radiation
1. Physics
a. the emission or transfer of radiant energy as particles, electromagnetic waves, sound, etc.
b. the particles, etc., emitted, esp the particles and gamma rays emitted in nuclear decay
2. Med treatment using a radioactive substance
3. Anatomy a group of nerve fibres that diverge from their common source
4. See adaptive radiation
Collins Discovery Encyclopedia, 1st edition © HarperCollins Publishers 2005
Radiation
The emission and propagation of energy; also, the emitted energy itself. The etymology of the word implies that the energy propagates rectilinearly, and in a limited sense, this holds for the many different types of radiation encountered.
The major types of radiation may be described as electromagnetic, acoustic, and particle, and within these major divisions there are many subdivisions. Electromagnetic radiation is classified roughly in order of decreasing wavelength as radio, microwave, visible, ultraviolet, x-rays, and γ-rays. Acoustic or sound radiation may be classified by frequency as infrasonic, sonic, or ultrasonic in order of increasing frequency, with sonic being between about 16 and 20,000 Hz. The traditional examples of particle radiation are the α‒ and β-rays of radioactivity. See Electromagnetic radiation, Radioactivity, Sound
McGraw-Hill Concise Encyclopedia of Physics. © 2002 by The McGraw-Hill Companies, Inc.
radiation
(ray-dee-ay -shŏn) See electromagnetic radiation; energy transport.Collins Dictionary of Astronomy © Market House Books Ltd, 2006
radiation
[‚rād·ē′ā·shən] (engineering)
A method of surveying in which points are located by knowledge of their distances and directions from a central point.
(physics)
The emission and propagation of waves transmitting energy through space or through some medium; for example, the emission and propagation of electromagnetic, sound, or elastic waves.
The energy transmitted by waves through space or some medium; when unqualified, usually refers to electromagnetic radiation. Also known as radiant energy.
A stream of particles, such as electrons, neutrons, protons, α-particles, or high-energy photons, or a mixture of these.
McGraw-Hill Dictionary of Scientific & Technical Terms, 6E, Copyright © 2003 by The McGraw-Hill Companies, Inc.
radiation
The transmission of heat through space by means of electromagnetic waves; the heat energy passes through the air between the source and the heated body without heating the intervening air appreciably.
McGraw-Hill Dictionary of Architecture and Construction. Copyright © 2003 by McGraw-Hill Companies, Inc.
radiation
i. The process of heat transfer in wave form without the use or necessity of a transmitting medium. The insolation, or radiant energy, received by the earth from the sun is an example of radiation.
ii. The transfer of energy in the form of electromagnetic waves through either a vacuum or air.
ii. The transfer of energy in the form of electromagnetic waves through either a vacuum or air.
An Illustrated Dictionary of Aviation Copyright © 2005 by The McGraw-Hill Companies, Inc. All rights reserved
electromagnetic radiation
The energy that radiates from all things in nature and from man-made electrical and electronic systems. Electromagnetic radiation includes cosmic rays, gamma rays, x-rays, ultraviolet light, visible light, infrared light, radar, microwaves, TV, radio, cellphones and all electronic transmission systems. Electromagnetic radiation is made up of an electromagnetic field (EMF), which comprises an electric field and a magnetic field that move at right angles to each other at the speed of light. See spectrum, microwave and electromagnetic hypersensitivity.radiation hardened
Refers to electronic products used in space, satellite, nuclear plant and military applications. Radiation hardened devices are built to withstand cosmic rays and other natural electromagnetic radiation, as well as nuclear explosions. The effects of such radiation can be a temporary alteration or a slow degradation of the semiconductor elements in memory cells and transistors. If either a cell or transistor is induced to change its state, it can cause a program to crash (see abend). As the elements in a chip are made smaller, radiation has an increasingly greater and harmful influence."Rad hard" products are highly insulated from the outside world. In addition, devices may be built with redundant components at the system level or at the circuit level, and error-correcting memories can detect and correct a memory failure. See electromagnetic radiation.
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| A Wide Resistance Difference |
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| This C-RAM phase change 4MB memory chip is shown without the cover and before the leads are cut. When the bit is 0, the memory cell resistance is 5,000 ohms, but 100,000 ohms when a 1. Due to the huge resistance difference between a 0 and 1, the chip is inherently radiation hardened (see phase change memory). (Image courtesy of BAE Systems, www.baesystems.com) |
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