| • Science | • People | • Locations | • Timeline |
where
Y is the admittance, measured in siemens
Z is the impedance, measured in ohms
Just as impedance is complex resistance, and the conductance G is the inverse G = 1/R of resistance R, admittance is also complex conductance.
Likewise, admittance is made up of a real part (the conductance), and an imaginary part (the susceptance B), shown by the equation
The magnitude of admittance is given by:
where
G is the conductance, measured in siemens
B is the susceptance, measured in siemens
| SI electricity units [ }|action=edit}} Edit }] | |||
|---|---|---|---|
| SI Base unit | |||
| Name | Symbol | Quantity | Notes |
| ampere | A | Current | |
| SI Derived units | |||
| Name | Symbol | Quantity | Notes |
| volt | V | Potential difference | |
| ohm | Ω | Resistance, Impedance, Reactance | |
| farad | F | Capacitance | |
| henry | H | Inductance | |
| siemens | S | Conductance, Admittance, Susceptance | =Ω−1 |
| coulomb | C | Electric charge | |
| ohm · metre | Ω · m | Resistivity | |
| siemens per metre | S / m | Conductivity | |
| henry per metre | H /m | Permeability | μ |
| farad per metre | F / m | Permittivity | ε |
| reciprocal farad | F−1 | Elastance | =F−1 |