Stating any assumptions that you make, write down the equation of motion of an electron in a non-conductor that is experiencing an incident electromagnetic wave of angular frequency w. Show that the dipole moment resulting from the oscillation of the electron at the driving frequency may be written as P= e²E, expi(k-r-at) m[(@-@²)-iya]
Stating any assumptions that you make, write down the equation of motion of an electron in a non-conductor that is experiencing an incident electromagnetic wave of angular frequency w. Show that the dipole moment resulting from the oscillation of the electron at the driving frequency may be written as P= e²E, expi(k-r-at) m[(@-@²)-iya]
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H5.
![Stating any assumptions that you make, write down the equation of motion of an
electron in a non-conductor that is experiencing an incident electromagnetic wave of
angular frequency o. Show that the dipole moment resulting from the oscillation of the
electron at the driving frequency may be written as
P=
e²E expi(k-r-cot)
m[(@-@²)-iyo]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fcfb160e9-2af4-4c98-9ab2-004f75b111ff%2Fecdaf86e-f303-46f7-8afe-f70411209de6%2Fuyhtiv_processed.png&w=3840&q=75)
Transcribed Image Text:Stating any assumptions that you make, write down the equation of motion of an
electron in a non-conductor that is experiencing an incident electromagnetic wave of
angular frequency o. Show that the dipole moment resulting from the oscillation of the
electron at the driving frequency may be written as
P=
e²E expi(k-r-cot)
m[(@-@²)-iyo]
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