Which type of electric field varies due to point charge
and linear charge?
Answers
Explanation:
An electric field (sometimes abbreviated as E-field[1]) surrounds an electric charge, and exerts force on other charges in the field, attracting or repelling them.[2][3] Electric fields are created by electric charges, or by time-varying magnetic fields. Electric fields and magnetic fields are both manifestations of the electromagnetic force, one of the four fundamental forces (or interactions) of nature.
Electric fields are important in many areas of physics, and are exploited practically in electrical technology. On an atomic scale, the electric field is responsible for the attractive force between the atomic nucleus and electrons that holds atoms together, and the forces between atoms that cause chemical bonding.
Electrostatic type of electric field varies due to point charge and linear charge.
- The electric field intensity reduces linearly with distance because the field lines' separation grows as one moves away from the line charge. Unlike low and high frequency alternating fields, which change in direction and intensity over time, static electric fields are constant fields. Therefore, the frequency of static electric fields is 0 Hz. They apply a force to charged particles or charges.
- There are two basic categories used to describe the electric field. These two electric fields are the uniform electric field and the nonuniform electric field.
- the magnitude of the electric field produced by the source charge Q has an inverse relationship with the square of the source's distance. An inverse square law applies in this situation. The magnitude of an electric field is location-dependent and diminishes with increasing separation from the source.
- A conservative field is the electrostatic field. As a result, the electric field's ability to perform work is independent of the charge's motion. It only matters where the charge is, where it came from, and where it is going.
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