The electricity converters offer conversion of electric charge (linear charge density, surface charge density, and volume charge density), electric current, linear current density, surface current density, electric field strength, electric potential, electric resistance, electric resistivity, electric conductance, electric conductivity, electric capacitance, and electric inductance units.
The electric charge converter offers conversion between various electric charge units from different unit systems. The electric charge can be defined as the physical property of the material that causes it to experience a force when placed in an electromagnetic field. The electric charge can be positive or negative. The electric charge in SI is measured in Coulomb [C] which is the derived unit equal to ampere second \(\left[\mathrm{C} = \mathrm{As}\right]\).
The electric current converter offers conversion between various electric current units from different unit systems. The electric current can be defined as the stream of electric particles (electrons/ions) moving through an electric conductor or space. The electric current is measured as the net rate of flow of electric charge through a surface or control volume. The SI unit of electric current is the ampere or coulomb per second \(\left[\mathrm{C} = \frac{\mathrm{A}}{\mathrm{s}}\right]\).
The linear current density converter offers conversion between various linear current density units from different unit systems.
The surface current density converter offers conversion between various surface current density units from different unit systems.
The electric field strength converter offers conversion between various electric field strength units from different unit systems. The electric field strength can be defined as the intensity of the electric field at a particular location. The strength of the electric field in SI is measured in volt per meter \(\left[\frac{\mathrm{V}}{\mathrm{m}}\right]\).
The electric potential converter offers conversion between various electric potential units. The electric potential can be defined as the amount of work energy needed to move a unit of electric charge from a reference point to a specific point in an electric field. The SI unit for measuring electric potential is Volt [V]. The volt is derived SI unit equal to \(\left[\frac{\mathrm{kg}\cdot \mathrm{m}^2}{\mathrm{s}^3\cdot \mathrm{A}}\right]\).
The electric resistance converter offers conversion between various electric resistance units. Electric resistance can be defined as a measure of the opposition to current flow in an electric circuit. The SI unit for measuring electric resistance is ohms \(\left[\Omega\right]\).
The electric resistivity converter offers conversion between various electric resistivity units. Electric resistivity is one of the fundamental material properties that is used to measure how strongly the material resists the electric current. The electric resistivity in SI units is measured in ohm meter \(\left[\Omega \cdot \mathrm{m}\right]\). The ohm meter expressed in base units can be written as \(\left[\frac{\mathrm{kg}\cdot \mathrm{m}^3}{\mathrm{s}^3\cdot \mathrm{A}^2}\right]\).
The electric conductance converter offers conversion between various electric conductance units. The electric conductance is the reciprocal value of electric resistance. The electric conductance SI unit is Siemens \(\left[S\right]\). When Siemens is expressed in SI base unit the 1 Siemens is equal to \(\left[\frac{\mathrm{s}^3\cdot \mathrm{A}^2}{\mathrm{kg}\cdot \mathrm{m}^2}\right]\).
The electric conductivity converter offers conversion between various electric conductivity units. The electric conductivity can be defined as the inverse of electric resistivity. The SI unit used for measuring electric resistivity is Siemens per meter \(\left[\frac{\mathrm{S}}{\mathrm{m}}\right]\). When siemens per meter is expressed in SI base units the 1 Siemens per meter is equal to \(1\left[\frac{\mathrm{s}^3 \cdot \mathrm{A}^2}{\mathrm{kg}\cdot \mathrm{m}^3}\right]\).
The electric capacitance converter offers conversion between various electric capacitance units. The electric capacitance is the ratio of the amount of electric charge stored on a conductor to a difference in electric potential. The SI unit for the electric capacitance is Farad \(\left[\mathrm{F}\right]\). When expressed in SI base units the 1 farad is equal to \(1\left[\frac{\mathrm{s}^4\cdot \mathrm{A}^2}{\mathrm{kg}\cdot \mathrm{m}^2}\right]\).
The electric inductance converter offers conversion between various electric inductance units. The inductance can be defined as a tendency of an electric conductor to oppose a change in the electric current flowing through it. The SI unit for measuring electric inductance is henry \(\left[\mathrm{H}\right]\). When henry is expressed in SI base units the henry is equal to \(\left[\frac{\mathrm{kg}\cdot \mathrm{m}^2}{\mathrm{s}^2\cdot \mathrm{A}^2}\right]\).