Electric Field

electric field is a force which surrounds around electric charges that attracts or repels another electric charge. Mathematically the electric field is a field that associates to each point in space, titled the Coulomb force, that would be skilled per unit of charge. The units of the electric field in the SI system are newtons per coulomb (N/C), or volts per meter (V/m). Electric fields are created by electric charge in electric circuits. According to microscopic analysis, the electric field is an attractive force between the nucleus and the electrons that holds atoms together, and the forces between atoms that create chemical bonding. The electric field and the magnetic field form the electromagnetic field. Anis a force which surrounds aroundthat attracts or repels another electric charge. Mathematically the electric field is a field that associates to each point in space, titled the Coulomb force, that would be skilled per unit of charge. The units of the electric field in the SI system are newtons per coulomb (N/C), or volts per meter (V/m).are created by electric charge in electric circuits. According to microscopic analysis, the electric field is an attractive force between the nucleus and the electrons that holds atoms together, and the forces between atoms that create chemical bonding. The electric field and the magnetic field form the electromagnetic field.

According to Coulomb's Law

The Coulomb force on a charge of magnitude {\displaystyle q} at any point in space is equal to the product of the charge and the electric field at that point

F=q*E

Unit of Electric Field

The units of the electric field in the SI system are newtons per coulomb (N/C), or volts per meter (V/m); in terms of the SI base units they are kg ⋅ m ⋅ s −3 ⋅ A −1

Causes of Electric Field

Gauss's law, or varying attractable fields, described by Faraday law of induction. Together, these laws are enough to delimitate the action of the electric field as a function of electric field. the equations of both fields are relative to the Maxwell's equations that describes both as a function of charges and currents. Car fields are caused by motorcar charges, described by, or varying attractable fields, described by Faraday law of induction. Together, these laws are enough to delimitate the action of the electric field as a function of electric field. the equations of both fields are relative to the Maxwell's equations that describes both as a function of charges and currents.

According to Gauss's Law and Faraday's Law

In the special case of a steady state the Maxwell-Faraday inductive effect disappears. The resulting two equations (Gauss's law

and Faraday's law

with no induction term taken together, are equivalent to Coulomb's law

written as for a charge density. Notice that the permittivity of vacuum,must be substituted if charges are considered in non-empty media.









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