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An isotropic antenna is radiating evenly in the r direction in free space. The total electric field is 20 a V m-1 at 1 m distance. Determine the radiated power density and radiated power at a distance of ABC m from the antenna, where A is 1 while BC are the 09 of your student identification number. (ii) Explain, with the aid of diagrams, the field patterns of a half-wave dipole antenna and quarter-wave monopole antenna. You should include twodimensional and three-dimensional plots. first digit: 1 final two digits: 09

An isotropic antenna is radiating evenly in the r direction in free space. The total electric field is 20 a V m-1 at 1 m distance. Determine the radiated power density and radiated power at a distance of ABC m from the antenna, where A is 1 while BC are the 09 of your student identification number. (ii) Explain, with the aid of diagrams, the field patterns of a half-wave dipole antenna and quarter-wave monopole antenna. You should include twodimensional and three-dimensional plots. first digit: 1 final two digits: 09

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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An isotropic antenna is radiating evenly in the r direction in free space.
The total electric field is 20 a V m-1
at 1 m distance. Determine the
radiated power density and radiated power at a distance of ABC m from
the antenna, where A is 1 while BC are the 09
of your student identification number.
(ii) Explain, with the aid of diagrams, the field patterns of a half-wave dipole
antenna and quarter-wave monopole antenna. You should include twodimensional and three-dimensional plots.

first digit: 1
final two digits: 09

(i) An isotropic antenna is radiating evenly in the r direction in free space. The total electric field is 20 ae V m' at 1 m distance. Determine the radiated power density and radiated power at a distance of ABC m from the antenna, where A is the first digit while BC are the final two digits of your student identification number. (ii) Explain, with the aid of diagrams, the field patterns of a half-wave dipole antenna and quarter-wave monopole antenna. You should include two- dimensional and three-dimensional plots.
Transcribed Image Text:(i) An isotropic antenna is radiating evenly in the r direction in free space. The total electric field is 20 ae V m' at 1 m distance. Determine the radiated power density and radiated power at a distance of ABC m from the antenna, where A is the first digit while BC are the final two digits of your student identification number. (ii) Explain, with the aid of diagrams, the field patterns of a half-wave dipole antenna and quarter-wave monopole antenna. You should include two- dimensional and three-dimensional plots.
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