Magnetic Field Lines Vs Electric Field Lines
The differences between magnetic field lines and electric field lines are discussed in the table below,
Magnetic Field Lines |
Electric Field Lines |
---|---|
Produced by moving charges or magnets | Produced by stationary charges |
Form closed loops around a magnet or current-carrying wire | Start from positive charges and end with negative charges |
Do not originate from a magnetic monopole | Originate from a positive charge and terminate at a negative charge |
Their density determines the strength of the magnetic field | Their density determines the strength of the electric field |
Do not interact with electric charges directly | Interact with electric charges directly |
Do not experience any net force | Experience a net force in the presence of other charges |
Can penetrate through most materials | Are influenced by dielectric materials |
Can be shielded using materials such as iron or mu-metal | Can be shielded using materials such as conductors |
Can induce an electric field in a conductor when they change in strength or direction | Can induce a magnetic field in a conductor when they change in strength or direction |
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Magnetic Field Lines
Magnetic Field Lines are the imaginary lines around the source of a magnet or any other magnetic substance. Magnetic field lines help us in understanding the behavior of magnetic poles and magnetism. Magnetic fields are the imaginary lines outside a magnet that are helpful to explain the properties of a magnet. In this article, we will explain how magnetic field lines are produced when current flows through a conductor and how they exert a force on any magnetic pole located in the region.
This article aims to provide a complete understanding of magnetic field lines and their properties. So, let’s start learning about Magnetic Field Lines and their properties.