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## Why do stationary charges produce electric field?

In case of a stationary charge **there is no motion present in the charge** hence there is no magnetic field produced. So, only an electric field is produced.

## Can electric field exist without magnetic field?

Electric fields can exist without a magnetic field – consider a stationary point charge. **Magnetic fields cannot exist without any** E field component because there are no magnetic monopoles. Not happy with the second half of your answer. A stationary electric charge creates an electric field.

## Why a stationary charge does not experience any force in magnetic field?

The magnitude of this force is given by the Lorentz force law. … For a stationary charged particle, **v=0**, therefore from equation (1), the force will also be zero. Hence, a stationary charge will not experience a force in a magnetic field.

## When a charge particle is stationary then it produces?

Answer: A stationary charged particle produces **an electric field**, for a negatively charged particle the field lines are directed radially inwards, for a positively charged particle the field lines are directed radially outward, as is shown in the diagram.

## Does moving charges produce electric field?

Therefore, we can say that the **moving charge produces both electric and magnetic fields**. Therefore, the correct answer is option C. Note: The moving electron alone does not produce the magnetic field. … It is the same as the electric field when it is viewed from another frame of reference.

## Does current produce electric field?

A more direct answer to your question: **Yes**, there are both electric fields and magnetic fields around the conductor while there’s current flowing through it. This is guaranteed by Maxwell’s equations, and the fact that current is proportional to the electric field in a conductor.

## How is a electrostatic field formed?

**When two objects in each other’s vicinity have different electrical charges**, an electrostatic field exists between them. An electrostatic field also forms around any single object that is electrically charged with respect to its environment. … Electrostatic fields bear some similarity to magnetic fields.