The outer diameter of the solid steel pipe shown in the figure is 25 mm. If the pipe is fixed at point E as in the figure and is subjected to a force of 800 N, a torque of 45 N.m and a moment of 300 N.m I applied from the other end of the pipe as in the figure, it will form at point A; (d) Planes of the maximum shear stress (ƟS1, ƟS2) (e) The maximum shear stress (Tmax) and the corresponding normal stress (σ'), (f) Find the aspect of the plane of maximum shear stress.
The outer diameter of the solid steel pipe shown in the figure is 25 mm. If the pipe is fixed at point E as in the figure and is subjected to a force of 800 N, a torque of 45 N.m and a moment of 300 N.m I applied from the other end of the pipe as in the figure, it will form at point A; (d) Planes of the maximum shear stress (ƟS1, ƟS2) (e) The maximum shear stress (Tmax) and the corresponding normal stress (σ'), (f) Find the aspect of the plane of maximum shear stress.
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter9: Moments And Products Of Inertia Of Areas
Section: Chapter Questions
Problem 9.40P
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The outer diameter of the solid steel pipe shown in the figure is 25 mm. If the pipe is fixed at point E as in the figure and is subjected to a force of 800 N, a torque of 45 N.m and a moment of 300 N.m I applied from the other end of the pipe as in the figure, it will form at point A;
(d) Planes of the maximum shear stress (ƟS1, ƟS2)
(e) The maximum shear stress (Tmax) and the corresponding normal stress (σ'),
(f) Find the aspect of the plane of maximum shear stress.
Transcribed Image Text:z(+)
E
300 N-m.
45 N-m
y(+)
x(+)
800 N
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