an electron
1. Electric field lines of force originate from the positive charge and terminate at the negative charge. 2. Electric field lines of force can never intersect each other. 3. Electric field lines of force are not present inside the conductor, it is because electric field inside the conductor is always zero. 4. Electric field lines of force are always perpendicular to the surface of conductor. 5. Curved electric field lines are always non-uniform in nature.
always towards the charge
The electric field around an electric charge varies inversely as the square of the distance to the charge.
There is no such thing.If you mean, what is a stationary electric charge, that is normally called static electricity.
to save the static character of conductor in the presence of electric field
yes. electric current low always generates a magnetic field.
1. Electric field lines of force originate from the positive charge and terminate at the negative charge. 2. Electric field lines of force can never intersect each other. 3. Electric field lines of force are not present inside the conductor, it is because electric field inside the conductor is always zero. 4. Electric field lines of force are always perpendicular to the surface of conductor. 5. Curved electric field lines are always non-uniform in nature.
Magnetic force is present around the electric field which is also known as electro-magnetic field.
always towards the charge
The electric field around an electric charge varies inversely as the square of the distance to the charge.
It's the electric field.
There is no such thing.If you mean, what is a stationary electric charge, that is normally called static electricity.
A changing magnetic field always produces an electric field, and conversely, a changing electric field always produces a magnetic field. This interaction of electric and magnetic forces gives rise to a condition in space known as an electromagnetic field.
The electric field pattern is radial.
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Then an 'electrical current' is said to be present in the conductor.
to save the static character of conductor in the presence of electric field