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900 with each other. Therefore,cylindrical surface does not contribute to the flux. This is the relation for electric filed due to an infinite plane sheet of charge. Thus, the field is uniform and does not depend on the distance from the plane sheet of charge.

## Does the strength of electric field due to an infinite plane sheet of charge depend upon the distance of the observation point from the line charge?

Thus, electric field strength due to an Infinite flat sheet of charge is independent of the distance of the point and is directed normally away from the charge.

## Does the strength of electric field due to an infinite plane sheet of charge depend upon the distance of the point from the sheet write the equation?

You may be surprised to note that the electric field does not actually depend on the distance from the plane; this is an effect of the assumption that the plane is infinite.

## What is the electric field due to an infinite plane sheet of charge?

For an infinite sheet of charge, the electric field will be perpendicular to the surface. Therefore only the ends of a cylindrical Gaussian surface will contribute to the electric flux . In this case a cylindrical Gaussian surface perpendicular to the charge sheet is used.

## What does the strength of an electric field depend on?

The strength of the electric field depends on the source charge, not on the test charge. … A line tangent to a field line indicates the direction of the electric field at that point. Where the field lines are close together, the electric field is stronger than where they are farther apart.

## How the electric field should change near an infinite line charge?

We have found that the electric field is directed radially away from the line charge, and decreases in magnitude in inverse proportion to distance from the line charge.

## What is the strength of electric field inside a charged spherical shell?

Explanation: spherical gaussian surface which lies just inside the conducting shell. Now, the gaussian surface encloses no charge, since all of the charge lies on the shell, so it follows from Gauss’ law, and symmetry, that the electric field inside the shell is zero.

## How does the strength of the electric field due to an infinite plane of charge depend on how far away R you are from it?

In an infinite plane, it is independent of both r’s as both the dimensions are infinite. In the case of an infinite line charge, only one dimension is infinite. So the field is inversely proportional to only r.

## Why electric field due to a infinite charged plane sheet is half the electric field at surface of charged conductor?

The sheet is a conducting sheet, so the electric field is half of the normal infinite sheet. The Gaussian surface must be intersected through the plane of the conducting sheet. The electric field is completely dependent on the charge density and the area of the surface and also depends on the electric constant.

## Why electric field due to infinite sheet is independent of distance?

Why electric field is independent of distance

Since the lines are parallel, the number of electric lines of force through a certain area does not change in the case of plane sheet. So electric field is also independent of the distance.

## What is the electric field of an infinite plane?

Figure 1: A charged infinite plane can be considered to be made up of an infinite number of point charges. The electric field at a point can be found by superposition of the electric fields coming from each of the point charges. Electric fields are linear, which means they obey the principle of superposition.

## At which point is the electric field the weakest?

Electric field strength is greatest where the lines are closest together and weakest where lines are furthest apart.

## How does the strength of an electric field change with distance?

The strength of an electric field as created by source charge Q is inversely related to square of the distance from the source. This is known as an inverse square law. Electric field strength is location dependent, and its magnitude decreases as the distance from a location to the source increases.

## Where the electric field is strongest?

The field is strongest where the lines are most closely spaced. The electric field lines converge toward charge 1 and away from 2, which means charge 1 is negative and charge 2 is positive.

## How do you find the strength of an electric field?

The strength of an electric field E at any point may be defined as the electric, or Coulomb, force F exerted per unit positive electric charge q at that point, or simply E = F/q.