Electric field between charged parallel plates?

In summary: Basically, the electric field between two oppositely charged parallel plates is nearly uniform near the center, but less so the nearer you get to the edges. This is due to the symmetry of the arrangement of the charges.
  • #1
johny_doe
18
0
We were told that the electric field between two oppositely charged parallel plates was uniform in any region between them: like
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but the teacher didn't really explain why: it makes sense that they'd always be in the same direction, but how would you prove that it's uniform throughout?
 
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  • #2
"...the electric field between two oppositely charged parallel plates was uniform in any region between them..."

...IF the plates are infinite.

Otherwise, it's very nearly uniform near the center, and less so the nearer you get to the edges.

Think of it in terms of the symmetry of the arrangement.
 
  • #3
the symmetry bit makes sense... but why would the electic field be the same at the point centre (between them) as at a point very very close to one of them?
 
  • #4
Analyze how charges near the end of the plate affect the electric field along a line perpendicular to the center. ( Referring to your picture above) At a point close to the positve plate, most of the E is contributed from the center of the plate and points straight down. The charges on the ends contribute mostly horizontal components which cancel due to symmetry. As the points move farther away, The E from the center of the plate decreases since the distance increases, but the ends contribute more to the vertical component because the angle of the line between the charge and the point changes. This makes up for the increase in distance from the center.

If your having trouble seeing this, then draw a line that bisects the plate, and plot corresponding E vectors at points along the line from a point charge at each end of the plate.
 
  • #5
could i plot the field along some horizontal/vertical line by making some kind of general equation for the e-field caused by some point along the two plates (as a function of x-coordinate of point along plate, x,y)
then taking the integral of f(x,y,a) from a=-5..5 (assuming those are the boundaries of the plates)
and then graphing that for random values of x and y?

sorry if that didn't make sense
 

1. What is an electric field between charged parallel plates?

The electric field between charged parallel plates is a region in space where electrically charged particles experience a force. This force is created by the electric charges on the plates and is represented by electric field lines.

2. How is the electric field between charged parallel plates calculated?

The electric field between charged parallel plates is calculated using the equation E = V/d, where E is the electric field, V is the potential difference between the plates, and d is the distance between the plates. This equation assumes that the plates are infinitely long and have uniform charge distribution.

3. How does the distance between the plates affect the electric field?

The distance between the plates has an inverse relationship with the electric field. This means that as the distance between the plates increases, the electric field decreases. This is because the electric field lines spread out as the distance between the plates increases, resulting in a weaker field.

4. What is the direction of the electric field between charged parallel plates?

The direction of the electric field is always perpendicular to the plates. It points from the positive plate towards the negative plate. This means that if a positive charge is placed between the plates, it will feel a force in the direction of the negative plate, and if a negative charge is placed between the plates, it will feel a force in the direction of the positive plate.

5. How is the electric field between charged parallel plates used in practical applications?

The electric field between charged parallel plates is used in various practical applications, such as in capacitors, particle accelerators, and electron microscopes. It is also used in the production of flat-screen TVs and computer monitors. Additionally, it is used in electrostatic precipitators to remove pollutants from industrial exhaust gases.

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