A 2.00-g particle moving at 5.40 m/s makes a perfectly elastic head-on collision with a resting 1.00-g object. (Assume the 2.00-g particle ismoving in the positive direction before the collision. Indicate the direction with the sign of your answer.)(a) Find the velocity of each particle after the collision.2.00-gparticle1.00-gparticle0.90Apply momentum conservation and assume a head-on elastic collision to find the final velocities from the initialvelocities. m/s3.60Apply momentum conservation and assume a head-on elastic collision to find the final velocities from the initialvelocities. m/s(b) Find the velocity of each particle after the collision if the stationary particle has a mass of 10.0 g.2.00-gparticle10.0-gparticle0.00081Apply momentum conservation and assume a head-on elastic collision to find the final velocities from the initialvelocities. m/s0.000073Apply momentum conservation and assume a head-on elastic collision to find the final velocities from the initialvelocities. m/s(c) Find the final kinetic energy of the incident 2.00-g particle in the situations described in parts (a) and (b).KE in part (a)KE in part (b)JJ

Answered: Image /qna-images/answer/269f696a-af70-4127-9c28-ec662ae1f751.jpg

Answered: A 2.00-g particle moving at 5.40 m/s…

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter9: Momentum And Its Conservation

Section: Chapter Questions

Problem 70A

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A car crashes into a large tree that does not move. The car goes from 30 m/s to 0 in 1.3 m. (a) What impulse is applied to the driver by the seatbelt, assuming he follows the same motion as the car? (b) What is the average force applied to the driver by the seatbelt?
(a) At what speed would a 2.00104 -kg airplane have to fly to have a momentum of 1.60109kgm/s (the same as the ship's momentum in the problem above)? (b) What is the plane's momentum when it is taking off at a speed of 60.0 m/s? (c) If the ship is an aircraft carrier that launches these airplanes with a catapult, discuss the implications of your answer to (b) as it relates to recoil effects of the catapult on the ship.
(a) What is the mass of a large ship that has a momentum of 1.60109kgm/s, when the ship is moving at a speed of 48.0 km/h? (b) Compare the ship's momentum to the momentum of a 1100-kg artillery shell fired at a speed of 1200 m/s.
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In a “Top Fail” video (https://openstaxcollege.org/l/21topfailvideo), two women run at each other and collide by hitting exercise balls together. If each woman has a mass of 50 kg, which includes the exercise ball, and one woman runs to the right at 2.0 m/s and the other is running toward her at 1.0 m/s, (a) how much total kinetic energy is there in the system? (b) If energy is conserved after the collision and each exercise ball has a mass of 2.0 kg, how fast would the balls fly off toward the camera?
Initially, ball 1 rests on an incline of height h, and ball 2 rests on an incline of height h/2 as shown in Figure P11.40. They are released from rest simultaneously and collide in the trough of the track. If m2 = 4 m1 and the collision is elastic, find an expression for the velocity of each ball immediately after the collision. FIGURE P11.40 Problems 40 and 41.
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