'Radio Frequency' Searchterm 'Radio Frequency' found in 1 term [ • ] and 1 definition [• ], (+ 6 Boolean[• ] resultsResult Pages : • Radio Frequency
(RF) Radio frequency refers to that portion of the electromagnetic spectrum in which electromagnetic waves can be generated by alternating current fed to an antenna.
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Trigonometric functions are mathematical functions of an angle. There are six basic trigonometric functions (sine (sin), cosine (cos), tangent (tan), cotangent (cot), secant (sec), cosecant (cosec)), commonly defined as ratios of two sides of a right triangle. Used in diagnostic imaging for Cartesian sampling, to describe radio frequency signals, etc.
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(EMR) Electromagnetic radiation consists of an electric and a magnetic field component. All EMR travels in a vacuum at the speed of light. EMR is classified related to the frequency//length of the wave. An EM wave consists of discrete packets of energy, named photons (quantization). The energy of the photons depends on the frequency of the wave. Planck-Einstein equation: E = h * f E (energy); h (Planck's constant); f (frequency) EMR types include in order of increasing frequency//decreasing wavelength: radio waves, microwaves, infrared radiation, visible light, ultraviolet radiation, x-rays and gamma rays. EMR contains energy and momentum, which may be imparted when it interacts with matter. See Gamma Radiation. •
A cinefluorography produces a movie (cine) film from an image intensifier during x-rays examinations (often called videofluorography, cineradiography or cine). Cinefluorography is always monitored on the TV screen normally used for fluoroscopy. The image from the output screen of the image intensifier is split with a semi-transparent mirror into two output ports; one leading to the movie camera and the other to the fluoroscopy camera. Most of the light is directed to the cine camera. The image on the monitor does not suffer in quality due to the fact that the tube current for cinefluorography is about 100 times higher than for common fluoroscopy. The x-ray generator pulses are synchronized with the movements of the cine camera, so that no x-rays are emitted when the film is moved forward to the next frame. The needed very accurate synchronization of the x-ray generator can be achieved by use of high voltage switching in the secondary circuit of the constant potential x-ray generator, by starting and stopping the inverter in a medium frequency generator or by using a grid controlled x-ray tube. Further Reading: News & More:
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Radiation can ionize matter caused by the high energy which displaces electrons during interactions with atoms. In the electromagnetic spectrum higher frequency ultraviolet radiation begins to have enough energy to ionize matter. Examples of ionizing radiation include alpha particles, beta particles, gamma rays, x-rays, neutrons, high-speed electrons, high-speed protons, and other particles capable of producing ions by direct or secondary processes in passage through tissues. Damage of living tissue results from the transfer of energy to atoms and molecules in the cellular structure. Ionized cells have to repair themselves to remain alive. Generally, healthy cells have a higher capability to repair themselves than cancer cells. Biological effects of ionizing radiation exposure:
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Generation of free radicals;
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break down of chemical bonds;
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production of new chemical bonds and cross-linkage between macromolecules;
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deregulation of vital cell processes by molecule damage (e.g. DNA, RNA, proteins).
Ionizing radiation are used in a wide range of facilities, including health care, research institutions, nuclear reactors and their support facilities, and other manufacturing settings. These radiation sources can pose a serious hazard to affected people and environment if not properly controlled. See also Radiation Safety, Controlled Area, Radiotoxicity and As Low As Reasonably Achievable. Further Reading: Basics:
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