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Workbook for Radiologic Science for Technologists: Physics, Biology, and Protection 12th edition [Pehme köide]

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(Program Director, Radiologic Technology Program, Novant Health Presbyterian Medical Center, USA), (Professor of Radiologic Science, Baylor College of Medicine, Houston, TX, USA)
  • Formaat: Paperback / softback, 240 pages, kõrgus x laius: 276x216 mm, kaal: 480 g, 90 illustrations; Illustrations
  • Ilmumisaeg: 20-Apr-2021
  • Kirjastus: Mosby
  • ISBN-10: 0323709737
  • ISBN-13: 9780323709736
Teised raamatud teemal:
Workbook for Radiologic Science for Technologists: Physics, Biology, and Protection 12th editionSuurem pilt
  • Formaat: Paperback / softback, 240 pages, kõrgus x laius: 276x216 mm, kaal: 480 g, 90 illustrations; Illustrations
  • Ilmumisaeg: 20-Apr-2021
  • Kirjastus: Mosby
  • ISBN-10: 0323709737
  • ISBN-13: 9780323709736
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780323709736.html
Märksõnad:

Reinforce your understanding of diagnostic imaging and sharpen your radiographic skills! Corresponding to the chapters in Bushong's Radiologic Science for Technologists, 12th Edition, this workbook helps you review key concepts and gain the technical knowledge needed to become an informed and confident radiographer. More than 100 worksheets include engaging exercises allowing you to assess your comprehension and apply your knowledge to imaging practice.

  • More than 100 worksheets make it easy to review specific topics from the text, and are numbered according to textbook chapter.
  • In-depth coverage of the textbook's topics lets you review medical imaging concepts and apply them to practice.
  • Penguin icons highlight important information from the textbook, making it easier to understand concepts and complete the worksheet exercises.
  • NEW! Closer correlation of worksheets to the textbook simplifies your review of radiologic physics, which can be a difficult subject to understand.
  • NEW! New worksheets on digital radiographic technique and the digital image display correspond to the new content covered in the textbook.
PART I RADIOLOGIC PHYSICS
Chapter 1 Essential Concepts of Radiologic Science
Worksheet 1-1 Nature of Our Surroundings Matter and Energy Sources of Ionizing Radiation
1(2)
Worksheet 1-2 Discovery of X-Rays Development of Medical Imaging
3(2)
Worksheet 1-3 Reports of Radiation Injury Basic Radiation Protection The Medical Imaging Team
5(2)
Worksheet 1-4 Numeric Prefixes
7(2)
Worksheet 1-5 Radiologic Units
9(2)
Chapter 2 Basic Physics Primer
Worksheet 2-1 Standard Units of Measurement
11(2)
Worksheet 2-2 Newton's Laws
13(2)
Worksheet 2-3 Mechanics
15(2)
Chapter 3 The Structure of Matter
Worksheet 3-1 Centuries of Discovery
17(2)
Worksheet 3-2 Fundamental Particles Atomic Structure
19(2)
Worksheet 3-3 Atomic Nomenclature Combinations of Atoms
21(2)
Worksheet 3-4 Radioactivity
23(2)
Worksheet 3-5 Types of Ionizing Radiation
25(2)
Chapter 4 Electromagnetic Energy
Worksheet 4-1 Photons
27(2)
Worksheet 4-2 Electromagnetic Spectrum
29(2)
Worksheet 4-3 Wave-Particle Duality
31(2)
Worksheet 4-4 Inverse Square Law
33(2)
Worksheet 4-5 X-Ray Photons
35(2)
Worksheet 4-6 Matter and Energy
37(2)
Chapter 5 Electricity, Magnetism, and Electromagnetism
Worksheet 5-1 Electrostatics
39(2)
Worksheet 5-2 Electrodynamics
41(4)
Worksheet 5-3 Alternating and Direct Currents
45(2)
Worksheet 5-4 Magnetism
47(2)
Worksheet 5-5 Electromagnetic Effect Electromagnetic Induction
49(2)
Worksheet 5-6 Electromagnetic Devices
51(2)
Worksheet 5-7 The Transformer
53(2)
PART II X-RADIATION
Chapter 6 The X-Ray Imaging System
Worksheet 6-1 Operating Console Control of Kilovolt Peak(kVp)
55(2)
Worksheet 6-2 Operating Console Control of Milliamperage (mA)
57(2)
Worksheet 6-3 Operating Console Exposure Timers
59(2)
Worksheet 6-4 High-Voltage Generator High-Voltage Generation
61(2)
Worksheet 6-5 High-Voltage Generator Rectification
63(2)
Chapter 7 The X-Ray Tube
Worksheet 7-1 Internal Components The X-Ray Tube Cathode
65(2)
Worksheet 7-2 Internal Components The X-Ray Tube Anode
67(2)
Worksheet 7-3 X-Ray Tube Failure X-Ray Tube Rating Charts
69(4)
Chapter 8 X-Ray Production
Worksheet 8-1 Electron-Target Interactions Characteristic Radiation
73(2)
Worksheet 8-2 Electron-Target Interactions Bremsstrahlung Radiation
75(2)
Worksheet 8-3 X-Ray Emission Spectrum
77(2)
Worksheet 8-4 X-Ray Emission Spectrum Minimum Wavelength
79(2)
Worksheet 8-5 X-Ray Emission Spectrum Factors That Affect the X-Ray Emission Spectrum
81(2)
Chapter 9 X-Ray Emission
Worksheet 9-1 X-Ray Emission X-Ray Quantity
83(2)
Worksheet 9-2 X-Ray Emission X-Ray Quality
85(2)
Worksheet 9-3 X-Ray Emission Half-Value Layer
87(2)
Worksheet 9-4 X-Ray Emission Filtration
89(2)
Chapter 10 X-Ray Interaction with Matter
Worksheet 10-1 X-Ray Interaction with Matter Compton Effect
91(2)
Worksheet 10-2 X-Ray Interaction with Matter Photoelectric Effect
93(2)
Worksheet 10-3 X-Ray Interaction with Matter Differential Absorption/Atomic Number
95(2)
Worksheet 10-4 X-Ray Interaction with Matter Differential Absorption/Mass Density
97(2)
PART III THE MEDICAL IMAGE
Chapter 11 Imaging Science
Worksheet 11-1 History of Computers Anatomy of a Computer
99(2)
Worksheet 11-2 Computer Software Processing Methods
101(4)
Worksheet 11-3 Artificial Intelligence/Quantum Computing
105(2)
Chapter 12 Computed Radiography
Worksheet 12-1 Computed Radiography Image Receptor
107(2)
Worksheet 12-2 Computed Radiography Reader
109(2)
Chapter 13 Digital Radiography
Worksheet 13-1 Direct Radiography
111(2)
Chapter 14 Digital Radiographic Technique
Worksheet 14-1 Spatial Resolution
113(2)
Worksheet 14-2 Contrast Resolution Contrast Detail
115(2)
Chapter 15 Image Acquisition
Worksheet 15-1 Exposure Time
117(2)
Worksheet 15-2 Adjusting for Change in Distance
119(2)
Worksheet 15-3 Characteristics of the Imaging System
121(2)
Worksheet 15-4 Magnification Radiography
123(2)
Chapter 16 Patient-Image Optimization
Worksheet 16-1 Patient Factors
125(2)
Worksheet 16-2 Image Quality Factors
127(2)
Worksheet 16-3 Distortion
129(2)
Worksheet 16-4 Improving Radiographic Quality
131(2)
PART IV MEDICAL IMAGE DISPLAY
Chapter 17 Viewing the Medical Image
Worksheet 17-1 Photometric Quantities
133(2)
Worksheet 17-2 Illumination Human Vision
135(2)
Chapter 18 Picture Archiving and Communication System
Worksheet 18-1 Electronic Programs
137(2)
PART V MEDICAL IMAGE QUALITY
Chapter 19 Image Perception
Worksheet 19-1 Digital Image Perception
139(2)
Worksheet 19-2 Receiver Operating Characteristics Curves
141(2)
Chapter 20 Digital Display Device
Worksheet 20-1 Digital Display Device Performance Assessment
143(2)
Chapter 21 Medical Image Descriptors
Worksheet 21-1 Image Descriptors
145(2)
Worksheet 21-2 Image Quality Tools
147(2)
Chapter 22 Scatter Radiation
Worksheet 22-1 Production of Scatter Radiation
149(2)
Worksheet 22-2 Control of Scatter Radiation
151(2)
Worksheet 22-3 Radiographic Grids
153(2)
Worksheet 22-4 Measuring Grid Performance
155(2)
Worksheet 22-5 Types of Grids Use of Grids Grid Selection
157(2)
Chapter 23 Radiographic Artifacts
Worksheet 23-1 Digital Radiographic Artifacts
159(2)
Worksheet 23-2 Digital Radiographic Quality Control
161(4)
PART VI ADVANCED MEDICAL IMAGING
Chapter 24 Mammography
Worksheet 24-1 Mammography
165(2)
Worksheet 24-2 Quality Control Team Quality Control Program
167(4)
Chapter 25 Fluoroscopy
Worksheet 25-1 Image Intensification
171(2)
Worksheet 25-2 Image Monitoring
173(2)
Worksheet 25-3 Digital Fluoroscopy
175(4)
Chapter 26 Interventional Radiology
Worksheet 26-1 Types of Procedures Basic Principles IR Suite
179(2)
Chapter 27 Computed Tomography
Worksheet 27-1 Principles of Operation of CT
181(2)
Worksheet 27-2 Image Characteristics Image Quality Quality Control
183(2)
Worksheet 27-3 Operational CT Modes
185(4)
Chapter 28 Tomosynthesis
Worksheet 28-1 Digital Radiographic Tomosynthesis
189(2)
PART VII RADIOBIOLOGY
Chapter 29 Human Biology
Worksheet 29-1 Human Radiation Response Composition of the Body
191(2)
Worksheet 29-2 Cell Theory
193(2)
Worksheet 29-3 Human Cells Tissues and Organs
195(2)
Chapter 30 Fundamental Principles of Radiobiology
Worksheet 30-1 Law of Bergonie and Tribondeau Physical Factors That Affect Radiosensitivity
197(2)
Worksheet 30-2 Biologic Factors That Affect Radiosensitivity Radiation Dose-Response Relationships
199(2)
Chapter 31 Molecular Radiobiology
Worksheet 31-1 Molecular Radiobiology
201(2)
Chapter 32 Cellular Radiobiology
Worksheet 32-1 Cellular Radiobiology
203(2)
Chapter 33 Deterministic Effects of Radiation
Worksheet 33-1 Acute Radiation Lethality Local Tissue Damage
205(2)
Worksheet 33-2 Hematologic Effects Cytogenetic Effects
207(2)
Chapter 34 Stochastic Effects of Radiation
Worksheet 34-1 Local Tissue Effects Life Span Shortening Risk Estimates
209(2)
Worksheet 34-2 Radiation-Induced Malignancy Total Risk of Malignancy Radiation and Pregnancy
211(2)
PART VIII RADIATION PROTECTION
Chapter 35 Health Physics
Worksheet 35-1 Cardinal Principles of Radiation Protection Dose Limits
213(2)
Chapter 36 Designing for Radiation Protection
Worksheet 36-1 Design of X-Ray Apparatus Design of Protective Barriers
215(2)
Worksheet 36-2 Radiation Detection and Measurement
217(2)
Chapter 37 Radiography/Fluoroscopy Patient Radiation Dose
Worksheet 37-1 Patient Radiation Dose Reduction of Unnecessary Patient Dose
219(2)
Chapter 38 Computed Tomography Patient Radiation Dose
Worksheet 38-1 CT Patient Radiation Dose
221(2)
Chapter 39 Patient Radiation Dose Management
Worksheet 39-1 Patient Radiation Dose Management
223(2)
Chapter 40 Occupational Radiation Dose Management
Worksheet 40-1 Occupational Radiation Dose Management
225
Elizabeth Shields is the Program Director, Radiologic Technology Program at Novant Health Presbyterian Medical Center Stewart C. Bushong is Professor of Radiologic Science at Baylor College of Medicine, Houston, TX.