June 2010 (v1) QP - Paper 1 CIE Physics A-level.pdf - PMT UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS General Certificate of Education Advanced

June 2010 (v1) QP - Paper 1 CIE Physics A-level.pdf - PMT...

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This document consists of 24 printed pages. IB10 06_9702_11/5RP © UCLES 2010 [Turn over *0280134660* UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS General Certificate of Education Advanced Subsidiary Level and Advanced Level PHYSICS 9702/11 Paper 1 Multiple Choice May/June 2010 1 hour Additional Materials: Multiple Choice Answer Sheet Soft clean eraser Soft pencil (type B or HB is recommended) READ THESE INSTRUCTIONS FIRST Write in soft pencil. Do not use staples, paper clips, highlighters, glue or correction fluid. Write your name, Centre number and candidate number on the Answer Sheet in the spaces provided unless this has been done for you. There are forty questions on this paper. Answer all questions. For each question there are four possible answers A , B , C and D . Choose the one you consider correct and record your choice in soft pencil on the separate Answer Sheet. Read the instructions on the Answer Sheet very carefully. Each correct answer will score one mark. A mark will not be deducted for a wrong answer. Any working should be done in this booklet. PMT
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2 © UCLES 2010 9702/11/M/J/10 Data speed of light in free space, c = 3.00 × 10 8 m s 1 permeability of free space, μ 0 = 4 π × 10 7 H m 1 permittivity of free space, ε 0 = 8.85 × 10 12 F m 1 elementary charge, e = 1.60 × 10 19 C the Planck constant, h = 6.63 × 10 34 J s unified atomic mass constant, u = 1.66 × 10 27 kg rest mass of electron, m e = 9.11 × 10 31 kg rest mass of proton, m p = 1.67 × 10 27 kg molar gas constant, R = 8.31 J K 1 mol 1 the Avogadro constant, N A = 6.02 × 10 23 mol 1 the Boltzmann constant, k = 1.38 × 10 23 J K 1 gravitational constant, G = 6.67 × 10 11 N m 2 kg 2 acceleration of free fall, g = 9.81 m s 2 PMT
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3 © UCLES 2010 9702/11/M/J/10 [Turn over Formulae uniformly accelerated motion, s = ut + 2 2 1 at v 2 = u 2 + 2 as work done on/by a gas, W = p V gravitational potential, φ = – r Gm hydrostatic pressure, p = ρ gh pressure of an ideal gas, p = V Nm 3 1 < c 2 > simple harmonic motion, a = – ω 2 x velocity of particle in s.h.m., v = v 0 cos ω t v = ± ω 2 2 0 x x electric potential, V = r Q 0 4 ε π capacitors in series, 1 / C = 1 / C 1 + 1 / C 2 + . . . capacitors in parallel, C = C 1 + C 2 + . . . energy of charged capacitor, W = QV 2 1 resistors in series, R = R 1 + R 2 + . . . resistors in parallel, 1 / R = 1 / R 1 + 1 / R 2 + . . . alternating current/voltage, x = x 0 sin ω t radioactive decay, x = x 0 exp(– λ t ) decay constant, λ = 2 1 0.693 t PMT
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4 © UCLES 2010 9702/11/M/J/10 1 The S I unit for potential difference (the volt) is given, in base units, by A kg m A 1 s 3 . B m 2 A 1 s 2 . C kg m 2 s 2 . D kg m 2 A 1 s 3 . 2 The product of pressure and volume has the same S I base units as A energy. B force. C area force . D length force . 3 An ion is accelerated by a series of electrodes in a vacuum. A graph of the power supplied to the ion is plotted against time. What is represented by the area under the graph between two times? A the change in kinetic energy of the ion B the average force on the ion C the change in momentum of the ion D the change in velocity of the ion Space for working PMT
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5 © UCLES 2010 9702/11/M/J/10 [Turn over 4 The diagram shows a square-wave trace on the screen of a cathode-ray oscilloscope. A grid of 1 cm squares covers the screen. The time-base setting is 10
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