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A Ball of Mass M and Velocity 1 Collides

Question 71

Multiple Choice

A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero A ball of mass m and velocity A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero 1 collides with and sticks to a ball of mass M and velocity A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero 2. If the pair moves on with velocity A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero , the impulse given the ball of mass m during the collision must have been


A) m( A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero - A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero 1)
B) m( A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero + A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero 1)
C) (m + M) A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero
D) (m + M) ( A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero - A ball of mass m and velocity <sub>1</sub> collides with and sticks to a ball of mass M and velocity <sub>2</sub>. If the pair moves on with velocity , the impulse given the ball of mass m during the collision must have been A) m( - <sub>1</sub>) B) m( + <sub>1</sub>) C) (m + M) D) (m + M) ( - <sub>2</sub>) E) zero 2)
E) zero

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