22: Generation and Detection of Electromagnetic Waves

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22.1: Introduction
This section provides an overview of the chapter.
22.2: Production of Electromagnetic Waves - The Antenna
Electromagnetic waves are created by oscillating charges (which radiate whenever accelerated) and have the same frequency as the oscillation. Since the electric and magnetic fields in most electromagnetic waves are perpendicular to the direction in which the wave moves, it is ordinarily a transverse wave. The strengths of the electric and magnetic parts of the wave are related by \[\frac{E}{B} = c,\] which implies that the magnetic field \(B\) is very weak relative to the electric field \(E\).
22.3: Radiation from a Current Moment
22.4: Radiation from an Electrically-Short Dipole
22.5: Far-Field Radiation from a Half-Wave Dipole
22.6: Equivalent Circuit Model for Transmission; Radiation Efficiency
A radio transmitter consists of a source which generates the electrical signal intended for transmission, and an antenna which converts this signal into a propagating electromagnetic wave. Since the transmitter is an electrical system, it is useful to be able to model the antenna as an equivalent circuit. From a circuit analysis point of view, it should be possible to describe the antenna as a passive one-port circuit that presents an impedance to the source.
22.7: Equivalent Circuit Model for Reception
22.8: Potential Induced in a Dipole
22.9: Decibel Scale for Power Ratio
22.10: Antenna Radiation Patterns, Directivity, and Gain
22.11: Friis Transmission Equation

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