1- Phasor domain expression for the electric field intensity of a uniform plane wave propagating in a source-free, simple and lossy medium in în = â̟ direction is given by Ē(2) = E, e¯d?e -az -jßz (Volts/m) The lossy medium of this problem is known to be a good conductor with =5.8×10’ S/m and µ = H9. It is also given that f= 5.8 MHz and E(z= 0) =1 (Volts/ m). %3D a) Find a and B . b) Find the intrinsic impedance ŋof the medium. c) It is known that dissipated power P in a given volume V can be computed using the expression P=|E·J* dv. Find the dissipated power in this problem for the volume {0SxS0.1 m, 0Sys0.1 m, 0Sz58} shown in the figure where 8 denotes the depth of penetration in meters.

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1-
Phasor domain expression for the electric field intensity of a uniform plane wave propagating in a
source-free, simple and lossy medium in în = ⸠direction is given by
Ē(2) = E, e¯a²e¯jßz
(Volts/m)
The lossy medium of this problem is known to be a good conductor with ơ =5.8x10' S/m and
l = Ho. It is also given that f= 5.8 MHz and E(z = 0) =1 (Volts/ m).
a) Find a and B
b) Find the intrinsic impedance nof the medium.
c) It is known that dissipated power P in a given volume V can be computed using the
expression P=E J° dv. Find the dissipated power in this problem for the volume
{0SxS0.1 m, 0sys0.1 m, 0Szs8} shown in the figure where & denotes the depth
of penetration in meters.
Transcribed Image Text:1- Phasor domain expression for the electric field intensity of a uniform plane wave propagating in a source-free, simple and lossy medium in în = ⸠direction is given by Ē(2) = E, e¯a²e¯jßz (Volts/m) The lossy medium of this problem is known to be a good conductor with ơ =5.8x10' S/m and l = Ho. It is also given that f= 5.8 MHz and E(z = 0) =1 (Volts/ m). a) Find a and B b) Find the intrinsic impedance nof the medium. c) It is known that dissipated power P in a given volume V can be computed using the expression P=E J° dv. Find the dissipated power in this problem for the volume {0SxS0.1 m, 0sys0.1 m, 0Szs8} shown in the figure where & denotes the depth of penetration in meters.
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