Difference between revisions of "Maxwell's Equations"
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<math>\boldsymbol{\nabla \times B} - \mu_0\epsilon_0\frac{\partial \boldsymbol{E}}{\partial t}= 0 </math> | <math>\boldsymbol{\nabla \times B} - \mu_0\epsilon_0\frac{\partial \boldsymbol{E}}{\partial t}= 0 </math> | ||
| − | Need to add possibly derivation of wave equation and definitely Maxwell's equation in presence | + | <font color="red">Need to add possibly derivation of wave equation and definitely Maxwell's equation in presence</font> |
Gauss' Law: | Gauss' Law: | ||
Revision as of 15:39, 21 March 2007
In Free Space
These are the Maxwell's Equations we will be using to solve for regions "I" and "II" in our approximation of the Michelson interferometer.
Gauss' Law:
Gauss' Law for Magnetism:
Faradays's Law:
Ampere's Law:
Need to add possibly derivation of wave equation and definitely Maxwell's equation in presence
Gauss' Law:
Gauss' Law for Magnetism:
Faradays's Law:
Ampere's Law:
