answer this ; Using the provided data: cross-section width w = 11 mm, cross-section hight h = 100 mm, length of the beam L =2 m , beam material’s Young’s modulus Q =243 GPa, applied bending moment ?? = 15 kN.m The value of the deflection at Point B caused by ?? ( Part I) can be calculated as
answer this ; Using the provided data: cross-section width w = 11 mm, cross-section hight h = 100 mm, length of the beam L =2 m , beam material’s Young’s modulus Q =243 GPa, applied bending moment ?? = 15 kN.m The value of the deflection at Point B caused by ?? ( Part I) can be calculated as
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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answer this ;
Using the provided data:
- cross-section width w = 11 mm,
- cross-section hight h = 100 mm,
- length of the beam L =2 m ,
- beam material’s Young’s modulus Q =243 GPa,
- applied bending moment ?? = 15 kN.m
The value of the deflection at Point B caused by ?? ( Part I) can be calculated as
Transcribed Image Text:A propped cantilever beam is loaded by a bending moment of the magnitude MB at the
point B as shown in Figure Q1. The cross-section of the beam is a rectangle of the
width w and the hight h that are constant along the length of the beam L. The beam
material's Young's modulus is Q.
AY
1
A
B
MB
X
Figure Q1
Assuming the positive deflections and positive vertical reaction forces are upward,
calculate
o the value of the reaction forces at points A and B
o the absolute value of the reaction bending moment at point A
Transcribed Image Text:Using the provided data:
• cross-section width w = 11 mm,
• cross-section hight h = 100 mm,
length of the beam L=2 m,
• beam material's Young's modulus Q =243 GPa,
applied bending moment M B = 15 kN.m
The value of the deflection at Point B caused by MB (Part I) can be calculated as
●
mm
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