The question is placed on picture. Please explain in detail. A cylindrical cantilever bar with diameter er 2 mm and length of 4 m subjected. Force F1 = 2KN is located at center and the force F2=5KN is located at bottom of the bar as it is shown in figure. Find maximum stress at point P. A cylindrical cantilever bar with diameter er 2 mm and length of 4 m subjected. Force F, is located at center and the force F2 is located at bottomof the bar as it is shown in figure. Find maximum stress at point P.F2 = 5 KN ,Lenght of bar = 4 mF1 = 2 KN ,2 mmF 1F 2

L=4m D=2mm To find maximum stress at point P

Answered: e bar as it is shown in figure. Find…

e bar as it is shown in figure. Find maximum stress at point P. F1 = 2 KN , F2 = 5 KN , Lenght of bar = 4 m 2 mm F 1 F 2

Principles of Foundation Engineering (MindTap Course List)

8th Edition

ISBN:9781305081550

Author:Braja M. Das

Publisher:Braja M. Das

Chapter6: Vertical Stress Increase In Soil

Section: Chapter Questions

Problem 6.4P: Refer to Figure P6.4. A strip load of q = 900 lb/ft2 is applied over a width B = 36 ft. Determine...

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Members with compression and bending

Compression members are structural elements that carry compressive axial force. They are the vertical members of a building that support beams and their design, which is governed by buckling and strength. Columns are known as struct or compression members, which are subjected to compressive forces. These members provide stiffness to the building and avoid any imperfection regarding the transfer of axial load. For instance, webs in a truss, braces in a framed structure, tiers, and so on.

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The question is placed on picture.

Please explain in detail.

A cylindrical cantilever bar with diameter er 2 mm and length of 4 m subjected. Force F1 = 2KN is located at center and the force F2=5KN is located at bottom of the bar as it is shown in figure. Find maximum stress at point P.

A cylindrical cantilever bar with diameter er 2 mm and length of 4 m subjected. Force F, is located at center and the force F2 is located at bottom
of the bar as it is shown in figure. Find maximum stress at point P.
F2 = 5 KN ,
Lenght of bar = 4 m
F1 = 2 KN ,
2 mm
F 1
F 2

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