A solid cylinder with mass m and radius R is held in position on a slope with angle = 30° by means of a string wrapped around the cylinder, which is pulled horizontally with tension T. Determine the minimum friction angle required between the cylinder and the slope for static equilibrium. g hints: m, R Ꮎ T draw an accurate Free Body Diagram to assist you with the geometry calculations; • you do not need many calculations for this problem - think carefully about which point you might wish to take moment equilibrium; • recall that tan(d) = μ where u is the friction coefficient between the cylinder and the slope. O = 10° O = 30° O = 12.5° Ο Φ = 15°

A solid cylinder with mass m and radius R is held in position on a slope with angle = 30° by means of a string wrapped around the cylinder, which is pulled horizontally with tension T. Determine the minimum friction angle required between the cylinder and the slope for static equilibrium. g hints: m, R Ꮎ T draw an accurate Free Body Diagram to assist you with the geometry calculations; • you do not need many calculations for this problem - think carefully about which point you might wish to take moment equilibrium; • recall that tan(d) = μ where u is the friction coefficient between the cylinder and the slope. O = 10° O = 30° O = 12.5° Ο Φ = 15°

Trigonometry (MindTap Course List)

8th Edition

ISBN:9781305652224

Author:Charles P. McKeague, Mark D. Turner

Publisher:Charles P. McKeague, Mark D. Turner

Chapter2: Right Triangle Trigonometry

Section: Chapter Questions

Problem 28CT: Force Tyler and his cousin Kelly have attached a rope to the branch of a tree and tied a board to...

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