3. a. In a certain region, the magnetic field of an EM wave is H = 0.6 cos Bx cos 10°t a, A/m. Find the corresponding E using Maxwell's equations. b. In a nonmagnetic medium, E = 50 cos (10°t - 8x) a, + 40 sin (10°t - 8x)a, V/m find the corresponding H.

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  1. In a certain region, the magnetic field of an EM

wave is H = 0.6 cos βx cos 108 t az A/m. Find the corresponding E using Maxwell's equations.

  1. In a nonmagnetic medium, E = 50 cos (109t - 8x) ay + 40 sin (109t - 8x)az V/m

find the corresponding H.

 

  1. In a nonmagnetic medium,

       H = 50e-100x cos(2π 109  t- 200x)ay mA/m

 (a) the wave period T,

 (b) the wavelength,

(c) the electric field E,

(d) the phase difference between E and H.

3.
a. In a certain region, the magnetic field of an EM
wave is H = 0.6 cos Bx cos 10*ta; A/m. Find the corresponding E using Maxwell's equations.
b. In a nonmagnetic medium, E = 50 cos (10°t - 8x) ay + 40 sin (10°t - 8x)a, V/m
find the corresponding H.
4. In a nonmagnetic medium,
cos(2n 10° t- 200x)a, mA/m
-100x
H = 50e
(a) the wave period T,
(b) the wavelength,
(c) the electric field E,
(d) the phase difference between E and H.
Transcribed Image Text:3. a. In a certain region, the magnetic field of an EM wave is H = 0.6 cos Bx cos 10*ta; A/m. Find the corresponding E using Maxwell's equations. b. In a nonmagnetic medium, E = 50 cos (10°t - 8x) ay + 40 sin (10°t - 8x)a, V/m find the corresponding H. 4. In a nonmagnetic medium, cos(2n 10° t- 200x)a, mA/m -100x H = 50e (a) the wave period T, (b) the wavelength, (c) the electric field E, (d) the phase difference between E and H.
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