A gantry crane of weight W-100 Kg moves across a bridge with the length 1-5 m. The front axle of the crane (which is nearer end A) carries 3/4W whereas the rear axle (nearer end B) carries 1/4 W. The distance of the axles is b=1/20. Determine the maximum value of the bending moment and enter your answer in N-m units.. Remember to also show all your work (FBDs, calculation steps, etc on the handworked file) HINT: Determine the shear and bending moment equations along the beam. Assume only concentrated loads at the front and rear axles. A x b 1 B
A gantry crane of weight W-100 Kg moves across a bridge with the length 1-5 m. The front axle of the crane (which is nearer end A) carries 3/4W whereas the rear axle (nearer end B) carries 1/4 W. The distance of the axles is b=1/20. Determine the maximum value of the bending moment and enter your answer in N-m units.. Remember to also show all your work (FBDs, calculation steps, etc on the handworked file) HINT: Determine the shear and bending moment equations along the beam. Assume only concentrated loads at the front and rear axles. A x b 1 B
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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I check it and it’s not correct for 1195.78 N Determine the maximum value of the
bending moment and enter your answer in N-m units..
Remember to also show all your work
Hint: Determine the shear and bending moment equations along the beam. Assume only concentrated loads at the front and rear axles.
Transcribed Image Text:Topic: Shear and Bending Moment
A gantry crane of weight W-100 Kg moves across a bridge with the length 1-5 m. The front
axle of the crane (which is nearer end A) carries 3/4W whereas the rear axle (nearer end B)
carries 1/4 W. The distance of the axles is b = 1/20. Determine the maximum value of the
bending moment and enter your answer in N-m units..
Remember to also show all your work (FBDs, calculation steps, etc on the handworked file)
HINT: Determine the shear and bending moment equations along the beam. Assume only
concentrated loads at the front and rear axles.
A
X
b
B
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