A force was applied to a 50 kg wheel as shown in the figure. If the wheel starts to rest without slipping Determine the angular acceleration ε, the wheel pressure on the ground N and the rotational speed of the wheel n after 10 revolutions, if the rolling friction coefficient f = 0.1 mm. Take the radius of inertia of the wheel equal to 0.3 m.
A force was applied to a 50 kg wheel as shown in the figure. If the wheel starts to rest without slipping Determine the angular acceleration ε, the wheel pressure on the ground N and the rotational speed of the wheel n after 10 revolutions, if the rolling friction coefficient f = 0.1 mm. Take the radius of inertia of the wheel equal to 0.3 m.
Automotive Technology: A Systems Approach (MindTap Course List)
6th Edition
ISBN:9781133612315
Author:Jack Erjavec, Rob Thompson
Publisher:Jack Erjavec, Rob Thompson
Chapter3: Basic Theories And Math
Section: Chapter Questions
Problem 12RQ: Work is calculated by multiplying by.
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A force was applied to a 50 kg wheel as shown in the figure. If the wheel starts to rest without slipping Determine the angular acceleration ε, the wheel pressure on the ground N and the rotational speed of the wheel n after 10 revolutions, if the rolling friction coefficient f = 0.1 mm. Take the radius of inertia of the wheel equal to 0.3 m.
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