A small aluminum alloy [E=77 GPa] tee shape is used as a simply supported beam as shown. For this beam, a = 160 mm. The cross- sectional dimensions of the tee shape areb-22 mm, d = 33 mm, and t-4 mm. After loads are applied to the beam at B, C, and D,a compressive normal strain of 410 uɛ is measured from a strain gage located at c 10 mm below the topmost edge of the tee stem at section 1-1. What is the applied load P?
A small aluminum alloy [E=77 GPa] tee shape is used as a simply supported beam as shown. For this beam, a = 160 mm. The cross- sectional dimensions of the tee shape areb-22 mm, d = 33 mm, and t-4 mm. After loads are applied to the beam at B, C, and D,a compressive normal strain of 410 uɛ is measured from a strain gage located at c 10 mm below the topmost edge of the tee stem at section 1-1. What is the applied load P?
Materials Science And Engineering Properties
1st Edition
ISBN:9781111988609
Author:Charles Gilmore
Publisher:Charles Gilmore
Chapter6: Introduction To Mechanical Properties
Section: Chapter Questions
Problem 6.2P
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![A small aluminum alloy [E= 77 GPa] tee shape is used as a simply supported beam as shown. For this beam, a = 160 mm. The cross-
sectional dimensions of the tee shape are b= 22 mm, d = 33 mm, and t= 4 mm. After loads are applied to the beam at B, C, and D, a
compressive normal strain of 410 uɛ is measured from a strain gage located at c = 10 mm below the topmost edge of the tee stem at
section 1-1. What is the applied load P?
%3D
%3D
%3D
3P
Strain gage
E
Answer:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F776ddccb-5f42-4e06-abbc-157f62d0b4aa%2Fd4a03b2d-11cd-4635-abe1-e61321d3c151%2Fbekxrhr_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A small aluminum alloy [E= 77 GPa] tee shape is used as a simply supported beam as shown. For this beam, a = 160 mm. The cross-
sectional dimensions of the tee shape are b= 22 mm, d = 33 mm, and t= 4 mm. After loads are applied to the beam at B, C, and D, a
compressive normal strain of 410 uɛ is measured from a strain gage located at c = 10 mm below the topmost edge of the tee stem at
section 1-1. What is the applied load P?
%3D
%3D
%3D
3P
Strain gage
E
Answer:
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