A cantilever with rectangular cross-section (width b and height h=2c) is subjected to a vertical load P at its free end. The other end is fixed. As shown, a general surface square element could be subjected to normal stresses due to bending and/or shearing stresses due to shear force. At location x, there is maximum normal stress ox_max due to bending. There is also the element only subjected to shearing stress Txy (the corresponding maximum principle stress op max). What is the ratio ox_max when x=4c? op_max
A cantilever with rectangular cross-section (width b and height h=2c) is subjected to a vertical load P at its free end. The other end is fixed. As shown, a general surface square element could be subjected to normal stresses due to bending and/or shearing stresses due to shear force. At location x, there is maximum normal stress ox_max due to bending. There is also the element only subjected to shearing stress Txy (the corresponding maximum principle stress op max). What is the ratio ox_max when x=4c? op_max
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 cantilever with rectangular cross-section (width
b and height h=2c) is subjected to a vertical load P
at its free end. The other end is fixed. As shown, a
general surface square element could be
subjected to normal stresses due to bending
and/or shearing stresses due to shear force. At
location x, there is maximum normal stress σx_max
due to bending. There is also the element only
subjected to shearing stress Txy (the corresponding
maximum principle stress op max). What is the ratio
Ox_max
when x=4c?
7
op_max](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F691d3e90-ac56-4053-b178-50747d8a3628%2F237c97df-6748-45e5-a4c5-2897819c92a6%2Flqrhb2f_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A cantilever with rectangular cross-section (width
b and height h=2c) is subjected to a vertical load P
at its free end. The other end is fixed. As shown, a
general surface square element could be
subjected to normal stresses due to bending
and/or shearing stresses due to shear force. At
location x, there is maximum normal stress σx_max
due to bending. There is also the element only
subjected to shearing stress Txy (the corresponding
maximum principle stress op max). What is the ratio
Ox_max
when x=4c?
7
op_max
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