Draw the influence line diagram of the given beam below for it's shear and maximum moment about the point E, and determine the equivalent maximum moment at point E due to a dead load of 10 kn/m and a moving live load of 8 kn/m with two concentrated load of 90 kn and 80 kn that is 1m apart. ILD for Ve=f(x) and Me=f(x), (Point D is an internal pin) A. The maximum positive and negative ordinate of the influence line diagram from Ve=f(x) B. The maximum positive and negative ordinate of the influence line diagram from Me=f(x) C. The equivalent maximum moment of Me which is 4m away from the hinge support due to the applied loading conditions?
Draw the influence line diagram of the given beam below for it's shear and maximum moment about the point E, and determine the equivalent maximum moment at point E due to a dead load of 10 kn/m and a moving live load of 8 kn/m with two concentrated load of 90 kn and 80 kn that is 1m apart. ILD for Ve=f(x) and Me=f(x), (Point D is an internal pin) A. The maximum positive and negative ordinate of the influence line diagram from Ve=f(x) B. The maximum positive and negative ordinate of the influence line diagram from Me=f(x) C. The equivalent maximum moment of Me which is 4m away from the hinge support due to the applied loading conditions?
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
Draw the influence line diagram of the given beam below for it's shear and
maximum moment about the point E, and determine the equivalent
maximum moment at point E due to a dead load of 10 kn/m and a moving
live load of 8 kn/m with two concentrated load of 90 kn and 80 kn that is 1m
apart.
ILD for Ve=f(x) and Me=f(x), (Point D is an internal pin)
A. The maximum positive and negative ordinate of the influence line
diagram from Ve=f(x)
B. The maximum positive and negative ordinate of the influence line
diagram from Me=f(x)
C. The equivalent maximum moment of Me which is 4m away from the hinge
support due to the applied loading conditions?
Transcribed Image Text:6m
4m
E B
A2m
D C
2m
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