Determine the type and sense of polarization for the following uniform plane waves (Do not forget to verify whether the sense of the polarization Left or Right hand)
a) ?(?) = (??? −?(?/4) + ??? −?(?/4) )? −??? V/m.
b) ?(?) = (2?? + ?5??)? −??? V/m.
Determine the type and sense of polarization for the following uniform plane waves (Do not forget...
) nstantancous vaiutsth 5) Determine the polarization type and sketch the trajectory of the electric fields of the following phasor plane EM waves as the time evolves: iv) Ε(z) = Ea@x-j 1.5ay)e.JBz ) nstantancous vaiutsth 5) Determine the polarization type and sketch the trajectory of the electric fields of the following phasor plane EM waves as the time evolves: iv) Ε(z) = Ea@x-j 1.5ay)e.JBz
A uniform sinusoidal plane wave in air with the following phasor expression for electric intensity is incident on a perfectly conducting plane at z -0. a) Determine the polarization of the wave (with respect to incidence plane). A uniform sinusoidal plane wave in air with the following phasor expression for electric intensity is incident on a perfectly conducting plane at z -0. a) Determine the polarization of the wave (with respect to incidence plane).
please 10.35 (a) and 10.36 (a) 10.35 Determine the wave polarization of each of the following waves (a) E, cos(wt + Bya, + E, sin(wt + By)a, V/m (b) E, cos(wt - Byla, - 3E, sin(wt + ßy)a. V/m 10.36 Determine the polarization of the following waves: (a) E, - 40el*a, + 60e1103a, V/m (b) E, = 12ej" 3 2 -1104a, + 5e3al3 e 110%, V/m
Problen 7: Compare the polarization states of each of the following pairs of plane waves: (a) wave 1: E1-32 cos(wt - kz) + y2 sin(wt - kz) wave 2: E2- 32 cos(ot + kz) + y2 sin(ot + kz) (b)wave 1: E12 cos(ot - kz) -y2sin(ot - kz) wave 2: E2- 32 cos(ot + kz) - y2sin(ot + kz)
Determine the wave polarization of each of the following waves: (a) E0 cos(wt + {3y)ax + E0 sin(wt+ {3y)azV/m (b) E0 cos(wt - {3y)ax- 3E0 sin(wt+ {3y)azV/m
(30 pts) The magnetic field of a uniform plane wave propagating in a lossless medium with E,=2 is H(x,t) = cos(3x108t+4x)ā, – sin(3x10$t +4x)ā.(Alm). Find: (1) The phasor form expression for the magnetic field (2) The direction of propagation for the wave (3) The velocity Vp (4) The polarization state. If it is a circular polarization, you need to determine it is left or right handed. Provide details for your reasoning. (5) The average power density Sav.
(30 pts) The magnetic field of a uniform plane wave propagating in a lossless medium with x=2 is 7 (x,t) = cos(3x108t+4x)â, – sin( 3 x 108t+4x)â, (Alm). Find: (1) The phasor form expression for the magnetic field (2) The direction of propagation for the wave (3) The velocity vp (4) The polarization state. If it is a circular polarization, you need to determine it is left or right handed. Provide details for your reasoning. (5) The average power density...
424· The complex electric field of a uniform 4.26. In a source-free, free-space region, the plane wave is given by complex magnetic field of a time-harmonic field is represented by (a) Find the polarization of the wave (lin- ear, circular, or elliptical) (b) Determine the sense of rotation (clock wise or counterclockwise). (c) Sketch the figure the electric field where EO is a constant and Po is the intrin- sic impedance of free space. Determine the: (a) Polarization of the...
3. (30 pts) The magnetic field of a uniform plane wave propagating in a lossless medium with 8=2 is 7 (x,t)= cos(3x10't +4x)â, - sin( 3x108t + 4x)â, (Alm). Find: (1) The phasor form expression for the magnetic field (2) The direction of propagation for the wave (3) The velocity vp (4) The polarization state. If it is a circular polarization, you need to determine it is left or right handed. Provide details for your reasoning. (5) The average power...
7.12 The electric field of an elliptically polarized plane wave is given by [-k 10 sin(cot-kz-60°) E(z, t) y 30 cos(ot - kz)] (V/m). Determine the following: (a) The polarization angles (y, x). (b) The direction of rotation. 7.12 The electric field of an elliptically polarized plane wave is given by [-k 10 sin(cot-kz-60°) E(z, t) y 30 cos(ot - kz)] (V/m). Determine the following: (a) The polarization angles (y, x). (b) The direction of rotation.