The beam in the figure below is to be loaded with 20kN single axle load, a uniformly distributed live load of 25 kN/m, and a uniformly distributed dead load of 10kN/m. Considering the loads, A. determine the maximum negative shear at B. (Note: Put "0" if there is no negative shear to occur at B considering the lods.) B. determine the maximum positive shear at B C. For the beam shown below. determine the highest negative coordinate of the influence line for the shear at B
The beam in the figure below is to be loaded with 20kN single axle load, a uniformly distributed live load of 25 kN/m, and a uniformly distributed dead load of 10kN/m. Considering the loads, A. determine the maximum negative shear at B. (Note: Put "0" if there is no negative shear to occur at B considering the lods.) B. determine the maximum positive shear at B C. For the beam shown below. determine the highest negative coordinate of the influence line for the shear at B
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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The beam in the figure below is to be loaded with 20kN single axle load, a uniformly distributed live load of 25 kN/m, and a uniformly distributed dead load of 10kN/m. Considering the loads,
A. determine the maximum negative shear at B. (Note: Put "0" if there is no negative shear to occur at B considering the lods.)
B. determine the maximum positive shear at B
C. For the beam shown below. determine the highest negative coordinate of the influence line for the shear at B
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