A single cable is attached to two adjacent walls and supports a force, F. The walls are separated by a distance L of 120 cm. The cable is attached at different heights, the higher attachment point (h₁) is at 100 cm, and the lower attachment point (h2) is at 60 cm, as shown in the figure below. Determine the tension T (N) in the cable if the F is 100 N. For this arrangement, the distance from the two walls where the force is being applied. Enter your answer using 1 decimal. Singe Continuous Cable under a Tension, T

Elements Of Electromagnetics
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Please solve this question in a paper sheet. Show all the work , Include Free body diagram.
A single cable is attached to two adjacent walls and supports a force, F. The walls are separated by a distance L of 120 cm.
The cable is attached at different heights, the higher attachment point (h₁) is at 100 cm, and the lower attachment point (h2)
is at 60 cm, as shown in the figure below. Determine the tension T (N) in the cable if the F is 100 N. For this arrangement,
the distance from the two walls where the force is being applied. Enter your answer using 1 decimal.
Singe Continuous Cable
under a Tension, T
Transcribed Image Text:A single cable is attached to two adjacent walls and supports a force, F. The walls are separated by a distance L of 120 cm. The cable is attached at different heights, the higher attachment point (h₁) is at 100 cm, and the lower attachment point (h2) is at 60 cm, as shown in the figure below. Determine the tension T (N) in the cable if the F is 100 N. For this arrangement, the distance from the two walls where the force is being applied. Enter your answer using 1 decimal. Singe Continuous Cable under a Tension, T
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