- Page created by SHH, 8 September 2008
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- Last modified by Administrator1, 14 February 2012
Radar (radio detection and ranging) is an electronic system for transmitting electromagnetic signals and receiving echoes from objects of interest (targets).
The basic concepts of radar were developed in the late 19th and early 20th centuries. However, it was just before and during World War II that radar emerged as a practical engineering device. During the war, radar played a pivotal role in the success or failure of many military missions. For example, during the 1940 Battle of Britain, a radar system called Chain Home alerted the British of impending German air raids. This warning gave the British time to efficiently mobilize their limited air defense resources. It is widely accepted that the use of radar turned the tide in the battle and helped Britain win a decisive victory.
Most radars work by transmitting a pulse of electromagnetic energy at a target and then listening with a receiver for the reflected echo from the target. Since electromagnetic waves travel at the velocity of light [186,411 miles (300,000 kilometers) per second], the time delay between the transmitted pulse and the received echo can be used to determine the distance to the target (distance = speed × time).
Along with measuring the distance to the target, radars can also measure the direction of the target. The radar’s antenna, in many cases a parabolic (bowl-shaped) metal dish, takes the energy from the transmitter, directs it in a narrow beam towards the target, and then receives echoes reflected back from the target. Other radar antennas have beams that are moved electronically. These “phased array” radars are mostly used for military applications.
Many radars use the Doppler effect to measure the target’s velocity relative to the radar. This effect causes the frequency of the target echoes to be raised or lowered, depending on whether the target is moving toward or away from the radar. The difference between the radar’s transmitted frequency and the reflected echoes of the target is a measure of the relative speed of the radar and target.
Since its use in World War II, radar has been used extensively by the military for a wide variety of missions, such as detection and tracking of aircraft, missiles and satellites, or other space objects. Because of its ability to detect airborne or space borne objects at great ranges (hundreds to thousands of miles), radar is an integral part of most air and missile defense systems.
The radar antenna on top of this plane feeds information to the flight crew, who are monitoring the sky for hostile aircraft. Courtesy: United States Air Force.
Air defense radars (both land-based and sea-based) detect and track targets, and guide the interceptor to the target missile or aircraft. Airborne radars detect and track hostile aircraft. They provide nations with early warning of hostile attack from ballistic missiles.
In addition to their historical and current use in military operations, radars have many civilian uses as well. They are used extensively for air traffic control, providing the controllers with an up-to-the-second location of all aircraft within about 60 miles (about 100 kilometers) of an airport. A variety of different radars are used to detect and study hazardous weather conditions such as tornadoes, hurricanes, and severe storms. This information is given to air traffic controllers, and assists them in providing airline pilots with flight paths that are relatively free from hazardous weather conditions. Doppler radars are used by law enforcement to monitor and control automobile speed and traffic. All large commercial maritime ships use radar as a navigation aid, allowing them to detect and track other nearby ships, landmarks, islands, navigation buoys, and hazards such as icebergs. Radars have also been used for scientific research. A major test of Albert Einstein’s general theory of relativity was performed using radar, and the terrain of Venus was first mapped using a high power
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