Explanation Given information: Assume the four nails on each hanger carry an equal portion of the load. The diameter of each nail is 0.25 in. Calculation: Find the cross sectional area of nail at ends A and B as shown below. A = π d 2 4 Here, d is the diameter of the nail. Substitute 0.25 in. for d . A = π × 0.25 2 4 = 0.04909 in . 2 Find the area of nails at A and B as shown below. A A = A B = 4 A Substitute 0.04909 in . 2 for A . A A = A B = 4 × 0.04909 = 0.19636 in . 2 Sketch the Free Body Diagram of the joist as shown in Figure 1. Refer to Figure 1. Find the support reactions as shown below. Apply the Equations of Equilibrium as shown below. Take moment about A resultant and is Equal to zero. ∑ M A = 0 F B × 18 − ( 1 2 × 10 × 18 ) × 12 − ( 30 × 18 ) × 9 = 0 18 F B − 5 , 940 = 0 F B = 330 lb Summation of forces along y direction is Equal to zero. ∑ F y = 0 330 − ( 1 2 × 10 × 18 ) − ( 30 × 18 ) + F A = 0 − 300 + F A = 0 F A = 300 lb Find the average shear stress for the nails at A as shown below. ( τ avg ) A = F A A A Here, F A is the shear force at end A and A A is the cross sectional area of nails at A

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ISBN: 9780133254426

Author: Russell C. Hibbeler

Publisher: Prentice Hall

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Chapter 1.7, Problem 1.75P

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To calculate: The average shear stress in each nail of the hanger at ends A and B.

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Chapter 1.7, Problem 1.74P

Chapter 1.7, Problem 1.76P

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Chapter 1 Solutions

Mechanics of Materials

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The average shear stress in each nail of the hanger at ends A and B .

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