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GCE JAN 2011 : AS, M1: Mechanics 1

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ADVANCED SUBSIDIARY (AS) General Certificate of Education January 2011 Mathematics assessing Module M1: Mechanics 1 AMM11 Assessment Unit M1 [AMM11] WEDNESDAY 19 JANUARY, AFTERNOON TIME 1 hour 30 minutes. INSTRUCTIONS TO CANDIDATES Write your Centre Number and Candidate Number on the Answer Booklet provided. Answer all seven questions. Show clearly the full development of your answers. Answers should be given to three significant figures unless otherwise stated. You are permitted to use a graphic or scientific calculator in this paper. INFORMATION FOR CANDIDATES 111534 The total mark for this paper is 75 Figures in brackets printed down the right-hand side of pages indicate the marks awarded to each question or part question. Answers should include diagrams where appropriate and marks may be awarded for them. Take g = 9.8 m s 2, unless specified otherwise. A copy of the Mathematical Formulae and Tables booklet is provided. 6223 Answer all seven questions. Show clearly the full development of your answers. Answers should be given to three significant figures unless otherwise stated. 1 Fig. 1 below shows four forces acting along the sides of a parallelogram ABCD. 8N B C 6N 5N 40 A D 10 N Fig. 1 (i) Find the magnitude of the resultant of these forces. (ii) Find the angle this resultant makes with the side AD. 2 [7] [2] From a point P, a rocket is fired vertically upwards with an initial speed of u m s 1 P is 20 m above horizontal ground. The rocket reaches a maximum height of 64.1 m above the ground. (i) Find u. (ii) Find the total time it takes for the rocket to reach the ground. 6223 [4] [5] 2 [Turn over 3 Fig. 2 below shows two blocks of mass 2m kg and 4m kg connected by a light inextensible string which passes over a smooth fixed pulley. 2m 4m Fig. 2 The system is released from rest. (i) Draw a diagram showing all the external forces acting on the blocks. (ii) Find the acceleration of the blocks. 4 [2] [5] Take g = 10 m s 2 in this question. A pile driver of mass 150 kg is used to drive a pile of mass 75 kg into the ground. The pile driver is released from rest, 11.25 m vertically above the pile. (i) Show that the speed with which the pile driver hits the pile is 15 m s 1 [3] (ii) Find the common speed of the pile and pile driver after the impact. [4] The pile driver and pile come to rest 0.1 s after the impact. (iii) Find the resistance exerted by the ground. 6223 3 [5] [Turn over 5 A particle moves in a straight line such that its velocity, v m s 1, at time t seconds is given by v = 16t 3t2 (i) Find the times at which the particle is momentarily at rest. [3] When t = 0 the particle s displacement from a fixed origin, O, is 10 m. (ii) Find an expression for the displacement of the particle from O at any time t. (iii) Find the distance travelled by the particle in the first second of its motion. [2] (iv) Find the maximum velocity of the particle. 6223 [4] [6] 4 [Turn over 6 Fig. 3 below shows a skier of mass 78 kg being pulled up a smooth slope by a rope. The slope is inclined at an angle of 20 to the horizontal. The rope is inclined at an angle of 60 to the slope. 20 Fig. 3 Model the skier as a particle. (i) Draw a diagram showing all the external forces acting on the skier. [2] The skier is moving at a constant speed of 2 m s 1 (ii) Find the tension in the rope. [4] When the skier is 26 m from the bottom of the slope, she lets go of the rope. (iii) Find the speed of the skier when she reaches the bottom of the slope. 6223 5 [5] [Turn over 7 Fig. 4 below shows a non-uniform ladder, AB, resting in equilibrium against the top of a smooth vertical wall. The ladder touches the wall at a point C. The end A rests on rough horizontal ground. The coefficient of friction between the ladder and the ground is . The ladder makes an angle of 60 with the horizontal. B C 60 A Fig. 4 The mass of the ladder is 10 kg. AB = 8 m. AC = 7 m. (i) Draw a diagram showing all the external forces acting on the ladder. [2] The reaction between the ladder and the wall at C is 39.2 N. (ii) By taking moments about A find the distance of the centre of mass of the ladder from A. [4] (iii) Find . [6] THIS IS THE END OF THE QUESTION PAPER 6223 6 [Turn over 6223 7 [Turn over Permission to reproduce all copyright material has been applied for. In some cases, efforts to contact copyright holders may have been unsuccessful and CCEA will be happy to rectify any omissions of acknowledgement in future if notified. 111534 6223 8 [Turn over

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Additional Info : Gce Mathematics January 2011 Assessment Unit M1 Module M1 : Mechanics 1
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