3) A rectangular block of size 200mm x 100mm x 80mm (i.e. length x width x depth) is subjected to a tensile force of 300 KN in the longitudinal direction. A tensile force of 100 KN on the 200mm x 80mm faces and a compressive force of 80 KN on the 200mm x 100mm faces. Take E= 2 x 105 N/mm2 and Poisson's ratio as 0.3. Calculate the changes in the dimensions and change in volume of the block. (Sl = 0.0368 mm, db = -0.0019 mm, d = -0.0068 mm, &v = 127.168 mm') %3! %3D
3) A rectangular block of size 200mm x 100mm x 80mm (i.e. length x width x depth) is subjected to a tensile force of 300 KN in the longitudinal direction. A tensile force of 100 KN on the 200mm x 80mm faces and a compressive force of 80 KN on the 200mm x 100mm faces. Take E= 2 x 105 N/mm2 and Poisson's ratio as 0.3. Calculate the changes in the dimensions and change in volume of the block. (Sl = 0.0368 mm, db = -0.0019 mm, d = -0.0068 mm, &v = 127.168 mm') %3! %3D
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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A rectangular block of size 200mm x 100mm x 80mm (i.e. length x width x depth) is subjected to a tensile force of 300 KN in the longitudinal direction. A tensile force of 100 KN on the 200mm x 80mm faces and a compressive force of 80 KN on the 200mm x 100mm faces. Take E= 2 x 10³ N/mm² and Poisson's ratio as 0.3. Calculate the changes in the dimensions and change in volume of the block.
Transcribed Image Text:3) A rectangular block of size 200mm x 100mm x 80mm (i.e. length x width x depth) is subjected to a
tensile force of 300 KN in the longitudinal direction. A tensile force of 100 KN on the 200mm x
80mm faces and a compressive force of 80 KN on the 200mm x 100mm faces. Take E= 2 x 105
N/mm2 and Poisson's ratio as 0.3. Calculate the changes in the dimensions and change in volume of
the block.
(8l = 0.0368 mm, db = -0.0019 mm , d = -0.0068 mm , Sv = 127.168 mm')
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