Q.1) For the figure given below, a force P in KN determine the following. a. The location of maximum normal X stress (both along the Z- length and on the cross-section), B m component of normal stress and the 2 m magnitude of normal stress. 45° b. The location of maximum shear stress (both along the length and on the cross-section). component of shear stress and the magnitude of shear stress. c. On the fixed end, at any point on the neutral axis, represent the stress components in a stress element and calculate the principal stresses and directions. Also show the stress element along the principal directions. Hint: z-axis is out of the screen. Solve in terms of P. y H 100 300 mm
Q.1) For the figure given below, a force P in KN determine the following. a. The location of maximum normal X stress (both along the Z- length and on the cross-section), B m component of normal stress and the 2 m magnitude of normal stress. 45° b. The location of maximum shear stress (both along the length and on the cross-section). component of shear stress and the magnitude of shear stress. c. On the fixed end, at any point on the neutral axis, represent the stress components in a stress element and calculate the principal stresses and directions. Also show the stress element along the principal directions. Hint: z-axis is out of the screen. Solve in terms of P. y H 100 300 mm
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter7: Analysis Of Stress And Strain
Section: Chapter Questions
Problem 7.2.19P: At a point on the surface of an elliptical exercise machine, the material is in biaxial stress with...
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Part a ask to found segma at A or B For cross section 100*300 needed to used for part a and b
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