The 10 kHz VLF plane wave is directed from a ship to the ocean to communicate with the submerged submarine. The ship and submarine are vertically aligned. The electric field strength just below the water level is 4 kV / m. a) Calculate the attenuation constant. b) Calculate the phase constant. c) Calculate the skin thickness. d) Calculate the phase velocity in water. e) Calculate the wavelength in water. f) Calculate the refractive index of the water. g) Calculate the complex impedance in water. εr = 81, σ = 4 S / m, μr = 1 h) What is the electric field and magnetic field distribution in the water.
The 10 kHz VLF plane wave is directed from a ship to the ocean to communicate with the submerged submarine. The ship and submarine are vertically aligned. The electric field strength just below the water level is 4 kV / m. a) Calculate the attenuation constant. b) Calculate the phase constant. c) Calculate the skin thickness. d) Calculate the phase velocity in water. e) Calculate the wavelength in water. f) Calculate the refractive index of the water. g) Calculate the complex impedance in water. εr = 81, σ = 4 S / m, μr = 1 h) What is the electric field and magnetic field distribution in the water.
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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The 10 kHz VLF plane wave is directed from a ship to the ocean to communicate with the submerged submarine. The ship and submarine are vertically aligned. The electric field strength just below the water level is 4 kV / m.
a) Calculate the attenuation constant.
b) Calculate the phase constant.
c) Calculate the skin thickness.
d) Calculate the phase velocity in water.
e) Calculate the wavelength in water.
f) Calculate the refractive index of the water.
g) Calculate the complex impedance in water.
εr = 81, σ = 4 S / m, μr = 1
h) What is the electric field and magnetic field distribution in the water.
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