You asked: Why electric field of an electric dipole is not zero?

Can the electric field of a dipole be zero?

Gauss’ Law is a statement about electric flux. A nonzero field can have zero flux. Dipole consists of two charges – one positive charge and one negative charge. Those two charges are not at the same point in space.

Is electric field is zero at a point on the axis of an electric dipole?

The electric potential due to an electric dipole at a point on the perpendicular bisector of the dipole axis is 0.

What is the net force on a dipole in an uniform electric field?

Therefore, the net force on the dipole is zero. Even if we change the orientation, the length and the charge of the dipole, the net force on the dipole will be equal to zero. Hence, the electric force on a dipole when it is placed in a uniform electric field is always zero.

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In which regions electric field can be zero?

Thus the electric field between electron and proton will be zero in case I and III. Explanation: In case IV the electron is situated faraway from that point. So force due to electron can not be balanced by the force on proton.

At which point or points is the electric field zero in?

1. The electric field is zero at two points along the x axis; one such point is to the right of the -2q charge and the other is to the left of the +4q charge.

Why electric field is zero inside a conductor?

A conductor is a material that has a large number of free electrons available for the passage of current. … Hence in order to minimize the repulsion between electrons, the electrons move to the surface of the conductor. Hence we can say that the net charge inside the conductor is zero.

What will be the ratio of electric field at a point on the axis and an equal distance point on the equatorial line of a dipole?

The ratio of strength of electric field at a point on axial line and a point on same distance a equatorial line of an electric dipole is 2 : 1 .

Which of the following statement is correct the electric field at a point is?

Electric field at a point is continuous if there is no charge at that point. And the field is discontinuous if there is charge at that point. So both options (b) and (c) are correct.

How does the electric field at a point due to an electric dipole depends on the distance of the point from the dipole?

Answer: If the distance of the ield point on the axis of a small dipole is doubled, by what factor will the electric field, due to the dipole change? … The field is now inversely proportional to r So the electric field will become 1/8th of the original field when the distance of the field point is doubled.

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