A uniform plane wave is traveling in the human body. Assume that the x-y plane resides just below the surface of the torso and the wave travels in the +y direction into the body (torso). The constitutive parameters of the body are relative permittivity is 54, relative permeability is 1, and a -1.5 S/m. If the electric field at z -O is E(0, t)=10cos (2m x 10³t + 15') (V/m). a. Obtain expressions for E(z.t) and H(z.t). b. Determine the power density at 5 cm into the human body.

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A uniform plane wave is traveling in the human body. Assume that the x-y plane resides just below
the surface of the torso and the wave travels in the +y direction into the body (torso). The
constitutive parameters of the body are relative permittivity is 54, relative permeability is 1, and a
-1.5 S/m. If the electric field at z -O is E(0, t)=10cos (2m x 10³t + 15') (V/m).
a. Obtain expressions for E(z.t) and H(z.t).
b. Determine the power density at 5 cm into the human body.
Transcribed Image Text:A uniform plane wave is traveling in the human body. Assume that the x-y plane resides just below the surface of the torso and the wave travels in the +y direction into the body (torso). The constitutive parameters of the body are relative permittivity is 54, relative permeability is 1, and a -1.5 S/m. If the electric field at z -O is E(0, t)=10cos (2m x 10³t + 15') (V/m). a. Obtain expressions for E(z.t) and H(z.t). b. Determine the power density at 5 cm into the human body.
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