A uniform plane wave is traveling in seawater. Assume that the x-y plane resides just below the sea surface and the wave travels in the +z direction into the water. The constitutive parameters of seawater are e, = 80, µ; = 1, and o = 4 S/m. If the magnetic field at z = 0 is H(0, t) = ŷ 100 cos(277 x 10°t + 15°) (mA/m), (a) obtain expressions for E(z, 1) and H(z, t), and (b) determine the depth at which the magnitude of E is 1% of its value at z = 0.

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A uniform plane wave is traveling in seawater. Assume that
the x-y plane resides just below the sea surface and the wave
travels in the +z direction into the water. The constitutive
parameters of seawater are e, = 80, Hp = 1, and o = 4 S/m.
If the magnetic field at z = 0 is
H(0, t) = ŷ 100 cos(27 × 10°t + 15°)
(mA/m),
(a) obtain expressions for E(z, 1) and H(z, 1), and
(b) determine the depth at which the magnitude of E is 1% of
its value at z = 0.
Transcribed Image Text:A uniform plane wave is traveling in seawater. Assume that the x-y plane resides just below the sea surface and the wave travels in the +z direction into the water. The constitutive parameters of seawater are e, = 80, Hp = 1, and o = 4 S/m. If the magnetic field at z = 0 is H(0, t) = ŷ 100 cos(27 × 10°t + 15°) (mA/m), (a) obtain expressions for E(z, 1) and H(z, 1), and (b) determine the depth at which the magnitude of E is 1% of its value at z = 0.
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