(a) Explanation Given information: The weight of the plate ABCD is W = 50 -lb . The coefficient of static friction between the collars and the rod is μ s = 0.40 . The vertical force applied at point E is P = 0 . Calculation: Show the free-body diagram of the plate ABCD as in Figure 1. Find the friction force ( F ) using the relation. F = μ s N Here, the coefficient of static friction is μ s and the normal force is N . Take moment about point D . ∑ M D = 0 N A ( 2 ) − 50 ( 3 ) = 0 N A = 75 lb Resolve the horizontal component of forces. ∑ F x = 0 N D − N A = 0 Substitute 75 lb for N A . N D − 75 = 0 N D = 75 lb Resolve the vertical component of force. ∑ F y = 0 F A + F D − 50 = 0 F A + F D = 50 lb Find the maximum friction force at point A as follows; ( F A ) m = μ s N A Substitute 0 (b) To determine Check whether the plate is in equilibrium when the applied vertical force at E is 20 lb

12th Edition

ISBN: 9781260804638

Author: BEER

Publisher: MCG

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Chapter 8.1, Problem 8.29P

(a)

To determine

Check whether the plate is in equilibrium when the applied vertical force at E is 0 lb.

(b)

To determine

Check whether the plate is in equilibrium when the applied vertical force at E is 20 lb

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Chapter 8.1, Problem 8.28P

Chapter 8.1, Problem 8.30P

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Check whether the plate is in equilibrium when the applied vertical force at E is 0 lb .

Solution Summary: The author shows the free-body diagram of the plate ABCD as in Figure 1. Find the friction force (F) using the relation.