Why the net field inside a conductor is zero?

In summary, a conductor is a material where electrons can move freely, and Gauss's law applies when there is no net field.
  • #1
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I do not really understand the big picture of gauss law. For what I know a conductor is a material where electrons can move freely, but I am reading my book and they show pictures where the protons are all right below the surface. My other question would be how can you describe the inside of a conductor? and how it is related to gauss law?
 
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  • #2
A few points to start off the discussion…

The 'net field' is a sort of average electric field strength over a region large enough to contain many atoms (at least several hundred).

The net field is not zero if there is a current in the conductor. A field is needed to keep the electrons moving with a constant mean drift velocity, because collision forces oppose their motion.

The net field is zero in electrostatic conditions, that is no current. If there were a field there would be a current. So that's why we talk about no net field in a conductor: it's the condition for electroSTATICs.

So no net field does NOT follow from Gauss's law, rather it provides an interesting settingg in which to apply Gauss's law.
 
  • #3
You can imagine a conductor as an object that contains infinite amount of free charge(electrons) that roam around the conductor. These electrons are actually valence electron, and they can roam freely cause we imagine that the energy required to tear them from their atom is zero. Total charge of an isolated conductor is zero, cause we assume there's equal amount of protons and electrons in atoms that constitute the conductor.

If you have any excess of charge inside a conductor, there exists electric field and push these free electrons around. By Earnshaw's theorem, system can't be held in a stable equilibrium by electrostatic forces alone so if you have excess of negative charge inside conductor, these free electrons will be repelled by it, and would go to infinity if they can, but they can't because they are bounded by the surface of a conductor. They can't leave surface cause they don't have enough energy to break through(theirs energy is below work energy of a conductor). If you put a positive charge inside, same argument goes, but now you imagine that when atttracted electrons come to that positive charge to "suppress" it, they leave lack of negative charge on a surface, which is equal to saying that you have excess of positive charge.

I hope this explanation sounds ok, please someone correct me if I'm wrong :)
 

1. Why is the net electric field inside a conductor zero?

The net electric field inside a conductor is zero because of the principle of electrostatic equilibrium. This means that the charges within a conductor are at a state of rest and there is no movement of charges, leading to a cancellation of the electric field inside the conductor.

2. How does the distribution of charges inside a conductor affect the electric field?

The distribution of charges inside a conductor is such that the charges are evenly distributed on the surface of the conductor. This leads to the cancellation of the electric field inside the conductor, resulting in a net electric field of zero.

3. Does the shape and size of a conductor affect the net electric field inside?

No, the shape and size of a conductor do not affect the net electric field inside. As long as the conductor is in a state of electrostatic equilibrium, the distribution of charges on the surface will result in a zero net electric field inside.

4. Why is the electric field inside a conductor always perpendicular to the surface?

The electric field inside a conductor is always perpendicular to the surface because the charges within a conductor are in a state of rest. This means that the electric field lines must be perpendicular to the surface in order to maintain electrostatic equilibrium.

5. Does the presence of a charged object inside a conductor affect the net electric field inside?

No, the presence of a charged object inside a conductor does not affect the net electric field inside. The charges on the surface of the conductor will redistribute themselves to cancel out the electric field of the object, resulting in a zero net electric field inside the conductor.

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