Q3. a) A TEM plane wave propagates in air with a wavelength of 20 = 1.25m and an rms power flux of 1.57μW/m². Its electric field in Cartesian coordinates is (i) E = (Ex, Ey, Ez) = (0, E₁ expj (wt - Box), 0) Calculate the values of its amplitude Eo, period T, phase constant ẞo and state the portion of the EM spectrum it occupies. (ii) Use one of Maxwell's equations to derive a similar expression for the wave's magnetic field H and draw a simple sketch showing the relative orientations of E, H and power flux, at any instant of your choice.
Q3. a) A TEM plane wave propagates in air with a wavelength of 20 = 1.25m and an rms power flux of 1.57μW/m². Its electric field in Cartesian coordinates is (i) E = (Ex, Ey, Ez) = (0, E₁ expj (wt - Box), 0) Calculate the values of its amplitude Eo, period T, phase constant ẞo and state the portion of the EM spectrum it occupies. (ii) Use one of Maxwell's equations to derive a similar expression for the wave's magnetic field H and draw a simple sketch showing the relative orientations of E, H and power flux, at any instant of your choice.
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Transcribed Image Text:Q3. a)
A TEM plane wave propagates in air with a wavelength of 20 = 1.25m and an rms
power flux of 1.57μW/m². Its electric field in Cartesian coordinates is
(i)
E = (Ex, Ey, Ez) = (0, E₁ expj (wt - Box), 0)
Calculate the values of its amplitude Eo, period T, phase constant ẞo and
state the portion of the EM spectrum it occupies.
(ii) Use one of Maxwell's equations to derive a similar expression for the
wave's magnetic field H and draw a simple sketch showing the relative
orientations of E, H and power flux, at any instant of your choice.
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