Physics 11 Fall 2012 Practice Problems 4

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Physics 11 Fall 2012 Practice Problems 4 1. Under what conditions can all the initial kinetic energy of an isolated system consisting of two colliding objects be lost in a collision? Explain how this result can be, and yet the momentum of the system can be conserved? 1

2. Bored, a boy shoots his pellet gun at a piece of cheese that sits on a massive block of ice. On one particular shot, his 1.2 g pellet gets stuck in the cheese, causing it to slide 25 cm before coming to a stop. If the muzzle velocity of the gun is known to be 65 m/s and the cheese has a mass of 120 g, what is the coefficient of friction between the cheese and the ice? 2

3. Most geologists believe that the dinosaurs became extinct 65 million years ago when a large comet or asteroid struck the earth, throwing up so much dust that the sun was blocked out for a period of many months. Suppose an asteroid with a diameter of 2.0 km and a mass of 1.0 10 13 kg hits the earth with an impact speed of 4.0 10 4 m/s. (a) What is the earth s recoil speed after such a collision? (Use a reference frame in which the earth was initially at rest.) (b) What percentage is this of the earth s speed around the sun? 3

4. A proton of mass m is moving with initial speed v 0 directly toward the center of an α particle of mass 4m, which is initially at rest. Both particles carry positive charge, so they repel each other. (The repulsive forces are sufficient to prevent the two particles from coming into direct contact.) Find the speed v α of the α particle (a) when the distance between the two particles is a minimum, and (b) later when the two particles are far apart. 4

5. Show that in a one-dimensional elastic collision, if the mass and velocity of object 1 are m 1 and v 1i, and if the mass and velocity of object 2 are m 2 and v 2i, then their final velocities v 1f and v 2f are given by v 1f = m 1 m 2 m 1 + m 2 v 1i + 2m 2 m 1 + m 2 v 2i and v 2f = 2m 1 m 1 + m 2 v 1i + m 2 m 1 m 1 + m 2 v 2i. 5

6. A bullet of mass m 1 is fired horizontally with a speed v 0 into the bob of a ballistic pendulum of mass m 2. The pendulum consists of a bob attached to one end of a very light rod of length L. The rod is free to rotate about a horizontal axis through its other end. The bullet is stopped in the bob. Find the minimum v 0 such that the bob will swing through a complete circle. 6

7. The light isotope, 5 Li, of lithium is unstable and breaks up spontaneously into a proton and an α particle. In this process, 3.15 10 13 J of energy are released, appearing as the kinetic energy of the two decay products. Determine the velocities of the proton and the α particle that arise from the decay of a 5 Li nucleus at rest. (Note: The masses of the proton and the alpha particle are m p = 1.67 10 27 kg and m α = 4m p = 6.64 10 27 kg.) 7

8. In a pool game, the cue ball, which has an initial speed of 5.0 m/s, makes an elastic collision with the eight ball, which is initially at rest. After the collision, the eight ball moves at an angle of 30 to the right of the original direction of the cue ball. Assume that the balls have equal mass. (a) Find the direction of motion of the cue ball immediately after the collision. (b) Find the speed of each ball immediately after the collision. 8

9. In the slingshot effect, the transfer of energy in an elastic collision is used to boost the energy of a space probe so that it can escape from the solar system. All speeds are relative to an inertial frame in which the center of the Sun remains at rest. The figure shows a space probe moving at 10.4 km/s toward Saturn, which is moving at 9.6 km/s toward the probe. Because of the gravitational attraction between Saturn and the probe, the probe swings around Saturn and heads back in the opposite direction with speed v f. (a) Assuming this collision to be a one-dimensional elastic collision with the mass of Saturn much much greater than that of the probe, find v f. (b) By what factor is the kinetic energy of the probe increased? Where does this energy come from? 9

10. A neutron of mass m makes an elastic head-on collision with a stationary nucleus of mass M. (a) Show that the kinetic energy of the nucleus after the collision is given by K nucleus = [ 4mM/ (m + M) 2 ] K n, where K n is the initial kinetic energy of the neutron. (b) Show that the fractional change in the kinetic energy of the neutron is given by K n K n = 4 (m/m) (1 + [m/m]) 2. (c) Show that this expression gives plausible results both if m M and if m = M. What is the best stationary nucleus for the neutron to collide head-on with if the objective is to produce a maximum loss in kinetic energy of the neutron? 10

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