Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
82 Cards in this Set
- Front
- Back
|
Normal |- Boundary Comps of D and B |
|
|
|
Tangential || Boundary Comps of E and H |
|
|
|
Maxwell equation 1 |
|
|
|
Biot-Savart Law |
|
|
|
Potential difference between a and b |
|
|
|
E and B as a function of V and A |
|
|
|
Poynting vector |
|
|
|
Average Poynting vector and intensity of light |
|
|
|
Radiation pressure for EM waves |
|
|
|
B field of a wave as a function of E |
|
|
|
Lorentz force law |
|
|
|
Force on a current wire on a B field |
|
|
|
Radius of a cyclotron |
|
|
|
Force between two current wires |
|
|
|
Potential Inside N-polygon with no charges |
|
|
|
Displacement D and auxiliary magnetic field H |
|
|
|
Polarization and Magnetization vectors |
|
|
|
D and E in a uniform dielectric material |
|
|
|
Effects of adding a dielectric to a capacitor (name as many) |
|
|
|
Diamagnetic, paramagnetic, and ferromagnetic states |
|
|
|
Maxwell Divergence theorem Eqs |
|
|
|
Faraday Law |
|
|
|
Ampere - Maxwell Law |
|
|
|
Charged ring E field |
|
|
|
Electric dipole E field |
|
|
|
Electric dipole p |
|
|
|
Potential of dipoles on their fields |
|
|
|
Line of charge E field |
|
|
|
Single infinite charged sheet E field |
|
|
|
Long straight wire B field |
|
|
|
Circular arc center B field |
|
|
|
Solenoid B field inside/outside |
|
|
|
Method of Images |
|
|
|
Hall effect equations |
|
|
|
Conductivity of materials using bands |
|
|
|
Conductors features |
|
|
|
Semiconductor p-n junction |
|
|
|
Insulators - why they have low conductivity? |
|
|
|
Current density through a material |
|
|
|
Drift velocity of electrons in a material |
|
|
|
Current given by J |
|
|
|
Current density of charge carriers nq |
|
|
|
Circuits analogy to harmonic oscillatior |
|
|
|
Voltage and Power through a Resistor |
|
|
|
Resistance from resistivity of a tube of L and A |
|
|
|
Resistors in Series and Parallel |
|
|
|
Capacitance from Q and V |
|
|
|
Capacitor Energy stored |
|
|
|
Capacitance in Series and Parallel |
|
|
|
Charging and Discharging capacitor RC eqs |
|
|
|
Voltage inside a capacitor V and C |
|
|
|
Inductance |
|
|
|
Solenoid Inductance |
|
|
|
Inductor Faraday's law |
|
|
|
Inductor's B field Energy |
|
|
|
Current through RL circuit |
|
|
|
LC circuit angular frequency of Oscillation |
|
|
|
LC charge q and current i |
|
|
|
RLC circuit angular oscillation |
|
|
|
AC circuit I-rms and V-rms |
|
|
|
Capacitive Reactance |
|
|
|
AC with capacitance Voltage |
|
|
|
AC with capacitance charge and current |
|
|
|
Inductive Reactance |
|
|
|
AC with inductor Voltage |
|
|
|
AC with inductor current |
|
|
|
RLC circuit Impedanze Z |
|
|
|
RLC applied emf |
|
|
|
RLC resonat angular frequency (minimal impedance Z) |
|
|
|
RLC Voltage |
|
|
|
Impedance for each component |
|
|
|
RLC components function, what are they for? |
|
|
|
Operation Amplified (Op - amp) |
|
|
|
Logic Gates |
|
|
|
Self - Inductance |
|
|
|
Circle of current B field on the center axis |
|
|
|
Larmor formula for Radiation |
|
|
|
Toroid B field inside/outside |
|
|
|
Force per unit length between two wires |
|
|
|
Radiation Pressure |
|
|
|
EMF of a bar of length L moving through B |
|
|
|
Energy stored in E field |
|
