Explanation Given information : The horizontal force F is 50 N. The coefficient of static friction of μ s is 0.30. The mean diameter ( d ) of the square threaded screw at C is 25 mm. The diameter ( L ) of the lead is 5 mm. Show the free body diagram of the given assembly as in Figure (1). Use Figure (1). Determine the lead angle θ by using the formula. θ = tan − 1 ( L 2 π ( d 2 ) ) (I) Determine the angle ϕ s of static friction using the formula. ϕ s = tan − 1 μ s (II) Determine the moment at point E using the formula. M = F l (III) Here, the distance between the points D and E is l . Determine the force F C D acting in the member CD using the formula. M = 2 [ F C D ( d 2 ) tan ( ϕ s + θ ) ] (IV) Determine the clamping force F G developed at G by taking the moment about point A . ∑ M A = 0 F C D ( l 1 ) − F G ( l 2 ) = 0 (V) Here, the distance between F C D and point A is l 1 and the distance between point A and force F G is l 2 . Conclusion: Substitute 5 mm for L and 25 mm for d in Equation (I). θ = tan − 1 ( 5 2 π ( 25 2 ) ) = 3.643 ° Substitute 0.30 for μ s in Equation (II). ϕ s = tan − 1 ( 0.30 ) = 16.699 ° Substitute 50 N for F and 125 mm for l in Equation (III)

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ISBN: 9780134780955

Author: HIBBELER

Publisher: RENT PEARS

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Chapter 8, Problem 68P

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The clamping force developed at G.

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Chapter 8 Solutions

ENGR.MECH.:STAT.+DYNAMICS

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The clamping force developed at G .

Solution Summary: The author shows the free body diagram of the given assembly as in Figure (1).

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