MECHANICS OF MATERIALS
11th Edition
ISBN: 9780137605521
Author: HIBBELER
Publisher: RENT PEARS
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Chapter 9.3, Problem 13P
Determine the stress components acting on the inclined plane AB. Solve the problem using the method of equilibrium described in Sec.9.1.
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Chapter 9 Solutions
MECHANICS OF MATERIALS
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- Determine the stress components acting on the inclined plane AB. Solve the problem using the method of equilibrium described in Sec. 9.1. (ANS: -2.71 ksi, 4.17 ksi) 2 ksi 30% 4 ksi B 3 ksiarrow_forwardWith Precise FBD and Direction of Components please. Thankyou!arrow_forwardThe horizontal bar ABC is supported by a pin at A and the two rods with identical lengths and cross-sectional areas (2 sg.in.) The rod at B is steel and the rod at C is aluminum. Neglecting the weight of the bar, determine the stress in the steel rod when the force W= 10 kips is applied. Use Es=29 x 10^6 psi and Ea=10 x 10^6 psi. Express your final answer in psi to the nearest whole number. Note: Do not include the unit in your answer. * 3 ft B A 5.5ft 1.5 ft →arrow_forward
- The internal drag truss for the wing of a light airplane is subjected to the forces shown. Determine the stress in members EF, GF, and CG. The cross sectional area of the truss member is a semi circle with a radius of 0.5 in.arrow_forwardSimilar problem already solved on bartleby. Take reference from there.arrow_forwardQUESTION 2. The elbow-shaped structure is under the effect of four forces that are applied as shown in the figure. If the structure has an inner radius of 40mm and an outer radius of 48 mm, a. Determine the stress conditions at points H and K. b. Draw these stress conditions on cubic elements taken at points H and K. 600 N 1000 N 250 mm 100 mm--100 mm 150 mm 600 N 300 Narrow_forward
- step-wise solution pleasearrow_forwardThe channel section carries a uniformly distributed load totaling 6W and two concentrated loads of magnitude W. (a) Calculate the distance of the neutral axis from the bottom of the channel and the moment of inertia about the neutral axis. (b) Determine the maximum allowable value for W if the working stresses are 40 MPa in tension, 80 MPa in compression, and 24 MPa in shear. Include A. Complete solution B. Free body diagram C. Shear diagram D. Moment diagramarrow_forwardThe 53kg girl shown is doing a chin-up. For the position shown, the humerous is modelled as an axially loaded member. Determine the normal stress (in MPa) at section a-a if the section is modelled as a hollow cylinder of outside diameter 22.4mm and inside diameter 15.2mm. Note: Do NOT include units in your answer a-+-a (а) (b) Answer:arrow_forward
- . A 175-lb woman stands on a vinyl floor wearing stiletto high-heel shoes. If the heel has the dimensions shown, determine the average normal stress she exerts on the floor and compare it with the average normal stress developed when a man having the same weight is wearing flat-heeled shoes. Assume the load is applied slowly, so that dynamic effects can be ignored. Also, assume the entire weight is supported only by the heel of one shoe. Solution: - For Stiletto shoes =869 psi - For Flat-heeled shoes =50.5 psiarrow_forwardCurrent Attempt in Progress The solid 1.35-in.-diameter rod is subjected to a uniform axial distributed loading along its length of w =775 lb/ft. Two concentrated loads also act on the rod: P= 2500 lb and Q = 800 lb. Assume a = 11 in. and b = 22 in. Determine the normal stress in the rod at the following locations: (a) x = 7 in. (b) x = 21 in. w a Answer: Ox=7in. = i psi Ox=21in. i psiarrow_forwardDetermine the stress components acting on the inclined plane AB. Solve the problem using the method of equilibrium described in Sec. 9.1. (ANS: -3.48 ksi, 4.63 ksi) 2 ksi 8ksi A B 5 ksiarrow_forward
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