Maxwell's equations in Gaussian units are given by ▼ × Ẽ + √ · B = 0, 1 ə • B = 0, cot ⑦· В = 4πр, 1 ə • ▼ × й - cat D = с მ (1) (2) (3) (4) =: Rewrite these in index notation. You may write the time derivative as of (t) = dtf (t) coof (t). (Note, to avoid cluttering the equations we have suppressed the dependence of all of the fields and sources on space and time, thus, e.g., B = B(t,x).)
Maxwell's equations in Gaussian units are given by ▼ × Ẽ + √ · B = 0, 1 ə • B = 0, cot ⑦· В = 4πр, 1 ə • ▼ × й - cat D = с მ (1) (2) (3) (4) =: Rewrite these in index notation. You may write the time derivative as of (t) = dtf (t) coof (t). (Note, to avoid cluttering the equations we have suppressed the dependence of all of the fields and sources on space and time, thus, e.g., B = B(t,x).)
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Explain the answer to the second and last equation in detail
Transcribed Image Text:Maxwell's equations in Gaussian units are given by
▼ × Ẽ +
√ · B = 0,
1 ə
•
B = 0,
cot
⑦· В = 4πр,
1 ə
•
▼ × й
-
cat
D
=
с
მ
(1)
(2)
(3)
(4)
=:
Rewrite these in index notation. You may write the time derivative as of (t) = dtf (t)
coof (t). (Note, to avoid cluttering the equations we have suppressed the dependence of all
of the fields and sources on space and time, thus, e.g., B = B(t,x).)
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