sea333 said:
Homework Statement:: A ball with mass 144g hangs from a celling on a thread. Second ball is attached to the first ball with 20 cm thread. They both are charged with the same electric charge. How big is a force that is functioning on a thread?
Relevant Equations:: F=ma
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I suspect that either the problem statement is incomplete or that the suggested "correct" answer is not correct.
We are told the mass of the two balls. We are told that they are hanging from the ceiling in a daisy-chain arrangement with threads. We are given some information about a repulsive electrostatic force between the two balls. But we are not given enough information to determine the magnitude of this electrostatic force.
We are asked for
the magnitude of
a force acting on
a thread. Not a specific thread. Just a thread. Not a specific force. Just a force.
If we take the question literally, we might consider the electrostatic force acting on the top thread. Zero.
Or we could consider the contact force of the top ball on the top thread as you have done. Up to a possible sign error (you were asked for magnitude, not direction) your result is correct. The electrostatic force is an internal force and cannot change the net weight of a closed system. The weight of the system is the sum of the weights of the two balls, i.e. ##F_\text{g1}+F_\text{g2}##, just as you say.
You have clarified somewhat that you want to know:
sea333 said:
The combine force in the thread.
The combined force on which thread?
Oh, I get it. Either one.
What is the net force on the thread connecting the two balls? That is, what is the sum of the force of the top ball on that thread and the force of the bottom ball on that same thread.
You can determine that result quite simply.