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NSW HSC 2003 : MATHEMATICS EXTENSION-1

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2003 H I G H E R S C H O O L C E R T I F I C AT E E X A M I N AT I O N Mathematics Extension 1 General Instructions Reading time 5 minutes Working time 2 hours Write using black or blue pen Board-approved calculators may be used A table of standard integrals is provided at the back of this paper All necessary working should be shown in every question 411 Total marks 84 Attempt Questions 1 7 All questions are of equal value Total marks 84 Attempt Questions 1 7 All questions are of equal value Answer each question in a SEPARATE writing booklet. Extra writing booklets are available. Marks Question 1 (12 marks) Use a SEPARATE writing booklet. (a) Find the coordinates of the point P that divides the interval joining ( 3, 4) and (5, 6) internally in the ratio 1 : 3. (b) Solve (c) Evaluate lim (d) (e) 3 1. x 2 x 0 2 3 3x . sin 2 x 2 t A curve has parametric equations x = , y = 3t 2 . Find the Cartesian equation 2 for this curve. Use the substitution u = x 2 + 1 to evaluate 3 2 x dx . x2 + 1 3 0 ( 2 ) 2 Marks Question 2 (12 marks) Use a SEPARATE writing booklet. (a) Sketch the graph of y = 3 cos 1 2x. Your graph must clearly indicate the domain and the range. (b) Find ( ) d x tan 1 x . dx 1 0 1 2 (c) Evaluate (d) Find the coefficient of x4 in the expansion of 2 + x 2 (e) 2 x2 2 dx . 2 ( ) 5 . 2 (i) Express cos x sin x in the form R cos (x + ), where is in radians. 2 (ii) Hence, or otherwise, sketch the graph of y = cos x sin x for 0 x 2 . 2 3 Marks Question 3 (12 marks) Use a SEPARATE writing booklet. (a) How many nine-letter arrangements can be made using the letters of the word ISOSCELES? (b) 2 A particle moves in a straight line and its position at time t is given by x = 4 sin 2t + . 3 (i) Find the amplitude of the motion. 1 (iii) When does the particle first reach maximum speed after time t = 0? 1 (i) Explain why the probability of getting a sum of 5 when one pair of fair 1 dice is tossed is . 9 1 (ii) (d) 2 (ii) (c) Show that the particle is undergoing simple harmonic motion. Find the probability of getting a sum of 5 at least twice when a pair of dice is tossed 7 times. 2 Use mathematical induction to prove that 1 1 1 1 n = + + +L+ (2 n 1)(2 n + 1) 2 n + 1 1 3 3 5 5 7 for all positive integers n. 4 3 Marks Question 4 (12 marks) Use a SEPARATE writing booklet. (a) (b) (c) A committee of 6 is to be chosen from 14 candidates. In how many different ways can this be done? 2x The function f ( x ) = sin x has a zero near x = 1.5. Taking x = 1.5 as a first 3 approximation, use one application of Newton s method to find a second approximation to the zero. Give your answer correct to three decimal places. It is known that two of the roots of the equation 2x3 + x 2 kx + 6 = 0 are reciprocals of each other. Find the value of k. (d) 1 3 2 A Q P T C B R In the diagram, CQ and BP are altitudes of the triangle ABC. The lines CQ and BP intersect at T, and AT is produced to meet CB at R. Copy or trace the diagram into your writing booklet. (i) Explain why CPQB is a cyclic quadrilateral. 1 (ii) Explain why PAQT is a cyclic quadrilateral. 1 (iii) Prove that TAQ = QCB. 2 (iv) Prove that AR CB. 2 5 Marks Question 5 (12 marks) Use a SEPARATE writing booklet. (a) Find cos2 3 x dx . (b) The graph of f (x) = x 2 4x + 5 is shown in the diagram. 2 y (2, 1) x O (i) 1 (ii) Sketch the graph of the inverse function, g 1(x), of g(x), where g(x) = x 2 4x + 5, x 2. 1 (iii) State the domain of g 1(x). 1 (iv) (c) Explain why f (x) does not have an inverse function. Find an expression for y = g 1(x) in terms of x. 2 Dr Kool wishes to find the temperature of a very hot substance using his thermometer, which only measures up to 100 C. Dr Kool takes a sample of the substance and places it in a room with a surrounding air temperature of 20 C, and allows it to cool. After 6 minutes the temperature of the substance is 80 C, and after a further 2 minutes it is 50 C. If T(t) is the temperature of the substance after t minutes, then Newton s law of cooling states that T satisfies the equation dT = k ( T A) , dt where k is a constant and A is the surrounding air temperature. (i) Verify that T = A + Bekt satisfies the above equation. (ii) Show that k = (iii) Hence find the initial temperature of the substance. loge 2 , and find the value of B. 2 6 1 3 1 Marks Question 6 (12 marks) Use a SEPARATE writing booklet. (a) The acceleration of a particle P is given by the equation d2x 2 2 = 8x x + 4 , dt ( ) where x metres is the displacement of P from a fixed point O after t seconds. Initially the particle is at O and has velocity 8 ms 1 in the positive direction. (i) Show that the speed at any position x is given by 2(x 2 + 4) ms 1. 3 (ii) Hence find the time taken for the particle to travel 2 metres from O. 2 (b) 1 A p E B G 1 H D F q C In the diagram, ABCD is a unit square. Points E and F are chosen on AD and DC respectively, such that AEG = FHC, where G and H are the points at which BE and BF respectively cut the diagonal AC. Let AE = p, FC = q, AEG = and AGE = . (i) Express in terms of p, and in terms of q. 2 (ii) Prove that p + q = 1 pq. 2 (iii) Show that the area of the quadrilateral EBFD is given by 1 1 (iv) p p 1 + . 2 2(1 + p) What is the maximum value of the area of EBFD? 7 2 Marks Question 7 (12 marks) Use a SEPARATE writing booklet. (a) David is in a life raft and Anna is in a cabin cruiser searching for him. They are in contact by mobile telephone. David tells Anna that he can see Mt Hope. From David s position the mountain has a bearing of 109 , and the angle of elevation to the top of the mountain is 16 . Anna can also see Mt Hope. From her position it has a bearing of 139 , and the top of the mountain has an angle of elevation of 23 . The top of Mt Hope is 1500 m above sea level. H A 23 1500 m D 16 B Find the distance and bearing of the life raft from Anna s position. Question 7 continues on page 9 8 4 Marks Question 7 (continued) (b) A particle is projected from the origin with velocity v ms 1 at an angle to the horizontal. The position of the particle at time t seconds is given by the parametric equations x = vt cos y = vt sin 12 gt , 2 where g ms 2 is the acceleration due to gravity. (You are NOT required to derive these.) (i) Show that the maximum height reached, h metres, is given by 2 v 2 sin 2 . h= 2g (ii) (iii) v2 Show that it returns to the initial height at x = sin 2 . g Chris and Sandy are tossing a ball to each other in a long hallway. The ceiling height is H metres and the ball is thrown and caught at shoulder height, which is S metres for both Chris and Sandy. H S d The ball is thrown with a velocity v ms 1. Show that the maximum separation, d metres, that Chris and Sandy can have and still catch the ball is given by v2 d = 4 ( H S ) ( H S )2 , if v 2 4 g( H S ), and 2g d= v2 , g if v 2 4 g( H S ). End of paper 9 2 4 BLANK PAGE 10 BLANK PAGE 11 STANDARD INTEGRALS n x dx = 1 x dx = ln x, x > 0 ax e dx = 1 ax e , a 0 a cos ax dx = 1 sin ax, a 0 a sin ax dx 1 = cos ax, a 0 a 2 sec ax dx = 1 tan ax, a 0 a sec ax tan ax dx = 1 sec ax, a 0 a 1 dx 2 a + x2 = 1 x tan 1 , a 0 a a 1 dx 2 a x2 x = sin 1 , a > 0, a < x < a a 1 dx 2 x a2 = ln x + x 2 a 2 , x > a > 0 1 dx 2 x + a2 = ln x + x 2 + a 2 1 n +1 x , n 1; x 0, if n < 0 n +1 ( ) ( ) NOTE : ln x = loge x, x>0 12 Board of Studies NSW 2003

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Additional Info : New South Wales Higher School Certificate Mathematics Extension-1 2003
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