Determine the maximum force F that can be supported in the position shown if each chain...
In the position shown in (Figure 1), cords AB and CAD can each support a maximum tension of 80 lb. Suppose that 7 = 19° and 90°. Determine the maximum weight W of the block that can be suspended in the position. Express your answer to three significant figures and include the appropriate units. W = Value Units Submit Request Answer Part B Figure < 1 of 1 > What is the angle @ for equilibrium? Express your answer using...
Determine the greatest force F that can be applied to the ring if each cable can support a maximum force of 900 lb. 1 ft 6 ft ft 2 ft
If the maximum force in each rod can not exceed F, determine the greatest mass of the crate that can be supported. Use F = 2,300 N, L1 = 2.2 m, L2 = 3.8 m, and L3 = 2.8 m for your calculations. 3 m --2 m2 1 m 2 m 0 2 m 1 m L1- If the maximum force in each rod can not exceed F, determine the greatest mass of the crate that can be supported. Use...
3-9. Determine the maximum weight of the flowerpot that can be supported without exceeding a cable tension of 50 lb in either cable AB or AC 30° 4 Prob. 3-9
If the maximum force in each rod can not exceed F, determine the greatest mass of the crate that can be supported. Use F = 3,400 N, L1 = 1.1 m, L2 = 4.9 m, and L3 = 3.9 m for your calculations. 1 m 2 m m
(b) A chandelier is supported by a wire system consists of four wires as shown in Figure 4.1. If the wires can support a maximum tension of 600 N. evaluate which wire developed the highest tensile force, determine the maximum weight of the chandelier that the wire system can support (16 marks) ii. B 145 30° D hhh Figure 4.1 A chandelier supported by a wire system
Im 11 m If the maximum force in each rod can not exceed F, determine the greatest mass of the crate that can be supported. Use F = 3,300 N, L1 = 1.2 m, L2 = 4.8 m. and 3 = 3.8 m for your calculations.
Maximum force that any member can support: - In tension : 4 KN - In compression: 3 KN Find maximum force "P" that could be supported at point B. given d = 1.2
1. Given: The T-beam is constructed as shown. Each nail can support a shear force of 1000 lb. The allowable shear stress for the wood is follow = 500 psl. (15 pts) 2 in. 12 in. 12 in. 2 in. Determine the following yand Ix for the cross section Maximum shear force that the beam can support Corresponding maximum nail spacings to the nearest 1/8 in
Using the method of joints, determine the force in each member of the truss shown. The load P = 390 lb. Using the method of joints, determine the force in each member of the truss shown. The load P= 390 lb. 20 in. 48 in. 15 in. The force in member AB (FAB) is 1800 The force in member BC (FBC) is 1950 The force in member AC (FAC) is 3000 lb. (Tension) lb. (Compression) lb. (Compression)