14-26 A certain plane wave in sea water has an rms value for the electric field intensity vector of Ex = 3 V/m, and the dielectric constant is 80. Assume that the magnetic in- tensity vector is in the positive y-direction. Determine (a) the magnitude of the magnetic field intensity, (b) the power density of the plane wave, and (c) the total power transmitted through a square surface in the x-y plane with sides of 15 m each. Assume that the power density is constant over the surface area.
14-26 A certain plane wave in sea water has an rms value for the electric field intensity vector of Ex = 3 V/m, and the dielectric constant is 80. Assume that the magnetic in- tensity vector is in the positive y-direction. Determine (a) the magnitude of the magnetic field intensity, (b) the power density of the plane wave, and (c) the total power transmitted through a square surface in the x-y plane with sides of 15 m each. Assume that the power density is constant over the surface area.
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:14-26 A certain plane wave in sea water has an rms value for
the electric field intensity vector of Ex = 3 V/m, and the
dielectric constant is 80. Assume that the magnetic in-
tensity vector is in the positive y-direction. Determine
(a) the magnitude of the magnetic field intensity, (b) the
power density of the plane wave, and (c) the total power
transmitted through a square surface in the x-y plane
with sides of 15 m each. Assume that the power density
is constant over the surface area.
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