A rectangular block is 6 in. long in the x – direction, 4 in. long in the y – direction, and 7 in. long in the z - direction. The block is subjected to triaxial loading consisting of the three normal forces as follows: 45 kips in tension in the x – direction, 72 kips in tension in the y – direction, and 56 kips in compression in z- direction. Use v = 0.30 and E = 29 x 10° psi. What is the deformation in the X and Z direction due to original loadings? Determine the uniformly distributed load that must be added in the x – direction that would produce twice the deformation in the y – direction as the original loadings.
A rectangular block is 6 in. long in the x – direction, 4 in. long in the y – direction, and 7 in. long in the z - direction. The block is subjected to triaxial loading consisting of the three normal forces as follows: 45 kips in tension in the x – direction, 72 kips in tension in the y – direction, and 56 kips in compression in z- direction. Use v = 0.30 and E = 29 x 10° psi. What is the deformation in the X and Z direction due to original loadings? Determine the uniformly distributed load that must be added in the x – direction that would produce twice the deformation in the y – direction as the original loadings.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:A rectangular block is 6 in. long in the x – direction, 4 in. long in the y – direction, and 7 in. long in the z
- direction. The block is subjected to triaxial loading consisting of the three normal forces as follows: 45
kips in tension in the x – direction, 72 kips in tension in the y – direction, and 56 kips in compression in
z - direction. Use v = 0.30 and E = 29 x 106 psi. What is the deformation in the X and Z direction due to
original loadings? Determine the uniformly distributed load that must be added in the x – direction that
would produce twice the deformation in the y – direction as the original loadings.
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