How is Energy Distributed within a Electromagnetic Wave?
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Let
H^H^
Denote the full energy of the electromagnetic wave. Now is it right to assume that
H^=2H^2y+H^2x−−−−−−−−√=2H^2z+H^2x−−−−−−−−√H^=2H^y2+H^x2=2H^z2+H^x2
If not, what is the correct relationship and what would one need to assume?
For a photon
E=pcE=pc
My second question is can I assume
H^=PcH^=Pc
Where PP denotes the total momentum of the wave.
H^H^
Denote the full energy of the electromagnetic wave. Now is it right to assume that
H^=2H^2y+H^2x−−−−−−−−√=2H^2z+H^2x−−−−−−−−√H^=2H^y2+H^x2=2H^z2+H^x2
If not, what is the correct relationship and what would one need to assume?
For a photon
E=pcE=pc
My second question is can I assume
H^=PcH^=Pc
Where PP denotes the total momentum of the wave.
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0
Its said that electromagnetic waves carry energy. Is this because these waves are made up of electric and magnetic fields which can cause changes to the
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