Static Equilibrium components (pulleys, weights)

AI Thread Summary
The discussion focuses on analyzing a static equilibrium problem involving two pulleys and three weights. Participants emphasize the importance of correctly calculating the x and y components of the forces acting on the system, particularly noting that the y-components must sum to zero for equilibrium. There is confusion regarding the application of trigonometric functions, with advice given to ensure sine and cosine are used appropriately in calculations. The net force in the y-direction is highlighted as the sum of the forces from the weights and the tension in the ropes. Accurate component analysis is crucial for determining whether the system is in equilibrium.
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Homework Statement



Component diagram:
include all forces, x & y, angles
compare x components (are they equal?)
do y-components equal 0?


Homework Equations



Fnet = ma = 0 = F + F + F...
SOHCAHTOA

The Attempt at a Solution



Attached is my diagram with components drawn in. There are two pulleys with a rope strung across them, with a weight on each end, and one tied in the middle. Weight on the left (100g), middle (120g), right (92g). I need to calculate the x and y components, and see how close they add up to equal 0.

Is the y-component for both vectors = (120g)(9.8)? I thought it should be, however if that's the case, the x-components won't be equal and opposite: (.120g)(9.8)tan54 vs (.120g)(9.8)tan50. And how do I account for the other two weights?
 
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fizzsucks said:
Is the y-component for both vectors = (120g)(9.8)? I thought it should be, however if that's the case, the x-components won't be equal and opposite: (.120g)(9.8)tan54 vs (.120g)(9.8)tan50. And how do I account for the other two weights?

The sum of the two y-components is (120g)*9.8.

To account for the other two weights, note that pulleys change the direction of the tension but not its magnitude.
 
Each hanging weight is exerting a force mg on the rope. This force is the tension in that particular rope.
 
It is not correct. Remember, cos = adj/hyp and sin = opp/hyp.
 
It is not a matter of dotting your t's and crossing your i's. The numbers for the components are incorrect because you use sine where you should have used cosine and vice versa.

Also Fnet,y = F1y + F2y - mg, where mg is the hanging weight in the middle. The net force is the sum of all the forces and there are three forces at equilibrium in the middle.
 

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