The figure shows a plot of force versus time during the collision of a 42.0 g tennis ball with a wall. The initial velocity of the ball is 27.0 m/s perpendicular to the wall; it rebounds with the same speed, also perpendicular to the wall. What is the maximum value of the contact force during the collision? Fmax € 4 6 Time (ms) Force (N) O O 2

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Transcribed Image Text:

**Collision Force Analysis of a Tennis Ball with a Wall** The figure illustrates a graph depicting the relationship between force and time during the collision of a 42.0 g tennis ball with a wall. The tennis ball approaches the wall with an initial velocity of 27.0 m/s, perpendicular to the wall, and rebounds with the same speed and direction. **Question:** What is the maximum value of the contact force during the collision? **Graph Explanation:** The graph provided is a force-time plot: - **Horizontal Axis (Time, in milliseconds, ms):** Ranges from 0 to 6 ms. - **Vertical Axis (Force, in Newtons, N):** Ranges from 0 to an unspecified maximum force \( F_{\text{max}} \). **Graph Characteristics:** - The graph starts at the origin (0,0). - The force increases linearly, reaching its peak at the midpoint of the collision time, which is 3 ms. - The peak force is denoted as \( F_{\text{max}} \). - After reaching the maximum, the force decreases linearly and returns to zero at 6 ms. This triangular shape indicates that the force rises steadily to its maximum value and then symmetrically decreases back to zero within the total collision time frame of 6 milliseconds.