radio wave

n. An electromagnetic wave within the range of radio frequencies.

radio wave

n (Telecommunications) an electromagnetic wave of radio frequency

ra′dio wave`

n. an electromagnetic wave having a wavelength between 1 millimeter and 30,000 meters, or a frequency between 10 kilohertz and 300,000 megahertz. [1915–20]

radio wave

An electromagnetic wave having a low frequency and long wavelength. Radio waves are used for the transmission of both radio and television broadcasts. They also include the microwaves used for cooking. Some celestial objects, such as pulsars, also emit radio waves. See more at electromagnetic spectrum.

radio wave

- Travels like rays of light, so it takes its name from Latin radius, "spoke of a wheel; ray of light."See also related terms for ray.

Thesaurus

Noun

radio wave - an electromagnetic wave with a wavelength between 0.5 cm to 30,000 mradio emission, radio radiationelectromagnetic radiation, electromagnetic wave, nonparticulate radiation - radiation consisting of waves of energy associated with electric and magnetic fields resulting from the acceleration of an electric chargesky wave - a radio wave that is reflected back to earth by the ionosphere or a communications satellite; permits transmission around the curve of the earth's surfaceground wave - a radio wave propagated on or near the earth's surfaceradio signal - a radio wave used to transmit and receive messagesradio spectrum, radio-frequency spectrum - the entire spectrum of electromagnetic frequencies used for communications; includes frequencies used for radio and radar and televisioncarrier wave, carrier - a radio wave that can be modulated in order to transmit a signalshort wave - a radio wave with a wavelength less than 100 meters (a frequency greater than 3 megahertz)medium wave - a radio wave with a wavelength between 100 and 1000 meters (a frequency between 300 kilohertz and 3000 kilohertz)long wave - a radio wave with a wavelength longer than a kilometer (a frequency below 300 kilohertz)

Translations

onde radio

Radio Wave

radio wave

[′rād·ē·ō ‚wāv] (electromagnetism) An electromagnetic wave produced by reversal of current in a conductor at a frequency in the range from about 10 kilohertz to about 300,000 megahertz.

Radio Wave

an electromagnetic wave of wavelength greater than 500 micrometers (μm) or of frequency less than 6 × 10¹² hertz (Hz). Radio waves have many applications, including radio broadcasting, radiotelephone communications, television, radar, and radio meteorology. In these cases radio waves are a means of wireless transmission of information, which may be in the form of speech, telegraph signals, or images. Radio waves are used to determine the direction and, in range only radar, the distance to various objects. Their other uses include the obtaining of information about the structure of the upper atmospheric layers, the sun, and the planets.

Table 1. Subdivisions of radio spectrum
Subdivision¹	Wavelength range (m)	Frequency range (Hz)
¹These subdivisions are discussed in individual articles of the encyclopedia
Superlong waves ......	greater than 10⁴	less than 3 × 10⁴
Long waves..........	10⁴–10³	3³ × 10⁴–3 × 10⁵
Medium waves........	10³–10²	3 × 10⁵–3 × 10⁶
Short waves..........	10²–10	3 × 10⁶–3 × 10⁷
Meter waves .........	10–1	3 × 10⁷–3 × 10⁸
Decimeter waves ......	1–0.1	3 × 10⁸–3 × 10⁹
Centimeter waves......	0.1–0.01	3 × 10⁹–3 × 10¹⁰
Millimeter waves......	0.01–0.001	3 × 10¹⁰–3 × 10¹¹
Submillimeter waves ......	10^3–5 × 10^–5	3 × 10¹¹–6 × 10¹²

The first experimental transmissions of signals by means of radio waves were carried out by A. S. Popov between 1895 and 1899. Popov used wavelengths of 200 to 500 m—that is, frequencies of 1.5 × 10⁶ to 0.6 × 10⁶ Hz. The subsequent development of radio engineering resulted in the employment of a wider spectrum of electromagnetic waves. The lower limit for the spectrum of radio waves radiated by radio-transmitting devices is of the order of 10³–10⁴ Hz.

Many sources of radio waves exist in nature. Examples are the stars, including the sun, the galaxies, the metagalaxy, and the planets. Radio astronomy’s investigation of radio waves from extraterrestrial sources has permitted us to broaden our knowledge of the universe. Some processes that occur within the earth’s atmosphere are also accompanied by the generation of radio waves. For example, radio waves result from lightning discharges (seeATMOSPHERICS) and from the excitation of oscillations in the ionospheric plasma. Such processes can cause the excitation of radio waves of frequencies as low as fractions of a hertz.

Since radio waves of different frequencies propagate differently within the limits of the earth and in outer space, they find different applications in radio communications and in scientific investigations. On the basis of the characteristics of progaga-tion, generation, and—to some extent—processes, the radio spectrum is commonly divided into a number of subdivisions, which are given in Table 1. The basic classification of radio waves into bands for radio communications purposes has been established by the international Radio Regulations. Bands 4 through 11 in Table 2 are used by the various radio services; the designations of the other bands listed are standard Soviet usage.

M. B. VINOGRADOVA

radio wave

radio wave

radio wave

ra′dio wave`

radio wave

radio wave

Radio Wave

radio wave

Radio Wave

radio wave

radio wave

radio wave

Synonyms for radio wave

noun an electromagnetic wave with a wavelength between 0

Synonyms

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