•P17 You throw a ball of mass 160 g upward (Figure 6.79). When the ball is 2 m above the ground, headed upward (the initial state), its speed is 19 m/s. Later, when the ball is again 2 m above the ground, this time headed downward (the final state), its speed is 19 m/s. What is the change in the kinetic energy of the ball from initial to final state?

College Physics
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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**Problem P17:**

You throw a ball of mass 160 g upward (Figure 6.79). When the ball is 2 m above the ground, headed upward (the initial state), its speed is 19 m/s. Later, when the ball is again 2 m above the ground, this time headed downward (the final state), its speed is 19 m/s. What is the change in the kinetic energy of the ball from initial to final state?

**Diagram Description:**

The diagram consists of two illustrations of a ball. 

1. On the left, the ball is moving upward, represented by an arrow pointing up, labeled as \( \vec{v}_i \).
2. On the right, the ball is moving downward, represented by an arrow pointing down, labeled as \( \vec{v}_f \).

Both scenarios depict the ball 2 meters above the ground.
Transcribed Image Text:**Problem P17:** You throw a ball of mass 160 g upward (Figure 6.79). When the ball is 2 m above the ground, headed upward (the initial state), its speed is 19 m/s. Later, when the ball is again 2 m above the ground, this time headed downward (the final state), its speed is 19 m/s. What is the change in the kinetic energy of the ball from initial to final state? **Diagram Description:** The diagram consists of two illustrations of a ball. 1. On the left, the ball is moving upward, represented by an arrow pointing up, labeled as \( \vec{v}_i \). 2. On the right, the ball is moving downward, represented by an arrow pointing down, labeled as \( \vec{v}_f \). Both scenarios depict the ball 2 meters above the ground.
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