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These are the notes of Exam Paper of Physics. Key important points are: Electrostatic Induction, Gravitational Force, Air Resistance, Uniform Density, Rotational Kinetic Energy, Potential Energy, Electric Field Lines, Intensity of Wave
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PLEASE PRINT CLEARLY IN BLOCK LETTERS. Family Name:________________________________Given Name:_______________________ Home Address:_________________________________________________________________ _________________________________________ Postal Code:______________ Telephone: ( )____________________ E-mail: __________________________________ School: ____________________________________________________________ Grade:_____ Physics Teacher: _______________________________________________________________ Date of Birth: ___________________________ Sex: Male Female Citizenship: ______________________________________________________ or Immigration Status:_____________________________________________________________ For how many years have you studied in a Canadian school? ____________________________ Would you prefer the further correspondence in French or English? _______________________
Canadian Association of Physicists 2008 Prize Exam This is a three-hour exam. National ranking and prizes will be based on a student’s performance on sections A, B, and C of the exam. Performance on the questions in part A will be used to determine whose written work in parts B and C will be marked for prize consideration by the CAP Exam National Committee. Part A consists of twenty multiple- choice questions; part B consists of three questions that require graphic solution. The problems in part C can also require graphing. The questions in part C have a range of difficulty. Do be careful to gather as many of the easier marks as possible before venturing into more difficult territory. If an answer to part (a) of a question is needed for part (b), and you are not able to solve part (a), assume a likely solution and attempt the rest of the question anyway. No student is expected to complete this exam and parts of each problem may be very challenging. Non-programmable calculators may be used. Please be careful to answer the multiple-choice questions on the answer card/sheet provided; most importantly, write your solutions to the three long problems on three separate sheets as they will be marked by people in different parts of Canada. Good luck. Data Speed of light c = 3.00x10^8 m/s Gravitational constant G = 6.67x10-^11 N·m^2 /kg^2 Acceleration due to gravity g = 9.80 m/s^2 Density of fresh water ρ = 1.00x10^3 kg/m^3 Specific heat capacity for water c = 4.19x10^3 J/(kg·K) The normal atmospheric pressure P 0 = 1.01x10^5 Pa Fundamental charge e =1.60x10-^19 C Mass of electron me = 9.11x10-^31 kg Mass of proton mp = 1.67x 10-^27 kg Planck’s constant h = 6.63x10-^34 J·s Coulomb’s constant 1/(4π ε 0 ) = 8.99x10^9 N·m^2 /C^2 Boltzmann constant k = 1.38x10-^23 J/K Part A: Multiple Choice Question 1 The Figure on the right shows the electric field lines for two point objects separated by a small distance. The charges q 1 and q 2 can be identified as (a) q 1 is positive; q 2 is negative; q 1 /q 2 = - 3; (b) q 1 is negative; q 2 is positive; q 1 /q 2 = - 3 ; (c) q 1 is positive; q 2 is negative; q 1 /q 2 = - 1/3; (d) q 1 is negative; q 2 is positive; q 1 /q 2 = - 1/3; (e) q 1 is zero with charges redistributed over the surface of the object 1 due to electrostatic induction; q 2 is positive.
Question 2 As a simple pendulum swings back and forth, the forces acting on the suspended object may produce positive work, negative work or produce no work. Which of the forces if any from the listed three below does no work on the pendulum? (a) Tension. (b) Air resistance. (c) Gravitational force. (d) All the forces above do no work on the pendulum. (e) All the forces above do work on the pendulum.
Question 3 A baseball bat is made of wood of uniform density. The bat is cut at the location of its centre of mass, as shown. Which of the following is true? (a) The piece on the right has the smaller mass; (b) The piece on the left has the smaller mass; (c) Both pieces have the same mass; (d) Impossible to determine without knowledge of the wood density. ________________________________________________ Question 4 A section of a hollow pipe and a solid cylinder have the same radius, mass and length. They both rotate about their long central axes with the same angular speed. Which of the following is true? (a) The pipe has a higher rotational kinetic energy. (b) The solid cylinder has a higher rotational kinetic energy. (c) They have the same rotational kinetic energy. (d) Impossible to determine without numerical data for radii, masses and lengths of the pipe and cylinder.
Question 5 In a comet-Sun system, the position of the comet closest to the Sun is called perihelion, and the position of the comet farthest from the Sun is called aphelion. The two quantities that both have their highest values when the comet is in perihelion are: (a) the acceleration and the potential energy of the comet; (b) the speed and the potential energy of the comet-Sun system; (c) the speed and the acceleration of the comet; (d) the acceleration and the total energy of the comet-Sun system.
v B Y X Slit Position on the screen Intensit yy
Question 16 If only one external force acts on an object, (a) it always changes the kinetic energy of the object; (b) it always changes the speed of the object; (c) it always changes the momentum of the object.
Question 17 A square conductive frame is moving in the vertical YX plane at a constant velocity v through a region of uniform magnetic field B directed perpendicular to the plane of the frame as shown in the figure. Does charge separation occur in the frame? (a) Yes, with the top positive. (b) Yes, with the top negative. (c) No. (d) Yes, with the left side negative. (e) Yes, with the left side positive. ________________________________________________ Question 18 A person spear-fishing from a boat sees a stationary fish a few meters away in a direction about 30o^ below the horizontal. The index of refraction of the water is 1.34. Assume the dense spear does not change direction when it enters the water. To spear the fish, the person should (a) aim above where he sees the fish; (b) aim precisely at the fish; or (c) aim below the fish?
Question 19 A spacecraft built in the shape of a sphere moves past an observer on the Earth with a speed of 0.5c. Approximately what shape does the observer measure for the spacecraft as it goes by? (a) A sphere. (b) A cigar shape, elongated along the direction of motion. (c) A round ”pillow” shape, flattened along the direction of motion. (d) A conical shape, pointing in the direction of motion. ________________________________________________ Question 2 0 One litre of water in a light thin-walled vessel is heated up under atmospheric pressure by an electric heater with unknown power rating. Initially the temperature of the water is 20 oC. After the temperature becomes 60 oC, it stops increasing, while the heater is still on. As the heater is unable to boil water, it is turned off. During the first 20 seconds the water becomes 2 degrees cooler. Estimate the power output of the heater. (a) 8.40 W. (b) 420 W. (c) 1260 W. (d) 8400 W. Part B: Questions that require graphical solutions Question 1 A car accelerates uniformly along a curved horizontal road, moving from left toward right, as it is seen from a helicopter. Draw (I) the vectors representing the forces exerted by the road on the car at points A and B; (II) the vector of velocity at point C. ________________________________________ Question 2 Single-slit diffraction is observed with an interference pattern on a screen behind a slit for a red light source. The red light source is then replaced by a violet light source of same intensity, without any changes to distances and the slit width. Use the “Intensity/Position” system of coordinates as on the Figure below, to sketch the interference pattern on the screen for the two sources of light. If you think that the patterns are identical, show just one pattern. If you think that the two sources produce different patterns on the screen, make it clear which pattern corresponds to a given colour
Figure 3C Fig.1C
Question 3 A skydiver jumps out of a plane at an altitude of 2000 m and begins her descent. At 1500 m, the skydiver reaches her terminal speed of 55 m/s. When the skydiver descends to a height of 500 m from the ground, she deploys her parachute which rapidly slows her down to 5 m/s to ensure a safe landing. Qualitatively, sketch the (vertical) speed of the skydiver as a function of height above ground starting just after she jumps out of the plane and finishing just before she lands. ____________________________________________ Part C: Problems Problem 1 A stepladder of negligible weight is constructed as shown in Figure 1C. A painter of mass 70.0 kg stands on the ladder 3.00 m from the bottom. Assuming the floor is frictionless, find (a) the tension in the horizontal bar connecting the two halves of the ladder, (b) the normal forces at A and B , and (c) the components of the reaction force at the single hinge C that the left half of the ladder exerts on the right half. Problem 2 Two horizontal metal plates, each 100 mm square, are aligned 10.0 mm apart, with one above the other. They are given equal-magnitude charges of opposite sign so that a uniform downward electric field of 2 000 N/C exists in the region between them. A particle of mass 2.0 0 × 10 –^16 kg and with a positive charge of 1.00 × 10 –^6 C leaves the centre of the bottom negative plate with an initial speed of 1.00 × 105 m/s at an angle of 37.0° above the horizontal. (a) Find the trajectory of the particle. (b) Which plate does it strike? (c) Where does it strike, relative to its starting point? ______________________________________________ Problem 3 In the arrangement shown in Figure 3C, an object is hung from a string (with linear mass density μ=0.00200 kg/m) that passes over a light pulley. The string is connected to a vibrator (of constant frequency f ), and the length of the string between point P and the pulley is L = 2.00 m. When the mass m of the object is either 16.0 kg or 25.0 kg, standing waves are observed; however, no standing waves are observed with any mass between these values. The speed of a transverse wave in a string experiencing the tension T , is given by: v = T /μ. (a) What is the frequency of the vibrator? (b) What is the total number of nodes observed along the compound string at this frequency, excluding the nodes at the vibrator and the pulley? (c) What is the largest object mass for which standing waves could be observed?