An B m. long beam is on hinged at its left end and on fixed support at its right end. Its flexural capacity is 610 kN.m. whilte its web shear capacity is 642 kN. Beam flexural rigidity is X x 1012 N.mm². #29 What is the allowable uniformly distributed load on the beam so that the flexural capacity is not exceeded? #30 #31 Based on web shear capacity, what is the allowable uniformly distributed load (kN/m)? When the support at the left end is removed, a cantilever beam results. How much should the beam be cambered at the free end to offset the end deflection if the load W210 kN/m?

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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X = 212

B = 1

Situation #4
CE Board May 2015
An B m. long beam is on hinged at its left end
and on fixed support at its right end. Its
flexural capacity is 610 kN.m. whilte its web
shear capacity is 642 kN. Beam flexural
rigidity is X x 1012 N.mm².
#29 What is the allowable uniformly distributed
load on the beam so that the flexural
capacity is not exceeded?
#30
#31
Based on web shear capacity, what is the
allowable uniformly distributed load
(kN/m)?
When the support at the left end is
removed, a cantilever beam results. How
much should the beam be cambered at
the free end to offset the end deflection if
the load W = 210 kN/m?
Transcribed Image Text:Situation #4 CE Board May 2015 An B m. long beam is on hinged at its left end and on fixed support at its right end. Its flexural capacity is 610 kN.m. whilte its web shear capacity is 642 kN. Beam flexural rigidity is X x 1012 N.mm². #29 What is the allowable uniformly distributed load on the beam so that the flexural capacity is not exceeded? #30 #31 Based on web shear capacity, what is the allowable uniformly distributed load (kN/m)? When the support at the left end is removed, a cantilever beam results. How much should the beam be cambered at the free end to offset the end deflection if the load W = 210 kN/m?
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