A beam is subjected to a concentrated force, as shown in the figure elow, try to find the Elastic Curve after the beam is stressed, The flexural stiffness of the beam section is constant El: a) When using the Double Integration Method to solve, it is necessa o use the boundary conditions (Boundary Condition) to get the constant term after integration, what are the boundary conditions of this problem? b) Find the elastic curve from point A to point C (x1). c) Same as above, find the difference between point C and point B x2) Elastic curve.
A beam is subjected to a concentrated force, as shown in the figure elow, try to find the Elastic Curve after the beam is stressed, The flexural stiffness of the beam section is constant El: a) When using the Double Integration Method to solve, it is necessa o use the boundary conditions (Boundary Condition) to get the constant term after integration, what are the boundary conditions of this problem? b) Find the elastic curve from point A to point C (x1). c) Same as above, find the difference between point C and point B x2) Elastic curve.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:A beam is subjected to a concentrated force, as shown in the figure
below, try to find the Elastic Curve after the beam is stressed,
The flexural stiffness of the beam section is constant El:
(a) When using the Double Integration Method to solve, it is necessa
to use the boundary conditions (Boundary
Condition) to get the constant term after integration, what are the
boundary conditions of this problem?
(b) Find the elastic curve from point A to point C (x1).
(c) Same as above, find the difference between point C and point B
(x2)
Elastic curve.
Transcribed Image Text:AV
-X₁-
a
-X2-
-L-
C
-b-
B
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