Complete Test bank - Radiologic Science for Technologists: Physics, Biology, and Protection. 12th Edition. By Stewart C. Bushong. (All Chapters, Latest Edition, Verified Answers)

Complete Test bank
Radiologic Science for Technologists: Physics, Biology, and Protection.
12th Edition
By Stewart C. Bushong



(All Chapters, Latest Edition, Verified Answers)

, 19. Image Perception – p.260
20. Digital Display Device – p.269
21. Medical Image Descriptors – p.278
Table of Contents 22. Scatter Radiation – p.292
23. Radiographic Artifacts – p.312
PART I – RADIOLOGIC PHYSICS (p.1)
PART VI – ADVANCED MEDICAL IMAGING
1. Essential Concepts of Radiologic (p.323)
Science – p.2
2. Basic Physics Primer – p.18 24. Mammography – p.324
3. The Structure of Matter – p.35 25. Fluoroscopy – p.338
4. Electromagnetic Energy – p.54 26. Interventional Radiology – p.352
5. Electricity, Magnetism, and 27. Computed Tomography – p.369
Electromagnetism – p.70 28. Tomosynthesis – p.395

PART II – X-RADIATION (p.93) PART VII – RADIOBIOLOGY (p.407)

6. The X-Ray Imaging System – p.94 29. Human Biology – p.408
7. The X-Ray Tube – p.113 30. Fundamental Principles of
8. X-Ray Production – p.131 Radiobiology – p.420
9. X-Ray Emission – p.144 31. Molecular Radiobiology – p.428
10. X-Ray Interaction With Matter – 32. Cellular Radiobiology – p.435
p.155 33. Deterministic Effects of Radiation –
p.445
PART III – THE MEDICAL IMAGE (p.169) 34. Stochastic Effects of Radiation –
p.460
11. Imaging Science – p.170
12. Computed Radiography – p.189 PART VIII – RADIATION PROTECTION (p.479)
13. Digital Radiography – p.201
14. Digital Radiographic Technique – 35. Health Physics – p.480
p.208 36. Designing for Radiation Protection –
15. Image Acquisition – p.221 p.490
16. Patient-Image Optimization – p.232 37. Radiography/Fluoroscopy Patient
Radiation Dose – p.507
PART IV – MEDICAL IMAGE DISPLAY (p.239) 38. Computed Tomography Patient
Radiation Dose – p.517
17. Viewing the Medical Image – p.240 39. Patient Radiation Dose Management
18. Picture Archiving and – p.527
Communication System – p.250 40. Occupational Radiation Dose
Management – p.539
PART V – MEDICAL IMAGE QUALITY (p.259)

,Chapter 01: Essential Concepts of Radiologic Science

MULTIPLE CHOICE

1. Matter is measured in .

a. kilograms

b. joules

c. electron volts

d. rems

Answer: A

Matter is measured in kilograms.

2. Atoms and molecules are the fundamental building blocks of .

a. energy

b. radiation

c. matter

d. gravity

Answer: 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

Answer: 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

, Answer: 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

Answer: D

Electromagnetic energy includes radio waves, light, and x-rays as well as other parts of the
spectrum.

6. A moving object has energy.

a. potential

b. kinetic

c. nuclear

d. electromagnetic

Answer: B

A moving object has kinetic energy.

7. What is the removal of an electron from an atom called?

a. Ionization

b. Pair production

c. Irradiation

d. Electricity

Answer: A

The removal of an electron from an atom is called ionization.

8. Ionizing radiation is capable of removing from atoms as it passes through the matter.

a. neutrons

b. protons

c. electrons