2 spheres connected by wire, find tension

AI Thread Summary
Two conducting spheres, each with a radius of 0.5 cm, are connected by a 2-meter wire, with a total charge of 60 micro Coulombs distributed evenly between them. The tension in the wire is determined by the electric force acting between the spheres, which is calculated using Coulomb's law. Initially, there was confusion regarding the tension being double the force due to both spheres pulling on the wire, but it was clarified that tension is a single force throughout the wire. The correct tension is 2 Newtons, as it balances the electric force acting on one sphere. Understanding that tension is equal to the force exerted by the spheres helps clarify the concept.
vladimir69
Messages
124
Reaction score
0

Homework Statement


2 conducting spheres of radius r=0.5cm are connected by a long thin piece of conducting wire of length L=2metres. A charge of 60 micro Coulombs is put onto one of the spheres, find the tension T in the wire. Assume the charge is evenly distributed along the surface of the two spheres.


Homework Equations


F=k_{e}\frac{Qq}{r^2}
Q=30\mu C
Q is 30 micro Coulombs because I assumed that the charge would distribute evenly onto the surface of both spheres.

The Attempt at a Solution


This question was in the Gauss Law chapter of my book however I didn't use Gauss Law for this one.
I said
F_{12}=k_{e}\frac{Q^2}{L^2}
F_{21}=-F_{12}
So according to me each sphere is "pulling" the rope in opposite directions to produce a combined force of
F=2F_{12}
The tension in the wire must balance this force otherwise it will break
So
F_{wire} = F=4N
However the answer gives 2 Newtons which I can't convince myself is right because each sphere is contributing its own force on the string.
 
Physics news on Phys.org
You are misunderstanding how tension is created. To create a tension F in a rope, for example, both ends must be pulled with the force F. The tension in the rope--or wire--is the force with which it pulls. The rope pulls each sphere with a force F, thus the tension is F, not 2F.
 
OK thanks for that. I suppose one way of looking at it would be to consider the forces on one of the spheres, there is only the electric force and the tension, for the sphere to remain where it is these forces would have to be equal.

How about the case when the force is different on each end? What would be the tension then?

I always thought of tension as a mass suspended by a string with the string pulling up with the same force as the mass is pulling down.
 
vladimir69 said:
I suppose one way of looking at it would be to consider the forces on one of the spheres, there is only the electric force and the tension, for the sphere to remain where it is these forces would have to be equal.
Sounds good.

How about the case when the force is different on each end? What would be the tension then?
If the external forces on the spheres were different, you'd have to calculate the tension based on the net force and acceleration. But there would be a single tension throughout the rope, assuming it's massless.

I always thought of tension as a mass suspended by a string with the string pulling up with the same force as the mass is pulling down.
Good, that works. Realize that whatever's connected to the other end of the rope--the ceiling, perhaps--is also pulling up with the same force.
 
Thanks for clearing that up, the bit at the end was what I was missing - the ceiling is pulling up with the same force.
 
Thread 'Voltmeter readings for this circuit with switches'

Thread 'Voltmeter readings for this circuit with switches'

TL;DR Summary: I would like to know the voltmeter readings on the two resistors separately in the picture in the following cases , When one of the keys is closed When both of them are opened (Knowing that the battery has negligible internal resistance) My thoughts for the first case , one of them must be 12 volt while the other is 0 The second case we'll I think both voltmeter readings should be 12 volt since they are both parallel to the battery and they involve the key within what the...
View full post »
Thread 'Correct statement about a reservoir with an outlet pipe'

Thread 'Correct statement about a reservoir with an outlet pipe'

The answer to this question is statements (ii) and (iv) are correct. (i) This is FALSE because the speed of water in the tap is greater than speed at the water surface (ii) I don't even understand this statement. What does the "seal" part have to do with water flowing out? Won't the water still flow out through the tap until the tank is empty whether the reservoir is sealed or not? (iii) In my opinion, this statement would be correct. Increasing the gravitational potential energy of the...
View full post »

Similar threads

Induced charge on a conducting sphere sliced by a plane
Replies
2
Views
1K
Charge rearrangement on conducting spheres
Replies
21
Views
4K
Connecting three spheres with wires redistributes charge
Replies
10
Views
2K
Investigating the Charge Distribution on a Bulging Sphere
Replies
18
Views
2K
Understanding the Electric Field of a Charged Sphere
Replies
8
Views
3K
Capacitance of Connected Spheres: Finding dq1/dt
Replies
8
Views
3K
Electric field inside/outside (uniformly charged sphere)
Replies
5
Views
6K
How Do Charges Distribute Between Concentric Spheres When Connected by a Wire?
Replies
3
Views
2K
What is the heat produced when two charged spheres are connected by a wire?
Replies
9
Views
2K
Two spheres with a conducting wire
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top