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In mathematics, the trigonometric functions are functions of an angle. This chapter explains how the trig functions of sin, cos, tan, cosec, sec and cot can be used to solve problems.
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Chapter-3 Trigonometric Functions Class– XI r Exercise 3.1 Ans: We know that θ = l Q1: Find the radian measures corresponding to the following degree measures: (i) 25° (ii) – 47° 30' Ans: We know that 180° = π rad 5 25º 25 = rad 180 36 (ii) – 47° 30' 95 2 95π 95 = = × 2 180 π Here, r = 100 cm, l = 22 cm. We have 22 θ = 100 180 7 22degree 22 100 12º36' = Thus, the required angle is 12°36′. (iii) 240° (iv) 520° 180 π 22 100 × degree = rad π π = × (i) × × × = ° − Q5: In a circle of diameter 40 cm, the length of a chord is 20 cm. Find out the length of minor arc of the chord. Ans: Diameter of the circle = 40 cm Radius of the circle = 40 2 Let AB be the chord. Given AB = 20 cm = [1° = 60'] – 47° 30' ° − − − 19 72 = π rad rad 2 4 3 26 9 = × π (iii) 240º 240rad = rad 180 π = 20 cm = × π (iv) 520º 520rad= rad 180 Q2: Find the degree measures corresponding to the following radian measures. (i) 11 16 Ans: We know that π rad = 180° (i) 11rad 16 16 π 3 60' 39º 8 1 39º 22' minutes 2 = 39º 22' 30" 180 4rad= ( 4)º π 1 60 229º 11 5 229º 5' minutes 11 229º5'27" = − 5 rad 3 π 7 180 7 rad 6 π Q3: A wheel makes 360 revolutions in one minute. Through how many radians does it turn in one second? Ans: Number of revolutions made in 1 minute = 360 ∴ Revolutions made per second = 360 22 7 (iii) 5 Useπ= π π (iv) 7 (ii) – 4 3 6 In ∆OAB, OA and OB are radii of the circle. Hence, OA = OB = 20 cm. Also, AB = 20 cm. Thus, ∆OAB is an equilateral triangle. 180 11 × 315º 8 = = × = + [1º=60'] π OAB ∠ = Therefore, = rad 60º 3 + + = As we know, θ = l r [1'=60"] π π AB 20 20 = ⇒ AB = cm × − °= ° 3 3 180 7( 4) 22 1 − − × − (ii) = 22911 Thus, the length of the minor arc of the chord is 20 cm. 3 π × = l = − + minutes Q6: If in two circles, arcs of the same lengths subtend angles of 60° and 75° at the centres, find the ratio of their radii. Ans: Let the radii of the two circles be r1 and r2. Let the arc length be l. It subtends an angle of 60° at the centre of the circle of radius r1, and an angle of 75° at the centre of the circle of radius r2. π and 75º = 5 = − + π π 180 5 = × = (iii) 300º 3 π π = × = (iv) 210º 6 π rad Now, 60º = rad 12 3 l r = θ We know that θ = l r or π π 25 12 r r = 6 ∴ = = 1 3 r and l l 60 Q 4: Find the degree measure of the angle subtended at the centre of a circle of radius 100 cm by an arc of length 22 cm. 7 Angle swept by the wheel in 1 revolution = 2π rad. Angle covered in 6 revolutions = 6 × 2π =12 π rad Thus, the wheel covers 12π rad in one second. π π 25 12 r ⇒ = 1 3 r r 5 4 ⇒ = 1 2 Q7: Find the angle in radian though which a pendulum swings if its length is 75 cm and the tip describes an arc of length Thus, the ratio of their radii is 5:4. 22 Useπ= http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI Ans: We know that in a circle of radius r unit, θ = l (i) 10 cm (ii) 15 cm (iii) 21 cm ⇒ 1 sin = − 2 2 cos x x 2 r 3 5 ⇒ = − 2 cos 1 x Where, θ is the measure of the angle in radians subtended by an arc of length l at the centre of the circle. Given r = 75 cm (i) Here, l = 10 cm 10 2 θ = rad = rad 75 15 (ii) Here, l = 15 cm 15 1 θ = rad = rad 75 5 (iii) Here, l = 21 cm 21 7 θ = rad = rad 75 25 16 25 4 5 ⇒ = ⇒ = ± 2 cos cos x x As x is in the 2nd quadrant, therefore value of cos x will be negative. 4 cos 5 1 5 sec cos 4 x 3 sin 5 tan cos x − 1 4 cot tan 3 x ⇒ = − x = = − x 3 4 x = = = − = x 4 5 = = − = x Exercise 3.2 Q3: Find the values of other five trigonometric functions if 3 cot 4 3 cot 4 1 tan cot x 1 tan sec x x + = 2 2 4 1 sec 3 25 sec 9 5 sec 3 Since x lies in the 3rdquadrant, the value of sec x will be negative. 5 sec 3 1 3 cos sec 5 x sin tan cos x ⇒ 4 3 3 5 1 cosec sin x Q4: Find the values of other five trigonometric functions if 13 sec 5 13 sec 5 1 5 cos sec 13 x sin 1 cos = − x x Q1: Find the values of other five trigonometric functions if 1 cos 2 1 cos 2 1 sec cos x Now, sin cos x x + = sin 1 cos x ⇒ = − x = , and x lies in the third quadrant. x = − and x lies in the third quadrant. x = Ans: Given: x = − Ans: Given: 4 3 = = x ∴ = = − 2 x 2 2 2 2 1 x 2 2 + = x ⇒ 2 1 4 1 2 3 4 ⇒ = − − 2 sin 1 x ⇒ = 2 x ⇒ = − = 2 sin 1 x ⇒ = ± x 3 ⇒ = ± sin x 2 As x lies in the 3rd quadrant, the value of sin x will be negative. 3 sin 2 1 2 cosec sin 3 x − = = − 1 1 cot tan 3 x ∴ = − x ∴ = − x = =− x = =− x x = x 3 sin 4 5 x ⇒ = − = sin x 2 1 2 sin cos x x = − tan 3 x 5 4 = = − x = = x Q2: Find the values of other five trigonometric functions if 3 sin 5 3 sin 5 1 cosec sin x sin cos 1 x x + = x = , and x lies in the fourth quadrant. x = , and x lies in second quadrant. x = Ans: Given: x = Ans: Given: 5 3 = = x = = x 2 2 2 2 http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI π 25 169 12 13 144 169 19 ⇒ = − = 2 Q8: Find the value of the trigonometric function sin 1 tan x 3 Ans: The values of tan x repeat after an interval of π or 180°. 19 tan tan 6 3 3 ⇒ = ± sin x π π π ∴ = + = = = π tan tan60º 3 Since x lies in the 4th quadrant, the value of sin x will be negative. 12 sin 13 − = = 1 1 cot 12 tan − 3 1 13 12 π 11 ∴ = − = = − ⇒ cosec x x − Q9: Find the value of the trigonometric function sin sin x 3 12 13 5 13 π π π 3 11 11 = = ∴ − = − 2 2 + × π sin3 Ans: sin sin sin cos 12 5 x x 2 =− 3 3 tan x π 15 − Q10: Find the value of trigonometric function cot 5 4 = = = − x 12 x Ans: The values of cot x repeat after an interval of π or 180°. 15 15 cot cot 4 Exercise 3.3 π 5 π π π ∴ − = − + π = = 4 cot 1 Q5: Find the values of other 5 trigonometric functions if 5 tan 12 5 tan 12 1 cot tan x 1 tan sec x + = 25 1 sec 144 13 sec 12 Since x lies in the 2nd quadrant, the value of sec x is negative. 13 12 1 cos sec x sin tan cos x 5 sin 12 12 13 5 sin 12 1 cosec sin x 4 4 x = − , and x lies in second quadrant. π π 1 2 x = − Ans: Given: + − = − 2 2 2 Q1: Prove that: sin cos tan 6 3 4 12 5 x π π π = = − x + − 2 2 2 Ans: LHS = sin cos tan 6 3 4 2 2 2 2 1 4 1 2 1 2 = + − 2 (1) ⇒ + = 2 x 1 4 1 2 = + − = − 1 = RHS ⇒ = ± x π π π 7 3 2 + = 2 2 2 Q2: Prove that: 2sin cosec cos 6 6 3 7 − ∴ sec x = π π π + 2 2 2 Ans: LHS = 2sin cosec cos 12 13 6 6 3 = = − x 2 2 π 1 4 π 1 2 1 2 = + π + 2 2 cosec x 6 = x 2 3 2 1 4 = × + − 2 cosec x ⇒ − = 6 − 1 2 1 4 = = ( 2) + − 2 × − 12 13 1 5 13 5 ⇒ = − = x = RHS 13 13 5 π π π 5 = = = x + + = 2 2 Q3: Prove that: cot cos 3tan 6 ec 6 6 6 π π π 5 + + 2 2 Ans: LHS = cot cos 3tan ec Q6: Find the value of the trigonometric function sin 765° Ans: Values of sin x repeat after an interval of 2π or 360°. 6 ) 6 6 2 π ( 1 2 π = + − + 3 cosec 3 6 3 1 ∴ = sin(2 360º 45º) × + = = sin765º sin45º ecπ 1 3 2 3 cos = + + × 3 Q7: Find value of trigonometric function cosec (–1410°) Ans: The values of cosec x repeat after an interval of 2π or 360°. cosec(–1410°) cosec( 1410º 4 360º) = − cosec( 1410 = − cosec30º = 6 6 3 2 1 = + + = = RHS π π π 3 + + = 2 2 2 Q4: Prove that: 2sin 2cos 2sec 10 + × 1440º) °+ = 4 4 3 π π π 3 + + 2 2 2 Ans : LHS = 2sin 2cos 2sec 2 4 4 3 http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI π 2 2 π 1 + tan tan x = π − + + 2 2 sin = 2 2(2) 4 4 2 π π + tan x 1 tan − tan x 2 π 1 2 4 π 4 + × + 2 sin 1 1 8 = + + = 2 8 = Now LHS= 4 π − − tan tan tan x x 2 4 4 1 = 1 8 + + 2 π 1 tan + tan x 2 4 = Q5: Find the value of (i)sin 75° (ii) tan 15° Ans: (i) sin 75° = sin (45° + 30°) We know that sin (x + y) = sin x cos y + cos x sin y sin (45° + 30°) = sin 45° cos 30° + cos 45° sin 30° 1 2 10 R.H.S + − − 1 tan 1 tan 1 tan 1 tan + x x x x 2 + 1 tan 1 tan − x x = = = RHS 3 1 1 2 = + + − cos(π )cos( x x ) = 2 Q8: Prove that: 2 cot x 2 ) π 2 − + sin(π )cos x x + 3 1 3 1 2 2 = + = [ ( ][ − ] ) − π + − cos sin cos sin x x x cos( )cos( x x 2 2 2 2 Ans: LHS = = )( π (ii) tan 15° = tan (45° – 30°) tan45º tan30º 1 tan45ºtan30º + x π − + sin( )cos x x 2 − − tan 1 tan tan + tan x x y − 2 cos sin x x = − = tan( ) x y = = 2 cot RHS x =− y 2 1 Q9: Prove that: 3 cos 2 Ans: LHS = ( ) 3 1 − − 2 1 3 1 − − 3 1 3 1 + 3 1 = = = ( )( ) 3 1 + 1 1 + π π 3 3 + π + − + π + = cos(2 ) cot cot(2 ) 1 x x x x 2 = − Q6: Prove that: π − 2 3 π π x 3 3 + π + − + π + cos cos(2 ) cot ] cot x cos sin + cot(2 ) x x x x sin = π π π 2 2 − − − − = + cos cos sin sin( ) x y x y x y [ 4 4 4 π 4 = + sin cos x tan x π π π sin cos x x x x − − − − − Ans: LHS = cos cos sin sin x y x y = + sin cos x x 4 4 4 4 π π − = − Let Aand B x y 2 2 sin cos x x = = = 1 RHS (sin cos ) x x 4 4 sin cos x x Therefore, LHS = cosA cosB − sinA sinB = cos (A + B) Q10: Prove that: sin(n + 1)x sin (n + 2)x + cos(n + 1)x cos (n + 2)x = cos x Ans: LHS = sin (n + 1)x.sin(n + 2)x + cos (n + 1)x.cos (n + 2)x Applyingcos(C−D) = cosC.cosD + sinC.sinD LHS = { cos ( 1) ( 2) n x n + − + cos( ) cos RHS x x = − = = 3 cos 4 Ans: We know: ( ) cos A+ B − Therefore, 3 cos 4 3 2sin sin 4 π π π − + x − = cos y 4 4 π π =cos + − + ( ) x y } 4 π 4 x =cos − + ( ) x y 2 = sin (x + y ) π π 3 + − − = − Q11: Prove that: cos 2 sin x x x 4 − = RHS ( ) 2sinA.sinB = − cos A B π = + tan x 2 π π 3 + 1 tan 1 tan − x x 4 π + − − LHS = cos x x Q7: Prove that: 4 − tan x π π 4 = − = − π − 2sin sin x x Ans: We know that 4 − tanA+ tanB 1 tanAtanB − tan A tanB 1 tanA tanB + 1 + = = − andtan(A B) tan(A B) = − = − × × 2sin sin x 2 sin x 4 2 = − = 2 sin RHS x http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI Q12: Prove that: sin2 6x – sin24x = sin 2x sin10x Ans: LHS. = sin2 6x – sin2 4x = (sin 6x + sin 4x)(sin 6x – sin 4x) 6 2sin = 6 2cos = (2 sin 5x cos x)(2 cos 5x sin x) = (2 sin 5x cos 5x)(2 sin x cos x) = sin 10x sin 2x = RHS Q13: Prove that: cos2 2x – cos2 6x = sin 4x sin 8x Ans. LHS. = cos2 2x – cos2 6x = (cos 2x + cos 6x)(cos 2x – cos 6x) + − 9 5 9 5 x x x x 2sin − .sin 2 + 2 − = 17 3 17 3 x x x x + − 2cos .sin 4 6 4 x x x x × cos 2 2 2 + 2 − − 2sin7 .sin2 2cos10 .sin7 sin2 cos10 x x x x x x = 4 6 4 x x x x sin 2 2 = − = RHS + + + + 5 sin5 cos5 sin3 cos3 sin3 cos3 x + x x x x x x x x x = Q17: Prove that: tan 4 x =sin5 cos5 Ans: LHS + − A B A B − 3 5 3 x x + = cosA cos B 2cos cos , Applying: 2sin .cos 2 + 2 − 2 + 2 − = A B A B cosA cosB − = − 2sin sin 5 3 5 3 x x x x 2cos .cos 2 2 2 2 2 ( ) − 2 6 x x + − x + 2sin 4 sin( 2 ) x 2 6 2 6 6 x x x x x x = − sin 4 cos4 x x 2cos cos 2 sin 2sin4 .cos 2cos4 .cos tan4 x x x = x x = = 2 2 2 2 = [ ][ ] 2cos 4 cos( 2 ) x = [2cos 4x cos 2x] [–2sin 4x (–sin 2x)] = (2sin 4x cos 4x) (2sin 2x cos 2x) = sin 8x.sin 4x = RHS – – – x = Q18: Prove that: sin RHS Q14: Prove that: sin 2x + 2sin 4x + sin 6x = 4cos2x sin 4x Ans: LHS = sin 2x + 2 sin 4x + sin 6x = [sin 2x + sin 6x] + 2 sin 4x − + − sin cos sin cos x + x x − + y y x y = tan cos 2 =sin cos x x y y y Ans:LHS − x x y 2cos .sin − A+B 2 x A B 2 6 x sin A sinB + = Applying: 2 + 2 − 2sin cos = x y x y + − 2cos .cos 2 6 2 x x = + 2sin cos 2sin4 x 2 y 2 2 2 − = 2 sin 4x cos (–2x) + 2 sin 4x = 2 sin 4x (cos2x + 1) = 2 sin 4x (2cos2x) = 4cos2x sin 4x = RHS sin − Q15: Prove that: Ans: LHS 2 − x y = = = tan RHS 2 x y cos 2 Q19: Prove that sin − + sin3 cos3 sin3 cos3 + x + + x x x x x x cot 4x (sin 5x + sin 3x) = cot x (sin5x – sin 3x) = cot 4x (sin 5x + sin 3x) cos4 5 3 2sin sin4 2 x cos 4 2sin4 cos sin4 x = 2 cos 4x cos x = cot x (sin 5x – sin 3x) cot 5 3 2cos sin 2 x [ ] 2cos4 sin sin x = 2 cos 4x.cos x LHS = RHS = tan 2 x cos + − 5 3 x x x x x − = sin x x x x = cos Ans: LHS 2 cos x − 3 3 x x x = x x 2sin cos 2 2 − = RHS 3 3 x x x x 2cos cos 2 2 + − 5 3 x x x x x sin 2 cos2 = sin = = tan 2 = RHS x 2 cos x = x x − sin sin sin sin sin3 cos − sin3 cos − x + x x x x x = Q20: Prove that: 2sin x 2 2 x Q16 : Prove that: cos9 − x Ans: LHS = x 2 2 − cos5 sin3 − cos5 sin3 − x sin2 cos10 x x x x = − x − 3 3 x x x 2cos sin sin17 x 2 − 2 = − Ans: LHS =cos9 x x x cos2 − x x x sin17 2cos2 sin( cos2 − ) x = http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI 2 ( sin ) = − × − = = 2sin x x RHS − 2 4tan (1 tan (1 tan − ) x x = − 2 2 2 ) 4tan − x x + + + + + + + x cos4 sin4 cos3 sin3 cos3 sin3 + cos2 ) cos3 sin2 ) sin3 + x x cos2 sin 2 cos2 sin2 + + x x x x x x x x x x x x = Q21: Prove that: 2 cot3 x 4tan (1 tan 1 tan + − x 4tan (1 tan 1 6tan − x ) x x = x − 4 2 2 2tan 4tan x ) x = cos4 sin4 = (cos4 (sin4 − 2 x x Ans: LHS = + 2 4 tan + x x x Q24: Prove that cos 4x = 1 – 8sin2x cos2x Ans: LHS = cos 4x = cos 2(2x) = 1 – 2 sin22x = 1 – 2(2 sin x cos x)2[sin2A = 2sin A cos A] = 1 – 8sin2x cos2x = RHS Q25: Prove that cos6x = 32cos6x – 48cos4x + 18cos2x – 1 Ans: LHS. = cos 6x = cos 3(2x) = 4 cos3 2x – 3 cos 2x [cos 3A = 4cos3A – 3cosA] = 4[(2 cos2x – 1)3 – 3 (2 cos2 x – 1) = 4[(2 cos2x)3– 13– 3(2 cos2x)2 + 3(2 cos2x)] – = 4[8cos6x –1 – 12cos4x + 6 cos2x] – 6cos2x + 3 = 32cos6x – 4 – 48cos4x + 24cos2x – 6cos2x + 3 = 32cos6x – 48cos4x + 18cos2x – 1 = RHS. Exercise 3.4 Q1: Find the principal and the general solutions of the equation tan 3 x = Ans: Given: tan 3 x = We know that π tan 3 Applying: + − x x x A B A B [cos 2A = 1 – 2 sin2 A] cosA cosB + = 2cos cos , 2 + 2 − A B A B sinA sinB + = 2sin cos 2 2 + + + − cos3 sin3 1) 1) + 4 2 4 2 x x x 2cos cos cos3 x 2 + 2 − = LHS 4 2 4 2 x x x x 2sin cos sin3 x 2 2 + + 2cos3 cos 2sin3 cos =cos3 (2cos sin3 (2cos x x x x = [cos 2x = 2 cos2x – 1] + x x x x = = cot3 RHS x 6cos2x + 3 Q22: Prove that: cot x.cot 2x – cot2x cot 3x – cot 3x cot x = 1 Ans: LHS = cot x cot 2x – cot 2x cot 3x – cot 3x cot x = cot x cot 2x – cot 3x (cot 2x + cot x) = cot x cot 2x – cot (2x + x) (cot 2x + cot x) = − = cot x cot 2x – (cot 2x cot x – 1) = 1 = RHS 4tan (1 tan tan4 1 6tan − 2tanA tan2A 1 tan A − LHS. = tan 4x = tan 2(2x) 2tan 2 1 tan 2 − 2tan 2 1 tan 2tan 1 1 tan − x 4tan 1 tan 4tan 1 (1 tan x − 4tan 1 tan (1 tan ) (1 tan − − cot2 cot cot x 1 x x + cot cot2 x (cot2 cot ) x x x + cot2 x cotA cotB 1 cotA + − + = cot(A B) π π 4 cotB + = = π 3= tan 3 tan 3 and 3 πand4 π Therefore, the principal solutions are x =3 π 3 − x 2 ) x x = Q23: Prove that x x Now, tan x = tan 3 Therefore, the general solution is + 2 4 tan = Ans: We know: 2 π π = + ∈ where x n n Z 3 x Q2: Find the principal and general solutions of the equation sec 2 x = Ans: Given: sec 2 x = We know that 5 sec 2 and sec 3 3 = x 2 x − 2 x = 2 x π π π π − = = = = π se c 2 – sec 2 2 3 3 x πand5 π Therefore, the principal solutions are x = 3 − 2 x = 3 2 x π − Now, sec x = sec3 2 2 ) x π π ⇒ = ± ∈ 2 where Z x n n − 2 x 3 = Therefore, the general solution is π π , where n∈ Z − − 2 2 2 4tan ) x x x 2 2 = ± 2 x n 3 http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI Q3: Find the principal and general solutions of the equation cot 3 x = − Ans: Given: cot 3 x = − π + − x cos2 − 1) − or 3 3 x x x x ⇒ − − = 2cos cos cos2 0 x 2 2 0 ⇒ ⇒ ⇒ = 2cos2 cos cos2 (2cos x cos2 x x x x 0 = 6= π We know thatcot 3 = − = 1 2 0 2cos 1 0 x − = − cot6 3 ⇒ = = cos2 0 cos x or x π π π π − = − cot 3 ∴ = + = ∈ 2 (2 1) cos cos ,where Z x n or x n 6 2 3 π π π 11 π = − = − − ⇒ = + Also, cot 2 cot 3 (2 1)4 π x n 6 6 π π 5 11 π = ± ∈ Or 2 ,where Z x n n = − = − Hence, cot 3 and cot 3 3 6 6 Q7: Find the general solution of the equation sin 2x + cos x = 0 Ans: Given: sin 2x + cos x = 0 2sin cos x ⇒ cos (2sin x ⇒ cos x ⇒ = Now, cos = x πand11 π Therefore, the principal solutions are x =5 6 6 π Now, cot x = cot5 6 π + = cos 1) + 0 x x x 5 1 = or 0 ⇒ = = tan tan cot x x 6 5 tan x + = 0 0 2sin 1 0 x π π ⇒ = ∈ + where Z x n n 6 π ⇒ = + ∈ cos (2 1) ,where Z x n n Therefore, the general solution is 2 π 5 x+ = 2sin 1 0 1 2 π = ∈ + where Z x n n 6 − π π ⇒ = = − = π + sin sin sin x Q4: Find the general solution of cosec x = – 2 Ans: Given: cosec x = –2 π= – 2 6 6 π π 7 = π + = sin sin 6 6 We know: cosec 6 π 27 π ⇒ = ( 1) + − ∈ ,where Z x n n π π 7 6 ∴ π + = − = − cosec cosec 2 Therefore, the general solution is 6 π 6 11 π π 7 π π + ( 1) + − ∈ n (2 1) n or n n Z π − = − = − Also, cosec 2 cosec 2 2 6 6 6 Q8: Find the general solution of the equation sec2 2x = 1− tan 2x Ans: sec2 2x = 1− tan 2x 1 tan 2 ⇒ + tan 2 ⇒ tan 2 (tan 2 x ⇒ tan 2 x ⇒ Now, tan2 = x 2 ⇒ = x n n x πand11 π. Therefore, the principal solutions are x =7 6 6 π Now, cosec x = cosec7 6 7 6 1 tan 2 = − tan 2 x 1) x + 0 0 0, where + π π 2 x x π + = 2 0 x ⇒ = sin sin x = or 0 Hence, the general solution is = + = tan 2 1 0 x π 7 = ( 1) + − π ∈ n ,where Z x n n 6 ∈ . n Z Q5: Find the general solution of the equation cos 4x = cos 2x Ans: Given: cos 4x = cos2x cos4 cos2 x x ⇒ − 4 2 2sin 2 sin3 sin 0 x x ⇒ = sin3 0 x ⇒ = n x or ⇒ = ∈ where n Z 2 x = 0 ⇒ + = tan 2 1 0 π + − 4 2 x x x x π π 3 ⇒ − = sin 0 ⇒ = − =− = − = π tan2 1 tan tan tan x 2 4 4 4 π 3 π ⇒ = + ∈ 2 , where Z x n n = sin 0 or x 4 π π 3 n π ⇒ = + ∈ x where n Z , where π ∴ = = ∈ x n n Z 2 8 3 Therefore, the general solution is n n or Q6: Find the general solution of the equation cos 3x + cos x − cos 2x = 0 Ans: Given: cos 3x +cos x − cos 2x = 0 π π π 3 + ∈ , n Z 2 2 8 . http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI Q9: Find the general solution of the equation sin x + sin 3x + sin 5x = 0 Ans: Given: sin x + sin 3x + sin 5x = 0 Or sin ( x + ⇒ 2sin3 cos2 x ⇒ sin3 (2cos2 x ⇒ sin3 x ⇒ = Now, sin3 0 = x 3 OR ⇒ = x n π + − − x y x y x y + 2 2 2 = 4cos cos sin 2 + 2 2 x y + = sin5 ) sin x + 3 0 x = = 2 4cos RHS 2 − 5 5 x x x x + = Q4: Prove that 2sin cos sin3 0 x 2 2 = + − sin3 1) + or 0 x x x 0 x y − + − = 2 2 2 (cos cos ) (sin sin ) 4sin x y x y = 2 − + − 2 2 Ans: LHS = + = (cos cos ) (sin sin ) x y x y 0 2cos2 1 0 x 2 2 + − + − x y x y x y x y = 2sin − + sin 2cos sin π n 2 y 2 − 2 2 y = ∈ where Z x n 3 + + − x x y x y x + = 2 2 2 2 4sin sin 4cos sin + = Also, 2cos2 1 − 0 x 2 − 2 x 2 + 2 π π 1 + y x y y x y ⇒ = = − = π − cos2 cos cos x = + 2 2 2 4sin sin cos 2 3 3 2 x 2 2 π 2 − ⇒ = cos2 cos x = = 2 4sin RHS 3 2 Q5: Prove that: sin Ans: LHS = sin π 2 π ⇒ = ± ∈ 2 2 , where Z x n n 3 + + + = 4cos cos2 sin 4 x sin7 x sin7 x 5 2 3 7 cos 2 2sin5 cos( 2 ) − x 2sin5 cos2 x x ] sin5 x + 3 5 .cos 2 ] 2sin 4 .cos( ) x x − 4cos2 sin 4 cos x x x = sin3 sin5 sin3 sin5 5 2 sin7 sin5 sin3 π x x + + x + + x + + − x x π ⇒ = ± ∈ , x n where n Z x x x x x x 3 = sin nπor n π π ± ∈ Therefore, the general solution is , n Z + x x x x 3 3 = + 2sin .cos + − MISCELLANEOUS 9 2cos cos 13 13 2cosAcosB = cos A + B + cos (A B) 3 7 x x x x 2sin 2 π π π π 3 13 5 13 + + = Q1: Prove that: cos cos 0 = = = − + x 2sin3 cos( 2 ) x 2sin3 cos2 x [ 2cos2 x x x + x ( ) − Ans: We know, Therefore, sin3 x π π π π + − 9 13 8 13 + 3 13 π 5 13 + 5 13 3 5 x x x x + + LHS = 2cos cos cos cos 2cos2 2sin = [ 13 π 2 π π π π 9 13 9 13 3 13 5 13 2cos2 x Q6: Prove that (sin7 = = = + + − + cos cos cos cos 13 π 13 3 13 RHS π π π 10 13 = + + + cos cos cos cos + + + + + x sin5 ) (sin9 cos5 ) (cos9 x + sin5 ) cos5 ) + x − + − + sin3 ) cos3 ) sin3 ) cos3 ) + x + x x x x x x = tan6 x π π π π 3 13 5 13 3 13 3 13 π = 0 = RHS 5 13 (cos7 x = − − + + π π cos cos cos cos + + + (sin7 (cos7 (sin9 (cos9 + x x x x Ans: LHS = π π π 3 13 5 13 5 13 x = − − + + cos cos cos cos + − 7 5 7 5 9 3 9 3 x x x x x x x x 2sin .cos 2sin .cos Q2: Prove that (sin 3x + sin x) sin x + (cos 3x – cos x) cos x = 0 Ans: LHS. = (sin 3x + sin x) sin x + (cos 3x – cos x) cos x = sin 3x sin x + sin 2x + cos 3x cos x − cos2x = cos 3x cos x + sin 3x sin x − (cos2x− sin2x) = cos (3x − x) − cos2x = cos 2x − cos 2x = 0 = RH.S. Q3: Prove that: 2 + 2 2 + 2 − = 7 5 7 5 9 3 9 3 x x x x x x x x 2cos .cos 2cos .cos 2 2 2 2 [ [ 2sin6 2cos6 ] [ ] [ + cos3 cos3 + ] ] + 2sin6 .cos 2cos6 .cos 2sin6 .cos3 2cos6 .cos3 x ] ] x x x [ x x x x x = + cos cos x x x x x = = tan 6x = R.H.S. [ + x y + + − = 2 2 2 (cos cos ) (sin sin ) 4cos x y x y 2 3 x x + − = Q7: Prove that sin3 sin2 sin 4sin cos cos x x x x + + − 2 2 Ans: LHS. = (cos cos ) (sin sin ) x y x y + 2 2 2 2 + − − + − 2 Ans: LHS x y x y x y x y = sin3 (sin 2 + sin ) + x x x x x = + 2cos cos 2cos sin 2 + 2 2 y 2 − − 2 x x sin3 2cos sin x = − + x y x y x x y 2 2 + 2 2 2 2 4cos cos 4cos sin = 2 2 2 2 http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI 3 x x 1 3 x+ − − sin3 2cos sin = 1 2 3 x 2 x 2 ⇒ = = 2 sin 3 3 3 x x x 2 2 + 2sin .cos 2cos sin = 2 3 2 2 3 2 2 2 2 3 6 x ⇒ = = sin2 x x x 3 = + 2cos sin sin 2 = 1 3 + − 1 3 3 x x x x 1 cos + x x= 1 3 + − = 2 cos Now, 3 x 2 2 2 2 2 2 2 = 2cos 2sin cos 2 2 2 1 x x ⇒ = − cos cos is negative 2 2 3 3 x x = 2cos .2sin cos x − 3 = 2 2 3 3 x x = = 4sin cos RHS cos x 6 2 2 x sin 3 x 2 x = = = − tan 2 2 3 cos2 − x x xif tan x = 4 3 − Q8: Findsin , cos and tan , and x liesin 3 2 2 2 quadrant II x x xare 6, 3 Thus, the respective values of sin , cos , tan2 π 4 3 x 2 2 π < < − Ans: Given: tan x = and 2 π < x − 3 − and 2 π 3 ⇒ < 4 2 x 2 x x are all positive. 1 4 x x x Therefore, sin ,cos and tan = Q10: Find sin , cos and tan for sin , x in x 2 2 2 3 5 2 2 2 quadrant II. 2 − 4 =25 1 tan = + = + 2 2 sec 1 x x Now, 3 9 1 4 andx lies in the 2nd quadrant. = Ans. Given: sin x 9 25 ∴ = ⇒ = ± 2 cos cos x x π π π x π < < ⇒ < < . ., ie x x Now,cos x = 2cos2 2 4 2 2 2− 1 x x xwill be all positive. Therefore,sin ,cos , tan 3 5 5 5 2 5 x 2 2 2 = − = 2 ⇒ 2cos 1 2 1 1 4 x = sin As x ⇒ = = cos2 5 2 1 4 1 15 16 ∴ 1 sin = − = − = − = 2 2 cos 1 1 x x 2 16 1 x + = Now, 2 sin 1 2 x= − 5 1 5 15 4 ⇒ = − [ cos x is negative in quadrant II] cos x 4 5 = 2 sin 1 2 15 4 − − 1 2 x 1 cos − + 4 15 x x = sin2 = = = 2 sin 5 2 2 2 8 2 x + 4 15 x x sin ⇒ = sin2 sin ispositive x 5 2 x = = = 2 tan2 8 2 1 cos2 + 4 15 2 2 5 = × 8 x x xfor 1 3 + 8 2 15 4 x = − Q9: Findsin , cos and tan , if x liesin the cos = 2 2 2 quadrant III 15 4 + − π π π 1 3 3 x 1, and 3 xare negative, and sin2 1 cos 2 π < < ⇒ < < − Ans: Given: cos x = x 1 cos + − 4 15 x x 2 2 2 4 = = = 2 Now, cos 2 2 2 8 x x is positive. Hencecos ,tan − 4 15 x x 2 2 ⇒ = cos2 cos is positive − x x 8 2 ⇒ = 2 sin 2 http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
Chapter-3 Trigonometric Functions Class– XI − 4 15 2 2 = × 8 − 8 2 15 4 + = 8 2 15 4 x sin 8 2 15 + x 2 x = = = tan2 8 2 15 − − 8 2 15 4 cos2 Upon, simplification x 4 = + tan2 15 x x x Thus, the respective values of sin ,cos and tan 2 2 2 + − 8 2 15 4 8 2 15 4 + are , and4 15 http://www.fullmarkseducare.com/Ph:. 9911968787 NCERT SOLUTIONS
