Suspended Weight Homework: Max Total Weight for Cables C1-C6

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SUMMARY

The discussion centers on calculating the maximum total weight that a structure can carry using cables C1, C2, C3, C4, C5, and C6, with specific weight limits of 100kg for C1-C3 and 50kg for C4-C6. The problem requires understanding the physics concepts of torque and force distribution in a suspended weight system. The solution involves applying linear programming principles and calculating the forces at each support point, ensuring that the torque remains balanced. The user seeks clarification on the physics behind the calculations rather than the linear programming aspect.

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Homework Statement



In a certain structure, the cables C1, C2, and C3 (Figure) can each carry a weight of 100kg, and C4, C5, and C6 can each carry 50kg. Weights are suspended at R, S, and T.

What is the maximum total weight the structure can carry?

PS1: (Ignore the weight of the structure itself).
PS2: (The distances are in red).

It's important to tell that this problem requires a linear programming solution but I just want to know about the physics concepts behind the problem.

Any help would be good for me.

Thanks in advance!

Homework Equations



Here goes the figure

[PLAIN]http://img692.imageshack.us/img692/3176/systemd.png

The Attempt at a Solution


 
Last edited by a moderator:
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Do you know how to calculate the forces through the structure when the weights are applied at each point?
 
To solve this, you want to work up from the bottom, finding the torque applied to each support, and the force the support needs to apply in order to supply that much torque.

For example:

\frac{3T}{4} = C6 \leq 50

and

\frac{S+2C6}{3} = C3 \leq 100



Then perform any substitutions that you can
From the above examples:

\frac{S+2\frac{3T}{4}}{3} = C3 \leq 100
 
Beaker

Your method is correct, the system are in rest so the torque applied to each support has to be zero.

Im really thankful!
 

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