A 20 kg box is placed on an incline plane against a stop as shown below. A flexible cable is attached to the box, initially with no tension. The line of action of the cable is parallel to the incline plane and runs through the center of gravity of the box. The coefficient of friction between the box and the incline plane is 0.30. Determine the tension (N) in the cable after the stop is removed and the system establishes static equilibrium A 20 kg box is placed on an incline plane against a stop as shown below. A flexible cable isattached to the box, initially with no tension. The line of action of the cable is parallel to theincline plane and runs through the center of gravity of the box. The coefficient of frictionbetween the box and the incline plane is 0.30. Determine the tension (N) in the cable after thestop is removed and the system establishes static equilibrium.stop15°g

A 20 kg box is placed on an incline plane against a stop as shown below. A flexible cable is attached to the box, initially with no tension. The line of action of the cable is parallel to the incline plane and runs through the center of gravity of the box. The coefficient of friction between the box and the incline plane is 0.30. Determine the tension (N) in the cable after the stop is removed and the system establishes static equilibrium. stop 15° g

A 20 kg box is placed on an incline plane against a stop as shown below. A flexible cable is attached to the box, initially with no tension. The line of action of the cable is parallel to the incline plane and runs through the center of gravity of the box. The coefficient of friction between the box and the incline plane is 0.30. Determine the tension (N) in the cable after the stop is removed and the system establishes static equilibrium. stop 15° g

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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