1. Draw free-body diagrams (FBDs) for the specified rigid bodies. Then, write the coordinates of each named point in the figure (A, B, etc.) and any additional point where a force or moment is acting. a. A bent pipe with negligible mass, supported by a ball-and-socket joint at A and three cables, CD, BD, and BE. (Represent the distributed force as an equivalent point force in your FBD.) Im 1.5 m 1m 15 in 4 in 10 in 2m 4 in 250 N/m 2 kN b. A shaft, lever, and handle, welded together, with a combined mass of 20 kg acting at point G, supported by a thin link, CD, and two journal bearings, A and B. (Draw a single FBD for the combined rigid body shaft + lever + handle.) 2 in 50 lb-in D A 6 in G 2m 5 in 6 in E 2m B

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1. Draw free-body diagrams (FBDs) for the specified rigid bodies. Then, write the coordinates of each named point in the figure (A, B, etc.) and any additional point where a force or moment is acting. a. A bent pipe with negligible mass, supported by a ball-and-socket joint at A and three cables, CD, BD, and BE. (Represent the distributed force as an equivalent point force in your FBD.) 1 m 1.5 m 1m F 15 in 2 kN 4 in B 10 in 4 in 2 m 250 N/m b. A shaft, lever, and handle, welded together, with a combined mass of 20 kg acting at point G, supported by a thin link, CD, and two journal bearings, A and B. (Draw a single FBD for the combined rigid body shaft + lever + handle.) 2 in 50 lb-in 10 2 m 5 in 6 in E 2 m B