A steel BB of mass m is shot from an air rifle, strikes horizontally with speed v an initially stationary steel block of mass M, collides el

A steel BB of mass m is shot from an air rifle, strikes horizontally with speed v an initially stationary steel block of mass M, collides elastically, and bounces off horizontally. The mass of the block is much larger than that of the BB. The block hangs by a rope like a pendulum and, as a result of the collision, swings and reaches a maximum height h.

1. Which statement best describes this collision as compared to other types collision?

a. The colliding bodies do not stick together
b. Kinetic energy is conserved in the collision
c. Momentum is conserved in the collision.
d. None of the statements describe the collision.
e. The colliding bodies stick together.

2. What is true about the speed at which the BB bounces off the block?
3. Now imagine that the BB is shot at twice the original speed. What happe the potential energy gained by the block at maximum height?
4. Now consider that the BB is shot at a speed that causes the maximum hei of the block to be half what it was in the first scenario. What statement is true about new situation compared to the original one?

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  1. Answer:

    1. Momentum is conserved in the collision.  

    Explanation:

    1. Which statement best describes this collision as compared to other types collision?

    a. The colliding bodies do not stick together

    b. Kinetic energy is conserved in the collision

    c. Momentum is conserved in the collision.  True

    d. None of the statements describe the collision.

    e. The colliding bodies stick together.

    The questions 2, 3 and 4 are not completed.

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