Basic forces question with a pulley problem

AI Thread Summary
The discussion revolves around calculating the tension in a pulley system where a boy holds the rope. The book states the tension at point A is 4N, but there is confusion regarding the forces acting on the masses involved. It is clarified that the position where the boy holds the rope significantly affects the tension values on either side of the pulley. If he holds S1 at the top, the tension would be 9N on one side and 6N on the other, but this can vary if he holds it at a different point. Understanding the exact position of the boy is crucial for accurate calculations of tension in the system.
Eitan Levy
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Homework Statement


A boy holds the rope so it can't move. What is the tension in point A?

Homework Equations


ma=F

The Attempt at a Solution


The answer in the book is 4N. I understand how to get it, but, I believe that the tension of S1 would be 9N (due to m1), and then the forces on m2 would be gravity, TA and TS1. Together, we don't get zero, but 3N. Is there a problem or am I wrong?
 

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Eitan Levy said:
A boy holds the rope so it can't move. What is the tension in point A?
No way of knowing without being told where the boy is holding the rope.
If somewhere on S1 then the tension at A will indeed be 4N (and your other method doesn't work because you are not taking into account the force the boy exerts).
If somewhere on S2 then it will depend exactly where on S2.
 
haruspex said:
No way of knowing without being told where the boy is holding the rope.
If somewhere on S1 then the tension at A will indeed be 4N (and your other method doesn't work because you are not taking into account the force the boy exerts).
If somewhere on S2 then it will depend exactly where on S2.
He holds S1, but I still don't understand how the forces will work.
 
Eitan Levy said:
He holds S1, but I still don't understand how the forces will work.
So add that force, and note that the tensions will be different each side of where that force is applied.
 
haruspex said:
So add that force, and note that the tensions will be different each side of where that force is applied.
So on the left side it would be 9N and on the right side 6N?
 
Eitan Levy said:
So on the left side it would be 9N and on the right side 6N?
If the boy holds S1 at the top, yes. But he might be holding it half way up one side.
 

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