- #1
Pingu
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I'm having trouble with electromagnetic waves, perhaps just a vector calculus issue. I'd much appreciate some help in idenfiying it.
If given say an example in an assignment of an electromagnetic wave:
E = E_0 cos (omega(sqrt(sigma.mu) z - t )) X
+ E_0 sin (omega(sqrt(sigma.mu) z - t )) Y
Where bold X & Y have hats on their heads :-D
If so , what is the vector B
I'd immediatley assume that it was the same equation, replaced with B_O's instead of E_0's and swapping the cos's with sins's or the X & Y's.
Simplistic assumption based on the two assumably being mutuall perpendicular and in phase.
That would lead me to be able to identify the poynting vector S
I'm wondering if it is the same solution as a monochromatic plane wave, and furthermore what relationship the magnetic energy density and the electric energy density have, over a suitable averaging.
Thanks for reading, and if you have anything to comment, i'd love to hear it. I'm reading from Griffith Intro to Electro chapter 9 to attempt understanding...
Cheers
Andy :-D
If given say an example in an assignment of an electromagnetic wave:
E = E_0 cos (omega(sqrt(sigma.mu) z - t )) X
+ E_0 sin (omega(sqrt(sigma.mu) z - t )) Y
Where bold X & Y have hats on their heads :-D
If so , what is the vector B
I'd immediatley assume that it was the same equation, replaced with B_O's instead of E_0's and swapping the cos's with sins's or the X & Y's.
Simplistic assumption based on the two assumably being mutuall perpendicular and in phase.
That would lead me to be able to identify the poynting vector S
I'm wondering if it is the same solution as a monochromatic plane wave, and furthermore what relationship the magnetic energy density and the electric energy density have, over a suitable averaging.
Thanks for reading, and if you have anything to comment, i'd love to hear it. I'm reading from Griffith Intro to Electro chapter 9 to attempt understanding...
Cheers
Andy :-D