Electromagnetism#
Figures#
Maxwell’s Equations#
\( \begin{aligned} \Phi_E &= \oiint_S \mathbf{E} \cdot d\mathbf{A} & &= && \text{Gauss's Flux Theorem} \\ \mu_0 I &= \oint_C \mathbf{B} \cdot d\mathbf{\ell} &= \mu_0 \iint_S \mathbf{J} \cdot d\mathbf{S} &= && \text{Ampere's Circuital Law} \\ \end {aligned} \)
\(1 \,\,\text{W} = 1 \,\,\text{J s}^{-1}\)
Unit |
Dimension |
Physical Property of Matter |
|---|---|---|
Ampere (A) |
Electric Current |
|
Coulomb (C) |
\(\text{T} \times \text{I}\) |
Electric Charge |
Ohm (Ω) |
Electric Resistance |
|
Voltage (V) |
Electric Potential |
|
Watt (W) |
Electric Power |
Dimension |
Unit |
|---|---|
Energy |
kWh |
Power |
kW |
Terms#
[ w ] Alternating Current (AC)
[ w ] Ampere (A)
[ w ] Ampere-Hour (A h)
[ w ] Ampere’s Circuital Law
[ w ] Ampere’s Force Law
[ w ] Biot-Savart Law
[ w ] Capacitance
[ w ] Capacitor
[ w ] Characteristic Impedance
[ w ] Charge
[ w ] Classical Electromagnetism
[ w ] Coulomb’s Law
[ w ] Dielectric
[ w ] Direct Current (DC)
[ w ] Distributed-Element Circuit
[ w ] Distributed-Element Model
[ w ] Electric Charge (q)
[ w ] Electric Conductance
[ w ] Electric Current
[ w ] Electric Energy
[ w ] Electric Field (\(\mathbf{E}\))
[ w ] Electric Flux
[ w ] Electric Impedance
[ w ] Electric Potential
[ w ] Electric Power
[ w ] Electric Reactance
[ w ] Electric Resistance
[ w ] Electromagnetic Induction
[ w ] Electromagnetism
[ w ] Electromotive Force (EMF)
[ w ] Electrostatic Generator
[ w ] Electrostatics
[ w ] Elementary Charge
[ w ] Faraday’s Law of Induction
[ w ] Gauss’s Law
[ w ] Inductance
[ w ] Inductor
[ w ] Insulator
[ w ] Kilowatt-Hour (kWh)
[ w ] Magnetism
[ w ] Maxwell’s Equations
[ w ] Ohm (Ω)
[ w ] Power Inverter
[ w ] Rectifier
[ w ] Resistor
[ w ] Siemens (S)
[ w ] Solenoid
[ w ] Static Electricity
[ w ] Van De Graff Generator
[ w ] Voltage
[ w ] Watt (W)