2. A simply supported beam, 10 meters long, has a 2-m overhang beyond the right support. A uniform load of 9.35kN/m and a concentrated load of 116kN will pass on this beam. It is desired to determine the maximum shear at the mid span (between supports) of the beam. a. Determine the lengthen the beam where the uniform load could act to produce maximum positive shear at midspan. b. Determine the length on the beam where the uniform load could act to produce maximum negative shear at midspan. c. If the concentrated load is positioned at the end of the overhang, determine the maximum shear at the midspan.

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
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2. A simply supported beam, 10 meters long, has a 2-m overhang beyond the right
support. A uniform load of 9.35kN/m and a concentrated load of 116kN will pass on
this beam. It is desired to determine the maximum shear at the mid span (between
supports) of the beam.
a. Determine the lengthen the beam where the uniform load could act to
produce maximum positive shear at midspan.
b. Determine the length on the beam where the uniform load could act to
produce maximum negative shear at midspan.
c. If the concentrated load is positioned at the end of the overhang, determine
the maximum shear at the midspan.
Transcribed Image Text:2. A simply supported beam, 10 meters long, has a 2-m overhang beyond the right support. A uniform load of 9.35kN/m and a concentrated load of 116kN will pass on this beam. It is desired to determine the maximum shear at the mid span (between supports) of the beam. a. Determine the lengthen the beam where the uniform load could act to produce maximum positive shear at midspan. b. Determine the length on the beam where the uniform load could act to produce maximum negative shear at midspan. c. If the concentrated load is positioned at the end of the overhang, determine the maximum shear at the midspan.
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