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Radiography in the digital age : physics, exposure, radiation biology

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Title

Radiography in the digital age : physics, exposure, radiation biology

Call No

RC78.7.D53 C37 2014

Edition

Second edition.

Digital Link

Please click here to access

Authors

Carroll, Quinn B.

Subjects

Radiography.
Radiography.
Physics.
Radiology--methods.
Radiographic Image Enhancement.
Technology, Radiologic.
Radiobiology.
Radiologic Technology.
RT.

Language

English

Published

Springfield, Illinois, U.S.A. : Charles C. Thomas, Publisher, Ltd., 2014.

Publication Desc

xxx, 856 pages : illustrations (some color) ;

ISBN

9780398080969

(hbk.)

LCCN

2014015954

Target Audience

Unknown or not specified

Dimensions

29 cm.

Availability Summary MARC Reviews Cover Image Additional Info

General Note

Includes index.

Content Note

An Introduction to Radiographic Science -- Basic Physics for Radiography -- Unit Conversions and Help with Math -- The Atom -- Electromagnetic Waves -- Magnetism and Electrostatics -- Electrodynamics -- X-Ray Machine Circuits and Generators -- The X-Ray Tube -- X-Ray Production -- Creation of the Radiographic Image -- Production of Subject Contrast -- Visibility Qualities of the Image -- Geometrical Qualities of the Image -- Milliampere-Seconds (mAs) -- Kilovoltage-Peak (kVp) -- Generators and Filtration -- Field Size Limitation -- Patient Condition, Pathology, and Contrast Agents -- \Scattered Radiation and Grids -- The Anode Bevel and Focal Spot -- \Source-to-Image Receptor Distance (SID) -- OID and Distance Ratios -- Alignment and Motion -- Analyzing the Latent Radiographic Image -- Simplifying and Standardizing Technique -- Using Automatic Exposure Controls (AEC) -- Computer Basics -- Creating the Digital Image -- Digital Image Preprocessing -- Digital Image Postprocessing -- Postprocessing Operations in Practice -- Applying Radiographic Technique to Digital Imaging -- Capturing the Digital Image: DR and CR -- Display Systems and Electronic Images -- Picture Archiving and Communication Systems (PACS) -- Mobile Radiography and Tomography -- Fluoroscopy and Digital Fluoroscopy and Digital Fluoroscopy -- Quality Control -- Radiation Perspectives -- Radiation Units and Measurement -- Radiation Biology: Cellular Effects -- Radiation Biology: Organism Effects -- Radiation Protection: Procedures and Policies.An introduction to radiographic science -- Basic physics for radiography -- Unit conversions and help with math -- The atom -- Electromagnetic waves -- Magnetism and electrostatics -- Electrodynamics -- X-ray machine circuits and generators -- The X-ray tube -- X-ray production -- Creation of the radiographic image -- Production of subject contrast -- Visibility qualities of the image -- Geometrical qualities of the image -- Milliampere-seconds (mAs) -- Kilovoltage-peak (kVp) -- Generators and filtration -- Field size limitation -- Patient condition, pathology, and contrast agents -- Scattered radiation and grids -- The anode bevel and focal spot -- Source-to-image receptor distance (SID) -- OID and distance ratios -- Alignment and motion -- Analyzing the latent radiographic image -- Simplifying and standardizing technique -- Using automatic exposure controls (AEC) -- Computer basics -- Creating the digital image -- Digital image preprocessing -- Digital image postprocessing -- Postprocessing operations in practice -- Applying radiographic technique to digital imaging -- Capturing the digital image : DR and CR -- Display systems and electronic images -- Picture archiving and communication systems (PACS) -- Mobile radiography and tomography -- Fluoroscopy and digital fluoroscopy -- Quality control -- Radiation perspectives -- Radiation units and measurement -- Radiation biology : cellular effects -- Radiation biology : organism effects -- Radiation protection : procedures and policies.