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Determine the magnitude of the largest shear force in the beam. Assume L = 4 ft, P = 750 lb, and w = 300 lb/ft.

The beam is fixed at wall B. Determine the reaction moment MB at point B. Let L = 30 ft, M = 1,000 lb·ft, P = 800 lb and w0 = 175 lb/ft.

The truss is pin supported at A and rocker supported at E. Assume all members are pin connected. Determine the magnitude of the force in member CD. Let F1 = 450 lb, F2 = 600 lb, and L = 5 ft.

The beam is fixed at wall B. Determine the reaction moment MB at point B. Let L = 30 ft, M = 1,050 lb·ft, P = 775 lb and w0 = 175 lb/ft.

The beam is fixed at wall B. Determine the reaction moment MB at point B. Let L = 30 ft, M = 1,000 lb·ft, P = 750 lb and w0 = 250 lb/ft.

The beam is fixed at wall B. Determine the vertical reaction force By at point B. Let L = 30 ft, M = 1,000 lb·ft, P = 825 lb and w0 = 250 lb/ft.

Determine the magnitude of the largest shear force in the beam. Assume L = 1 ft, P = 750 lb, and w = 200 lb/ft.

The truss is pin supported at A and rocker supported at E. Assume all members are pin connected. Determine the magnitude of the force in member DE. Let F1 = 200 lb, F2 = 650 lb, and L = 5 ft.

Determine the magnitude of the reaction moment at A. Let P1 = 31.6 kips, P2 = 42.0 kips, and a = b = c = d = 11 ft.

The truss is pin supported at A and rocker supported at E. Assume all members are pin connected. Determine the magnitude of the force in member CD. Let F1 = 650 lb, F2 = 750 lb, and L = 5 ft.