..) The figure shows a vertical force applied tangentially to a uniform cylinder of weight F. The coefficient of static friction between the cylinder P and all surfaces is 0.500. The force P is increased in magnitude until the cylinder begins to rotate. In terms of F, find the maximum force magnitude P that can be applied without causing the cylinder to rotate. Suggestion: show that both friction forces will be at their maximum values when the cylinder is on the verge of slipping.

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.) The figure shows a vertical force applied tangentially to a uniform
cylinder of weight F. The coefficient of static friction between the cylinder P
and all surfaces is 0.500. The force P is increased in magnitude until the
cylinder begins to rotate. In terms of F, find the maximum force magnitude
P that can be applied without causing the cylinder to rotate. Suggestion:
show that both friction forces will be at their maximum values when the
cylinder is on the verge of slipping.
Transcribed Image Text:.) The figure shows a vertical force applied tangentially to a uniform cylinder of weight F. The coefficient of static friction between the cylinder P and all surfaces is 0.500. The force P is increased in magnitude until the cylinder begins to rotate. In terms of F, find the maximum force magnitude P that can be applied without causing the cylinder to rotate. Suggestion: show that both friction forces will be at their maximum values when the cylinder is on the verge of slipping.
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