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1. Which of the following equations can be used to directly calculate an object s momentum, p? (1 point) p = mv PHYSA_U3_Q2_question1 p = Fdeltat deltap = Fdeltat 2. What are the SI units for momentum? (1 point) N·m J kg·m/s kg·m/s2 3. The change in an object s momentum is equal to (1 point) the product of the mass of the object and the time interval. the product of the force applied to the object and the time interval. the time interval divided by the net external force. the net external force divided by the time interval. 4. The impulse experienced by a body is equivalent to the body s change in (1 point) velocity. kinetic energy. momentum force. 5. Which of the following statements properly relates the variables in the equation Fdeltat = deltap? (1 point) A large constant force changes an object s momentum over a long time interval. A large constant force acting over a long time interval causes a large change in momentum. A large constant force changes an object s momentum at various time intervals. A large constant force does not necessarily cause a change in an object s momentum. 6. A 75 kg person walking around a corner bumped into an 80 kg person who was running around the same corner. The momentum of the 80 kg person (1 point) increased. decreased. remained the same. was conserved. 7. A 20 kg shopping cart moving at a velocity of 0.5 m/s collides with a store wall and stops. The momentum of the shopping cart (1 point) increases. decreases. remains the same. is conserved. 8. A billiard ball collides with a second identical ball in an elastic head-on collision. What is the kinetic energy of the system after the collision compared with the kinetic energy before the collision? (1 point) unchanged one-fourth as great two times as great four times as great 9. Which of the following best describes the momentum of two bodies after a two-body collision if the kinetic energy of the system is conserved? (1 point) must be less must also be conserved might also be conserved is doubled in value 10. A 90 kg halfback runs north and is tackled by a 120 kg opponent running south at 4 m/s. The collision is perfectly inelastic. Just after the tackle, both players move at a velocity of 2 m/s north. Calculate the velocity of the 90 kg player just before the tackle. (1 point) 10 m/s south 5 m/s north 10 m/s north 7.5 m/s south 11. If two carts collide, what type of collision will conserve both momentum and kinetic energy?” (1 point) head on perfectly inelastic none perfectly elastic