A weight W= 500 N is suspended from two identical cables AB and BC, each with a weight of q= 10 N/m. If the maximum horizontal force allowed on the support cable is of 800 N, find: a) The shortest possible length of cable ABC. b) The height h on the previous situation. a= 20 m.
A weight W= 500 N is suspended from two identical cables AB and BC, each with a weight of q= 10 N...
A 358-N, uniform, 1.44-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 459.0 N without breaking, and cable B can support up to 439.0 N . You want to place a small weight on this bar. A) What is the heaviest weight you can put on without breaking either cable? w=_____N B) Where should you put this weight? d=______m from the cable A
A 338-N, uniform, 1.62-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 549.0 N without breaking, and cable B can support up to 417.0 N . You want to place a small weight on this bar. Here is what I have so far... Part A What is the heaviest weight you can put on without breaking either cable? w = 628 N <--- Correct Correct Part B Where should...
please find the magnitude and the weight A container of weight Wis suspended from ring A, to which cables AC and AE are attached. A force P is applied to the end Fof a third cable that passes over a pulley at B and through ring A and that is attached ba support at D. 0.40 m 0.86 m 1.20 m B 1.30 m 0.78 m 0.40 m 1.60 m W eBook & Resources References A container of weight Wis...
A 380-N, uniform, 1.25-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 512.0 N without breaking, and cable B can support up to 443.0 N. You want to place a small weight on this bar. What is the heaviest weight you can put on without breaking either cable? Where should you put this weight?
A 352-N, uniform, 1.68-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 516.0 N without breaking, and cable B can support up to 434.0 N . You want to place a small weight on this bar Part A What is the heaviest weight you can put on without breaking either cable? Part B Where should you put this weight?
A 397-N, uniform, 1.32-m bar is suspended horizontally by two vertical cables at each end. Cable A can support a maximum tension of 510.0 N without breaking, and cable B can support up to 413.0 N . You want to place a small weight on this bar. Part APart complete What is the heaviest weight you can put on without breaking either cable? Part B Where should you put this weight, what is d?
A weight W hangs from two steel cables of equal length attached to each other as shown. The combined length of both cables is 35 m. The cross section of upper cable is 20 mm2 whereas the cross section of the lower cable is 80 mm2. The Young's modulus of both cables is 200,000 N/mm2. If the total extension of the combined cable is 4 mm, determine that value of the weight W in Newtons. Round off your answer to...
PROBLEM 1.6 Two brass rods AB and BC, each of uniform diameter, will be brazed together at B to form a nonuniform rod of total length 100 m, which will be suspended from a support at A as shown. Knowing that the density of brass is 8470 kg/m, determine (a) the length of rod AB for which the maximum normal stress in ABC is minimum, (b) the corresponding value of the maximum normal stress. (l 15 mm 100 m
Two brass rods AB and BC, each of uniform diameter, will bebrazed together at B to form a nonuniform rod of total length100 m which will be suspended from a support at A as shown.Knowing that the density of brass is 8470 kg/m3, determine (a) thelength of rod AB for which the maximum normal stress in ABC isminimum, (b) the corresponding value of the maximum normalstress.
2)A 3 meter rod with a weight of 1000 N is suspended by two cables and has a large box(3500 N in weight ) tied to the right hand side hanging vertically. The center of mass of the rod is.5 min from the leftmost edge. One cable is exactly on the leftmost end of rod with a tension of 4000 N at an angle of 30 degrees to rod . The second cable is 1 m to the right of...