I need the answer as soon as possible Newton's equations of motion on electrons can be expressed as follows.(dv(t) + »O) -= -eEтdtUsing Newton's equations of motion for electrons, prove that the conductivity at frequencyw(omega) satisfies the following equation.1+ iwr(1+ (@r)²,a(w) = a(0)|

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Newton's equations of motion on electrons can be expressed as follows. (dv(t) m v(t) -eE dt Using Newton's equations of motion for electrons, prove that the conductivity at frequency w(omega) satisfies the following equation. 1+ iwr 1+ (@r)²/ a(w) = a(0)

Newton's equations of motion on electrons can be expressed as follows. (dv(t) m v(t) -eE dt Using Newton's equations of motion for electrons, prove that the conductivity at frequency w(omega) satisfies the following equation. 1+ iwr 1+ (@r)²/ a(w) = a(0)

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Question

I need the answer as soon as possible

Newton's equations of motion on electrons can be expressed as follows.
(dv(t) + »O) -
= -eE
т
dt
Using Newton's equations of motion for electrons, prove that the conductivity at frequency
w(omega) satisfies the following equation.
1+ iwr
(1+ (@r)²,
a(w) = a(0)|

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