How is a non uniform electric field produced?

When magnitude and direction of electric intensity are not the same at all the points in the electric field, then it is called a non-uniform electric field.

What is a non uniform electric field?

Solution : The electric field which has different magnitude and direction at different points in region is called non-uniform electric field.

What are uniform and non uniform electric field give example for each?

If an electric field has the same magnitude and same direction everywhere in a given space then this electric field is uniform, and if either the magnitude or direction or both change then it is a non-uniform electric field in that specified space.

What is non uniform electric field Class 12?

Non uniform electric field is the one in which the electric field vectors are more closely spaced near the source charge and they get far apart as the distance from the source charge increases.

Can go theorem be applied to non uniform electric field?

Yes it is applicable to non uniform field. Now in all of these diagrams, the charge q enclosed in the Gaussian Surface, is always as the center of it. Thus the electric field is uniform throughout the inside of this Gaussian Sphere.

What happens if the field is non uniform?

➡️Torque is non zero when dipole is placed in uniform as well as non uniform electric field but in non-uniform electric field, dipole will experience net force of attraction whereas in uniform magnetic field, it doesn’t.

Which device produces uniform electric field?

Answer: 2 parallel plates is the right answer.

Which charge produces uniform electric field?

The parallel or uniformly charged infinite plane configuration produces uniform electric field.

What is difference between uniform and non uniform magnetic field?

We call a magnetic field uniform in a definite area of space if the magnetic field in that space has a stable magnitude and always points in a similar way. Any time the field has varying magnitude or direction, the field is non-uniform.

When a dipole is placed in non-uniform electric field?

If an electric dipole is placed in a nonuniform electric field, then the positive and the negative charges of the dipole will experience a net force. And as one end of the dipole is experiencing a force in one direction and the other end in the opposite direction, so the dipole will have a net torque also.

When a dipole is in the non-uniform electric field?

An electric dipole always experiences a torque when placed in uniform as well as non-uniform electric field. But in non-uniform electric field, dipole will also experience net force of attraction. So the electric dipole in non-uniform electric field experiences both torque and force.

How can one produce a uniform electric field?

How can one produce a uniform electric field? Originally Answered: How can one produce a uniform electric field? Dry air will support a maximum electric field strength of about 3.0 × 10^6 V/m. Above that value, the field creates enough ionization in the air to make the air a conductor. This allows a discharge or spark that reduces the field.

What is the difference between uniform and nonuniform electric field?

Uniformity is defined on the basis of spatial distribution of electric vector field. Electric field is said to be uniform at a point if field in neighborhood of the point is same as at the point concerned. Otherwise, non-uniform. The word uniform generally means ‘the same’.

Is electric field uniform along the path of a plate?

In this case, the electric field is not uniform along its path. At a section near the point terminal, there will be more field lines (flux) than at a section nearer to the plate. However, at any spherical section surface at a particular distance from the point, we can say all points have same electric field strength.

What happens when voltage increases in a non-uniform electric field?

In a non-uniform electric field, the field intensity near the conductor is considerably higher than that on the periphery or on the plate. Therefore, as the voltage increases, the ionization takes place about the conductor.