Electric fields between point charges

In summary, the electric field between two opposite charges is strongest closest to the charge and gets weaker further away. The field lines go from positive to negative and are perpendicular to equipotential lines. The electric field is not constant on the center line between two opposite charges, but it is constant between two parallel charged plates due to the summation of the electric field from all point charges on the plates. This can be calculated using integration and the E-field is approximately uniform if the distance between the plates is much smaller than the size of the plates.
  • #1
schiasso
1
0
I am struggling to grasp the concept of the electric field between two opposite charges. I know that the field is strongest closest to the charge and gets weaker further away from the charge. I also know that the electric field lines go from positive to negative and that they are perpendicular to the equipotential lines.

My question is: Is the electric field on the center line (shortest distance) between two opposite charges constant? If not, how can it be constant everywhere in a parallel plate capacitor?
 
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  • #2
Nope. Its only constant between two (infinitely large) parallel charged plates because you're summing the electric field due to all point charges on the plate. The many charges spread out on the plates all contribute to the electric field at some point between the plates.

Doing the summation via integration yields the formula for the E-field strength, and if the distance between the plates is much, much smaller than the size of the plates, the E-field is approximately uniform.
 

1. What is an electric field?

An electric field is a physical quantity that describes the strength and direction of the force experienced by a charged particle in the presence of other charges. It is represented by a vector that points in the direction of the force that a positive charge would experience if placed in that field.

2. How are electric fields between point charges calculated?

The electric field between two point charges can be calculated using Coulomb's Law, which states that the force between two point charges is proportional to the product of their charges and inversely proportional to the square of the distance between them. The resulting electric field is also a vector that points from the source charge to the test charge.

3. What is the direction of an electric field between two point charges?

The direction of an electric field between two point charges is determined by the relative positions and charges of the two charges. The field will always point away from a positive charge and towards a negative charge. If the two charges are of equal magnitude, the field will point from one charge to the other.

4. How does the distance between two point charges affect the electric field between them?

The electric field between two point charges is inversely proportional to the square of the distance between them. This means that as the distance between the charges increases, the strength of the electric field decreases. Therefore, the electric field will be stronger when the charges are closer together and weaker when they are farther apart.

5. Can electric fields between point charges be shielded or blocked?

Yes, electric fields between point charges can be shielded or blocked by placing a conductive material between the charges. This is because the conductive material can redistribute the charges and cancel out the electric field. Additionally, the strength of the electric field can also be reduced by placing insulating materials between the charges, as they do not allow for the easy movement of charges.

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