Objective: (i) Use the superposition method to verify your answer. (ii) Sketch V and M diagram for the beam. (iii) Select the wide-flange beam which should be used. Subject: Strength of materials Note: My 50% solution is attached below. Kindly take a look at it and use the equation there to continue the following. Thanks!
Objective: (i) Use the superposition method to verify your answer. (ii) Sketch V and M diagram for the beam. (iii) Select the wide-flange beam which should be used. Subject: Strength of materials Note: My 50% solution is attached below. Kindly take a look at it and use the equation there to continue the following. Thanks!
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
Related questions
Question
100%
Objective:
(i) Use the superposition method to verify your answer.
(ii) Sketch V and M diagram for the beam.
(iii) Select the wide-flange beam which should be used.
Subject: Strength of materials
Note: My 50% solution is attached below. Kindly take a look at it and use the equation there to continue the following. Thanks!
![dy
-(V)
24E I
again diffrentiating above equatiom
y =
13 ) du
298EI
[
: at x=d, y so
9.
*) +
24E5
C2 =
To 17
-(vi)
24EI
30 EI
Ix) + lolt
ニ
(vi)
24EI
30E3
..
at x=0.
OB =
( fom equation (v)
24EJ
S- SB = 04
( fpom equation (vii)
%3D
30E1
OB =
- 9.23
24ES
30EJ](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff16bb19d-48e0-4e11-a941-e21fbab48a39%2F9565c999-b52e-4cbb-8ea7-f41beaf5d307%2Fks18lt_processed.jpeg&w=3840&q=75)
Transcribed Image Text:dy
-(V)
24E I
again diffrentiating above equatiom
y =
13 ) du
298EI
[
: at x=d, y so
9.
*) +
24E5
C2 =
To 17
-(vi)
24EI
30 EI
Ix) + lolt
ニ
(vi)
24EI
30E3
..
at x=0.
OB =
( fom equation (v)
24EJ
S- SB = 04
( fpom equation (vii)
%3D
30E1
OB =
- 9.23
24ES
30EJ
![A cantilever beam AB supporting a triangularly dis-
tributed load of maximum intensity qo is shown in the
figure.
Derive the equation of the deflection curve and then
obtain formulas for the deflection 8g and angle of rotation
Oz at the free end. (Note: Use the second-order differential
equation of the deflection curve.)
X-
-L-
Use superposition method to verify your answer.
Sketch V and M diagram for the beam.
Given q,= 40 kN/m, L = 4m. Knowing that for the grade of steel to be used oall = 165 MPa
(compression) Gall = 115 MPa (tensile) and tall = 100 MPa, Select the wide-flange beam which
should be used.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff16bb19d-48e0-4e11-a941-e21fbab48a39%2F9565c999-b52e-4cbb-8ea7-f41beaf5d307%2Fa8suun6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A cantilever beam AB supporting a triangularly dis-
tributed load of maximum intensity qo is shown in the
figure.
Derive the equation of the deflection curve and then
obtain formulas for the deflection 8g and angle of rotation
Oz at the free end. (Note: Use the second-order differential
equation of the deflection curve.)
X-
-L-
Use superposition method to verify your answer.
Sketch V and M diagram for the beam.
Given q,= 40 kN/m, L = 4m. Knowing that for the grade of steel to be used oall = 165 MPa
(compression) Gall = 115 MPa (tensile) and tall = 100 MPa, Select the wide-flange beam which
should be used.
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