Number 5 until 75.) lambda(y)6.) refractive index medium (n1=)7.)intrinsic wave impedance (n) Problem 3The electric field intensity of a time-harmonic plane electromagnetic wave is given byĒ(x, y, z, t) = a 126× sin[10°t - 6y + 8z - 0.2] Volt/m, where all the variables arein MKSA units. This wave propagates in a simple, nonmagnetic, lossless medium.Find numerically, including units if applicable, for(1) the unit vector pointing to the wavefront propagation direction,(Indicate the direction of the vector by plotting it in the y-z plane)(2) the wavelength along the wavefront normal direction,(3) the wavefront velocity or the phase velocity of the electromagnetic wave inthe wavefront propagation direction,(4) the phase velocity in the z direction,(5) the wavelength in the y direction,(6) the refractive index of the medium,(7) the intrinsic wave impedance,(8) the magnetic field intensity vector H(x,y,z,t), and(9) the time-average intensity (power per unit area) of the wave.136лHint: the vacuum permittivity is &=permeability is = 4×107 H/m.109 F/m and the vacuum

The electric field intensity of a time-harmonic plane electromagnetic wave is given by E ⇀(x,y,z,t)…

Answered: Number 5 until 7 5.) lambda(y) 6.)…

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Number 5 until 7 5.) lambda(y) 6.) refractive index medium (n1=) 7.)intrinsic wave impedance (n)

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Question

Number 5 until 7
5.) lambda(y)

6.) refractive index medium (n1=)

7.)intrinsic wave impedance (n)

Problem 3
The electric field intensity of a time-harmonic plane electromagnetic wave is given by
Ē(x, y, z, t) = a 126× sin[10°t - 6y + 8z - 0.2] Volt/m, where all the variables are
in MKSA units. This wave propagates in a simple, nonmagnetic, lossless medium.
Find numerically, including units if applicable, for
(1) the unit vector pointing to the wavefront propagation direction,
(Indicate the direction of the vector by plotting it in the y-z plane)
(2) the wavelength along the wavefront normal direction,
(3) the wavefront velocity or the phase velocity of the electromagnetic wave in
the wavefront propagation direction,
(4) the phase velocity in the z direction,
(5) the wavelength in the y direction,
(6) the refractive index of the medium,
(7) the intrinsic wave impedance,
(8) the magnetic field intensity vector H(x,y,z,t), and
(9) the time-average intensity (power per unit area) of the wave.
1
36л
Hint: the vacuum permittivity is &
=
permeability is = 4×107 H/m.
109 F/m and the vacuum

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