2006-09-14 02:36:23 · 8 answers · asked by sethabhi_2005 1 in Science & Mathematics ➔ Physics
A radio is a television without the picture.
Radio waves are low frequency electromagnetic radiation.
2006-09-14 03:04:32 · answer #1 · answered by Deep Thought 5 · 1⤊ 0⤋
Originally, radio technology was called 'wireless telegraphy', which was shortened to 'wireless'. The prefix radio- in the sense of wireless transmission was first recorded in the word radioconductor, coined by the French physicist Edouard Branly in 1897 and based on the verb to radiate. 'Radio' as a noun is said to have been coined by advertising expert Waldo Warren (White 1944). The word appears in a 1907 article by Lee de Forest, was adopted by the United States Navy in 1912 and became common by the time of the first commercial broadcasts in the United States in the 1920s. (The noun 'broadcasting' itself came from an agricultural term, meaning 'scattering seeds'.) The American term was then adopted by other languages in Europe and Asia, although Britain retained the term 'wireless' until the mid-20th century. In Chinese, the term 'wireless' is the basis for the term 'radio wave' although the term for the device that listens to radio waves is literally 'device for receiving sounds'.
2006-09-14 02:48:54 · answer #2 · answered by Anonymous · 0⤊ 1⤋
Radio is a way to send electromagnetic signals over a long distance, to deliver information from one place to another. A machine that sends radio signals is called a transmitter, while a machine that "picks up" the signals is called a receiver. (A machine that does both jobs is called a "transceiver".) When radio signals are sent out to many receivers at the same time, it is called a broadcast
2016-10-21 22:32:57 · answer #3 · answered by Nafiul 2 · 0⤊ 0⤋
Radio is the wireless transmission of signals, by modulation of electromagnetic waves with frequencies below those of light.
2006-09-14 02:42:32 · answer #4 · answered by Anonymous · 0⤊ 0⤋
Radio
Communication between two or more points, employing electromagnetic waves as the transmission medium.
Radio waves transmitted continuously, with each cycle an exact duplicate of all others, indicate only that a carrier is present. The message must cause changes in the carrier which can be detected at a distant receiver. The method used for the transmission of the information is determined by the nature of the information which is to be transmitted as well as by the purpose of the communication system.
In code telegraphy the carrier is keyed on and off to form dots and dashes. The technique, often used in ship-to-shore and amateur communications, has been largely superseded in many other point-to-point services by more efficient methods.
In frequency-shift transmission the carrier frequency is shifted a fixed amount to correspond with telegraphic dots and dashes or with combinations of pulse signals identified with the characters on a typewriter. This technique is widely used in handling the large volume of public message traffic on long circuits, principally by the use of teletypewriters.
In amplitude modulation the amplitude of the earner is made to fluctuate, to conform to the fluctuations of a sound wave. This technique is used in AM broadcasting, television picture transmission, and many other services. See also Amplitude-modulation radio.
In frequency modulation the frequency of the carrier is made to fluctuate around an average axis, to correspond to the fluctuations of the modulating wave. This technique is used in FM broadcasting, television sound transmission, and microwave relaying. See also Frequency-modulation radio.
In pulse transmission the carrier is transmitted in short pulses, which change in repetition rate, width, or amplitude, or in complex groups of pulses which vary from group to succeeding group in accordance with the message information. These forms of pulse transmission are identified as pulse-code, pulse-time, pulse-position, pulse-amplitude, pulse-width, or pulse-frequency modulation. Such techniques are complex and are employed principally in microwave relay systems. See also Pulse modulation.
In radar the carrier is normally transmitted as short pulses in a narrow beam, similar to that of a searchlight When a wave pulse strikes an object, such as an aircraft, energy is reflected back to the station, which measures the round-trip time and converts it to distance. A radar can display varying reflections in a maplike presentation on a cathode-ray tube. See also Radar.
Hundreds of thousands of radio transmitters exist, each requiring a carrier at some radio frequency. To prevent interference, different carrier frequencies are used for stations whose service areas overlap and receivers are built to select only the carrier signal of the desired station. Resonant electric circuits in the receiver are adjusted, or tuned, to accept one frequency and reject others.
All nations have a sovereign right to use freely any or all parts of the radio spectrum. But a growing list of international agreements and treaties divides the spectrum and specifies sharing among nations for their mutual benefit and protection. Each nation designates its own regulatory agency. In the United States all nongovernmental radio communications are regulated by the Federal Communications Commission (FCC)
2006-09-14 05:17:02 · answer #5 · answered by Anonymous · 0⤊ 1⤋
A radio is a device that collates etheric signals, concentrates them, and processes them into unintelligible vibratory emanations that obfuscate reality.
2006-09-14 02:47:40 · answer #6 · answered by blackfangz 4 · 0⤊ 0⤋
Is that a serious question?
2006-09-14 02:43:42 · answer #7 · answered by Mizzy 3 · 0⤊ 0⤋
That's a good answer!!!
2006-09-14 02:43:45 · answer #8 · answered by Jack 2 · 0⤊ 0⤋