11. An object initially at rest explodes into three pieces as shown in the after collision diagram below. After the explosion (collision), object m3 has the velocity shown in the figure. Assume the three objects are an isolated system. m,=1.5 kg m,=0.50 kg m=1.5 kg c. Determine the after collision momentum of m1. -25 mis
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- On a frictionless air track, a 0.175 kgkg glider moving at 1.20 m/sm/s to the right collides with and sticks to a stationary 0.275 kgkg glider. 1.What is the net momentum of this two-glider system before the collision? Use coordinates where +xx is in the direction of the initial motion of the lighter glider. 2.What must be the net momentum of this system after the collision? 3.Use your answers in Parts A and B to find the speed of the gliders after the collision. Is kinetic energy conserved during the collision?15. Each of the following scenarios involves a system containing 2 objects. In which of the scenarios is the total momentum of the 2 object system constant? (Assume that both the ice rink and the surface of the air track are frictionless) i. A ball bounces elastically off the wall of a building. ii. Two kids shove each other on very slippery ice skating rink A basketball player is standing with her feet stationary on the ground and catches a ball. iii. iv. Two gliders on a horizontal air track collide and stick together during the collision V. Two gliders on a horizontal air track collide and bounce off each other elastically A) i, ii and iv B) ii, iv, v C) i, iii D) i, iii, iv, v E) iv, v8. On a frictionless air track, a 0.15 kg glider moving at 1.2 m/s to the right collides with and sticks to a stationary 0.25 kg glider (a) What is the net momentum of this two-glider system before the collision? (b) What must be the net momentum of this system after the collision? (c) Use your answers in parts (a) and (b) to find the speed of the gliders after the collision. (d) Is kinetic energy conserved during the collision?
- 3. A baseball with a mass of 0.14kg is traveling horizontally with a speed of 42m/s and is hit by a bat. After the collision the ball moves with an angle phi = 35º above its incident path, and with a speed of 50m/s.a) Determine the impulse (force) exerted on the ball.b) Assuming the collision lasts 1.5ms, what is the average force?c) Determine the change in momentum of the bat.1. Two toy cars have the masses and velocities shown in the diagram below. Before the collision V 4 m/s V 5 m/s + 4 kg 2 kg After the V 0.5 m/s V- ? collision 4 kg 2 kg A) Calculate the momentum of the center of mass (potal) of the car-car system P+oral= m V B) Calculate the impulse of the 4 kg car. C) Calculate the final velocity of the 2 kg car. D) The cars collided for a time of 0.5 seconds. How much force did the 4kg car exert on the 2kg car?A truck (m=5000 kg) initially moving at 5 m/s slams into the back of a car (m=1,000 kg) that is sitting at an intersection. The bumpers lock, and the two vehicles move off together. Which vehicle experiences the larger impulse during in the collision? A. The truck. B. The car. C. The impulses are the same. v-5 m/s 00-00-0 m=5,000 kg m=1,000 kg
- 3. This problem refers to the figure below: mmm There are 3 identical bobs of mass m hanging side-by-side. Two are then lifted to a height of h and released. The collisions in this problem are elastic. Answer the following questions: (a) Let's call the initial and final state immediately before and after the collision, respectively. Write down the initial momentum and kinetic energy of the system in terms of m and h. (b) Show that, after the collision, the left and center bobs rise to height h while the right bob becomes stationary. In particular, show that the center bob acts as if it were swinging freely as a lone pendulum.A 2.0-kg ball moving eastward at 3.0 m/s suddenly collides with and sticks to a 4.0- kg ball moving westward at 2.0 m/s. What is the magnitude of the momentum of this system just after the collision, if the collision the two balls stick together? a) 4.0 kg. m/s b) 2.0 kg. m/s c) 14 kg-m/s d) 6.0 kg. m/s e) 10 kg. m/s Of) 8.0 kg. m/sTwo particles with different initial momentum collide and stick to each other. Compared to before the collision, the system of two objects after the collision has? Explain. A. Less total momentum and less kinetic energy B. Less total momentum but the same amount of total kinetic energy. C. Not enough information is given to decide. D. The same amount of total momentum and the same total kinetic energy. E. The same amount of total momentum, but less total kinetic energy.
- movement. 12. A small car meshes with a large truck in a head-on collision. Which of the following statements concerning the momentum during the collision are correct? * a. The momentum of the car-truck system is conserved, but the momentum of each one separately is not conserved. b. The momentum of the truck is conserved. c. The momentum of the truck and the car are each conserved. O d. The momentum of the car is conserved. O e. The car and truck must undergo the same change in speed. hp 7. 8Two billiard balls collide in an elastic collision. Which statement about total energy and momentumof the two balls is true?a) both the energy and momentum of the system are conservedb) neither the energy nor momentum of the system are conservedc) the energy of the system is conserved, but the momentum is notd) the momentum of the system is conserved, but the energy is not1. A0.12-kg ball is moving at 6 m's when it is hit by a bat, causing it to reverse direction and have a speed of 14 m/s. What is the magnitude of the change in the momentum of the ball? a. 0.39 kg m's b. 0.42 kg-m's c. 1.3 kg-m's d. 2.4 kg-m's 2. Alex throws a 0.15-kg rubber ball down onto the floor. The ball's speed just before impact is 6.5 m/s, and just after is 3.5 m's. What is the magnitude of the change in the ball's momentum? a. 0.09 kg-m/s b. 1.5 kg-m/s c. 4.3 kg-m/s d. 126 kg -m/s