FOR RADIOLOGIC SCIENCE FOR
TECHNOLOGISTS 13TH EDITION BY STEWART
C. BUSHONG, AND ELIZABETH SHIELDS|
9780323765367| ALL CHAPTERS| LATEST
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Table Of Contents
Part I: Radiologic Physics
1. Essential Concepts Of Radiologic Science
2. Basic Physics Primer
3. The Structure Of Matter
4. Electromagnetic Energy
5. Electricity, Magnetism, And Electromagnetism
Part Ii: X-Radiation
6. The X-Ray Imaging System
7. The X-Ray Tube
8. X-Ray Production
9. X-Ray Emission
10. X-Ray Interaction With Matter
Part Iii: X-Ray Imaging
11. Computed Radiography
12. Digital Radiography
13. Digital Radiographic Technique
14. Image Acquisition
15. Scatter Radiation
16. Digital Image Descriptors And Evaluation
17. Radiographic Artifacts
Part Iv: Advanced Medical Imaging
18. Mammography
19. Fluoroscopy
20. Interventional Radiology
21. Computed Tomography
22. Tomosynthesis
Part V: Medical Image Display
23. Patient-Image Optimization
24. Viewing The Medical Image
25. Medical Image Informatics
26. Digital Display Device
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Part Vi: The Medical Image
27. Imaging Science
28. Artificial Intelligence
29. Quantum Computing
30. Image Perception
Part Vii: Radiobiology
31. Human Biology
32. Fundamental Principles Of Radiobiology
33. Molecular Radiobiology
34. Cellular Radiobiology
35. Deterministic Effects Of Radiation
36. Stochastic Effects Of Radiation
Part Viii: Radiation Protection
37. Health Physics
38. Designing For Radiation Protection
39. Radiography/Fluoroscopy Patient Radiation Dose
40. Computed Tomography Patient Radiation Dose
41. Patient Radiation Dose Management
42. Occupational Radiation Dose Management
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chapter 01: essential concepts of radiologic science bushong: radiologic science for technologists, 13th edition
multiple choice
1. matter is measured in .
a. kilograms
b. joules
c. electron volts
d. rems
Ans: a
matter is measured in kilograms.
2. atoms and molecules are the fundamental building blocks of .
a. energy
b. radiation
c. matter
d. gravity
Ans: c
atoms and molecules are the fundamental building blocks of matter.
3. ice and steam are examples of two forms of .
a. matter
b. radiation
c. energy
d. work
Ans: a
ice and steam are examples of two forms of matter.
4. the formula e = mc2 is the basis for the theory that led to the development of .
a. x-rays
b. electromagnetic radiation
c. nuclear power
d. cathode ray tubes
Ans: c
the formula e = mc2 is the basis for the theory that led to the development of nuclear power.
5. radio waves, light, and x-rays are all examples of energy.
a. nuclear
b. thermal
c. electrical
d. electromagnetic
Ans: d
electromagnetic energy includes radio waves, light, and x-rays as well as other parts of the
spectrum.
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