Part B - Maximum shear force
Determine the maximum shear force, Vmax, in beam ABC.
Express your answer to three significant figures and include appropriate units.

Vmax?

Part C - Shear stress at point D
Determine the shear stress, τD, at point D that corresponds to the maximum shear force along the length of the beam.
Express your answer to three significant figures and include appropriate units.

τD?

Part D - Shear stress at point E
Determine the shear stress, τE, at point E that corresponds to the maximum shear force along the length of the beam.
Express your answer to three significant figures and include appropriate units.

τE?

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Learning Goal: To determine the shear stresses at specific locations in a beam due to an external loading. Beam ABC is subjected to the loading shown, where PR = 85.0 kN. The measurement corresponding to the half-length of the beam is a = 5.00 m. For the cross section shown, b= 75.0 m m,c= 150.0 mm , d= 110.0 mm , and e = 75.0 mm Point Dis located at the centroid of the cross section and point E is located directly above the transition between the web and the top flange. PB B

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Part A - Free-body diagram To conduct an analysis, a free-body diagram is needed. Draw the free-body diagram of beam ABC. Construct the free-body diagram by drawing the vectors that represent the forces that act on beam ABC. The tip of each vector should terminate at its corresponding node. You will not be graded on vector length. Consider only forces in the y direction. > View Available Hintſs) No elements selected B A C Select the elerments from the list and add them to the canvas setting the appropriate attributes.