(a) Explanation Given: The ball is dropped from the building and after 4.0 s, it hits the ground. Formula used: From the kinematic equation, v = u + a t Here, v is final velocity, u is initial velocity, a is acceleration, and t stands for time Calculation: A ball is dropped from a building hence its initial speed is zero. Gravitational acceleration acts on the ball downwardly so the ball hits the ground after 4.0sec. From the kinematic equation, v = u + a t substitute, u = 0 m/s , t = 4. 0 s and a = − g a = − 9 (b) To determine The average velocity of ball during the fall. (c) To determine Height of the building from where the ball is dropped.

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ISBN: 9781260411393

Author: Tillery

Publisher: MCG COURSE

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Chapter 2, Problem 17PEA

(a)

To determine

The final velocity of the ball when it hit the ground.

(b)

To determine

The average velocity of ball during the fall.

(c)

To determine

Height of the building from where the ball is dropped.

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Chapter 2, Problem 16PEA

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The final velocity of the ball when it hit the ground.

Solution Summary: The author calculates the final velocity of the ball when it hits the ground and the average velocity during the fall.

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The final velocity of the ball when it hit the ground.

The average velocity of ball during the fall.

Height of the building from where the ball is dropped.

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Chapter 2 Solutions