Q3. a) (i) The magnetic field of a TEM plane wave can be written in phasor form as H=H, exp j(oot+ẞz) â, A/m (iv) The same wave is incident perpendicular from air into the surface of a calm lake. Calculate the reflected and transmitted power fluxes at the water surface (assume that the relative permittivity of water is 79.5). (v) Describe what happens to the transmitted wave within the water and how this effect can be accounted for in the way we express the relative permittivity of water.
Q3. a) (i) The magnetic field of a TEM plane wave can be written in phasor form as H=H, exp j(oot+ẞz) â, A/m (iv) The same wave is incident perpendicular from air into the surface of a calm lake. Calculate the reflected and transmitted power fluxes at the water surface (assume that the relative permittivity of water is 79.5). (v) Describe what happens to the transmitted wave within the water and how this effect can be accounted for in the way we express the relative permittivity of water.
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Transcribed Image Text:Q3.
a) (i)
The magnetic field of a TEM plane wave can be written in phasor form as
H=H, exp j(oot+ẞz) â, A/m
Transcribed Image Text:(iv) The same wave is incident perpendicular from air into the surface of a calm
lake. Calculate the reflected and transmitted power fluxes at the water
surface (assume that the relative permittivity of water is 79.5).
(v) Describe what happens to the transmitted wave within the water and how
this effect can be accounted for in the way we express the relative
permittivity of water.
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