BLOCK CCABLEFRICTIONp = 0.35 forall surfacesIn the beam system shown inthe figure, Block A and BlockB are connected by a rod,while Block B and Block C are80°connected by a cable.Determine the following:69°3. Tensile force in the cablethat connects Block B andBlock C.4. Minimum weight of Block Cjust to prevent the other twoblocks from sliding.60°BLOCK ABLOCK B50 KN* ROD50 KN

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BLOCK C CABLE FRICTION p = 0.35 for all surfaces In the beam system shown in the figure, Block A and Block B are connected by a rod, while Block B and Block C are connected by a cable. Determine the following: 80° 699 3. Tensile force in the cable that connects Block B and Block C. 4. Minimum weight of Block C just to prevent the other two blocks from sliding. 60° BLOCK A BLOCK B %ROD 50 KN + 50 KN

BLOCK C CABLE FRICTION p = 0.35 for all surfaces In the beam system shown in the figure, Block A and Block B are connected by a rod, while Block B and Block C are connected by a cable. Determine the following: 80° 699 3. Tensile force in the cable that connects Block B and Block C. 4. Minimum weight of Block C just to prevent the other two blocks from sliding. 60° BLOCK A BLOCK B %ROD 50 KN + 50 KN

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter6: Beams And Cables

Section: Chapter Questions

Problem 6.63P: The cable of the suspension bridge spans L=140m with a sag H=20m. The cable supports a uniformly...

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