A ball rolls off the edge of a table. Let the time the ball leaves the table surface be - 0. If the table is horizontal, its velocity as a function of time is given by v - 1.00i - 9.80j, with v in m/s and t in s. The ball's displacement from the edge of the table from t - o to t- 0.300 s (while it is in flight), is given by = 0 0.300 Ar = v dt. Use this theorem to perform the integration: Consider the units and unit vectors to be the constants P and Q. Integrate to determine the ball's displacement (in m) from the table edge at 0.300 s. (Express your answer in vector form. Do not include units in your answer.) Ar = m

A ball rolls off the edge of a table. Let the time the ball leaves the table surface be - 0. If the table is horizontal, its velocity as a function of time is given by v - 1.00i - 9.80j, with v in m/s and t in s. The ball's displacement from the edge of the table from t - o to t- 0.300 s (while it is in flight), is given by = 0 0.300 Ar = v dt. Use this theorem to perform the integration: Consider the units and unit vectors to be the constants P and Q. Integrate to determine the ball's displacement (in m) from the table edge at 0.300 s. (Express your answer in vector form. Do not include units in your answer.) Ar = m

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Description: A ball rolls off the edge of a table. Let the time the ball leaves the tablesurface be - 0. If the table is horizontal, its velocity as a function of time isgiven byv - 1.00i - 9.80j,with v in m/s and t in s. The ball's displacement from the edge of

Classical Dynamics of Particles and Systems

5th Edition

ISBN:9780534408961

Author:Stephen T. Thornton, Jerry B. Marion

Publisher:Stephen T. Thornton, Jerry B. Marion

Chapter2: Newtonian Mechanics-single Particle

Section: Chapter Questions

Problem 2.6P: In the blizzard of ’88, a rancher was forced to drop hay bales from an airplane to feed her cattle....

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