Optimum Mechanics Co. lifted a car weighing 2892 lbf using the system presented. The platform was supported by four (4) cables (Cable AB, AC, AD, and AE). Determine the following: (Take AB = AE). note: Express your answer in units. Observe 3 decimal places. The error threshold is ± 2.50% Relative to the right answer. A: < 0 0 10.213 >ft B: < 4.737 4.02 0 > ft C: < 6.767 -4.02 0 > ft D: < -7.276 -4.908 0 > ft E: < -5.155 4.02 0 > ft 1.) Determine the x-component of the Tension in AE. 2.) Determine the y-component of the Tension in AE. 3.) Determine the z-component of the Tension in AE.
Optimum Mechanics Co. lifted a car weighing 2892 lbf using the system presented. The platform was supported by four (4) cables (Cable AB, AC, AD, and AE). Determine the following: (Take AB = AE). note: Express your answer in units. Observe 3 decimal places. The error threshold is ± 2.50% Relative to the right answer. A: < 0 0 10.213 >ft B: < 4.737 4.02 0 > ft C: < 6.767 -4.02 0 > ft D: < -7.276 -4.908 0 > ft E: < -5.155 4.02 0 > ft 1.) Determine the x-component of the Tension in AE. 2.) Determine the y-component of the Tension in AE. 3.) Determine the z-component of the Tension in AE.
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Optimum Mechanics Co. lifted a car weighing 2892 lbf using the system presented. The platform was supported by four (4) cables (Cable AB, AC, AD, and AE). Determine the following: (Take AB = AE).
note: Express your answer in units.
Observe 3 decimal places.
The error threshold is ± 2.50% Relative to the right answer.
A: < 0 0 10.213 >ft
B: < 4.737 4.02 0 > ft
C: < 6.767 -4.02 0 > ft
D: < -7.276 -4.908 0 > ft
E: < -5.155 4.02 0 > ft
1.) Determine the x-component of the Tension in AE.
2.) Determine the y-component of the Tension in AE.
3.) Determine the z-component of the Tension in AE.
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