Draw the shear force and bending moment diagram for the beam. The beam has a triangular distributed load between A and B. 30 kN \cdot m 10 kN 6 kN/m A C B -1.5 m - 1.5 m - 1.5 m - 1.5m -
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5 m from A). Between A and B there is a triangular distributed load varying from 0 at A to w_max = 6 kN/m at B over 7.5 m. A point load of 10 kN acts at B. (Net moment 30 kN·m noted is ignored unless specified as applied; assume only loads above.) Show more…
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Draw the shear and moment diagrams for the beam and loading shown.
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75 kN 10 kN/m 10 m 2 m Q1: (65 point) The beam shown in the figure carries a distributed load and also a concentrated load. Taking into account the geometric features of the beam (given in the figure); a) Determine the reactions at the supports, b) Determine shear force and bending moment equations, c) Draw shear force and bending moment diagrams.
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