An aluminum thin‐walled tube of hollow rectangular cross‐section, Figure 1, is subjected to a torque of magnitude, T = 15360 N.m. If the tube length is, L = 1 m , and the shear modulus of aluminum is, G = 28 GPa. 1. Determine the total angle of twist of the one‐meter long tube. 2. Determine the shear stresses on the walls of the tube cross‐section. Where does the maximum shear stress occur?
An aluminum thin‐walled tube of hollow rectangular cross‐section, Figure 1, is subjected to a torque of magnitude, T = 15360 N.m. If the tube length is, L = 1 m , and the shear modulus of aluminum is, G = 28 GPa. 1. Determine the total angle of twist of the one‐meter long tube. 2. Determine the shear stresses on the walls of the tube cross‐section. Where does the maximum shear stress occur?
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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An aluminum thin‐walled tube of hollow rectangular cross‐section, Figure 1,
is subjected to a torque of magnitude, T = 15360 N.m. If the tube length
is, L = 1 m , and the shear modulus of aluminum is, G = 28 GPa.
1. Determine the total angle of twist of the one‐meter long tube.
2. Determine the shear stresses on the walls of the tube cross‐section.
Where does the maximum shear stress occur?
Transcribed Image Text:t₁ = 6 mm
t4 = 4 mm
t₂ = 3 mm
b= 800 mm
Figure 1
t3 = 8 mm
a = 400 mm
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