Explanation Given information: The magnitude of the force P is 75 lb. The length of the rods AB and BC is l = 15 in . . The spring constant is k = 20 lb/in . . Calculation: Show the free-body diagram of the arrangement as in Figure 1. Find the vertical distance ( y A ) using the relation. y A = l sin θ Differentiate the equation. δ y A = l cos θ δ θ Consider the distance of the spring between the points D and C as a . When θ = 0 ; a = a 0 : Find the distance a 0 using the relation. a 0 = l 2 + l 2 = 2 l When θ = θ ; a = a : Find the distance a using the relation. a = l sin ( 45 ° + θ 2 ) + l sin ( 45 ° + θ 2 ) = 2 l sin ( 45 ° + θ 2 ) Differentiate the equation; δ a = l cos ( 45 ° + θ 2 ) δ θ Find the stretched length s of the spring using the relation. s = a − a 0 Substitute 2 l sin ( 45 ° + θ 2 ) for a and 2 l for a 0 . s = 2 l sin ( 45 ° + θ 2 ) − 2 l Find the force in the spring ( F ) using the relation. F = k s Substitute 2 l sin ( 45 ° + θ 2 ) − 2 l for s

Vector Mechanics for Engineers: Statics, 11th Edition

11th Edition

ISBN: 9780077687304

Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek

Publisher: McGraw-Hill Education

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Chapter 10.1, Problem 10.38P

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Find the value of θ corresponding to equilibrium.

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Chapter 10.1, Problem 10.37P

Chapter 10.1, Problem 10.39P

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Chapter 10 Solutions

Vector Mechanics for Engineers: Statics, 11th Edition

Ch. 10.1 - 10.1 Determine the vertical force P that must be...Ch. 10.1 - Determine the horizontal force P that must be...Ch. 10.1 - Prob. 10.3P Ch. 10.1 - 10.3 and 10.4 Determine the couple M that must be...Ch. 10.1 - A spring of constant 15 kN/m connects points C and...Ch. 10.1 - A spring of constant 15 kN/m connects points C and...Ch. 10.1 - The two-bar linkage shown is supported by a pin...Ch. 10.1 - Prob. 10.8P Ch. 10.1 - Prob. 10.9P Ch. 10.1 - Prob. 10.10P

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Find the value of θ corresponding to equilibrium.

Solution Summary: The author shows the free-body diagram of the arrangement as in Figure 1. Find the vertical distance (y_A) using the relation.

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Find the value of θ corresponding to equilibrium.

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Chapter 10 Solutions