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Pulleys 1 and 2 of the rope and pulley system shown are connected and rotate as a unit. The radii of pulleys 1 and 2 are 120 mm and 300 mm, respectively. Rope A is wrapped around pulley 1 and is fastened to pulley 1 at point A'. Rope B is wrapped around pulley 2 and is fastened to pulley 2 at point B'. The rope is continuous over pulleys 3 and 4. Determine the tension T in the rope, required to hold body W in equilibrium, if the mass of body W is 250 kg. 3. T

Pulleys 1 and 2 of the rope and pulley system shown are connected and rotate as a unit. The radii of pulleys 1 and 2 are 120 mm and 300 mm, respectively. Rope A is wrapped around pulley 1 and is fastened to pulley 1 at point A'. Rope B is wrapped around pulley 2 and is fastened to pulley 2 at point B'. The rope is continuous over pulleys 3 and 4. Determine the tension T in the rope, required to hold body W in equilibrium, if the mass of body W is 250 kg. 3. T

Structural Analysis
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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Pulleys 1 and 2 of the rope and pulley system shown are connected and rotate as a unit. The radii of pulleys 1 and 2 are 120 mm and 300 mm, respectively. Rope A is wrapped around pulley 1 and is fastened to pulley 1 at point A'. Rope B is wrapped around pulley 2 and is fastened to pulley 2 at point B'. The rope is continuous over pulleys 3 and 4. Determine the tension T in the rope, required to hold body W in equilibrium, if the mass of body W is 250 kg. 3. T
Transcribed Image Text:Pulleys 1 and 2 of the rope and pulley system shown are connected and rotate as a unit. The radii of pulleys 1 and 2 are 120 mm and 300 mm, respectively. Rope A is wrapped around pulley 1 and is fastened to pulley 1 at point A'. Rope B is wrapped around pulley 2 and is fastened to pulley 2 at point B'. The rope is continuous over pulleys 3 and 4. Determine the tension T in the rope, required to hold body W in equilibrium, if the mass of body W is 250 kg. 3. T
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