FL AZ A C B D 2a a a The figure above shows a static indeterminate beam ABCD. The beam has a fixed joint bearing in A and a sliding bearing in B and C. Note that the beam is continuous at point B and that the joint in the bearing is below the beam. The beam is subjected to an evenly distributed load q between A and C, while there is a point load F at point D. The beam is made of steel with an E- modulus 210,000 MPa and has a cross section with a second area moment ly = 12 x 10^6 mm^4. The value of the evenly distributed load q and the length are determined from: q = 3.9 kN/m a = 1.86 m Now set the force F to the value you found in question a) and determine how big the deflection of the beam will be at point D, under the point load F. F = 262 KN
FL AZ A C B D 2a a a The figure above shows a static indeterminate beam ABCD. The beam has a fixed joint bearing in A and a sliding bearing in B and C. Note that the beam is continuous at point B and that the joint in the bearing is below the beam. The beam is subjected to an evenly distributed load q between A and C, while there is a point load F at point D. The beam is made of steel with an E- modulus 210,000 MPa and has a cross section with a second area moment ly = 12 x 10^6 mm^4. The value of the evenly distributed load q and the length are determined from: q = 3.9 kN/m a = 1.86 m Now set the force F to the value you found in question a) and determine how big the deflection of the beam will be at point D, under the point load F. F = 262 KN
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
Related questions
Question
ASAP
![F
q
A
C
B
D
2a
a
a
The figure above shows a static indeterminate
beam ABCD. The beam has a fixed joint bearing
in A and a sliding bearing in B and C. Note that
the beam is continuous at point B and that the
joint in the bearing is below the beam. The
beam is subjected to an evenly distributed load
q between A and C, while there is a point load F
at point D. The beam is made of steel with an E-
modulus 210,000 MPa and has a cross section
with a second area moment ly = 12 x 10^6
mm^4. The value of the evenly distributed load
q and the length are determined from:
q = 3.9 kN/m
a = 1.86 m
Now set the force F to the value you found in
question a) and determine how big the deflection
of the beam will be at point D, under the point
load F.
F = 262 kN](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fafb7f87d-b6d9-4c38-a410-760fe79248c1%2F2ad98558-cba2-4aa3-a986-8c62a8760bcd%2Fsmdksr_processed.jpeg&w=3840&q=75)
Transcribed Image Text:F
q
A
C
B
D
2a
a
a
The figure above shows a static indeterminate
beam ABCD. The beam has a fixed joint bearing
in A and a sliding bearing in B and C. Note that
the beam is continuous at point B and that the
joint in the bearing is below the beam. The
beam is subjected to an evenly distributed load
q between A and C, while there is a point load F
at point D. The beam is made of steel with an E-
modulus 210,000 MPa and has a cross section
with a second area moment ly = 12 x 10^6
mm^4. The value of the evenly distributed load
q and the length are determined from:
q = 3.9 kN/m
a = 1.86 m
Now set the force F to the value you found in
question a) and determine how big the deflection
of the beam will be at point D, under the point
load F.
F = 262 kN
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