While the one friend is timing the flight of the ball, you have another friend measuring the maximum height of the ball. Before the throw, you all made height marks up a wall. You are going to throw standing in front of this wall so your friend can stand at a distance and see how high up the wall the ball travels. Your friend sees the ball reach the 21.5 meter mark. Using the maximum height of the ball instead of the time of flight, what initial velocity did you give to the ball? Using the velocity 26 m/s, what maximum height would you expect your friend to measure? Using the velocity you calculated for case 2, how long do you expect it to take for the ball to hit the ground?
While the one friend is timing the flight of the ball, you have another friend measuring the maximum height of the ball. Before the throw, you all made height marks up a wall. You are going to throw standing in front of this wall so your friend can stand at a distance and see how high up the wall the ball travels. Your friend sees the ball reach the 21.5 meter mark. Using the maximum height of the ball instead of the time of flight, what initial velocity did you give to the ball? Using the velocity 26 m/s, what maximum height would you expect your friend to measure? Using the velocity you calculated for case 2, how long do you expect it to take for the ball to hit the ground?
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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Case 2: While the one friend is timing the flight of the ball, you have another friend measuring the
maximum height of the ball. Before the throw, you all made height marks up a wall. You are going
to throw standing in front of this wall so your friend can stand at a distance and see how high up
the wall the ball travels. Your friend sees the ball reach the 21.5 meter mark. Using the maximum
height of the ball instead of the time of flight, what initial velocity did you give to the ball?
Using the velocity 26 m/s, what maximum height would you expect your friend
to measure?
Using the velocity you calculated for case 2, how long do you expect it to take for the ball to hit
the ground?
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