How Can an Electric Field Exist in a Conductor with Current Flow?

In summary, the electric field does not exist in conductors due to polarization and the canceling out of E fields at the electron level. However, in current electricity, an electric field is established in the circuit due to drift velocity of electrons. This is because the collisions between electrons negate the effects of the E fields, except in cases of quick acceleration where a small net E field may be present. Additionally, the mass of an electron can be attributed to the surrounding E-M field. It is important to note that while an electrostatic field cannot exist in a conductor, an electric field can exist in the presence of current.
  • #1
sumit6may
1
0
electric field does not exist in conductors because it gets nullified due to polarization of conductor,but in current electricity the electric field is established in a circuit(conductor) which gives drift velocity to electrons for charge flow.how can electric field exist in a circuit?

please help.
 
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  • #2
The statement about conductors assumes an idealized continuum conductor. When you resolve at the electron level you get all sorts of E fields moving the electrons around but they in the aggregate will cancel.

Remember the drift velocity has to do with the collisions between electrons. Since they on the average do not accelerate the E fields pushing them in one direction are countered by the repulsions of nearby electrons (and attraction of vacated nuclei).

But that brings up one exception to the rule. If the current is accelerating quickly then there is a slight net E field due to the F=mA for the electrons. Generally this is too small to measure. Trying to accelerate a current gets you a back reacting E field due to inductance. Indeed one can always claim that the mass of the electron comes from a "vacuum inductance" i.e. from the energy of the surrounding E-M field.
 
  • #3
An electric field certainly can exist in a (non-super) conductor. What cannot exist is an electrostatic field, but when you have current it is by definition not electrostatic.
 

1. What is an electric field in conductors?

An electric field in conductors is a region in which charged particles experience a force due to the presence of other charged particles. In conductors, the electric field is created by the movement of free electrons within the material.

2. How does the electric field affect conductors?

The electric field within a conductor causes the free electrons to move and redistribute themselves until they reach equilibrium. This redistribution of electrons results in the electric field inside the conductor becoming zero, known as electrostatic equilibrium.

3. Can the electric field inside a conductor be changed?

No, the electric field inside a conductor cannot be changed because the charges within the conductor will always redistribute themselves to create an opposing electric field. This ensures that the electric field inside the conductor remains zero and the conductor remains in electrostatic equilibrium.

4. How does the shape of a conductor affect the electric field?

The shape of a conductor does not affect the electric field inside it. The electric field inside a conductor only depends on the distribution of charges within the conductor and not on the shape of the conductor itself.

5. What is the relationship between the electric field and the surface of a conductor?

The electric field is always perpendicular to the surface of a conductor. This is known as the surface charge density and it is directly related to the electric field at that point. The stronger the electric field at a point on the surface, the higher the surface charge density will be.

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