Correct substitution. cos = (A1) For substituting correctly sin 55.8 A1

Transcription

1 Circular Functions and Trig - Practice Problems (to 07) MarkScheme 1. (a) Evidence of using the cosine rule eg cos = cos Correct substitution eg cos = = 55.8 (0.973 radians) N2 (b) Area = sin For substituting correctly sin 55.8 = 9.92 (cm 2 ) N1 2. Note: Throughout this question, do not accept methods which involve finding θ. (a) Evidence of correct approach eg sin θ = sin θ = AG N0 (b) Evidence of using sin 2θ = 2 sin θ cos θ = = AGN0 (c) Evidence of using an appropriate formula for cos 2θ M1 eg cos 2θ = A2 N2 3. (a) For using perimeter = r + r + arc length 20 = 2r + rθ AG N0 (b) Finding A = For setting up equation in r M1 Correct simplified equation, or sketch eg 10r r 2 = 25, r 2 10r + 25 = 0 r = 5 cm N2 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 1 of 39

2 4. Notes: Candidates may have differing answers due to using approximate answers from previous parts or using answers from the GDC. Some leeway is provided to accommodate this. (a) METHOD 1 Evidence of using the cosine rule eg cos C = Correct substitution eg cos = cos = 0.25 = 1.82 (radians) N2 METHOD 2 Area of AOBP = 5.81 (from part (d)) Area of triangle AOP = = sin = 1.32 or 1.82 = 1.82 (radians) N2 (b) = 2(π 1.82) (= 2π 3.64) = 2.64 (radians) N2 (c) (i) Appropriate method of finding area eg area = Area of sector PAEB = = 13.0 (cm 2 ) (accept the exact value 13.04) (ii) Area of sector OADB = N2 = 11.9 (cm 2 ) N1 (d) (i) Area AOBE = Area PAEB Area AOBP (= ) M1 = 7.19 (accept 7.23 from the exact answer for PAEB) N1 (ii) Area shaded = Area OADB Area AOBE (= ) M1 = 4.71 (accept answers between 4.63 and 4.72) N1 5. (a) Evidence of choosing cosine rule eg a 2 = b 2 + c 2 2bc cos A Correct substitution eg (AD) 2 = (7.1) (9.2) cos 60 (AD) 2 = AD = 8.35 (cm) N2 (b) = 18 Evidence of choosing sine rule [14] Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 2 of 39

3 Correct substitution eg = DE = 2.75 (cm) N2 (c) Setting up equation eg ab sin C = 5.68, bh = 5.68 Correct substitution eg 5.68 = (3.2) (7.1) sin, 3.2 h = 5.68, (h = 3.55) sin = and/or 150 N2 (d) Finding A C (60 + D C) Using appropriate formula eg (AC) 2 = (AB) 2 + (BC) 2, (AC) 2 = (AB) 2 + (BC) 2 2 (AB) (BC) cos ABC Correct substitution (allow FT on their seen ) eg (AC) 2 = AC = 9.74 (cm) N3 (e) For finding area of triangle ABD Correct substitution Area = sin (a) = Area of ABCD = = 34.0 (cm 2 ) N3 [21] Correct asymptotes N2 (b) (i) Period = 360 (accept 2π) N1 (ii) f (90 ) = 2 N1 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 3 of 39

4 (c) 270, 90 N1N1 Notes: Penalize 1 mark for any additional values. Penalize 1 mark for correct answers given in radians 7. (a) METHOD 1 Using the discriminant Δ = 0 k 2 = k = 4, k = 4 N3 METHOD 2 Factorizing (2x ± 1) 2 k = 4, k = 4 N3 (b) Evidence of using cos 2θ = 2 cos 2 θ 1 M1 eg 2(2 cos 2 θ 1) + 4 cos θ + 3 f (θ) = 4 cos 2 θ + 4 cos θ + 1 AG N0 (c) (i) 1 N1 (ii) METHOD 1 Attempting to solve for cos θ M1 cos θ = θ = 240, 120, 240, 120 (correct four values only) METHOD 2 Sketch of y = 4 cos 2 θ + 4 cos θ + 1 A2N3 M1 Indicating 4 zeros θ = 240, 120, 240, 120 (correct four values only) A2N3 (d) Using sketch c = 9 N2 8. Note: Accept exact answers given in terms of π. (a) Evidence of using l = rθ arc AB = 7.85 (m) N2 (b) Evidence of using [11] Area of sector AOB = 58.9 (m 2 ) N2 (c) METHOD 1 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 4 of 39

5 angle = attempt to find 15 sin M1 height = sin = 22.5 (m) N2 METHOD 2 angle = attempt to find 15 cos M1 height = cos = 22.5 (m) N2 (d) (i) = 25.6 (m) N2 (ii) h(0) = cos = 4.39(m) N2 (iii) METHOD 1 Highest point when h = 30 R1 30 = cos M1 cos = 1 t = 1.18 N2 METHOD 2 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 5 of 39

6 Sketch of graph of h Correct maximum indicated t = 1.18 METHOD 3 Evidence of setting h (t) = 0 sin Justification of maximum eg reasoning from diagram, first derivative test, second derivative test t = 1.18 M2 N2 M1 R1 N2 (e) h (t) = 30 sin (may be seen in part (d)) N2 (f) (i) Notes: Award for range 30 to 30, for two zeros. Award for approximate correct sinusoidal shape. (ii) METHOD 1 Maximum on graph of h t = METHOD 2 Minimum on graph of h t = 1.96 METHOD 3 Solving h (t) = 0 One or both correct answers t = 0.393, t = 1.96 N3 N2 N2 N2 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 6 of 39

7 9. (a) Vertex is (4, 8) N2 (b) Substituting 10 = a(7 4) M1 a = 2 N1 (c) For y-intercept, x = 0 y = 24 N2 10. METHOD 1 [22] Evidence of correctly substituting into A = Evidence of correctly substituting into l = rθ For attempting to eliminate one variable leading to a correct equation in one variable r = 4 θ = (= 0.524, 30 ) N3 METHOD 2 Setting up and equating ratios Solving gives r = 4 rθ = θ = r = 4 θ = N3 11. a = 4, b = 2, c = A2A2A2 N6 12. (a) = N2 (b) Using r = a + tb A2 N4 13. METHOD 1 Evidence of correctly substituting into l = rθ Evidence of correctly substituting into A = For attempting to solve these equations eliminating one variable correctly r = 15 θ = 1.6 (= 91.7 ) N3 METHOD 2 Setting up and equating ratios Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 7 of 39

8 Solving gives r = 15 rθ = 24 θ = 1.6 (= 91.7 ) r = 15 θ = 1.6 (= 91.7 ) N3 14. (a) For correct substitution into cosine rule BD = For factorizing 16, BD = = AGN0 (b) (i) BD = M1 sin = (accept 0.910, subject to AP) N2 (ii) = 65.7 N1 Or = 180 their acute angle = 114 N2 (iii) = 89.3 (or cosine rule) M1 BC = 13.2 (accept ) Perimeter = = 37.2 N2 (c) Area = 4 8 sin (a) METHOD 1 Note: = 10.3 N1 There are many valid algebraic approaches to this problem (eg completing the square, [16] using. Use the following mark allocation as a guide. (i) Using 32x = 0 x = 5 N2 (ii) y max = 16(5 2 ) + 160(5) 256 y max = 144 N1 METHOD 2 (i) Sketch of the correct parabola (may be seen in part (ii)) M1 x = 5 A2N2 (ii) y max = 144 N1 (b) (i) z = 10 x (accept x + z = 10) N1 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 8 of 39

9 (ii) z 2 = x x 6 cos Z A2 N2 (iii) Substituting for z into the expression in part (ii) Expanding x + x 2 = x x cos Z Simplifying 12x cos Z = 20x 64 Isolating cos Z = cos Z = AGN0 (c) Note: Expanding, simplifying and isolating may be done in any order, with the final being awarded for an expression that clearly leads to the required answer. Evidence of using the formula for area of a triangle M1 A 2 = 9x 2 sin 2 Z AG N0 (d) Using sin 2 Z = 1 cos 2 Z Substituting for cos Z for expanding for simplifying to an expression that clearly leads to the required answer eg A 2 = 9x 2 (25x 2 160x + 256) A 2 = 16x x 256 AG (e) (i) 144 (is maximum value of A 2, from part (a)) A max = 12 N1 (ii) Isosceles N1 16. (a) Evidence of choosing the double angle formula f (x) = 15 sin (6x) N2 (b) Evidence of substituting for f (x) eg 15 sin 6x = 0, sin 3x = 0 and cos 3x = 0 6x = 0, π, 2π [20] x = 0, N4 17. (a) (i) OP = PQ (= 3cm) R1 So Δ OPQ is isosceles AGN0 (ii) Using cos rule correctly eg cos = cos = cos = AGN0 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 9 of 39

10 (iii) Evidence of using sin 2 A + cos 2 A = 1 M1 sin = sin = AGN0 (iv) Evidence of using area triangle OPQ = M1 eg Area triangle OPQ = N1 (b) (i) = = 1.46 N1 (ii) Evidence of using formula for area of a sector eg Area sector OPQ = = 6.57 N2 (c) = Area sector QOS = = 6.73 N2 (d) Area of small semi-circle is 4.5π (= ) Evidence of correct approach M1 eg Area = area of semi-circle area sector OPQ area sector QOS + area triangle POQ Correct expression eg 4.5π , 4.5π ( ), 4.5π ( ) Area of the shaded region = 5.31 N1 18. (a) p = 30 A22 (b) METHOD 1 Period = (M2) [17] = q = 4 4 METHOD 2 Horizontal stretch of scale factor = (M2) scale factor = q = (a) using the cosine rule (A2) = b 2 + c 2 2bc cos substituting correctly BC 2 = (65) (104) cos 60 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 10 of 39

11 = = 8281 BC = 91 m 3 (b) finding the area, using bc sin substituting correctly, area = (65) (104) sin 60 = 1690 (Accept p = 1690) 3 (c) (i) A 1 = (65) (x) sin 30 = AG 1 (ii) A 2 = (104) (x) sin 30 M1 = 26x 2 (iii) starting A 1 + A 2 = A or substituting + 26x = 1690 simplifying = 1690 x = x = 40 (Accept q = 40) 4 (d) (i) Recognizing that supplementary angles have equal sines eg = 180 sin = sin R1 (ii) using sin rule in ΔADB and ΔACD substituting correctly and M1 since sin = sin 20. (a) AG 5 [18] (C4) (b) Arc length Arc length = 9 cm (C2) Note: Penalize a total of (1 mark) for missing units. 21. (a) when (may be implied by a sketch) (C2) (b) METHOD 1 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 11 of 39

12 Sketch of appropriate graph(s) Indicating correct points METHOD 2 (C2)(C2),,, (C2)(C2) 22. (a) for using cosine rule (i) (N0) 3 Notes: Either the first or the second line may be implied, but not both. Award no marks if 8.24 is obtained by assuming a right (angled) triangle (BC = 17 sin 29). for using sine rule (may be implied) (N2) (ii) (c) from previous triangle (Accept ) (N1) 5 Therefore alternative Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 12 of 39

13 (d) (N1) 4 Minimum length for BC when showing right triangle = 90 or diagram 23. (a) (i) (N1) 2 [14] (ii) (iii) Note: Award for using product rule on. or (N2) only if work shown, (N1) (N1) (N1)(N1)6 (b) (N1) 1 (c) (i) EITHER curve crosses axis when (may be implied) Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 13 of 39

14 (N3) Area = (A2)(N3) (ii) Area (N2) Using area of a triangle = ab sin C [12] sin Q = 0.5 Note: Accept any letter for Q = 30 or or (C6) 25. (a) b = 6 (C1) (b) (A3) (C3) (c) x = 1.05 (accept (1.05, 0.896) ) (correct answer only, no additional solutions) (A2) (C2) 26. (a) 3(1 2 sin 2 x) + sin x = 1 6 sin 2 x sin x 2 = 0 (p = 6, q = 1, r = 2) (C2) (b) (3 sin x 2)(2 sin x + 1) (C2) (c) 4 solutions (A2) (C2) 27. Area of large sector r 2 θ = = 192 Area of small sector r 2 θ = = 75 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 14 of 39

15 Shaded area = large area small area = = 117 (C6) 28. (a) (C2) Note: Award for the graph crossing the y-axis between 0.5 and 1, and for an approximate sine curve crossing the x-axis twice. Do not penalize for x >3.14. (b) (Maximum) x = x = 0.3 (1 dp) (C2) (Minimum) x = x = 1.9 (1 dp) (C2) 29. Area of a triangle = 3 4 sin A 3 4 sin A = 4.5 sin A = 0.75 A = 48.6 and A = 131 (or 0.848, 2.29 radians) (A2) (C6) Note: Award (C4) for 48.6 only, (C5) for 131 only. 30. METHOD 1 2 cos 2 x = 2 sin x cos x 2 cos 2 x 2 sin x cos x = 0 2 cos x(cos x sin x) = 0 cos x = 0, (cos x sin x) = 0 x =, x = (C6) METHOD 2 Graphical solutions EITHER for both graphs y = 2 cos 2 x, y = sin 2 x, for the graph of y = 2 cos 2 x sin 2 x. (M2) (M2) Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 15 of 39

16 THEN Points representing the solutions clearly indicated 1.57, x =, x = (C6) Notes: If no working shown, award (C4) for one correct answer. Award (C2)(C2) for each correct decimal answer 1.57, Award (C2)(C2) for each correct degree answer 90, 45. Penalize a total of [1 mark] for any additional answers. 31. (a) (i) sin 1 = 13.4 (ii) At 2100, t = sin 10.5 = 6.48 (N2) 3 Note: Award (A0) if candidates use t = 2100 leading to y = No other ft allowed. (b) (i) 14 metres (ii) 14 = sin sin = 1 t = π (3.14) (correct answer only) (N2) 3 (c) (i) 4 (ii) sin = 7 sin = 0.75 t = 7.98 (N3) (iii) depth < 7 from 8 11 = 3 hours from = 3 hours therefore, total = 6 hours (N3) (a) Angle [13] cm (C3) (b) Area 33. METHOD (accept 7.06) (C3) Note: Penalize once in this question for absence of units. Area sector OAB ON AN Area of Shaded area Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 16 of 39

17 METHOD 2 (C6) Area sector Area Twice the shaded area Shaded area 34. (a) (i) (ii) EITHER (C6) for THEN, (N4) 6 (b) (i) translation in the y-direction of 1 (ii) 1.11 (1.10 from TRACE is subject to AP) (A2) = p + q cos 0 3 = p + q 1 = p + q cos π 1 = p q (a) p = 1 (C3) (b) q = 2 (C3) 36. Method 1 [10] Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 17 of 39

18 0 (C2) 1.80 [3 sf] (G2) (C2) 2.51 [3 sf] (G2) (C2) Method 2 3x = ±0.5x + 2π (etc.) 3.5x = 0, 2π, 4π or 2.5x = 0, 2π, 4π 7x = 0, 4π, (8π) or 5x = 0, 4π, (8π) x = 0, or x = 0, x = 0,, (C2)(C2)(C2) 37. (a) area of sector ΑΒDC = π(2) 2 = π area of segment BDCP = π area of ΔABC = π 2 (C3) (b) BP = area of semicircle of radius BP = π( ) 2 = π 38. (a) area of shaded region = π (π 2) = 2 = q p (C3) = = 3 (b) cos Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 18 of 39

19 =, = = = 15 cos (AG) 4 (c) (i) Since + = 180 (R1) cos = cos (AG) (ii) sin = = cos θ = = (AG) therefore x 2 = = 529 x = 23 sin θ = (AG) Note: Award (A0) for the following solution. cos θ = θ = sin θ = = sin θ = (iii) Area of OPQR = 2 (area of triangle PQR) = 2 = 2 = 23 sq units. Area of OPQR = 2 (area of triangle OPQ) = 2 = 23 sq units. 7 Notes: Other valid methods can be used. Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 19 of 39

20 Award final for the integer answer. [14] 39. (a) Sine rule PR = (b) = 5.96 km 3 EITHER Sine rule to find PQ PQ = = 4.39 km Cosine rule: PQ 2 = (2)(5.96)(9) cos 25 = PQ = 4.39 km Time for Tom = Time for Alan = Then = a = (c) RS 2 = 4QS 2 4QS 2 = QS QS cos 35 3QS QS 81 = 0 (or 3x x 81 = 0) QS = 8.20 or QS = 3.29 (G1) therefore QS = 3.29 sin sin 35 = 16.7 Therefore, = 180 ( ) = QS = = [16] 40. (a) (i) cos, sin Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 20 of 39

21 therefore cos = 0 (AG) (ii) cos x + sin x = tan x = 0 tan x = l x = Note: Award (A0) for x = (G2) 3 (b) y = e x (cos x + sin x) = e x (cos x + sin x) + e x ( sin x + cos x) 3 = 2e x cos x (c) = 0 for a turning point 2e x cos x = 0 cos x = 0 x = a = y = e (cos + sin ) = e b = e 4 Note: Award (A0)(A0) for a = 1.57, b = (d) At D, = 0 2e x cos x 2e x sin x = 0 2e x (cos x sin x) = 0 cos x sin x = 0 x = y = e (cos + sin ) = e (AG) 5 (e) Required area = (cos x + sin x)dx = 7.46 sq units (G1) Αrea = 7.46 sq units (G2) 2 Note: Award (G0) for the answer 9.81 obtained if the calculator is in degree mode. [17] 41. (a) (i) A is (C2) (ii) B is (0, 4) Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 21 of 39

22 Note: In each of parts (i) and (ii), award C1 if A and B are interchanged, C1 if intercepts given instead of coordinates. (C2) (b) Area = 4 = (= 2.67) 42. (a) (3 sin x 2)(sin x 3) (C2) Note: Award if 3x 2 11x + 6 correctly factorized to give (3x 2)(x 3) (or equivalent with another letter). (b) (i) (3 sin x 2)(sin x 3) = 0 (C2) sin x = sin x = 3 (C2) (ii) x = 41.8, 138 (C2) Notes: Penalize [1 mark] for any extra answers and [1 mark] for answers in radians. ie Award A0 for 41.8, 138 and any extra answers. Award A0 for 0.730, Award A0 A0 for 0.730, 2.41 and any extra answers. 43. Note: Do not penalize missing units in this question. (a) AB 2 = cos 75 = 12 2 (2 2 cos 75 ) = (1 cos 75 ) AB = 12 (AG) 2 Note: The second is for transforming the initial expression to any simplified expression from which the given result can be clearly seen. (b) = 37.5 BP = 12 tan 37.5 = 9.21 cm = 105 = 37.5 BP = = 9.21(cm) 3 (c) (i) Area OBP = = 55.3 (cm 2 ) (accept 55.2 cm 2 ) (ii) Area ABP = (9.21) 2 sin105 = 41.0 (cm 2 ) (accept 40.9 cm 2 ) 4 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 22 of 39

23 (d) Area of sector = = 94.2 (cm 2 ) (accept 30π or 94.3 (cm 2 )) 2 (e) Shaded area = 2 area OPB area sector = 16.4 (cm 2 ) (accept 16.2 cm 2, 16.3 cm 2 ) Note: Do not penalize missing units in this question. (a) (i) At release(p), t = 0 s = cos 0 = 58 cm below ceiling (ii) 58 = cos 2πt cos 2πt = 1 t = 1sec t = 1sec (G3) 5 [13] (b) (i) = 20π sin 2πt Note: Award for 20π, and for sin 2πt. (ii) v = = 20π sin 2πt = 0 sin 2 πt = 0 t = 0,... (at least 2 values) s = cos 0 or s = cos π = 58 cm (at P) = 38 cm (20 cm above P) 7 Note: Accept these answers without working for full marks. May be deduced from recognizing that amplitude is 10. (c) cos 2πt = cos 4πt t = secs t = secs (G2) 2 (d) 12 times (G2) 2 Note: If either of the correct answers to parts (c) and (d) are missing and suitable graphs have been sketched, award (G2) for sketch of suitable graph(s); for t = 0.162; for (a) l = rθ or ACB = 2 OA = 30 cm (C2) (b) (obtuse) = 2π 2 [16] 46. Area = θ r 2 = (2π 2)(15) 2 = 482 cm 2 (3 sf) (C4) Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 23 of 39

24 (A2) = = 80 d 2 = cos 70 d = 78.5 km (C6) 47. (a) (i) 1 (C1) (ii) 4π (accept 720 ) (A2) (C2) (b) 48. number of solutions: 4 (G1) (A2) (C3) Statement (a) Is the statement true for all (b) If not true, example real numbers x? (Yes/No) A No x = l (log = 1) (a) (A3) (C3) B No x = 0 (cos 0 = 1) (b) (A3) (C3) C Yes N/A Notes: (a) Award for each correct answer. (b) Award (A) marks for statements A and B only if NO in column (a). Award (A2) for a correct counter example to statement A, for a correct counter example to statement B (ignore other incorrect examples). Special Case for statement C: Award if candidates write NO, and give a valid reason (eg arctan 1 = ). Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 24 of 39

25 49. (a) sin A = = (AG) 2 (b) (i) + = 180 (ii) sin A = => A = 59.0 or 121 (3 sf) => = 180 ( ) = 14.0 (3 sf) (iii) =>BD = (c) = (AG) 2 = (AG) 2 [10] 50. Using sine rule: sin B = sin 48 = B = arcsin (0.5308) = = 32 (nearest degree) (C6) Note: Award a maximum of [5 marks] if candidates give the answer in radians (0.560). Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 25 of 39

26 51. (a) x is an acute angle => cos x is positive. cos 2 x + sin 2 x = 1 => cos x = => cos x = = (= ) (C4) (b) cos 2x = 1 2 sin 2 x = 1 2 = Notes: (a) Award (M0)(A0) for (C2) cos = (b) Award (A0) for cos = (a) 2 sin 2 x = 2(1 cos 2 x) = 2 2 cos 2 x = l + cos x => 2 cos 2 x + cos x l = 0 (C2) Note: Award the first for replacing sin 2 x by 1 cos 2 x. (b) 2 cos 2 x + cos x 1 = (2 cos x 1)(cos x +1) (C1) (c) cos x = or cos x = l => x = 60, 180 or 300 (C3) Note: Award (A0) if the correct answers are given in radians (ie,π,, or 1.05, 3.14, 5.24) 53. (a) The smallest angle is opposite the smallest side. cos θ = = = Therefore, θ = 38.2 (C2) (b) Area = 8 7 sin 38.2 = 17.3 cm 2 (C2) 54. (a) 3 sin 2 x + 4 cos x = 3(1 cos 2 x) + 4cos x = 3 3 cos cos x (C1) [4] Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 26 of 39

27 (b) 3 sin 2 x + 4 cos x 4 = cos 2 x + 4 cos x 4 = 0 3 cos 2 x 4 cos x + 1 = 0 (3 cos x 1)(cos x 1) = 0 cos x = or cos x = 1 x = 70.5 or x = 0 (C3) Note: Award (C1) for each correct radian answer, ie x = 1.23 or x = = 90 AT = = [4] = 60 = Area = area of triangle area of sector = = 12.3 cm 2 (or 6π) (C4) = 60 Area of Δ = 6 12 sin 60 Area of sector = 6 6 Shaded area = 6π = 12.3 cm 2 (3 sf) (C4) 56. (a) (i) AP = (AG) [4] (ii) OP = 2 (b) = = (AG) 3 (c) For x = 8, = arccos = 38.7 (3 sf) = arctan (0.8) = 38.7 (3 sf) 2 (d) = 60 = 0.5 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 27 of 39

28 0.5 = 2x 2 16x + 80 = 0 x = 5.63 (G2) 4 (e) (i) f (x) = 1 when = 1 (R1) hence, when = 0. (R1) This occurs when the points O, A, P are collinear. (R1) (ii) The line (OA) has equation y = When y = 10, x = (= 13 ) x = (= 13 ) (G2) 5 Note: Award (G1) for [16] 57. (a) Area = (15 2 )(2) = 225 (cm 2 ) (C2) (b) Area OAB = 15 2 sin 2 = Area = = (cm 2 ) = 123 (3 sf) (C2) [4] 58. (a) = > 90 = = (b) In Triangle 1, = 64.3 = 116 (3 sf) (C2) = 180 ( ) = 65.7 Area = (20)(17) sin 65.7 = 155 (cm 2 ) (3 sf) (C2) 59. METHOD 1 The value of cosine varies between 1 and +1. Therefore: t = 0 a + b = 14.3 t = 6 a b = a = 24.6 a = 12.3 (C1) 2b = 4.0 b = 2 (C1) [4] Period = 12 hours = 2π METHOD 2 k = 12 (C2) Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 28 of 39

29 From consideration of graph: Midpoint = a = 12.3 (C1) Amplitude = b = 2 (C1) Period = = k = 12 (C2) [4] cos = arccos(0.0625) (a) 2 cos 2 x + sin x = 2(1 sin 2 x) + sin x = 2 2 sin 2 x + sin x (b) 2 cos 2 x + sin x = sin 2 x + sin x = 2 sin x 2 sin 2 x = 0 sin x(1 2 sin x) = 0 sin x = 0 or sin x = [4] sin x = 0 x = 0 or π (0 or 180 ) Note: Award for both answers. 62. (a) sin x = x = or (30 or 150 ) Note: Award for both answers. [4] Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 29 of 39

30 5 (b) π is a solution if and only if π + π cos π = 0. Now π + π cos π = π + π( 1) = 0 3 (c) By using appropriate calculator functions x = x = (6sf) 2 (d) See graph: 2 (e) EITHER = (6 sf) (A3) 3 Note: This answer assumes appropriate use of a calculator eg fnint : = π(π 0) + (π sin π 0 sin 0) + (cos π cos 0) = π = (6 sf) (a) (i) Q = ( ) [15] = 3.2 (ii) P = ( ) (M0) = (b) 10 = cos so = cos therefore arccos Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 30 of 39

31 which gives = t or t = t = 3.86(3 sf) 3 (c) (i) By symmetry, next time is = t = 8.14 (3 sf) (ii) From above, first interval is 3.86 < t < 8.14 This will happen again, 12 hours later, so 15.9 < t < cos x = 5 sin x [10] tan x = 0.6 x = 31 or x = 211 (to the nearest degree) (C2)(C2) Note: Deduct [1 mark] if there are more than two answers. 65. sin A = cos A = ± [4] But A is obtuse cos A = sin 2A = 2 sin A cos A = 2 = 66. (a) y = π sin x x (C4) [4] (A5) 5 Notes: Award for appropriate scales marked on the axes. Award for the x-intercepts at (±2.3, 0). Award for the maximum and minimum points at (±1.25, ±1.73). Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 31 of 39

32 Award for the end points at (±3, ±2.55). Award for a smooth curve. Allow some flexibility, especially in the middle three marks here. (b) x = (c) Required area = Note: Do not penalize for the absence of C. 67. (a) = (G1) area = (G2) 4 [10] Acute angle 30 Note: Award the for 30 and/or quadrant diagram/graph seen. 2nd quadrant since sine positive and cosine negative θ = 150 (C2) (b) tan 150 = tan 30 or tan 150 = tan 150 = 68. (a) = tan 36 (C2) [4] (b) PQ 29.1 m (3 sf) (C1) = 80 Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 32 of 39

33 Note: Award for correctly substituting. AB = m (3 sf) (C3) 69. Perimeter = 5(2π 1) + 10 Note: Award for working in radians; for 2π 1; for +10. = (10π + 5) cm (= 36.4, to 3 sf) (C4) 70. From sketch of graph y = 4 sin (M2) [4] [4] or by observing sin θ 1. k > 4, k < 4 (C2)(C2) 71. (a)(i) & (c)(i) [4] Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 33 of 39

34 (A3) Notes: The sketch does not need to be on graph paper. It should have the correct shape, and the points (0, 0), (1.1, 0.55), (1.57, 0) and (2, 1.66) should be indicated in some way. Award for the correct shape. Award (A2) for 3 or 4 correctly indicated points, for 1 or 2 points. (ii) Approximate positions are positive x-intercept (1.57, 0) maximum point (1.1, 0.55) end points (0, 0) and (2, 1.66) 7 (b) x 2 cos x = 0 x 0 cos x = 0 x = 2 Note: Award (A2) if answer correct. (c) (i) see graph (ii) cos x dx (A2) 3 Note: Award for limits, for rest of integral correct (do not penalize missing dx). (d) Integral = (G3) Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 34 of 39

35 Integral = = [ ] = 2 (exact) or (3 sf) (a) From graph, period = 2π 1 (b) Range = {y 0.4 < y < 0.4} 1 [15] (c) (i) f (x) = {cos x (sin x) 2 } = cos x (2 sin x cos x) sin x (sin x) 2 or 3 sin 3 x + 2 sin x Note: Award for using the product rule and for each part. (ii) f (x) = 0 sin x{2 cos x sin 2 x} = 0 or sin x{3 cos x 1} = 0 3 cos 2 x 1 = 0 cos x = ± At A, f (x) > 0, hence cos x = (R1)(AG) (iii) f (x) = = 9 (d) x = 1 (e) (i) (ii) Area = = 4 (f) At C f (x) = 0 9 cos 3 x 7 cos x = 0 cos x(9 cos 2 x 7) = 0 x = (reject) or x = arccos = (3 sf) Note: Award for identifying the largest angle. [20] cos α = = Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 35 of 39

36 α = Find other angles first β = 44.4 γ = 34.0 α = (C4) Note: Award (C3) if not given to the correct accuracy. 74. AB = rθ = = 21.6 = 8 cm (5.4) 2 θ = 21.6 θ = (= radians) [4] AB = rθ = 5.4 = 8 cm (C4) 75. (a) = 6 A is on the circle [4] = 6 B is on the circle. (b) = = 6 C is on the circle. 3 = = 2 (c) = = = Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 36 of 39

37 = as before using the triangle formed by vertical components: and its horizontal and 3 (d) Note: The answer is to 3 sf A number of possible methods here = = BC = ΔABC = = ΔABC has base AB = 12 and height = area = = Given = tan 2 x = [12] tan x = ± x = 30 or x = 150 (C2)(C2) 77. h = r so 2r 2 = 100 r 2 = 50 l = 10θ = 2πr [4] θ = Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 37 of 39

38 = θ = π = 4.44 (3sf) (C4) Note: Accept either answer. 78. (a) f (1) = 3 f (5) = 3 2 (b) EITHER distance between successive maxima = period = 5 1 = 4 (AG) Period of sin kx = ; [4] so period = = 4 (AG) 2 (c) EITHER A sin + B = 3 and A sin + B = 1 A + B = 3, A + B = 1 A = 2, B = 1 Amplitude = A A = A = 2 Midpoint value = B B = (AG) (AG) (d) f (x) = 2 sin + 1 B = 1 5 Note: As the values of A = 2 and B = 1 are likely to be quite obvious to a bright student, do not insist on too detailed a proof. f (x) = + 0 (A2) Note: Award for the chain rule, for, for 2 cos. = π cos 4 Notes: Since the result is given, make sure that reasoning is valid. In particular, the final is for simplifying the result of the chain rule calculation. If the preceding steps are not valid, this final mark should not be given. Beware of fudged results. (e) (i) y = k πx is a tangent π = π cos Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 38 of 39

39 1 = cos x = π or 3π or... x = 2 or 6... Since 0 x 5, we take x = 2, so the point is (2, 1) (ii) Tangent line is: y = π(x 2) + 1 y = (2π + 1) πx k = 2π (f) f (x) = 2 2 sin + 1 = 2 sin x = 5 [24] Macintosh HD:Users:balei:Dropbox:Desert:SL:3Trig:LP_SL2Trig12-13.doc on 09/28/2012 at 3:55 PM Page 39 of 39