Problem Two simply supported I-beams (one on the left and another one on the right of the bridge) are to be used for a single lane bridge and to complete a design to allow vehicles transported from one side of a river to the other. Each simply supported I-beam is the carry half of the load applied by the moving vehicles. Chief engineer needs to select an appropriate member dimensions and have some questions to be answered. Your team needs to provide answers his questions. Question a. Draw influence line for the beam. b. Determine the magnitude of the absolute maximum shear in the beam, c. Determine the magnitude of the absolute maximum bending moment on the beam, d. Determine the maximum deflection of the beam under the worst case scenario by taking modulus of elasticity E=200GPa and the moment of inertia of the member I= 162700000 mm². d [kN] b [kN] c [kN] e [m] f [m] a [m]
Problem Two simply supported I-beams (one on the left and another one on the right of the bridge) are to be used for a single lane bridge and to complete a design to allow vehicles transported from one side of a river to the other. Each simply supported I-beam is the carry half of the load applied by the moving vehicles. Chief engineer needs to select an appropriate member dimensions and have some questions to be answered. Your team needs to provide answers his questions. Question a. Draw influence line for the beam. b. Determine the magnitude of the absolute maximum shear in the beam, c. Determine the magnitude of the absolute maximum bending moment on the beam, d. Determine the maximum deflection of the beam under the worst case scenario by taking modulus of elasticity E=200GPa and the moment of inertia of the member I= 162700000 mm². d [kN] b [kN] c [kN] e [m] f [m] a [m]
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![Problem
Two simply supported I-beams (one on the left and another one on the right of the bridge) are to be used for a single
lane bridge and to complete a design to allow vehicles transported from one side of a river to the other. Each simply
supported I-beam is the carry half of the load applied by the moving vehicles. Chief engineer needs to select an
appropriate member dimensions and have some questions to be answered. Your team needs to provide answers his
questions.
Question
a. Draw influence line for the beam.
b. Determine the magnitude of the absolute maximum shear in the beam,
c. Determine the magnitude of the absolute maximum bending moment on the beam,
d. Determine the maximum deflection of the beam under the worst case scenario by taking modulus of elasticity
E=200GPa and the moment of inertia of the member I= 162700000 mm².
d [kN]
b [kN]
c [kN]
e [m]
f [m]
a [m]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc8ca74a7-0947-4e31-8ea5-2fed52b119b5%2F0b21a71d-d84b-46dd-bc06-03f821f0f7e4%2Fj6wkwb_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Problem
Two simply supported I-beams (one on the left and another one on the right of the bridge) are to be used for a single
lane bridge and to complete a design to allow vehicles transported from one side of a river to the other. Each simply
supported I-beam is the carry half of the load applied by the moving vehicles. Chief engineer needs to select an
appropriate member dimensions and have some questions to be answered. Your team needs to provide answers his
questions.
Question
a. Draw influence line for the beam.
b. Determine the magnitude of the absolute maximum shear in the beam,
c. Determine the magnitude of the absolute maximum bending moment on the beam,
d. Determine the maximum deflection of the beam under the worst case scenario by taking modulus of elasticity
E=200GPa and the moment of inertia of the member I= 162700000 mm².
d [kN]
b [kN]
c [kN]
e [m]
f [m]
a [m]
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