A train is parked on a steel bridge as shown in the figure below. The steel bridge is simply supported by a pin support at point A and a roller support at point B. The bridge has a modulus of E0=200 GPa, 2nd moment of area Iz=1.5 m^4 and length L=200m. The train has a weight of W=2000000N and the same length as the bridge. Use the SI Unit for calculation
A train is parked on a steel bridge as shown in the figure below. The steel bridge is simply supported by a pin support at point A and a roller support at point B. The bridge has a modulus of E0=200 GPa, 2nd moment of area Iz=1.5 m^4 and length L=200m. The train has a weight of W=2000000N and the same length as the bridge. Use the SI Unit for calculation
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
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A train is parked on a steel bridge as shown in the figure below. The steel bridge is simply supported by a pin support at point A and a roller support at point B. The bridge has a modulus of E0=200 GPa, 2nd moment of area Iz=1.5 m^4 and length L=200m. The train has a weight of W=2000000N and the same length as the bridge. Use the SI Unit for calculation.
a)
Determine the intensity of the uniformly distributed load:
f=
b)
Write the mathematical expression for the two quantities below, in terms of parameters ?, ??, ?0, ? and ?.
Determine the elastic curve formula for the deflection of the bridge.
v=
determine the slope formula for the bridge under the applied loading
dv/dx=
Transcribed Image Text:A
f
L
B
Y
X
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