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Radio Wave Information

Radio waves are a type of electromagnetic radiation with wavelengths in the electromagnetic spectrum longer than infrared light. Like all other electromagnetic waves, they travel at the speed of light. Naturally-occurring radio waves are made by lightning, or by astronomical objects. Artificially-generated radio waves are used for fixed and mobile radio communication, broadcasting, radar and other navigation systems, satellite communication, computer networks and innumerable other applications. Different frequencies of radio waves have different propagation characteristics in the Earth's atmosphere; long waves may cover a part of the Earth very consistently, shorter waves can reflect off the ionosphere and travel around the world, and much shorter wavelengths bend or reflect very little and travel on a line of sight.

Diagram of the electric (E) and magnetic (H) fields of Radio Waves emanating from a grounded radio transmitting antenna (small dark vertical line in the center). The E and H fields are perpendicular as implied by the phase diagram in the lower right.

Contents

Discovery and utilization

Main article: History of radio Rough plot of Earth's atmospheric transmittance (or opacity) to various wavelengths of electromagnetic radiation, including radio waves.

Radio waves were first predicted by mathematical work done in 1865 by James Clerk Maxwell. Maxwell noticed wavelike properties of light and similarities in electrical and magnetic observations. He then proposed equations, that described light waves and radio waves as waves of electromagnetism that travel in space. In 1887, Heinrich Hertz demonstrated the reality of Maxwell's electromagnetic waves by experimentally generating radio waves in his laboratory.[1] Many inventions followed, making practical the use of radio waves to transfer information through space.

Propagation

Main article: Radio propagation

The study of electromagnetic phenomena such as reflection, refraction, polarization, diffraction and absorption is of critical importance in the study of how radio waves move in free space and over the surface of the Earth. Different frequencies experience different combinations of these phenomena in the Earth's atmosphere, making certain radio bands more useful for specific purposes than others.

Radio communication

In order to receive radio signals, for instance from AM/FM radio stations, a radio antenna must be used. However, since the antenna will pick up thousands of radio signals at a time, a radio tuner is necessary to tune in to a particular frequency (or frequency range).[2] This is typically done via a resonator (in its simplest form, a circuit with a capacitor and an inductor). The resonator is configured to resonate at a particular frequency (or frequency band), thus amplifying sine waves at that radio frequency, while ignoring other sine waves. Usually, either the inductor or the capacitor of the resonator is adjustable, allowing the user to change the frequency at which it resonates.[3]

In medicine

Radio frequency (RF) energy has been used in medical treatments for over 75 years[4] generally for minimally invasive surgeries and coagulation, including the treatment of sleep apnea.[5]

See also

Look up radio waves in Wiktionary, the free dictionary.
Radio portal

References

  1. ^ Heinrich Hertz: The Discovery of Radio Waves
  2. ^ Brain, Marshall (2000-12-07). "How Radio Works". HowStuffWorks.com. http://electronics.howstuffworks.com/radio8.htm. Retrieved 2009-09-11.
  3. ^ Brain, Marshall (2000-12-08). "How Oscillators Work". HowStuffWorks.com. http://electronics.howstuffworks.com/oscillator3.htm. Retrieved 2009-09-11.
  4. ^ Ruey J. Sung and Michael R. Lauer (2000). Fundamental approaches to the management of cardiac arrhythmias. Springer. p. 153. ISBN 9780792365594. http://books.google.com/?id=S1fWhl2c5zIC&pg=PA153&dq=rf+coagulation+75-years.
  5. ^ Melvin A. Shiffman, Sid J. Mirrafati, Samuel M. Lam and Chelso G. Cueteaux (2007). Simplified Facial Rejuvenation. Springer. p. 157. ISBN 9783540710967. http://books.google.com/?id=w1fQK21WK28C&pg=RA1-PA157&dq=rf+coagulation+sleep-apnea.
Radio spectrum

ELF 3 Hz 30 Hz

SLF 30 Hz 300 Hz

ULF 300 Hz 3 kHz

VLF 3 kHz 30 kHz

LF 30 kHz 300 kHz

MF 300 kHz 3 MHz

HF 3 MHz 30 MHz

VHF 30 MHz 300 MHz

UHF 300 MHz 3 GHz

SHF 3 GHz 30 GHz

EHF 30 GHz 300 GHz
Electromagnetic spectrum
← higher frequencies longer wavelengths → Gamma rays · X-rays · Ultraviolet · Visible · Infrared · Terahertz radiation · Microwave · Radio
Visible (optical) Violet · Blue · Green · Yellow · Orange · Red
Microwaves W band · V band · Q band · Ka band · K band · Ku band · X band · S band · C band · L band
Radio EHF · SHF · UHF · VHF · HF · MF · LF · VLF · ULF · SLF · ELF
Wavelength types Microwave · Shortwave · Medium wave · Longwave
Radiation (Physics & Health)
Main articles
Non-ionizing radiation Ultraviolet light · Near ultraviolet · Visible light · Infrared light · Microwave · Radio waves · Acoustic Radiation
Ionizing radiation X-ray · Cosmic radiation · Gamma ray · Background radiation · Nuclear fission · Nuclear fusion · Particle accelerators · Nuclear radiation (Nuclear weapons · Nuclear reactors) · Radioactive materials (Radioactive decay)
Thermal radiation · Electromagnetic radiation · Earth's radiation balance
Radiation health effects Radiation therapy · Radiation poisoning · Radioactivity in biological research · List of civilian radiation accidents Mobile phone radiation and health · Wireless electronic devices and health · Health physics · Laser safety · Lasers and aviation safety
Related articles Radiation hardening · Half-life · Radiobiology · Nuclear physics
See also: Category:Radiation effects · Category:Radioactivity · Category:Radiation health effects · Category:Radiobiology

Categories: Radio technology | Waves | Electromagnetic spectrum

 

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Noun

radio wave (plural radio waves)
  1. (physics) electromagnetic radiation having a wavelength between about .5 centimeters and 30,000 meters; used for the broadcasting of radio and television signals.
Related terms
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