A beam supports both a uniform distributed load and a concentrated force, as shown in the figure below. The 0 ft to L₂ = 6 ft to the right uniform distributed load has a magnitude q = 80 lb/ft and extends from L₁ of point A. The concentrated force has a magnitude F = 300 lb, is inclined by an angle 0 = 40°, and acts L3= 10 ft to the left of point B. The beam has an overall length L = 20 ft, and is held in equilibrium by a pin at point A and a roller at point B. Neglect the height and weight of the beam for this analysis. Determine the support reactions at points A and B. Note: Express your answers following the standard sign convention for the coordinate system shown. A₂ = A₁ = By= X 229.8 432.418 240.418 L₂ q lb lb lb ✓100% ? X0% ? X0% 8 L3 77777

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A beam supports both a uniform distributed load and a concentrated force, as shown in the figure below. The uniform distributed load has a magnitude q = 80 lb/ft and extends from L₁ = 0 ft to L₂ = 6 ft to the right of point A. The concentrated force has a magnitude F 300 lb, is inclined by an angle 0 = 40°, and acts L3= 10 ft to the left of point B. The beam has an overall length L = 20 ft, and is held in equilibrium by a pin at point A and a roller at point B. Neglect the height and weight of the beam for this analysis. Determine the support reactions at points A and B. Note: Express your answers following the standard sign convention for the coordinate system shown. A 777 A₂ = A₁ = By = X 229.8 L₁ 432.418 240.418 L₂ q L lb lb lb ? ✔100% ? *0% 7 X0% Ө L3 F B 77