- (III) Suppose the force acting on a tennis ball (mass 0.060 kg) points in the +x direction and is given by the graph of Fig. 7-33 as a function of time. (a) Use graphical methods (count squares) to estimate the total impulse given the ball. (b) Estimate the velocity of the ball after being struck, assuming the ball is being served so it is nearly at rest 2 initially. [Hint: See Section 6–2.] 300 200 100 FIGURE 7-33 0.05 0.10 Problem 23. t (s)

- (III) Suppose the force acting on a tennis ball (mass 0.060 kg) points in the +x direction and is given by the graph of Fig. 7-33 as a function of time. (a) Use graphical methods (count squares) to estimate the total impulse given the ball. (b) Estimate the velocity of the ball after being struck, assuming the ball is being served so it is nearly at rest 2 initially. [Hint: See Section 6–2.] 300 200 100 FIGURE 7-33 0.05 0.10 Problem 23. t (s)

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

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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Question

- (III) Suppose the force acting on a tennis ball (mass
0.060 kg) points in the +x direction and is given by the
graph of Fig. 7-33 as a function of time. (a) Use graphical
methods (count squares) to estimate the total impulse given
the ball. (b) Estimate the
velocity of the ball after
being struck, assuming
the ball is being served
so it is nearly at rest 2
initially. [Hint: See
Section 6–2.]
300
200
100
FIGURE 7-33
0.05
0.10
Problem 23.
t (s)

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