(a) Let R represent the reaction force at Support B. By releasing the beam at Support B and imposing a force R at Point B, the deflection of the beam consists of two parts,i.e. Part I- the deflection caused by MB; Part II- the deflection caused by R Please treat R, w, h, L, E as variables in this step, the mathematical equation for the deflection at Point B caused by R (Part II) can be written as (Hint: to input equation Show steps Answer: R²L Q² wh , you can type (R^2*L)/(Q^2*w*h) ) (Your score will not be affected.)
(a) Let R represent the reaction force at Support B. By releasing the beam at Support B and imposing a force R at Point B, the deflection of the beam consists of two parts,i.e. Part I- the deflection caused by MB; Part II- the deflection caused by R Please treat R, w, h, L, E as variables in this step, the mathematical equation for the deflection at Point B caused by R (Part II) can be written as (Hint: to input equation Show steps Answer: R²L Q² wh , you can type (R^2*L)/(Q^2*w*h) ) (Your score will not be affected.)
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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Could you please answer A, B and C
Transcribed Image Text:(a)
Let R represent the reaction force at Support B. By releasing the beam at Support B and imposing a
force R at Point B, the deflection of the beam consists of two parts,i.e.
Part I- the deflection caused by MB;
Part II- the deflection caused by R
Please treat R, w, h, L, E as variables in this step, the mathematical equation for the deflection at
Point B caused by R (Part II) can be written as
(Hint: to input equation
R²L
Q² wh
Answer:
"
you can type (R^2*L)/(Q^2*w*h) )
Show steps (Your score will not be affected.)
Transcribed Image Text:(b)
Using the provided data:
• cross-section width w = 12 mm,
• cross-section hight h = 98 mm,
• length of the beam L=3 m,
● beam material's Young's modulus Q =209 GPa,
• applied bending moment MB = 14 kN.m
The value of the deflection at Point B caused by MB (Part I) can be calculated as
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