Explanation Given information: The modulus of elasticity ( E ) is 200 GPa The yield stress ( σ Y ) is 250 MPa The maximum amount of deflection δ m is 5 mm . Calculation: Calculate the area of A A B using the relation: A A B = π d 2 4 (1) Here, d is diameter of rod of AB . Substitute 30 mm for d in Equation (1). A A B = π ( 30 ) 2 4 = 706.86 mm 2 ( 1 m 10 3 mm ) 2 = 706.86 × 10 − 6 m 2 Calculate the area of A B C using the relation: A B C = π d 2 4 (2) Here, d is diameter of rod of BC . Substitute 40 mm for d in Equation (2). A B C = π ( 40 ) 2 4 = 1.25664 × 10 3 mm 2 ( 1 m 10 3 mm ) 2 = 1.25664 × 10 − 3 m 2 Determine the maximum value of force using the relation: P max = A min σ Y (3) Here, A min is cross sectional area of AB . Substitute 706.86 × 10 − 6 m 2 for A min and 250 MPa for ( σ y ) in Equation (3). P max = 706.86 × 10 − 6 × 250 MPa ( 10 6 Pa 1 MPa ) = 706.86 × 10 − 6 × 250 × 10 6 = 176.715 × 10 3 N ( 1 kN 10 3 kN ) = 176.7 kN Determine the deflection ( δ ′ ) as shown in below: δ ′ = P ′ L A B E A A B + P ′ L B C E A B C (4) Here, A B C is cross sectional area of BC , L A B is length of rod AB , and L B C is length of rod BC

7th Edition

ISBN: 9780073398235

Author: Ferdinand P. Beer, E. Russell Johnston Jr., John T. DeWolf, David F. Mazurek

Publisher: McGraw-Hill Education

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Strain energy

The term strain indicates the variation in an object's length, area, and volume when the object is subjected to an external force. The external force may be of normal, shear, moment, torque, etc. The strain in an object depends on the types of external f…

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Chapter 2.13, Problem 106P

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Find the maximum value of the force P and the permanent set of the rod δp.

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Chapter 2.13, Problem 105P

Chapter 2.13, Problem 107P

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Chapter 2 Solutions

Mechanics of Materials, 7th Edition

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The...Ch. 2.13 - Fig. P2.95 and P2.96 2.96 (a) For P = 13 kips and...Ch. 2.13 - 2.97 Knowing that the hole has a diameter of 9 mm,...Ch. 2.13 - For P = 100 kN, determine the minimum plate...Ch. 2.13 - Prob. 99P Ch. 2.13 - A centric axial force is applied to the steel bar...Ch. 2.13 - The cylindrical rod AB has a length L = 5 ft and a...Ch. 2.13 - Fig. P2.101 and P.102 2.102 The cylindrical rod AB...Ch. 2.13 - Rod AB is made of a mild steel that is assumed to...Ch. 2.13 - Prob. 104P Ch. 2.13 - Rod ABC consists of two cylindrical portions and...Ch. 2.13 - Prob. 106P Ch. 2.13 - Prob. 107P Ch. 2.13 - Prob. 108P Ch. 2.13 - Each cable has a cross-sectional area of 100 mm2...Ch. 2.13 - Prob. 110P Ch. 2.13 - Two tempered-steel bars, each 316 in. thick, are...Ch. 2.13 - Prob. 112P Ch. 2.13 - Prob. 113P Ch. 2.13 - Prob. 114P Ch. 2.13 - Prob. 115P Ch. 2.13 - Prob. 116P Ch. 2.13 - Prob. 117P Ch. 2.13 - Prob. 118P Ch. 2.13 - Prob. 119P Ch. 2.13 - For the composite bar in Prob. 2.111, determine...Ch. 2.13 - Prob. 121P Ch. 2.13 - Bar AB has a cross-sectional area of 1200 mm2 and...Ch. 2.13 - Bar AB has a cross-sectional area of 1200 mm2 and...Ch. 2 - The uniform wire ABC, of unstretched length 2l, is...Ch. 2 - The aluminum rod ABC (E = 10.1 106 psi), which...Ch. 2 - Two solid cylindrical rods are joined at B and...Ch. 2 - Prob. 127RP Ch. 2 - Prob. 128RP Ch. 2 - Prob. 129RP Ch. 2 - A 4-ft concrete post is reinforced with four steel...Ch. 2 - The steel rods BE and CD each have a 16-mm...Ch. 2 - Prob. 132RP Ch. 2 - Prob. 133RP Ch. 2 - The aluminum test specimen shown is subjected to...Ch. 2 - Prob. 135RP

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Find the maximum value of the force P and the permanent set of the rod δ p .

Solution Summary: The author calculates the area of A_AB using the relation:

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Find the maximum value of the force P and the permanent set of the rod δp.

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