The beam shown below acted upon by a constant distributed load, a couple moment, and a point force as shown. It is suppo

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The Beam Shown Below Acted Upon By A Constant Distributed Load A Couple Moment And A Point Force As Shown It Is Suppo 1 (252.54 KiB) Viewed 56 times

Determine the reaction forces at A and B.
Find the location of zero
shear between A and B.
Determine the absolute maximum bending moment for the beam.
Draw the shear force diagram for the beam.
Draw the bending moment diagram for the beam.
The beam shown below acted upon by a constant distributed load, a couple moment, and a point force as shown. It is supported by a pin at A and a roller at B. F W M L1 L2 The applied forces/moments are: w= 40 kN/m from A to B F= 20 kN at C M = 150 kN*m at C Allow: Ly = 8 m L2 = 3 m i. Determine the reaction forces at A and B. ii. Find the location of zero shear between A and B. iii. Determine the absolute maximum bending moment for the beam. iv. Draw the shear force diagram for the beam. v. Draw the bending moment diagram for the beam.