The beam has a Young's modulus of Eo =100 GPa, a length of 1 = 4 m and 2nd moment of area of I₂ = 4 m². The intensity of the uniformly distributed load is w = 100 N/m. Now calculate the maximum beam deflection: Umax = 4 X Expected answer: 0.1149623254 (m)

The beam has a Young's modulus of Eo =100 GPa, a length of 1 = 4 m and 2nd moment of area of I₂ = 4 m². The intensity of the uniformly distributed load is w = 100 N/m. Now calculate the maximum beam deflection: Umax = 4 X Expected answer: 0.1149623254 (m)

Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)

5th Edition

ISBN:9781305084766

Author:Saeed Moaveni

Publisher:Saeed Moaveni

Chapter12: Electric Current And Related Variables In Engineering

Section12.2: Electrical Circuits And Components

Problem 6BYG

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Question

The beam has a Young's modulus of Eo =100 GPa, a length of 1 = 4 m and 2nd moment of area of Iz
4 m².
The intensity of the uniformly distributed load is w = 100 N/m.
Now calculate the maximum beam deflection:
Umax = 4
X
Expected answer: 0.1149623254
(m)

A cantilever beam is subjected to a uniformly-distributed load with an intensity of w. The beam has a Young's modulus
of Eo, a length of 1 and 2nd moment of area of Iz.
A
W
|↓↓↓↓↓↓↓↓↓↓↓↓↓↓
+x-
B
R

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