O AEd It vec B, = N Submit Request Answer Part E- Part E There exists a point of zero shear between roller A and pin B. At what value of z is this point? Express your answer in units of m to three significant figures. AEd It vec Iseroshear= Reguest Answer Submit Part F- Part F What is the magnitude of the absolute maximum bending moment for this beam? Express your answer in units of N - m to three significant figures. ? Mmaz N- m

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The beam shown below is acted upon by a triangular distributed load, a couple moment, and a point force as shown. It is supported by a roller at A and a pin at B. M A B 3 т 1 m 1 т F The applied forces/moments are: w = 150 N/m M= 65 N-m F= 20 N Determ the 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.

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Part D - Part D Determine the y – component of the reaction force at pin B. Use positive values to represent forces oriented up or to the right and negative values to represent forces oriented down or to the left. Express your answer in units of N to three significant figures. If no reaction force exists for a particular component, enter 0. vec By = N Submit Request Answer Part E - Part E There exists a point of zero shear between roller A and pin B. At what value of x is this point? Express your answer in units of m to three significant figures. nν ΑΣφ ? vec Xzeroshear = m Submit Request Answer Part F - Part E What is the magnitude of the absolute maximum bending moment for this beam? Express your answer in units of N · m to three significant figures. Πνα ΑΣφ I1 | vec ? Mmaz = N. m 國