MECHANICS OF MATERIALS
11th Edition
ISBN: 9780137605521
Author: HIBBELER
Publisher: RENT PEARS
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Chapter 8.2, Problem 7FP
Determine the state of stress at point A on the cross section of the pipe at section a–a. Show the results in a differential element at the point.
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Chapter 8 Solutions
MECHANICS OF MATERIALS
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- The beveled gear is subjected to the loads shown.Determine the stress components acting on the shaftat point B, and draw the results on a stress elementat this point. The shaft has a diameter of 1 in. and isfixed to the wall at C. A = 0.7854 in2 J = 0.098175 in4 I = 0.049087 in4 (QB)z = 0 (QB)x = 0.0833 in3arrow_forwardThe uniform sign has a weight of 1500 lb and is supported by the pipe AB, which has an inner radius of 2.75 in. and an outer radius of 3.00 in. If the face of the sign is subjected to a uniform wind pressure of p = 150 lb/ft2, determine the state of stress at points Cand D. Show the results on a differential volume element located at each of these points. Neglect the thickness of the sign, and assume that it is supported along the outside edge of the pipe. 6 ft 3 ft 上 A B x 12 ft 150 lb/ft²arrow_forwardA. Determine the state of stress at point A on the cross section of the pipe assembly at section a-a. Take F1= 1450 N and F2= 1010 N B. Find (τ)xy A Solve step by steparrow_forward
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- The solid cylinder having a radius r is placed in a sealed container and subjected to a pressure p. Determine the stress components acting at point A located on the center line of the cylinder. Draw Mohr's circles for the element at this point. Aarrow_forwardDo it clearlyarrow_forwardThe tank of the air compressor is subjected to an internal pressure of 90 psi. If the inner diameter of the tank is 22 in., and the wall thickness is 0.25 in., determine the stress components acting at point A. Draw a volume element of the material at this point, and show the results on the element.arrow_forward
- The bent shaft is fixed in the wall at A. If a force F is applied at B (the force is acting on the plane parallel to the x-o-y plane). Take F = 54 N and 0 = 45°. 1. Determine the internal forces acting on the section containing points D and E 2. Determine the normal stress component acting at point E 3. Determine the shear stress component developed at point E 4. Draw the state of stress on a volume element (stress element) located at point E 5. Determine the principal stresses acting at point E by constructing Mohr's circle A 150 mm E 200 mm 30 mm 75 mm B Farrow_forwardDetermine the stress components acting on the inclined plane AB. Solve the problem using the method of equilibrium described in Secarrow_forward433 The steel pipe is filled with concrete and subjected 10 a compressive force of 80 kN. Determine the averaee normal stress in the concrete and the steel due to this loading. The pipe has an outer diameter of 80 mm and oo inner diameter of 70 mm. E, = 200 GPa, E. = 24 GPa.arrow_forward
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