
  44. tan^{-1} ( {5x}/{ 1-6x^{2} } ) Differentiate each of the following w.r.t x:…
  45. tan^{-1} ( {2x}/{ 1+15x^{2} } ) Differentiate each of the following w.r.t x:…
  46. If t = tan^{-1} ( {ax-b}/{bx+a} ) , prove that {dy}/{dx} = frac {1}/{…
  47. If y = sin^{-1} ( {2x}/{ 1+x^{2} } ) + sec^{-1} ( frac { 1+x^{2} }/{…
  48. If y = sec^{-1} ( {x+1}/{x-1} ) + sin^{-1} ( frac {x-1}/{x+1} ) , show…
  49. If y = sin { 2tan^{-1} ( root { {1-x}/{1+x} } ) } , show that…
  50. If y = tan^{-1} { { root {1+x} - sqrt{1-x} }/{ sqrt{1+x} + sqrt{1-x} } } .…
  51. Differentiate sin^{-1} ( { 2^{x+1} }/{ 1+4^{x} } ) w. r. t. x…
Exercise 10e
  1. x2 + y2 = 4 Find , when:
  2. { x^{2} }/{ a^{2} } + frac { y^{2} }/{ b^{2} } = 1 Find , when:
  3. root {x} + sqrt{y} = sqrt{a} Find , when:
  4. x^{2/3}+y^{2/3} = a^{2/3} Find , when:
  5. xy = c2 Find , when:
  6. x2 + y2 — 3xy = 1 Find , when:
  7. xy2 — x2y — 5 = 0 Find , when:
  8. (x2 + y2)2 = xy Find , when:
  9. x2 + y2 = log (xy) Find , when:
  10. xn + yn = an Find , when:
  11. x sin 2y = y cos 2x Find , when:
  12. sin2x + 2cos y + xy Find , when:
  13. y sec x + tan x + x2y = 0 Find , when:
  14. cot (xy) + xy = y Find , when:
  15. y tan x — y2 cos x + 2x = 0 Find , when:
  16. ex log y = sin—1 x + sin —1y Find , when:
  17. xy log (x + y) = 1 Find , when:
  18. tan (x + y) + tan (x — y) = 1 Find , when:
  19. logroot { x^{2} + y^{2} } = tan^{-1} {y}/{x} Find , when:
  20. If y = x sin y , prove that ( x c. {dy}/{dx} ) = frac {y}/{ (1-xcosy) }…
  21. If xy = tan (xy), show that {dy}/{dx} = frac {-y}/{x} . Find , when:…
  22. If y log x = (x — y), prove that {dy}/{dx} = frac {logx}/{ (1+logx)^{2} }…
  23. If cos y = x cos (y + a), prove that {dy}/{dx} = frac { cos^{2} (y+a)…
  24. If cos^{-1} ( { x^{2} - y^{2} }/{ x^{2} + y^{2} } ) = tan^{-1}a , prove…
Exercise 10f
  1. Find {dy}/{dx} , when: y = x^{1/x} Find , when:
  2. Find {dy}/{dx} , when: y = x^ { root {x} } Find , when:
  3. Find {dy}/{dx} , when: y = (logx)^{x} Find , when:
  4. Find {dy}/{dx} , when: y = x^{sinx} Find , when:
  5. Find {dy}/{dx} , when: y = x^ { (cos^{-1}x) } Find , when:
  6. Find {dy}/{dx} , when: y = (tanx)^{1/x} Find , when:
  7. Find {dy}/{dx} , when: y = (sinx)^{cosx} Find , when:
  8. Find {dy}/{dx} , when: y = (logx)^{sinx} Find , when:
  9. Find {dy}/{dx} , when: y = (cosx)^{logx} Find , when:
  10. Find {dy}/{dx} , when: y = (tanx)^{sinx} Find , when:
  11. Find {dy}/{dx} , when: y = (cosx)^{cosx} Find , when:
  12. Find {dy}/{dx} , when: y = (tanx)^{cotx} Find , when:
  13. Find {dy}/{dx} , when: y = x^{sin2x} Find , when:
  14. Find {dy}/{dx} , when: y = (sin^{-1}x)^{x} Find , when:
  15. Find {dy}/{dx} , when: y = sin ( x^{x} ) Find , when:
  16. Find {dy}/{dx} , when: y = (3x+5)^ { (2x-3) } Find , when:
  17. Find {dy}/{dx} , when: y = (x+1)^{3} (x+2)^{4} (x+3)^{5} Find , when:…
  18. Find {dy}/{dx} , when: y = root { { (x-1) (x-2) }/{ (x-3) (x-4) (x-5)…
  19. Find {dy}/{dx} , when: y = (2-x)^{3} (3+2x)^{5} Find , when:…
  20. Find {dy}/{dx} , when: y = cosxcos2xcos3x Find , when:
  21. Find {dy}/{dx} , when: y = { x^{5}root {x+4} }/{ (2x+3)^{2} } Find ,…
  22. Find {dy}/{dx} , when: y = { (x+1)^{2}root {x-1} }/{ (x+4)^{3} c.…
  23. Find {dy}/{dx} , when: y = { root {x} (3x+5)^{2} }/{ sqrt{x+1} } Find ,…
  24. Find {dy}/{dx} , when: y = { x^{2}root {1+x} }/{ ( 1+x^{2} ) ^{3/2} }…
  25. Find {dy}/{dx} , when: y = root { (x-2) (2x-3) (3x-4) } Find , when:…
  26. Find {dy}/{dx} , when: y = sin2xsin3xsin4x Find , when:
  27. Find {dy}/{dx} , when: y = {x^{3}sinx}/{ e^{x} } Find , when:…
  28. Find {dy}/{dx} , when: y = {e^{x}logx}/{ x^{2} } Find , when:…
  29. Find {dy}/{dx} , when: y = {xcos^{-1}x}/{ root { 1-x^{2} } } Find ,…
  30. Find {dy}/{dx} , when: y = (1+x) ( 1+x^{2} ) ( 1+x^{4} ) ( 1+x^{6} ) Find…
  31. Find {dy}/{dx} , when: y = x^{x} - 2^{sinx} Find , when:
  32. Find {dy}/{dx} , when: y = (logx)^{x} + x^{logx} Find , when:…
  33. Find {dy}/{dx} , when: y = x^{sinx} + (sinx)^{cosx} Find , when:…
  34. Find {dy}/{dx} , when: y = (xcosx)^{x} + (xsinx)^{1/x} Find , when:…
  35. Find {dy}/{dx} , when: y = (sinx)^{x} + sin^{-1}root {x} Find , when:…
  36. Find {dy}/{dx} , when: y = x^{xcosx} + ( { x^{2} + 1 }/{ x^{2} - 1 } )…
  37. Find {dy}/{dx} , when: y = e^{x}sin^{3}xcos^{4}x Find , when:…
  38. Find {dy}/{dx} , when: y = 2^{x} c. e^{3x}sin4x Find , when:…
  39. Find {dy}/{dx} , when: y = x^{x} c. e^ { (2x+5) } Find , when:…
  40. Find {dy}/{dx} , when: y = (2x+3)^{5} (3x-5)^{7} (5x-1)^{3} Find , when:…
  41. Find {dy}/{dx} , when: (cosx)^{y} = (cosy)^{x} Find , when:…
  42. Find {dy}/{dx} , when: (tanx)^{y} = (tany)^{x} Find , when:…
  43. Find {dy}/{dx} , when: y = ( (logx)^{x} + (x)^{logx} Find , when:…
  44. If y = {sin^{-1}x}/{ root { 1-x^{2} } } , prove that ( 1-x^{2} )…
  45. If y = root {x+y} , prove that {dy}/{dx} = frac {1}/{ (2y-1) } .…
  46. If x^{a}y^{b} = (x+y)^ { (a+b) } , prove that {dy}/{dx} = frac {y}/{x}…
  47. If ( x^{x} + y^{x} ) = 1 , show that {dy}/{dx} = - { frac { x^{x}…
  48. If y = e^{sinx} + (tanx)^{x} , prove that {dy}/{dx} = e^{sinx} cosx +…
  49. If y = log ( x + root { 1+x^{2} } ) , prove that {dy}/{dx} = frac {1}/{…
  50. If y = logsinroot { x^{2} + 1 } , prove that {dy}/{dx} = frac {…
  51. If y = logroot { {1-cosx}/{1+cosx} } , show that {dy}/{dx} = cosecx…
  52. If y = logtan ( { pi }/{4} + frac {x}/{2} ) , show that {dy}/{dx} =…
  53. If y = root { {1-sin2x}/{1+sin2x} } , show that {dy}/{dx} + sec^{2} (…
  54. If y = logroot { {1+cos^{2}x}/{ 1-e^{2x} } } , show that {dy}/{dx} =…
  55. If y = (x)^{cosx} + (sinx)^{tanx} , prove that {dy}/{dx} = x^{cosx} {…
  56. If y = (sinx)^{cosx} + (cosx)^{sinx} , prove tha {dy}/{dx} = (sinx)^{cosx}…
  57. If y = (tanx)^{cotx} + (cotx)^{tanx} , {dy}/{dx} = (tanx)^{cotx} c.…
  58. If y = x^{cosx} + (cosx)^{x} , prove that {dy}/{dx} = x^{cosx} c. {…
  59. If y = x^{logx} + (logx)^{x} prove that {dy}/{dx} = x^ { (logx) } { frac…
  60. If y-x^ { ( x^{2} - 3 ) } + (x-3)^ { x^{2} } , find {dy}/{dx} .…
  61. If f (x) = ( {3+x}/{1+x} ) ^{2+3x} , find f^ { there eξ sts } (0) .…
  62. If y = (sinx)^{x} + sin^{-1}root {x} find {dy}/{dx} .
  63. If ( x^{2} + y^{2} ) ^{2} = xy , find {dy}/{dx} .
  64. y = x^{cotx} + { 2x^{2} - 3 }/{ x^{2} + x+2 } , find {dy}/{dx} .…
  65. If y = tan^{-1} {a}/{x} + logroot { frac {x-a}/{x+a} } , prove that…
  66. If , prove that {dy}/{dx} = frac {y}/{x} .
Exercise 10g
  1. If , prove that {dy}/{dx} = frac {y^{2}cotx}/{ (1-ylogsinx) }
  2. If y = (cosx)^ { (cosx) } (cosx) l. s infinity , prove that {dy}/{dx} = frac…
  3. If y = root { x + sqrt { x + sqrt { x + l. s infinity } } } , prove that {dy}/{dx}…
  4. If y = root { cosx + sqrt { cosx + sqrt{cosx} + l. s infinity } } , prove that…
  5. If y = root { tanx + sqrt { tanx + sqrt { tanx + l. s infinity } } } prove that…
  6. If y = root { logx + sqrt { logx + sqrt { logx + l. s infinity } } } , show that…
  7. If y = a^ { a^{x}l. s infinity } , prove that {dy}/{dx} = frac { y^{2} (logy) }/{…
  8. If prove that {dy}/{dx} = frac {y}/{ (2y-x) }
Exercise 10h
  1. Differentiate x^{6} with respect to ( 1 / root {x} )
  2. Differentiate log with respect to
  3. Differentiate e^{sinx} with respect to cosx .
  4. Differentiate tan^{-1}root { { 1-x^{2} }/{ 1+x^{2} } } with respect to…
  5. Differentiate tan^{-1} ( {2x}/{ 1-x^{2} } ) with respect to sin^{-1} ( {2x}/{…
  6. Differentiate tan^{-1} ( {x}/{ root { 1-x^{2} } } ) with respect to cos^{-1} (…
  7. Differentiate sin^{3}x with respect to cos^{3}x
  8. Differentiate cos^{-1} ( { 1-x^{2} }/{ 1+x^{2} } ) with respect to tan^{-1} ( {…
  9. Differentiate tan^{-1} ( { root { 1+x^{2} } - 1 }/{x} ) with respect to sin^{-1} (…
  10. Differentiate tan^{-1} ( { root { 1-x^{2} } }/{x} ) with respect to cos^{-1} ( 2x…
Exercise 10i
  1. Find {dy}/{dx} , when𝒳 = at2, 𝒴 = 2at Find , when
  2. Find {dy}/{dx} , when𝒳 = a cos θ , 𝒴 = b sin θ Find , when…
  3. Find {dy}/{dx} , when𝒳 = a cos2θ , 𝒴 = b sin2θ Find , when…
  4. Find {dy}/{dx} , when𝒳 = a cos3θ, 𝒴 = a sin3θ Find , when
  5. Find {dy}/{dx} , when𝒳 = a(1 – cos θ), 𝒴 = a(θ + sin θ) Find , when…
  6. Find {dy}/{dx} , when𝒳 = a log t, 𝒴 = b sin t Find , when
  7. Find {dy}/{dx} , when𝒳 = (log t + cos t), 𝒴 = (et + sin t) Find , when…
  8. Find {dy}/{dx} , when𝒳 = cos θ + cos 2θ, 𝒴 = sin θ + sin 2θ Find , when…
  9. Find {dy}/{dx} , when𝒳 = root {sin2theta } , 𝒴 = root {cos2theta }…
  10. Find {dy}/{dx} , when𝒳 = eθ (sin θ + cos θ), 𝒴 = eθ (sin θ - θ cos θ)…
  11. Find {dy}/{dx} , when𝒳 = a (cos θ + θ sin θ ), 𝒴 = a (sin θ - θ cos θ)…
  12. Find {dy}/{dx} , when𝒳 = {3at}/{ ( 1+t^{2} ) } , 𝒴 = { 3at^{2}…
  13. Find {dy}/{dx} , when𝒳 = { 1-t^{2} }/{ 1+t^{2} } , 𝒴 = {2t}/{…
  14. Find {dy}/{dx} , when𝒳 = cos-1 {1}/{ root { 1+t^{2} } } , 𝒴 =…
  15. If 𝒳 = 2 cos t – 2 cos3t, 𝒴 = sin t – 2 sin3t, show that {dy}/{dx} =cot…
  16. If 𝒳 = {1+logt}/{ t^{2} } and 𝒴 = {3+2logt}/{t} {dy}/{dx} =t.…
  17. If 𝒳 = a(θ – sin θ), 𝒴 = a(1 – cos θ), find {dy}/{dx} at θ = { pi…
  18. If 𝒳 = 2 cosθ – cos 2θ and 𝒴 = 2 sin θ – sin 2θ, show that {dy}/{dx}…
  19. If 𝒳 = {sin^{3}t}/{ root {cos2t} } , 𝒴 = {cos^{3}t}/{ root {cos2t} } , find…
  20. If 𝒳 = (2 cos θ – cos 2θ) and = (2sin θ – sin 2θ), find ( {d^{2}y}/{ dx^{2} } ) _ {…
  21. If 𝒳 = a (θ – sin θ), 𝒴 = a( 1+cos θ), find {d^{2}y}/{ dx^{2} } .…

Exercise 10a
Question 1.

Differentiate each of the following w.r.t. x:

sin 4x


Answer:

Formulae:




Let,


y = sin 4x


and u = 4x


therefore, y = sin u


Differentiating above equation w.r.t. x,


…………. By chain rule



………….


= cos 4x . 4


= 4 cos 4x



Question 2.

Differentiate each of the following w.r.t. x:

cos 5x


Answer:

Formulae:




Let,


y = cos 5x


and u = 5x


therefore, y= cos u


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= - sin 5x . 5


= - 5 sin 5x



Question 3.

Differentiate each of the following w.r.t. x:

tan 3x


Answer:

Formulae:




Let,


y = tan 3x


and u = 3x


therefore, y= tan u


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= sec2 3x . 3


= 3 sec2 3x



Question 4.

Differentiate each of the following w.r.t. x:

cos x3


Answer:

Formulae:




Let,


y = cos x3


and u = x3


therefore, y= cos u


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= - sin x3 . 3x2


= - 3x2 sin x3



Question 5.

Differentiate each of the following w.r.t. x:

cot2x


Answer:

Formulae:




Let,


y = cot2 x


and u = cot x


therefore, y= u2


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= 2 cot x .(- cosec2 x)


= - 2cot x . cosec2 x



Question 6.

Differentiate each of the following w.r.t. x:

tan3x


Answer:

Formulae:




Let,


y = tan3 x


and u = tan x


therefore, y= u3


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= 3 tan2 x .(sec2 x)


= 3 tan2 x . sec2 x



Question 7.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:




Let,



and


therefore, y= cot u


Differentiating above equation w.r.t. x,


………… By chain rule



………….





Question 8.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:




Let,



and u = tan x


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule



………….





Question 9.

Differentiate each of the following w.r.t. x:

(5 + 7x)6


Answer:

Formulae:






Let,


y = (5+7x)6


and u = (5+7x)


therefore, y = u6


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= 6. (5+7x)5. (0+7) ………….


= 42. (5+7x)5



Question 10.

Differentiate each of the following w.r.t. x:

(3 – 4x )5


Answer:

Formulae:






Let,


y = (3-4x)5


and u = (3-4x)


therefore, y = u5


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= 5. (3-4x)4. (0-4) ………….


= -20 (3-4x)4



Question 11.

Differentiate each of the following w.r.t. x:

(2x2 – 3x +4)5


Answer:

Formulae:






Let,


y = (2x2 – 3x + 4)5


and u = (2x2 – 3x + 4)


therefore, y = u5


Differentiating above equation w.r.t. x,


………… By chain rule



………….


= 5. (2x2 – 3x + 4)4. (4x-3+0) ………….


= 5. (2x2 – 3x + 4)4 (4x-3)



Question 12.

Differentiate each of the following w.r.t. x:

(𝔞𝓍2 + 𝔟𝓍 + c )6


Answer:

Formulae:






Let,


y = (ax2 + bx + c)6


and u = (ax2 + bx + c)


therefore, y = u6


Differentiating above equation w.r.t. x,


………… By chain rule




………….


= 6. (ax2 + bx + c)5. (2ax+b+0) ………….



Question 13.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:







Let,



Let, u = (x2-3x+5)3


Therefore,


For u = (x2-3x+5)3


Let, v = (x2-3x+5)


Therefore, u = (v)3


Therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………….


………….





Question 14.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:






Let,



and



Differentiating above equation w.r.t. x,


………… By chain rule



………….


………….







Question 15.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:


• 1 – sin2x = cos2x




Let,



Multiplying numerator and denominator by (1+sin x),




……………. (1 – sin2x = cos2x)




y = sec x + tan x


Differentiating above equation w.r.t. x,




………….




Question 16.

Differentiate each of the following w.r.t. x:

cos2𝓍3


Answer:

Formulae:




• 2 sin x. cos x = sin 2x


Let,


y = cos2 x3


and u = x3


therefore, y= cos2 u


let, v = cos u


therefore, y= v2


Differentiating above equation w.r.t. x,


………… By chain rule



………….



………….




Question 17.

Differentiate each of the following w.r.t. x:

sec3 (𝓍2+1)


Answer:

Formulae:




Let,


y = sec3 (x2+1)


and u = x2+1


therefore, y= sec3 u


let, v = sec u


therefore, y= v3


Differentiating above equation w.r.t. x,


………… By chain rule



………….






Question 18.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:





Let,



and u = 3x


therefore,


let, v = cos u


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule



………….





Question 19.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:





Let,



and u = 2x


therefore,


let, v = sin u


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule



………….






Question 20.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:






Let,



and u = 1+ cot x


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule



………….





Question 21.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:




Let,



and


therefore, y= cosec3 u


let, v = cosec u


therefore, y= v3


Differentiating above equation w.r.t. x,


………… By chain rule




………….






Question 22.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:





Let,



and u = x3


therefore,


let, v = sin u


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………….





Question 23.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:






Let,



and u = x. sin x


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………….


………….




Question 24.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:




Let,



And


therefore,


let, v = cot u


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………….






Question 25.

Differentiate each of the following w.r.t. x:

cot3𝓍2


Answer:

Formulae:




Let,


y = cot3 x2


and u = x2


therefore, y= cot3 u


let, v = cot u


therefore, y= v3


Differentiating above equation w.r.t. x,


………… By chain rule



………….






Question 26.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:






Let,



and u = ax + b


therefore,


let,


therefore,


let,


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………….






Question 27.

Differentiate each of the following w.r.t. x:




Answer:

Formulae:






Let,



and u = x3 + 1


therefore,


let,


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………….



………….





Question 28.

Differentiate each of the following w.r.t. x:

sin 5𝓍 cos 3𝓍


Answer:

Formulae:






Let,


y = sin 5x. cos 3x



………….



Differentiating above equation w.r.t. x,



………….


………….




Question 29.

Differentiate each of the following w.r.t. x:

sin 2𝓍 sin 𝓍


Answer:

Formulae:






Let,


y = sin 2x. sin x



………….



Differentiating above equation w.r.t. x,



………….


………….




Question 30.

Differentiate each of the following w.r.t. x:

cos 4𝓍 cos 2𝓍


Answer:

Formulae:






Let,


y = cos 4x. cos 2x



………….



Differentiating above equation w.r.t. x,



………….


………….


= -3 sin 6x – sin 2x


= - (3 sin 6x + sin 2x)



Question 31.

Find , when:

𝒴 =sin


Answer:

Formulae:







Given,



Put x = tan a


Therefore, …………… eq (1)



y = sin (cos 2a) ………….


Differentiating above equation w.r.t. a ,



………….


………….



………….


But, x = tan a



…………………….. eq (2)


Now,


………… By chain rule


…………….. from eq (1) & eq (2)


…..…….


…..…….




Question 32.

Find , when:

𝒴 =


Answer:

Formulae:






Given,



Differentiating above equation w.r.t. x ,



………….



………….








Question 33.

If 𝒴 = , prove that + 𝒴2 +1 =0.


Answer:

Formulae:









Given,



Dividing numerator and denominator by cosx,



………….


………….


Differentiating above equation w.r.t. x ,



………….


………….


………….




Now,



………….


= 0



Hence Proved.



Question 34.

If 𝒴 = , prove that =sec2.


Answer:

Formulae:








Given,



Dividing numerator and denominator by cosx,



………….


………….


Differentiating above equation w.r.t. x ,



………….


………….


………….




Hence Proved.




Exercise 10j
Question 1.

Find the second derivate of :

(i) x11 (ii) 5x

(iii) tan x (iv) cos-1x


Answer:

(i) x11


Differentiating with respect to x


f’(x) = 11x11-1


f’(x)=11x10


Differentiating with respect to x


f’’(x) = 110x10-1


f’’(x)= 110x9


(ii) 5x


Differentiating with respect to x


f’(x)= 5x loge 5 [ Formula: ax = ax logea ]


Differentiating with respect to x


f’’(x)= loge5 . 5x loge5


= 5x(loge5)2


(iii) tan x


Differentiating with respect to x


f’(x)= sec2x


Differentiating with respect to x


f’’(x)= 2secx . secx tanx


= 2sec2x tanx


(iv) cos-1x


Differentiating with respect to x



Differentiating with respect to x



=



Question 2.

Find the second derivative of:

(i) x sin x

(ii) e2x cos 3x

(iii) x3 log x


Answer:

Differentiating with respect to x


f’(x)= sinx + xcosx


Differentiating with respect to x


f’’(x) = cosx +cosx – xsinx


= -sinx + 2cosx


(ii) e2x cos 3x


Differentiating with respect to x


f’(x) = 2e2xcos3x + e2x(-sin3x).3


= 2e2xcos3x – 3e2xsin3x


Differentiating with respect to x


f’’(x) = 2.2e2xcos3x + 2e2x(-sin3x).3 – 3.2e2xsin3x – 3e2xcos3x.3


= 4e2xcos3x - 6e2xsin3x – 6e2xsin3x – 9e2xcos3x


=-12e2xsin3x – 5e2xcos3x


(iii) x3 log x


Differentiating with respect to x


f’(x) =


f’(x) = 3x2log x + x2


Differentiating with respect to x



= 6x log x + 3x +2x


= 6x log x +5x



Question 3.

If 𝒴 = x + tan x, show that cos2 . - 2𝒴+ 2x = 0.


Answer:

y = x + tan x, ⇒ tan x = y-x…. (i)


Differentiating with respect to x



Differentiating with respect to x





[putting value of tan x from (i) ]





Question 4.

If 𝒴 = 2 sin x + 3 cos x, s how that 𝒴 + =0.


Answer:

Differentiating with respect to x



Differentiating with respect to x





Hence Proved



Question 5.

If 𝒴 = 3 cos (log x) + 4 sin (log x), prove that x2𝒴2 + x𝒴1 + 𝒴 = 0.


Answer:

Differentiating with respect to x



[ we can also write this as xy1 = -3sin(log x ) +4cos(log x )


Differentiating with respect to x





⇒ x2y2 + xy1 + y = 0


Hence Proved



Question 6.

If y = e- cos x , show that = 2e-xsin x .


Answer:

Differentiating with respect to x





Differentiating with respect to x






Hence proved



Question 7.

If 𝒴 = sec x – tan x. show that (cos x) = 𝒴2.


Answer:

Differentiating with respect to x



Differentiating with respect to x







Hence Proved



Question 8.

If 𝒴 = (cosec x + cot x), prove that (sin x) - 𝒴2 = 0.


Answer:


Differentiating with respect to x







Hence proved



Question 9.

If 𝒴 = tan-1 , show that (1 + x2) + 2x=0.


Answer:

Differentiating with respect to x




Differentiating with respect to x



Hence Proved



Question 10.

If 𝒴 = sin (sin x), prove that + (tan ) + 𝒴 cos2x = 0.


Answer:

Differentiating with respect to x



Differentiating with respect to x






Hence Proved



Question 11.

If 𝒴 = a cos (log x) + b sin (log x), prove that x2𝒴2 + x𝒴1 + 𝒴 = 0.


Answer:

Differentiating with respect to x


[ can also be written as -xy1= a sin (log x) ]


Differentiating with respect to x





Hence Proved



Question 12.

Find the second derivative of e3x sin 4x .


Answer:

Differentiating with respect to x



Differentiating with respect to x






Question 13.

Find the second derivative of sin 3 x cos 5x.


Answer:



Differentiating with respect to x




Differentiating with respect to x



Hence Proved



Question 14.

If 𝒴 = etan , prove that (cos2x) - (1+ sin 2x). = 0.


Answer:

Differentiating with respect to x





Differentiating with respect to x






Hence Proved



Question 15.

If 𝒴 = , show that = .


Answer:

Differentiating with respect to x




Differentiating with respect to x






Hence proved



Question 16.

If 𝒴 = eax cos bx, show that - 2a + (a2 + b2) = 0.


Answer:

Differentiating with respect to x




Differentiating with respect to x










Hence Proved



Question 17.

If 𝒴 = ea cos-1x, - 1 ≤ x ≤ 1, show that (1 - x2) - x- a2𝒴 = 0.


Answer:

Taking log on both sides


log y = acos-1x log e


log y = acos-1x


Differentiating with respect to x




Differentiating with respect to x






Hence Proved



Question 18.

If x = at2 and 𝒴 = 2at, find at t = 2.


Answer:

Differentiating with t





Differentiating with respect to x







Question 19.

If x = a(θ – sin θ ) and 𝒴 = a(1 – cos θ), find at θ = .


Answer:

Differentiating with respect to θ






Differentiating with respect to x










Question 20.

If 𝒴 = sin (log x), prove that x2+x+𝒴 = 0.


Answer:

Differentiating with respect to




Differentiating with respect to x






Hence Proved



Question 21.

If 𝒴 = , show that (1 - x2) - 3x- 𝒴 = 0.


Answer:


Differentiating with respect to x




Differentiating with respect to x




Hence Proved



Question 22.

If 𝒴 = ex sin x, prove that - 2 + 2𝒴 = 0.


Answer:


Differentiating with respect to x




Differentiating with respect to x








Question 23.

If x = and 𝒴 = a sin θ, show that the value of at θ = is .


Answer:








Differentiating with respect to x







Question 24.

If x = cos t + log tan , 𝒴 = sin t then find the values of and at t = .


Answer:






Differentiating with respect to t


[Putting t = π /4 ]






Differentiating with respect to x


[Putting t = π /4 ]






Question 25.

If 𝒴 = xx, prove that - =0.


Answer:

y = xx


Taking log on both sides


log y = x log x


Differentiating with respect to x


…(i)



Differentiating with respect to x


[putting value of (1 + log x) from (i) ]




Hence Proved



Question 26.

If 𝒴 = (cot-1 )2, then show that (x2 + 1)2+ 2x (x2 + 1) =2.


Answer:


Differentiating with respect to x




Differentiating with respect to x






Hence Proved



Question 27.

If 𝒴 = , then show that (x2 + 1) + x- m2𝒴 = 0.


Answer:

Differentiating with respect to x






[ ]


Differentiating with respect to x





Hence Proved



Question 28.

If 𝒴 = log [x + , then prove that


Answer:




Differentiating with respect to x






Hence Proved



Question 29.

If x = a(cos θ + θ sin θ ) and 𝒴 = a(sin θ - θ cos θ), show that =


Answer:

Differentiating with respect to θ







Differentiating with respect to x






Hence Proved



Question 30.

If x = a cos θ + b sin θ and 𝒴 = a sin θ – b cos θ , show that + 𝒴 = 0.


Answer:





Differentiating with respect to x





Hence Proved




Exercise 10b
Question 1.

Differentiate each of the following w.r.t. x:

(i)

(ii)

(iii)


Answer:

(i) Let y = e4x z = 4x


Formula :


According to chain rule of differentiation





(ii) Let y = e-5x z = -5x


Formula :


According to chain rule of differentiation





(iii) Let y = z = x3


Formula :


According to chain rule of differentiation






Question 2.

Differentiate each of the following w.r.t. x:

(i)

(ii)

(iii)


Answer:

(i) Let y = z = 2/x


Formula :


According to chain rule of differentiation





(ii) Let y = z =


Formula :


According to chain rule of differentiation





(iii) Let y = z = -2


Formula :


According to chain rule of differentiation






Question 3.

Differentiate each of the following w.r.t. x:

(i)

(ii)

(iii)


Answer:

(i) Let y = z =


Formula :


According to chain rule of differentiation





(ii) Let y = z =


Formula :


According to chain rule of differentiation





(iii) Let y = z =


Formula :


According to chain rule of differentiation






Question 4.

Differentiate each of the following w.r.t. x:

(i) tan (log x)

(ii) log (sec x)

(iii) log (sin (x/2))


Answer:

(i) Let y =tan(log x) z = log x


Formula :


According to chain rule of differentiation





(ii) Let y = log (sec x) z = sec x


Formula :


According to chain rule of differentiation





(iii) Let y = log (sin (x/2)) z = sin (x/2)


Formula :


According to chain rule of differentiation






Question 5.

Differentiate each of the following w.r.t. x:

(i)log3 x

(ii)

(iii)


Answer:

(i) Let y =


Formula :


Therefore y =


According to chain rule of differentiation





(ii) Let y = z = -x


Formula :


According to chain rule of differentiation





(iii) Let y = z = x


Therefore Y =


Formula :


According to chain rule of differentiation





Question 6.

Differentiate each of the following w.r.t. x:

(i)

(ii) log (sin (3x))

(iii)


Answer:

(i) Let y = z =


Formula :


According to chain rule of differentiation






(ii) Let y = log (sin (3x)) z = sin (3x)


Formula :


According to chain rule of differentiation





(iii) Let y = z =


Formula :


According to chain rule of differentiation









Question 7.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z = and w = log (x)


Formula :


According to product rule of differentiation








Question 8.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z =


Formula :


According to chain rule of differentiation





=



Question 9.

Differentiate each of the following w.r.t. x:

e2x sin 3x


Answer:

Let y = e2x sin 3x, z = e2x and w = sin 3x


Formula :


According to product rule of differentiation






Question 10.

Differentiate each of the following w.r.t. x:

e3x cos 2x


Answer:

Let y = e3x cos 2x, z = e3x and w = cos 2x


Formula :


According to product rule of differentiation






Question 11.

Differentiate each of the following w.r.t. x:

e-5x cot 4x


Answer:

Let y = e-5x cot 4x , z = e-5x and w = cot 4x


Formula :


According to product rule of differentiation






Question 12.

Differentiate each of the following w.r.t. x:

ex log (sin 2x)


Answer:

Let y = ex log (sin 2x), z = ex and w = log (sin 2x)


Formula :


According to product rule of differentiation







Question 13.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z =


Formula :



According to chain rule of differentiation






= cosec x



Question 14.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z =


Formula :



According to chain rule of differentiation





=



Question 15.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , u = , v = , z=


Formula :


According to quotient rule of differentiation


If z =






According to chain rule of differentiation



=


=


=


=


=


=



Question 16.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , u = , v =


Formula :


According to quotient rule of differentiation


If y =






()





Question 17.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z = x and w =


Formula :


According to product rule of differentiation






Question 18.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z = and w =


Formula :


According to product rule of differentiation





=



Question 19.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z = and w =


Formula :


According to product rule of differentiation






Question 20.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , u = , v =


Formula:


According to quotient rule of differentiation


If y =






Question 21.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z = x3 and w =


Formula :



According to product rule of differentiation





=



Question 22.

Differentiate each of the following w.r.t. x:




Answer:

Let y = , z = xcos x


Formula :


(Using product rule)


According to chain rule of differentiation




=




Exercise 10c
Question 1.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = 2x


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….






Question 2.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = x2


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….






Question 3.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….







Question 4.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….








Question 5.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = log x


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….






Question 6.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = ex


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….






Question 7.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = tan-1x


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….






Question 8.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = x3


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….






Question 9.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


iii)


Answer :


Let,



and


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….



………






Question 10.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


iii)


iv)


v)


Answer :


Let,



Let, u = (1+x2) and v=tan-1x


therefore, y=u.v



………



………….



………….





Question 11.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


iii)


Answer :


Let,



and u = cot x


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….



………


= -1




Question 12.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


iii)


Answer :


Let,



and u = x4


therefore,


let,


therefore, y= log v


Differentiating above equation w.r.t. x,


………… By chain rule




………….







Question 13.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = x2


therefore,


let,


therefore, y= v3


Differentiating above equation w.r.t. x,


………… By chain rule




………….







Question 14.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


iii)


Answer :


Let,



and


therefore,


let,


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………







Question 15.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


Answer :


Let,



and u = sin-1x


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….






Question 16.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


iii)


Answer :


Let,



and


therefore,


let,


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………







Question 17.

Differentiate each of the following w.r.t. x:




Answer:

Formulae :


i)


ii)


iii)


Answer :


Let,



and


therefore,


let,


therefore,


Differentiating above equation w.r.t. x,


………… By chain rule




………







Question 18.

If prove that .


Answer:

Given :


To Prove :


Formulae :


i)


ii)


iii)


iv)


v)


vi)


Answer :


Given equation,



Let


Therefore, y = s + t ………eq(1)


I. For


let


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….



………




………eq(2)


II. For


let


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule




………….



………




………eq(2)


Differentiating eq(1) w.r.t. x,



………


= -1 -1 ………from eq(2) and eq(3)


= -2



Hence proved !!!



Question 19.

Prove that .


Answer:

To Prove:


Formulae :


i)


ii)


iii)


iv)


v)


vi)


vii)


Answer :


Let,



Let


Therefore, y = s - t ………eq(1)


I. For


let


therefore,


Differentiating above equation w.r.t. x,


………




………….



………eq(2)


II. For


let


therefore,


Differentiating above equation w.r.t. x,


…………. By chain rule



………



………



………eq(3)


Differentiating eq(1) w.r.t. x,



………


………from eq(2) and eq(3)


= 2 tan-1x



Hence proved !!!




Exercise 10d
Question 1.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i)


We have,






Now, we can see that


Now differentiating







Question 2.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i)


(ii) 1 + cos = 2


We have,








Now, we can see that


Now differentiating







Question 3.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i)


(ii) 1 + cos = 2


We have,








Now, we can see that


Now differentiating







Question 4.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i)


(ii) 1 + cos = 2


We have,











Now, we can see that


Now differentiating







Question 5.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i)


We have,


Dividing numerator and denominator by cosx







Now, we can see that


Now differentiating




⇒ 0 + 1


⇒ 1


Ans) 1



Question 6.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i)


We have,


Dividing numerator and denominator by cosx









Now, we can see that


Now differentiating




⇒ 0 + 1


⇒ 1


Ans) 1



Question 7.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i) 1 - cos = 2


(ii) 1 + cos = 2


We have,







Now, we can see that


Now differentiating







Question 8.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i) cos =


We have,


Dividing numerator and denominator by 1+tan2x






⇒ 2x


Now, we can see that


Now differentiating




⇒ 2


Ans) 2



Question 9.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i) cos =


We have,





Now, we can see that


Now differentiating




⇒ 0 - 2


⇒ -2


Ans) -2



Question 10.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i) sin =


We have,


Dividing Numerator and Denominator with 1+tan2x






⇒ 2x


Now, we can see that


Now differentiating




⇒ 2


Ans) 2



Question 11.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


Formula used: (i)


(ii) 1 + cos = 2


We have,










Now, we can see that


Now differentiating







Question 12.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,





Now, we can see that


Now differentiating




⇒ -2


Ans) -2



Question 13.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = cosθ


θ = cos-1x … (i)


Putting x = cosθ in the equation







[From (i)]




Ans)



Question 14.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = cosθ


θ = cos-1x … (i)


Putting x = cosθ in the equation






Now, we can see that =


⇒ θ = cos-1x






Ans)



Question 15.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = cosθ


θ = cos-1x … (i)


Putting x = cosθ in the equation






Now, we can see that =


⇒ θ = cos-1x






Ans)



Question 16.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation






Now, we can see that = θ


⇒ θ = sin-1x






Ans)



Question 17.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation






⇒ 2θ


⇒ 2sin-1x


Now, we can see that = 2sin-1x


Now Differentiating







Ans)



Question 18.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation





⇒ 3θ


Now, we can see that = 3θ


Now Differentiating






Ans)



Question 19.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation







Now, we can see that =


Now Differentiating









Question 20.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation







⇒ θ


Now, we can see that = θ


Now Differentiating







Question 21.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation







⇒ θ


Now, we can see that = θ


Now Differentiating







Question 22.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation









Now, we can see that =


Now Differentiating








Question 23.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation








Now, we can see that =


Now Differentiating







Question 24.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = sinθ


θ = sin-1x … (i)


Putting x = sinθ in the equation






⇒ 2


Now, we can see that =


Now Differentiating







Question 25.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = cotθ


θ = cot-1x … (i)


Putting x = cotθ in the equation







⇒ θ


Now, we can see that =


Now Differentiating







Question 26.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = tanθ


θ = tan-1x … (i)


Putting x = tanθ in the equation






Now, we can see that =


Now Differentiating









Question 27.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = tanθ


θ = tan-1x … (i)


Putting x = tanθ in the equation









Now, we can see that =


Now Differentiating









Question 28.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = tanθ


θ = tan-1x … (i)


Putting x = tanθ in the equation







Now, we can see that =


Now Differentiating







Question 29.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = tanθ


θ = tan-1x … (i)


Putting x = tanθ in the equation







Now, we can see that =


Now Differentiating







Question 30.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = tanθ


θ = tan-1x … (i)


Putting x = tanθ in the equation







Now, we can see that =


Now Differentiating







Question 31.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = tanθ


θ = tan-1x … (i)


Putting x = tanθ in the equation









Now, we can see that =


Now Differentiating








Question 32.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = tanθ


θ = tan-1x … (i)


Putting x = tanθ in the equation










Now, we can see that =


Now Differentiating








Question 33.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,



⇒ Putting xn = tanθ


θ = tan-1 … (i)


Putting xn = tanθ in the equation






Now, we can see that =


Now Differentiating








Question 34.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x = asinθ


sinθ =


θ = … (i)


Putting x = asinθ in the equation









Now, we can see that =


Now Differentiating











Question 35.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting ax = sinθ


θ = … (i)


Putting ax = sinθ in the equation








Now, we can see that =


Now Differentiating








Question 36.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting ax = tanθ


θ = … (i)


Putting ax = tanθ in the equation












Now, we can see that =


Now Differentiating








Question 37.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ Putting x2 = a2 cotθ


θ = … (i)


Putting x2 = a2 cotθ in the equation










Now, we can see that =


Now Differentiating










Question 38.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,




Putting e2x = tanθ


θ = … (i)


Putting e2x = tanθ in the equation








Now, we can see that =


Now Differentiating










Question 39.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


Putting 2x = cosθ


θ = … (i)


Putting e2x = tanθ in the equation










Now, we can see that =


Now Differentiating









Question 40.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,


⇒ tan-1a – tan-1x


Now Differentiating







Question 41.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,




Now Differentiating









Question 42.

Differentiate each of the following w.r.t x:




Answer:

To find: Value of


The formula used: (i)


(ii)


We have,




Now Differentiating









Question 43.

Differentiate each of the following w.r.t x:




Answer:

Given: Value of


The formula used: (i)


(ii)


We have,




Now Differentiating








Question 44.

Differentiate each of the following w.r.t x:




Answer:

Given: Value of


The formula used: (i)


(ii)


We have,




Now Differentiating








Question 45.

Differentiate each of the following w.r.t x:




Answer:

Given: Value of


The formula used: (i)


(ii)


We have,




Now Differentiating








Question 46.

Differentiate each of the following w.r.t x:

If , prove that .


Answer:

Given: Value of


To Prove:


The formula used: (i)


(ii)


We have,


Dividing numerator and denominator with a





Now Differentiating







Question 47.

Differentiate each of the following w.r.t x:

If , show that .


Answer:

Given: Value of


To Prove:


The formula used: (i)


(ii)


We have,


Putting x = tanθ


θ = tan-1x


Dividing numerator and denominator with a








⇒ 4tan-1x


Now Differentiating






Question 48.

Differentiate each of the following w.r.t x:

If , show that


Answer:

Given: Value of


To Prove:


Formula used: (i)


(ii)


We have,




Now Differentiating






Question 49.

Differentiate each of the following w.r.t x:

If , show that .


Answer:

Given: Value of


To Prove:


Formula used: (i)


Let x = cosθ


θ = cos-1x


Putting x = cosθ in equation









Now Differentiating








Question 50.

Differentiate each of the following w.r.t x:

If . Prove that .


Answer:

Given: Value of


To Prove:


The formula used: (i)


(ii)


Let x = cos2θ


2θ = cos-1x


θ = cos-1x


Putting x = cos2θ






Dividing by cosθ in the numerator and denominator








Now Differentiating








Question 51.

Differentiate each of the following w.r.t x:

Differentiate w. r. t. x


Answer:

Given: Value of


To find:


The formula used: (i)


(ii)





Let 2x = tanθ


θ = tan-1(2x)


Putting 2x = tanθ







Now Differentiating









Exercise 10e
Question 1.

Find , when:

x2 + y2 = 4


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to the chain rule of differentiation



Therefore ,







Question 2.

Find , when:




Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to the chain rule of differentiation



Therefore ,







Question 3.

Find , when:




Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to the chain rule of differentiation



Therefore ,








Question 4.

Find , when:




Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to the chain rule of differentiation



Therefore ,







Question 5.

Find , when:

xy = c2


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to product rule of differentiation



Therefore ,








Question 6.

Find , when:

x2 + y2 — 3xy = 1


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,








Question 7.

Find , when:

xy2 — x2y — 5 = 0


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,









Question 8.

Find , when:

(x2 + y2)2 = xy


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,










Question 9.

Find , when:

x2 + y2 = log (xy)


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,










Question 10.

Find , when:

xn + yn = an


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to the chain rule of differentiation



Therefore ,







Question 11.

Find , when:

x sin 2y = y cos 2x


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to the chain rule of differentiation



According to the product rule of differentiation



Therefore ,









Question 12.

Find , when:

sin2x + 2cos y + xy


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



Therefore ,









Question 13.

Find , when:

y sec x + tan x + x2y = 0


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to product rule of differentiation



Therefore ,







Question 14.

Find , when:

cot (xy) + xy = y


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,





(Since, )






Question 15.

Find , when:

y tan x — y2 cos x + 2x = 0


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,









Question 16.

Find , when:

ex log y = sin—1 x + sin —1y


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,









Question 17.

Find , when:

xy log (x + y) = 1


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to product rule of differentiation



Therefore ,








(Multiply and divide by x)






Question 18.

Find , when:

tan (x + y) + tan (x — y) = 1


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


Therefore ,








Question 19.

Find , when:




Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to quotient rule of differentiation



Therefore ,










Question 20.

Find , when:

If y = x sin y , prove that .

There is correction in question …. Prove that should be
instead of to get the required answer.


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



Therefore ,








Question 21.

Find , when:

If xy = tan (xy), show that .


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to product rule of differentiation



Therefore ,










Question 22.

Find , when:

If y log x = (x — y), prove that .


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to product rule of differentiation



Therefore ,






(Multiply by 1+log x on both sides)



(y log x = x - y)





Question 23.

Find , when:

If cos y = x cos (y + a), prove that .


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to chain rule of differentiation



According to product rule of differentiation



Therefore ,








( Multiply and divide by cos (y+a) )


(Since cos y = x cos (y + a))


(Formula sin(a-b)=sin a cos b – cos a sin b)




Question 24.

Find , when:

If , prove that .


Answer:

Let us differentiate the whole equation w.r.t x


Formula :


According to the chain rule of differentiation



Therefore ,















Exercise 10f
Question 1.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x we get,






Question 2.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 3.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 4.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 5.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 6.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 7.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 8.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 9.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 10.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 11.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 12.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 13.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 14.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 15.

Find , when:




Answer:

Here, the argument of the sinusoidal function has exponent as x itself.

For that, we will consider for simplicity.



Differentiating both the sides,


. ……..(1)


Now we have to find , where


take log both the sides



Now differentiating both sides by x, we get,





Substituting the value in equation 1,




Question 16.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 17.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.


Now differentiating both sides by x, we get,






Question 18.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 19.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 20.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,







Question 21.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 22.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 23.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 24.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 25.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 26.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 27.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 28.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 29.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 30.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 31.

Find , when:




Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 32.

Find , when:




Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 33.

Find , when:




Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 34.

Find , when:




Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 35.

Find , when:




Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)


for v we do not have to take log just simply differentiate it,


……..(2)




Question 36.

Find , when:




Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Here there are three terms to differentiate for this; we can take two term as one and then apply product rule, I am taking as a single term


Differentiate




……….(1)


for v we do not have to take log just simply differentiate it,



……..(2)




Question 37.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 38.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 39.

Find , when:




Answer:

Here we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 40.

Find , when:




Answer:

Here, we need to take log both the sides to get that differentiation simple.



Now differentiating both sides by x, we get,






Question 41.

Find , when:




Answer:

. So the equation given is implicit, we will just take log both sides


Now differentiate it with respect to x and consider



Taking y’ one side, we get





Question 42.

Find , when:




Answer:

. So the equation given is implicit, we will just take log both sides


Now differentiate it with respect to x and consider



Taking y’ one side, we get





Question 43.

Find , when:




Answer:

we can write this equation as,


Differentiate





Question 44.

If , prove that .


Answer:

differentiate the given y to get the result,





Question 45.

If , prove that .


Answer:

differentiate the given y to get the result,



{taking y’ one side}





Question 46.

If , prove that .


Answer:

taking log both sides,


differentiating both sides,



Take y’ one side,







Question 47.

If , show that


Answer:

differentiate both sides,


Taking y’ one side,





Question 48.

If , prove that


Answer:

differentiate both sides,




Question 49.

If , prove that .


Answer:

differentiate both sides,





Question 50.

If , prove that .


Answer:

differentiate both sides,




Question 51.

If , show that


Answer:

differentiate both sides,









Question 52.

If , show that


Answer:

differentiate both sides,






Question 53.

If , show that .


Answer:

differentiate both sides,









Question 54.

If , show that .


Answer:

differentiate both sides,






Question 55.

If , prove that ..


Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 56.

If , prove tha.


Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 57.

If ,


Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 58.

If , prove that .


Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 59.

If prove that .


Answer:

simply taking log both sides would not help more.

For that let us assume and




Take log both sides



Differentiate




……….(1)



Take log both sides,



Differentiate ,




……(2)




Question 60.

If , find .


Answer:

equality is not given but we may assume that it is equal to 0.

We can also write this equation as



Now differentiating it,





Question 61.

If , find .


Answer:

take log both the side,


Now differentiate it,




To get f’(0) we need to find f(0),


Putting x=0 in f




Now put x=0 in f’(x),





Question 62.

If find .


Answer:

we can write this equation as,


Differentiate it,





Question 63.

If , find .


Answer:

simply differentiate both sides,


Take y’ one side






Question 64.

, find .


Answer:

we can write this as,


Differentiate ,





Question 65.

Find , when:

If , prove that .


Answer:

Differentiate it,







Question 66.

If , prove that .


Answer:

taking log both sides,


differentiating both sides,



Take y’ one side,








Exercise 10g
Question 1.

If , prove that


Answer:

Given :


To prove :


Formula used : =


=



= cos x


If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


y =


taking log on both sides


log y = log


log y = y log ()


Differentiating both sides with respect to x


=


= log() + y


= log() + y


= log() + y


log sinx) = y


= y





Question 2.

If , prove that


Answer:

Given :


To prove :


Formula used : =


=



= - sinx


If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


Given that y =


taking log on both sides


log y = log


log y = y log ()


Differentiating both sides with respect to x


=


= log() + y


= log() + y


= log() + y


log) = - y





Question 3.

If , prove that


Answer:

Given :


To prove :


Formula used : =


=



= 1


If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


.


y =


squaring on both sides


= x + y


Differentiating with respect to x


2y = 1 +


(2y – 1) = 1


=


=



Question 4.

If, prove that


Answer:

Given :


To prove :


Formula used : =


=



= - sinx


If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


y =


squaring on both sides


= + y


Differentiating with respect to x


2y = +


(2y – 1) =


= =


=


=



Question 5.

If prove that


Answer:

Given :


To prove :


Formula used : =


=



=


If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


y =


squaring on both sides


= + y


Differentiating with respect to x


2y = +


(2y – 1) =


= =


=


=



Question 6.

If , show that


Answer:

Given :


To show :


Formula used : =


=



If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


y =


squaring on both sides


= + y


Differentiating with respect to x


2y = +


(2y – 1) =


(2y – 1) =



Question 7.

If , prove that


Answer:

Given :


To show :


Formula used : =


=



If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


y =


taking log on both sides


log y = log


log y = log a


taking log on both sides


log(log y) = log()


log(log y) = y.logx + log()


Differentiating both sides with respect to x


= + 0 (as differentiation of log() [constant] is zero )


= + y.


= + y.


=


( =


.




Question 8.

If prove that


Answer:

Given :


To show :


Formula used : =


=



If u and v are functions of x,then = u + v


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


y = x +


y2 = xy + 1


Differentiating with respect to x


= + 0 (as differentiation of constant is zero )


2y. = x. + y


= y


=


=




Exercise 10h
Question 1.

Differentiate with respect to


Answer:

Given : Let u = x6 and v =


To differentiate : x6 with respect to


Formula used : n.


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


Let u = x6 and v =


Differentiating u with respect to x


= 6x5


Differentiating v with respect to x


=


=


=


= -12


= -12


Ans.



Question 2.

Differentiate log with respect to


Answer:

Given : Let u = log x and v = cot x


To differentiate : log xwith respect to cot x


Formula used :



The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


Let u = log x and v = cot x


Differentiating u with respect to x


=


Differentiating v with respect to x


=


=


=


=



Question 3.

Differentiate with respect to .


Answer:

Given : Let u = and v = cos x


To differentiate : with respect to cos x


Formula used :


= - sinx


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


Let u = and v = cos x


Differentiating u with respect to x


= = .


Differentiating v with respect to x


=


=


=


= .


Ans.



Question 4.

Differentiate with respect to


Answer:

Given : Let u = and v =


To differentiate : with respect to


Formula used : n.


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)




=


Let u = and v =


Differentiating u with respect to x


= = .


= .


= . =


= = . = =


=


Differentiating v with respect to x


= . =


=


=


= =


=


Ans.



Question 5.

Differentiate with respect to


Answer:

Given : Let u = and v =


To differentiate : with respect to


Formula used : n.




The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


=


Let u = and v =


Differentiating u with respect to x


= = . =


= . = . = =


=


Differentiating v with respect to x


= . = .


= . = . = . =


=


=


= = 1


= 1


Ans. 1



Question 6.

Differentiate with respect to


Answer:

Given : Let u = and v =


To differentiate : with respect to


Formula used : n.




The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


=


Let u = and v =


Differentiating u with respect to x


= = . =


= . = ) . =


=


Differentiating v with respect to x


= = . = 4x


= = =


=


=


= =


=


Ans.



Question 7.

Differentiate with respect to


Answer:

Given : Let u = and v =


To differentiate : with respect to


Formula used : n.


= cos x


= - sin x


The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


Let u = and v =


Differentiating u with respect to x


= . =


=


Differentiating v with respect to x


= . =


=


=


= = =


=


Ans.



Question 8.

Differentiate with respect to


Answer:

Given : Let u = and v =


To differentiate : with respect to


Formula used : =


n.




The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


=


Let u = and v =


Differentiating u with respect to x


= = . =


= . = . =


=


For v =


Let x = tan θ


= = ) = 3θ = 3


= 3


Differentiating v with respect to x ,


= =


=


=


= =


=


Ans.



Question 9.

Differentiate with respect to


Answer:

Given : Let u = and v =


To differentiate : with respect to


Formula used : n.




The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


Let u = and v =


Put x = cot θ or θ = in u


= =


= = =


=


We know that 1 - = - 2 and =


1 - =


Substituting the above values in ,we get


= =


=


Dividing by cos on numerator and denominator,we get


= = =


= =


Differentiating u with respect to x


= =


=


v =


Put x = tanθ


V = = = = =


V = = = = 2θ = 2


V = = 2


Differentiating v with respect to x


=


=


= =


=


Ans.



Question 10.

Differentiate with respect to when


Answer:

Given : Let u = and v =


To differentiate : with respect to


Formula used : n.




The CHAIN RULE states that the derivative of f(g(x)) is f’(g(x)).g’(x)


Let u = and v =


Substitute x = cosθ in u


u = = =


u = = =


u = =


Differentiating u with respect to x


=


Substitute x = sinθ in v ,


v = = =


v = = =


v = = =


v = =


v =


Differentiating v with respect to x


=


=


= =


Ans.




Exercise 10i
Question 1.

Find , when

𝒳 = at2, 𝒴 = 2at


Answer:

Theorem: y and x are given in a different variable that is t. We can find by finding and and then dividing them to get the required thing.


=


= 2a. ……(1)


=


= 2at ……(2)


Dividing (1) and (2), we get


=


=



Question 2.

Find , when

𝒳 = a cos θ , 𝒴 = b sin θ


Answer:

y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.

= (=cosθ )


= bcosθ. ……(1)


()


= -asinθ …….(2)


Dividing (1) and (2), we get


= ( = cotθ )


= .



Question 3.

Find , when

𝒳 = a cos2θ , 𝒴 = b sin2θ


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= b× 2sinθ × cosθ (using the chain rule = 2sinθ× = 2sinθ × cosθ )


= 2bsinθcosθ . ………..(1)



= a × (2cosθ)× (-sinθ ) (using chain rule = 2cosθ× = 2 cosθ × (-sinθ ) )


= -2asinθcosθ.


Dividing (1) and (2), we get


=


= .



Question 4.

Find , when

𝒳 = a cos3θ, 𝒴 = a sin3θ


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= a× 3 sin2θ × cosθ (using the chain rule = 3sin2θ× = 2sin2θ × cosθ )


= 3asin2θcosθ . ………..(1)



= a × (3cos2θ)× (-sinθ ) (using chain rule = 2cosθ× = 2 cosθ × (-sinθ ) )


= -3asinθcos2θ.


Dividing (1) and (2), we get


=


= .


= -tanθ



Question 5.

Find , when

𝒳 = a(1 – cos θ), 𝒴 = a(θ + sin θ)


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= a× (1+cosθ ) ………..(1)



= asinθ. …………….(2)


Dividing (1) and (2), we get


=


= .


= ( 1+cosθ=2cos2θ/2 and sinθ = 2sin(θ/2)cos(θ/2))


= cot(θ/2)



Question 6.

Find , when

𝒳 = a log t, 𝒴 = b sin t


Answer:

Theorem: y and x are given in a different variable that is t. We can find by finding and and then dividing them to get the required thing.


=


= bcost ………..(1)



= …………(2)


Dividing (1) and (2), we get


=


= .



Question 7.

Find , when

𝒳 = (log t + cos t), 𝒴 = (et + sin t)


Answer:

Theorem: y and x are given in a different variable that is t . We can find by finding and and then dividing them to get the required thing.


=


= et + cost ………..(1)



= - sint. …………….(2)


Dividing (1) and (2), we get


=


= .



Question 8.

Find , when

𝒳 = cos θ + cos 2θ, 𝒴 = sin θ + sin 2θ


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= cosθ + cos2θ×2 ………..(1)



= -sinθ -2sin2θ …………….(2)


Dividing (1) and (2), we get


=



Question 9.

Find , when

𝒳 = , 𝒴 =


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


=


= ………..(1)



=


= ……..(2)


Dividing (2) and (2), we get


=


=


= -( tan2θ)3/2



Question 10.

Find , when

𝒳 = eθ (sin θ + cos θ), 𝒴 = eθ (sin θ - θ cos θ)


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= eθ (cosθ + sinθ ) + (sinθ -cosθ )eθ ………..(1) {by using product rule, }



= eθ (cosθ - sinθ ) + eθ (sinθ + cosθ ) …………….(2) {by using product rule, }


Dividing (1) and (2), we get


=


=tanθ .



Question 11.

Find , when

𝒳 = a (cos θ + θ sin θ ), 𝒴 = a (sin θ - θ cos θ)


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= a(cosθ - (-θ sinθ + cosθ )) {by using product rule, while differentiating θcosθ }


= a(θsinθ ) ………..(1)



= a(-sinθ +θ cosθ +sinθ ) {by using product rule, while differentiating θcosθ }


= a× θcosθ ……….(2)


Dividing (1) and (2), we get


=


= tanθ ANS



Question 12.

Find , when

𝒳 = , 𝒴 =


Answer:

Theorem: y and x are given in a different variable that is t . We can find by finding and and then dividing them to get the required thing.


=


= {by using divide rule, }


=


= ………..(1)



= {by using divide rule, }


=


= ……….(2)


Dividing (1) and (2), we get


=


=



Question 13.

Find , when

𝒳 = , 𝒴 =


Answer:

Theorem: y and x are given in a different variable that is t . We can find by finding and and then dividing them to get the required thing.


=


= {by using divide rule, }


=


= ………..(1)



= {by using divide rule, }


=


= ……….(2)


Dividing (1) and (2), we get


=


=



Question 14.

Find , when

𝒳 = cos-1, 𝒴 = sin-1


Answer:

Theorem: y and x are given in a different variable that is t . We can find by finding and and then dividing them to get the required thing.


Let us assume u=


=


=


= {by using divide rule, }


Putting value of u


=


= ………..(1)


Let assume v=



= {by using divide rule, }


Putting value of v


=


=


= ……….(2)


Dividing (1) and (2), we get


=


=



Question 15.

If 𝒳 = 2 cos t – 2 cos3t, 𝒴 = sin t – 2 sin3t, show that =cot t.


Answer:

Theorem: y and x are given in a different variable that is t . We can find by finding and and then dividing them to get the required thing.


=


= cost – 6 sin2t × cost ………..(1)



= -2sint + 6cos2t ×sint …………….(2)


Dividing (1) and (2), we get


=


= .



Question 16.

If 𝒳 = and 𝒴 = =t.


Answer:

Theorem: y and x are given in a different variable that is t . We can find by finding and and then dividing them to get the required thing.


=


=


= ………..(1)



= {by using divide rule, }


= …………….(2)


Dividing (1) and (2), we get


=


= t.



Question 17.

If 𝒳 = a(θ – sin θ), 𝒴 = a(1 – cos θ), find at θ =.


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= asinθ ………..(1)



= a(1-cosθ ) ……….(2)


Dividing (1) and (2), we get


=


Putting θ= π/2


=


= 1.



Question 18.

If 𝒳 = 2 cosθ – cos 2θ and 𝒴 = 2 sin θ – sin 2θ, show that =tan .


Answer:

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= 2cosθ – 2cos2θ ………..(1)



= -2sinθ + 2sin2θ ……….(2)


Dividing (1) and (2), we get


=


=


=


By factorising numerator, we get


=


=


=


Foe simplicity let’s take θ/2 as x.


=


=


=


=


=



Question 19.

If 𝒳 = , 𝒴 = , find .


Answer:

Theorem: y and x are given in a different variable that is t . We can find by finding and and then dividing them to get the required thing.


=


= {by using divide rule, }


=


=


=


=


= ……..(1)



= {by using divide rule, }


=


=


=


=


= ……..(1)


Dividing (1) and (2), we get


=


=



Question 20.

If 𝒳 = (2 cos θ – cos 2θ) and = (2sin θ – sin 2θ), find .


Answer:

here we have to find the double derivative, so to find double derivative we will just differentiate the first derivative once again with a similar method.


Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


= 2cosθ – 2cos2θ ………..(1)



= -2sinθ + 2sin2θ ……….(2)


Dividing (1) and (2), we get


=


{as shown in question no. 18}


Let



⇒ To find f’’ we will differentiate f’ with θ and then divide with equation (2).


=


=


Now divide by equation (2).



Putting θ = π/2





Question 21.

If 𝒳 = a (θ – sin θ), 𝒴 = a( 1+cos θ), find .


Answer:

here we have to find the double derivative, so to find double derivative we will just differentiate the first derivative once again with a similar method.

Theorem: y and x are given in a different variable that is θ . We can find by finding and and then dividing them to get the required thing.


=


………..(1)



= a(1-cosθ ) ……….(2)


Dividing (1) and (2), we get


=


=


= -cot (θ/2)


⇒ To find f’’ we will differentiate f’ with θ and then divide with equation (2).


=


=


=