Beam ABC is subjected to the loading shown, where Pb = 55.0 kN . The measurement corresponding to the half-length of the beam is a = 2.00 mm . For the cross section shown, b = 70.0 mm , c = 150.0 mm , ddd = 125.0 mmmm , and e = 50.0 mm . Point D is located at the centroid of the cross section and point E is located directly above the transition between the web and the top flange. Part A draw free body diagram? Part B - Maximum shear force Determine the maximum shear force, Vmax, in beam ABC. 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. τD =?
Beam ABC is subjected to the loading shown, where Pb = 55.0 kN . The measurement corresponding to the half-length of the beam is a = 2.00 mm . For the cross section shown, b = 70.0 mm , c = 150.0 mm , ddd = 125.0 mmmm , and e = 50.0 mm . Point D is located at the centroid of the cross section and point E is located directly above the transition between the web and the top flange.
Part A
draw free body diagram?
Part B - Maximum shear force
Determine the maximum shear force, Vmax, in beam ABC.
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.
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.
τE =?
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