A crank shaft is operated as shown in the figure. A load F1 = 9.73 (N] is applied and the operator d2 applies a load P to counter. The system is in equilibrium and all of the bearings are perfectly aligned such that they do not produce moments dz on the rotating crank. The geometry is given by, 7.57 (m). w = 7.31 (m), d1 = 9.69 [m], d2 %3D %3D d3 = 9.87 (m), d4 = 6.14 (m), d5 = 3.7 (m], F2 and hl= 4.4 (m), find the following: F1 Part 1. Express the reaction forces exerted on the bar by the journal bearing at point B. Use the coordinate system shown in the diagram 10 5% 100% Subnt [N] Part 2. Express the reaction forces exerted on the bar by the journal bearing at Point A Use the coordinate system shown in the diagram 10 5% 100% Subm

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A crank shaft is operated as shown in the figure. A load F1 = 9.73 N is applied and the operator %3D dz applies a load P to counter. The system is in equilibrium and all of the bearings are perfectly dz aligned such that they do not produce moments on the rotating crank. The geometry is given by, w = 7.31 [m), dl = 9.69 m], d2 = 7.57 m). 6.14 (m), d5 = 3.7 (m), %3D d1 d3 = 9.87 (m), d4 %3D F2 and h1 4.4 (m), find the following: %3D F1 Part 1. Express the reaction forces exerted on the bar by the journal bearing at point B. Use the coordinate system shown in the diagram 10 5% 100% Submit [N] Part 2. Express the reaction forces exerted on the bar by the journal bearing at Point A. Use the coordinate system shown in the diagram. 5% 100% 10 Submit [N]