2.37. A 300 MHz uniform plane wave, traveling along the x-axis in the negative x-direction, whoseelectric field is given byE, = E,(jâ, + 3â¸)e*jkxwhere E, is a real constant, impinges upon a dipole antenna that is placed at the origin andwhose electric field radiated toward the x-axis in the positive x-direction is given byE. = E,(â, + 2â,)e¬jkewhere E, is a real constant. Determine the following:(a) Polarization of the incident wave (including axial ratio and sense of rotation, if any).You must justify (state why?).(b) Polarization of the antenna (including axial ratio and sense of rotation, if any). You mustjustify (state why?).(c) Polarization loss factor (dimensionless and in dB).Incident WaveAntenna

Given,Ew=E0(ja^y+3a^z)e+jkxEa=Ea (a^y+2a^z)e-jkx

2.37. A 300 MHz uniform plane wave, traveling along the x-axis in the negative x-direction, whose electric field is given by E, = E,(jâ, + 3â¸)e*jkx where E, is a real constant, impinges upon a dipole antenna that is placed at the origin and whose electric field radiated toward the x-axis in the positive x-direction is given by E, = E_(â, + 2â¸)e¬ka where E, is a real constant. Determine the following: (a) Polarization of the incident wave (including axial ratio and sense of rotation, if any). You must justify (state why?). (b) Polarization of the antenna (including axial ratio and sense of rotation, if any). You must justify (state why?). (c) Polarization loss factor (dimensionless and in dB). Incident Wave Antenna

2.37. A 300 MHz uniform plane wave, traveling along the x-axis in the negative x-direction, whose electric field is given by E, = E,(jâ, + 3â¸)e*jkx where E, is a real constant, impinges upon a dipole antenna that is placed at the origin and whose electric field radiated toward the x-axis in the positive x-direction is given by E, = E_(â, + 2â¸)e¬ka where E, is a real constant. Determine the following: (a) Polarization of the incident wave (including axial ratio and sense of rotation, if any). You must justify (state why?). (b) Polarization of the antenna (including axial ratio and sense of rotation, if any). You must justify (state why?). (c) Polarization loss factor (dimensionless and in dB). Incident Wave Antenna

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Question

2.37. A 300 MHz uniform plane wave, traveling along the x-axis in the negative x-direction, whose
electric field is given by
E, = E,(jâ, + 3â¸)e*jkx
where E, is a real constant, impinges upon a dipole antenna that is placed at the origin and
whose electric field radiated toward the x-axis in the positive x-direction is given by
E. = E,(â, + 2â,)e¬jke
where E, is a real constant. Determine the following:
(a) Polarization of the incident wave (including axial ratio and sense of rotation, if any).
You must justify (state why?).
(b) Polarization of the antenna (including axial ratio and sense of rotation, if any). You must
justify (state why?).
(c) Polarization loss factor (dimensionless and in dB).
Incident Wave
Antenna

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