Where Do Electrons Move When Insulated Metal Spheres Are Brought Together?

In summary: I think what you're asking is, if I touch both spheres with my finger at the same time, will they both become positive or negative? If C is still near the X,the space near C will have positive charge.After C is removed and my finger is still touching the sphere,the two spheres will become neutral,am I correct?That would happen.
  • #1
asdff529
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0
Suppose we have two insulated uncharged metal spheres,say X and Y, in contact with each other.A negatively charged object C is brought near X
My first question is:Do all of the electrons move to the sphere Y since electrons are free to move?
Then if X is touched momentarily with a finger,and then X and Y are separated.
My second question is:What are the charges on X and Y now?Why?
Also,what are the movement of the electrons?I mean do they move from the Earth or the sphere,or from the sphere to the Earth?Why?
 
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  • #2
First question: no, not all of the free electrons will move. If they all bunched together on the other sphere, there would be great repulsion forces sending most of them back to X.

Second question: what do you think? We need your thoughts on what is going on.

This thread will probably be moved to the homework subforum, as your questions resemble a homework-type exercise.
 
  • #3
NascentOxygen said:
First question: no, not all of the free electrons will move. If they all bunched together on the other sphere, there would be great repulsion forces sending most of them back to X.

Second question: what do you think? We need your thoughts on what is going on.

This thread will probably be moved to the homework subforum, as your questions resemble a homework-type exercise.

um...if i treat the spheres as a big thing,this 'big thing' will become positively charged as it is charged by earthing.Then when these spheres are separated,since sphere X is the one touched by the finger,it will become positively charged.But i ain't sure what the charge of Y is.
Also,the electrons,I think,will move from the spheres to the Earth as the spheres with C is at a lower potential,electrons will move from the lower potential to higher potential,which I was taught.But,again,how 'much' electrons are transferred during this process?Do we able to determine it?
 
  • #4
asdff529 said:
Suppose we have two insulated uncharged metal spheres,say X and Y, in contact with each other.A negatively charged object C is brought near X
My first question is:Do all of the electrons move to the sphere Y since electrons are free to move?
Then if X is touched momentarily with a finger,and then X and Y are separated.
At what point in this sequence is body C removed from the picture?
 
  • #5
NascentOxygen said:
At what point in this sequence is body C removed from the picture?

it doesn't specify at what point body C is removed from the picture
 
  • #6
The scenario sounds right, as far as you described. The presence of nearby negative charge sends some electrons away from that region of X. When you touch X or Y those repelled charges can escape to earth, leaving X and Y uncharged except for an area on X directly under the influence of that field from C. What would be the polarity of the charge on that area of X near to C?

Then, what happens when you move C far away, but you keep X and Y still touching?
 
  • #7
NascentOxygen said:
The scenario sounds right, as far as you described. The presence of nearby negative charge sends some electrons away from that region of X. When you touch X or Y those repelled charges can escape to earth, leaving X and Y uncharged except for an area on X directly under the influence of that field from C. What would be the polarity of the charge on that area of X near to C?

Then, what happens when you move C far away, but you keep X and Y still touching?

If C is still near the X,the space near C will have positive charge.After C is removed and my finger is still touching the sphere,the two spheres will become neutral,am I correct?
 
  • #8
That would happen. But that's not what I'd understand by "touched momentarily".
 

1. What are electric charges?

Electric charges are a fundamental property of matter that determines how it will interact with other matter and electromagnetic fields. These charges can be positive or negative, and like charges repel while opposite charges attract.

2. How are electric charges created?

Electric charges can be created through a process called charging, which involves the transfer of electrons between objects. This can occur through friction, conduction, or induction.

3. What is the difference between static and current electricity?

Static electricity refers to the build-up of electric charges on the surface of an object, while current electricity is the flow of electric charges through a conductor. Static electricity is typically a temporary charge, while current electricity can be sustained.

4. What is the unit of measurement for electric charge?

The unit of measurement for electric charge is the Coulomb (C). One Coulomb is equivalent to approximately 6.24 x 10^18 elementary charges.

5. How do electric charges interact with each other?

Electric charges interact with each other through the electromagnetic force. Like charges repel each other, while opposite charges attract. This force is responsible for many everyday phenomena, such as static cling and lightning.

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