In an electomegnetic wave, the amplitude of electric field is `10V//m`. The frequency of wave is `5xx10^14Hz`. The wave is propagating along Z-axis, find (i) the average energy density of electric field (ii) the average energy density of magnetic field (iii) the total average energy density of e.m. wave.

In an electomegnetic wave, the amplitude of electric field is `10V//m`

1.	In an electomegnetic wave, the amplitude of electric field is `10V//m`. The frequency of wave is `5xx10^14Hz`. The wave is propagating along Z-axis, find (i) the average energy density of electric field (ii) the average energy density of magnetic field (iii) the total average energy density of e.m. wave.
Answer» Here, `E_0=10Vm^-1, v=5xx10^14Hz`. (i) Average energy density due to electric field is `u_E=1/2in_0E_(rms)^2=1/2in_0((E_0)/(sqrt2))^2 =1/4in_0E_0^2` `=1/4xx(8.85xx10^-12)xx(10)^2=2.21xx10^-10J//m^3` (ii) Average energy density due to magnetic field is `u_B=1/2 (B_(rms)^2)/(mu_0) =1/(2mu_0) ((B_0)/(sqrt2))^2=1/4 (B_0^2)/(mu_0)= 1/4((E_0//c)^2)/(mu_0)=1/(4mu_0) (E_0^2)/(c^2)=1/(4mu_0) (E_0^2)/((1//mu_0in_0))=1/4 in_0E_0^2=u_E` `=2.21xx10^-10J//m^3` (iii) Total average energy density of e.m. waves `u=u_E+u_B=2.21xx10^-10+2.21xx10^-10=4.42xx10^-10J//m^3`

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