Assume a crankshaft is at determined instantons angle and position as shown in Figure.4, 300 грm 200 mm 100 mm 600 Figure.4: Instantons positions of piston in crankshaft mechanism By making use of trigonometric methodology, you are required to find the following parameters of the planar mechanisms: 1. Find the tangential velocity (V¼)o 2. Construct diagrams to show, the rotational motion (tangential velocity vector OA) of link OA, combined rotational and translational motions (relative tangential velocity AB) of link AB, and the pure translational motion of Piston B. 3. On the previous velocity vector diagram, use sine and cosine rules to find the necessary angles and vector magnitudes. 4. Find the tangential velocity (Vg)a and then find the angular velocity of link AB, waB 5. Find the translation velocity of the piston, (Vg)o
Assume a crankshaft is at determined instantons angle and position as shown in Figure.4, 300 грm 200 mm 100 mm 600 Figure.4: Instantons positions of piston in crankshaft mechanism By making use of trigonometric methodology, you are required to find the following parameters of the planar mechanisms: 1. Find the tangential velocity (V¼)o 2. Construct diagrams to show, the rotational motion (tangential velocity vector OA) of link OA, combined rotational and translational motions (relative tangential velocity AB) of link AB, and the pure translational motion of Piston B. 3. On the previous velocity vector diagram, use sine and cosine rules to find the necessary angles and vector magnitudes. 4. Find the tangential velocity (Vg)a and then find the angular velocity of link AB, waB 5. Find the translation velocity of the piston, (Vg)o
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