What is the Tension in a Conducting Wire Connecting Two Charged Spheres?

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Homework Help Overview

The problem involves two identical conducting spheres connected by a conducting wire, with a charge placed on one sphere. The objective is to determine the tension in the wire, considering the uniform distribution of charge on the spheres.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the distribution of charge between the spheres and question whether the assumption of equal charge distribution is valid. There are inquiries about the role of the wire's length in determining the separation distance for calculating electric force.

Discussion Status

Participants are exploring different interpretations of the problem, particularly regarding the effective distance between the spheres and the implications of treating them as point charges. Some guidance has been offered about considering the centers of the spheres for calculations, but there is no explicit consensus on the correct approach yet.

Contextual Notes

There is uncertainty regarding the initial charge distribution and the significance of the wire's length in the calculations. Some participants mention that the distance between the spheres may be negligible due to their small size, but this point is debated.

feelau
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Homework Statement


Two identical conducting spheres each having a radius of .5 cm are connected by a light 2.3 m long conducting wire. A charge of 53 uC is placed on one of the conductors. Assume that the surface distribution of charge on each sphere is uniform. Determine the tension in the wire.

Homework Equations


F(electricity)=(k*q1*q2)/r^2
E=Q/epsilon
E=F/Q
F(electric)-T=0

3. Attempt
Since it's connected by a wire(I'm not sure how the wire plays a roll in this other than tension), I said that the charge instantaneously distributes to the other spheres so that both of them will have equal amount of charge(I'm not sure if the assumption is correct) I then solved for F(electric) which is equal to T, but I'm missing something because answer is not right. Can someone please help?
 
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How much charge did you put on each sphere?
What distance did you use for the separation?
 
well the the thing is I wasn't sure what the length of wire is for, now I think I know it's for how far apart they are. For the F(electric) and the question just says 53uC of charge is put into one sphere so I assumed there were no charges in them beforehand. So then, I assumed that each sphere will have 26.5 uC of charge so F(electric) would just be (k*q^2)/(length of wire)^2? But it seems like since they're spheres and not point charge(unless that's what we're suppose to assume) I need to include another equation?
 
the uniform charge distribution hints that the effective points are the centers of the spheres
 
so that means we can take into account that they're just like pt charges then?
So the distance between them is the length of wire and they both have same charge correct? So I just use F(electric)=k(q^2)/distance of wire^2 then i putinto force equation?
 
feelau said:
so that means we can take into account that they're just like pt charges then?
Exactly
feelau said:
So the distance between them is the length of wire and they both have same charge correct?
Not quite. You need the distance between the centers of the spheres.
 
ah, my TA talked about this and he said that since r is so small, it's negligible
 
Why wouldn't you include it, however? It's no harder to enter the correct value (2.31) than the wrong one (2.3)...
 

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