Q1.) A smooth plane propagated in dielectric environment is defined as the electric field intensity of...
The magnetic field of a uniform plane wave propagating na dielectric medium with e 36 is given by Specify the modulus and direction of the electric field intensity at the x = 0 plane at t = 0 and 5 ns. The magnetic field of a uniform plane wave propagating na dielectric medium with e 36 is given by Specify the modulus and direction of the electric field intensity at the x = 0 plane at t = 0 and...
The electric field intensity of a uniform plane wave in a medium, σ=0, ε=ε0εr, μ=μ0 is: E= 12 sin(2pi x 10^7t - 3y)az V/m (a) Determine the polarization of the wave. (b) Find the frequency. (c ) Calculate εr. (d) Obtain the magnetic field intensity H.
Please solve as quickly as possible. 2. The electric field of a plane wave propagating on a lossless, non magnetic, dielectric material with Er = 2.56 is given by Ē (zt) (Swoºt –52) ay, Lyun? 20.00 Determine: 2.1. This woue vele velocity, a 2.2. the wave wavelength a in this medium 2.3. #ke usave ии илег уу? 2.4. the intrinsic impedance of the medium, m. 2.5. the magnetic intensity vector Fr(2, ) HINT: UT FAPT DEVE t (2,+) = Hoed2...
The complex amplitude and polarization of the electric field intensity and magnetic field intensity of a uniform plane wave operating at 1 GHz is l 100e-丿4a -and | 10.63eTa'l- respectively. The wave propagates through a medium with the following properties: 4 × 10-7 ,e = 14.2 × 10-9 , σ = 0 . Determine the following: a. Electric field intensity in phasor form. b. Electric field intensity in real instantaneous form. m m m c. Wave impedance
The electric field of a positive z-traveling wave in a medium with relative dielectric constant of er 4 and with frequency of 2.5 GHz is given by Ex Eox cos(ot - kz) V/m. 1. a. Find the magnetic field if Eox 400,000 V/m. b. Determine the phase velocity and wavelength.
The electric field intensity in a dielectric medium (u = H0, ε = ε0εr,) is given by E = 150 cos(109t + 8x) az V/m Calculate: (a) The dielectric constant, εr(b) The intrinsic impedance (c) The velocity of propagation (d) The magnetic field intensity vector, H (e) The Poynting vector (phasor form is also OK)
0.8T 7.2 If the electric field intensity in a source-free, dielectric medium is given as Determine the magnetic field intensity using Maxwell's equation from Taraday's law. What is the displacement current density in the medium? 0.8T 7.2 If the electric field intensity in a source-free, dielectric medium is given as Determine the magnetic field intensity using Maxwell's equation from Taraday's law. What is the displacement current density in the medium?
Q8 Consider a 5.6 GHz plane wave whose electric field component is given by: Ē = [î (0.4915 + j0.885) +Û(-1.4224 - 10.471) + 2(0.7844 - 11.459) le-i(573.0795x+330.8676y+240.85192) a) Determine the wave vector. b) Determine the wavelength inside the medium. c) Determine the free space wavelength. d) Determine refractive index of the medium. e) Determine the dielectric constant of the medium. f) Determine the polarization of the wave. g) Determine the magnitude of the electric field.
Consider the following expression corresponding to the phasor representation of the electric field of a electromagnetic plane wave propagating througlh a low loss dielectric ("good dielectrie") with e, 4: E -(&-) - iv22) e-(0.01+ (=+y V/m Determine: a) The direction of propagation of the wave. b) The frequency. e The velocity of propagation. 2 d) The loss tangent of the dielectric. e) The type of polarization and the sense of rotation (if proceeds). Make a two-dimensional plot with the figure...
The electric field intensity of a smooth plane wave spreads into the ocean (er = 76, ur = 1,0 = 4 S/m) in the direction (-2). Electric field strength on the surface of the ocean (z = 0) H (0, t) = -ây2cos (81106t +13) (A / m) is given. a) Determine the skin thickness and the impedance of the ocean water. b) Find the expressions E (z, t) and H (z, t) in the ocean. c) Find the power...