Maxwell's Equations Table 6-1: Maxwell's equations. Reference Differential Form Integral Form Gauss's law V·D = pv D·ds = Q (6.1) ƏB V x E = at aB ds at Faraday's law (6.2)* Gauss's law for magnetism V.B = 0 B.ds = 0 (6.3) aD aD Ampère's law V x H = J+ at ·dl = ds (6.4) *For a stationary surface S. Electric Flux Density: D = ɛE Magnetic Flux Density: B = µH Ohm's Law: J = oE Faraday's Law and Applications Vtr emf ds (transformer emf), at -N

Maxwell's Equations Table 6-1: Maxwell's equations. Reference Differential Form Integral Form Gauss's law V·D = pv D·ds = Q (6.1) ƏB V x E = at aB ds at Faraday's law (6.2)* Gauss's law for magnetism V.B = 0 B.ds = 0 (6.3) aD aD Ampère's law V x H = J+ at ·dl = ds (6.4) *For a stationary surface S. Electric Flux Density: D = ɛE Magnetic Flux Density: B = µH Ohm's Law: J = oE Faraday's Law and Applications Vtr emf ds (transformer emf), at -N

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Question

PLease explain each Vairable/value and tell me what they mean or represent. explain the meaning of the formula and when to use it.

Maxwell's Equations
Table 6-1: Maxwell's equations.
Reference
Differential Form
Integral Form
Gauss's law
V·D = pv
D·ds = Q
(6.1)
ƏB
V x E =
at
aB
ds
at
Faraday's law
(6.2)*
Gauss's law for magnetism
V.B = 0
B.ds = 0
(6.3)
aD
aD
Ampère's law
V x H = J+
at
·dl =
ds
(6.4)
*For a stationary surface S.
Electric Flux Density: D = ɛE
Magnetic Flux Density: B = µH
Ohm's Law:
J = oE
Faraday's Law and Applications
ytr
emf
ds (transformer emf),
at
-N

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