A handbook of physics for radiologists and radiographers
This text/reference provides practicing radiologists and those in training with a simplified explanation of modern physics. Beginning with coverage of basic physical principles (i.e. measurement, magnetism, heat, electricity, radioactivity, etc.) it goes on to apply these theories to specific radiological techniques and equipment. Uses word forms and analogies instead of complex mathematical formulas and covers the most recent imaging modalities.
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Measurement and the Specification of Quantity
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absorbed dose absorption achieved anode applied arising atomic number attenuation axis cassette characteristic collimator components crystal curve density detector diagnostic distance distribution dose equivalent dose-rate dosemeters dosimetry electrical electromagnetic radiation electrons emission emitted emulsion equipment Exposure dose factors filtration fluoroscopy focal spot frequency function given grid heat ICRP image intensifier imaging system important increase input intensifying screens intensity interaction ionization chamber ionizing radiation irradiated known laser layer magnetic field mammography material maximum permissible measurement monitoring monitoring film movement nuclear nuclide output particles particular patient phosphor photoelectric effect photon plane possible potential produced pulse radiation protection radioactive radiographic Radiological Protection radiologist radionuclides range reduced region resolution result scanning scattering spectrum surface techniques temperature thermal thermography thickness tissue tomography transducer tube current ultrasonic ultrasound values voltage wave wavelength X-radiation X-ray beam X-ray film X-ray image X-ray image intensifier X-ray tube xeroradiography