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Student workbook for Radiography in the digital age /
This Student Workbook for Radiography in the Digital Age is specifically designed for in-classroom use with the series PowerPoint Slides for Radiography in the Digital Age. Together with the textbook itself and the Instructor Resources CD, these products complete a full package of educational resour...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Springfield, Illinois :
Charles C Thomas,
[2018]
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| Edición: | Third edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro; STUDENT WORKBOOK for RADIOGRAPHY IN THE DIGITAL AGE; Third Edition-Student Workbook for RADIOGRAPHY IN THE DIGITAL AGE; INTRODUCTION; CONTENTS; Chapter 1: AN INTRODUCTION TO RADIOGRAPHIC SCIENCE; The Scientific Approach; A Brief History of X-Rays; The Development of Modern Imaging Technology; The Development of Modern Digital Imaging; Living with Radiation; Chapter 2: BASIC PHYSICS FOR RADIOGRAPHY; The Base Quantities and Forces; Unit Systems; The Physics of Energy; Heat and States of Matter; Chapter 3: UNIT CONVERSIONS AND HELP WITH MATH; Mathematical Terminology; BASIC OPERATIONS.
- Converting to Scientific NotationCalculating with Scientific Notation; Converting Units with Dimensional Analysis; Areas and Volumes; The Inverse Square Law; Graphs; Chapter 4: THE ATOM; Matter; Physical Structure of Atoms; Electron Configuration; Chemical Bonding; Ionization; Structure of the Nucleus; Radioactivity; Chapter 5: ELECTROMAGNETIC WAVES; Waves; The Electromagnetic Wave Formula; The Planck Formula; The Nature of Electromagnetic Radiation; The Electromagnetic Spectrum; Medical Application of Waves; Characteristics of Light vs. X-Rays; Dual Nature of All Matter and Radiation.
- Chapter 6: MAGNETISM AND ELECTROSTATICSElectrostatics; Electrification; Using an Electroscope to Detect Radiation; Chapter 7: ELECTRODYNAMICS; Electrical Current; Electrical Circuits; Characteristics of Electricity; Electrical Power; Wave Forms of Electrical Current; Electromagnetic Induction; Chapter 8: X-RAY MACHINE CIRCUITS AND GENERATORS; The Best X-Ray Machine Circuit; The Filament Circuit; Meters; X-Ray Machine Generators; Chapter 9: THE X-RAY TUBE; X-Ray Production; Components of the X-Ray Tube; X-Ray Tube Failure; Chapter 10: X-RAY PRODUCTION; X-Ray Production.
- Interactions in the AnodeFactors Affecting the X-Ray Beam Spectrum; Chapter 11: CREATION OF THE RADIOGRAPHIC IMAGE; The X-Ray Beam; Radiographic Variables; X-Ray Interactions Within the Patient; Attenuation and Subject Contrast; Capturing the Image; Chapter 12: PRODUCTION OF SUBJECT CONTRAST; General Attenuation and Subject Contrast; Scattered X-Rays and Subject Contrast; Predominance of Interactions and Subject Contrast; Chapter 13: VISIBILITY QUALITIES OF THE RADIOGRAPHIC IMAGE; The Visibility Components of Every Image; Visibility Qualities of the Radiographic Image.
- Chapter 14: GEOMETRICAL QUALITIES OF THE RADIOGRAPHIC IMAGEResolution; Chapter 15: MILLIAMPERE-SECONDS; Control of X-Ray Exposure; Underexposure and Quantum Mottle; Subject Contrast and Other Image Qualities; Chapter 16: KILOVOLTAGE-PEAK (kVp); Sufficient Penetration and Subject Contrast; The Fifteen Percent Rule; Optimum kVp; Chapter 17: GENERATORS AND FILTRATION; Generator Type; Beam Filtration; Chapter 18: FIELD SIZE LIMITATION; Collimation Devices; Overcollimation; Scattered Radiation and Subject Contrast; Effect on Exposure; Other Image Qualities; Calculating Field Size Coverage.