Determine the boundary conditions that can be used for double integration method. (a) (b) Use double integration method, calculate the value of each C parameter derived from your equations. Calculate the vertical displacement at point E, rotation at points B and A, respectively. (c)
Determine the boundary conditions that can be used for double integration method. (a) (b) Use double integration method, calculate the value of each C parameter derived from your equations. Calculate the vertical displacement at point E, rotation at points B and A, respectively. (c)
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Kindly answer the entire question(Q3) in the image given below.
For your information, the unknown,w is given as 2.
w=2
![A simply supported beam is subjected to a (w + 1) kN/m of uniformly distributed
loading, as shown in Figure Q3.
Consider El is constant for the entire beam.
(w+1) kN/m
D
A
E
2 m-
2 m
Figure Q3
(a)
Determine the boundary conditions that can be used for double integration
method.
(b)
Use double integration method, calculate the value of each C parameter
derived from your equations.
Calculate the vertical displacement at point E, rotation at points B and A,
respectively.
(c)
(d)
If the roller support at point C is gradually move towards point D, discuss its
effect to the vertical displacement and rotation at point A.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F588cc663-c99d-4e22-8571-aee79542613b%2Fc089c157-d310-4cd7-97b8-2fda80a7eaa7%2Fd7vep4n_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A simply supported beam is subjected to a (w + 1) kN/m of uniformly distributed
loading, as shown in Figure Q3.
Consider El is constant for the entire beam.
(w+1) kN/m
D
A
E
2 m-
2 m
Figure Q3
(a)
Determine the boundary conditions that can be used for double integration
method.
(b)
Use double integration method, calculate the value of each C parameter
derived from your equations.
Calculate the vertical displacement at point E, rotation at points B and A,
respectively.
(c)
(d)
If the roller support at point C is gradually move towards point D, discuss its
effect to the vertical displacement and rotation at point A.
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