TEST BANK For Radiologic Science for Technologists
| | | | | |
12th Edition by Stewart C Bushong
| | | | | |
Chapters 1 - 40, Complete
| | | | | |
, TABLE OF CONTENTS | | |
1. Essential Concepts of Radiologic Science
| | | | |
2. Basic Physics Primer
| | |
3. The Structure of Matter
| | | |
4. Electromagnetic Energy
| |
5. Electricity, Magnetism, and Electromagnetism
| | | |
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
| | | |
11. Imaging Science
| |
12. Computed Radiography
| |
13. Digital Radiography
| |
14. Digital Radiographic Technique
| | |
15. Image Acquisition
| |
16. Patient-Image Optimization
| |
17. Viewing the Medical Image
| | | |
18. Picture Archiving and Communication System
| | | | |
19. Image Perception
| |
20. Digital Display Device
| | |
21. Medical Image Descriptors
| | |
22. Scatter Radiation
| |
23. Radiographic Artifacts
| |
24. Mammography
|
25. Fluoroscopy
|
26. Interventional Radiology
| |
27. Computed Tomography
| |
28. Tomosynthesis
|
29. Human Biology
| |
30. Fundamental Principles of Radiobiology
| | | |
31. Molecular Radiobiology
| |
32. Cellular Radiobiology
| |
33. Deterministic Effects of Radiation
| | | |
34. Stochastic Effects of Radiation
| | | |
35. Health Physics
| |
36. Designing for Radiation Protection
| | | |
37. Radiography/Fluoroscopy Patient Radiation Dose
| | | |
38. Computed Tomography Patient Radiation Dose
| | | | |
39. Patient Radiation Dose Management
| | | |
40. Occupational Radiation Dose Management
| | | | |
,Chapter 01: Essential Concepts of Radiologic Science
| | | | | |
Bushong: Radiologic Science for Technologists, 12th Edition
| | | | | | |
MULTIPLE |CHOICE
1. Matter |is |measured |in .
a. kilograms
b. joules
c. electron |volts
d. rems
ANS A
WER
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
WER
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.
, 6. A |moving |object |has energy.
a. potential
b. kinetic
c. nuclear
d. electromagnetic
ANS: | 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
ANS: | 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
d. ions
ANS: | C
Ionizing |radiation |is |capable |of |removing |electrons |from |atoms |as |it |passes |through |the |matter.
9. The |energy |of |x-rays |is |_ .
a. thermal
b. potential
c. kinetic
d. electromagnetic
ANS: | D
X-rays |are |a |form |of |electromagnetic |energy.
10. The |biggest |source |of |man-made |ionizing |radiation |exposure |to |the |public |is
| .
a. atomic |fallout
b. diagnostic |x-rays
c. smoke |detectors
d. nuclear |power |plants
ANS: | B
Medical |x-ray |exposure |is |the |biggest |source |of |man-made |radiation.
11. In |the |United |States, |we |are |exposed |to _ |mSv/year |of |ionizing |radiation |from |the
natural |environment.
|
a. 0 |to |5
b. 5 |to |20
c. 20 |to |90
| | | | | |
12th Edition by Stewart C Bushong
| | | | | |
Chapters 1 - 40, Complete
| | | | | |
, TABLE OF CONTENTS | | |
1. Essential Concepts of Radiologic Science
| | | | |
2. Basic Physics Primer
| | |
3. The Structure of Matter
| | | |
4. Electromagnetic Energy
| |
5. Electricity, Magnetism, and Electromagnetism
| | | |
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
| | | |
11. Imaging Science
| |
12. Computed Radiography
| |
13. Digital Radiography
| |
14. Digital Radiographic Technique
| | |
15. Image Acquisition
| |
16. Patient-Image Optimization
| |
17. Viewing the Medical Image
| | | |
18. Picture Archiving and Communication System
| | | | |
19. Image Perception
| |
20. Digital Display Device
| | |
21. Medical Image Descriptors
| | |
22. Scatter Radiation
| |
23. Radiographic Artifacts
| |
24. Mammography
|
25. Fluoroscopy
|
26. Interventional Radiology
| |
27. Computed Tomography
| |
28. Tomosynthesis
|
29. Human Biology
| |
30. Fundamental Principles of Radiobiology
| | | |
31. Molecular Radiobiology
| |
32. Cellular Radiobiology
| |
33. Deterministic Effects of Radiation
| | | |
34. Stochastic Effects of Radiation
| | | |
35. Health Physics
| |
36. Designing for Radiation Protection
| | | |
37. Radiography/Fluoroscopy Patient Radiation Dose
| | | |
38. Computed Tomography Patient Radiation Dose
| | | | |
39. Patient Radiation Dose Management
| | | |
40. Occupational Radiation Dose Management
| | | | |
,Chapter 01: Essential Concepts of Radiologic Science
| | | | | |
Bushong: Radiologic Science for Technologists, 12th Edition
| | | | | | |
MULTIPLE |CHOICE
1. Matter |is |measured |in .
a. kilograms
b. joules
c. electron |volts
d. rems
ANS A
WER
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
WER
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.
, 6. A |moving |object |has energy.
a. potential
b. kinetic
c. nuclear
d. electromagnetic
ANS: | 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
ANS: | 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
d. ions
ANS: | C
Ionizing |radiation |is |capable |of |removing |electrons |from |atoms |as |it |passes |through |the |matter.
9. The |energy |of |x-rays |is |_ .
a. thermal
b. potential
c. kinetic
d. electromagnetic
ANS: | D
X-rays |are |a |form |of |electromagnetic |energy.
10. The |biggest |source |of |man-made |ionizing |radiation |exposure |to |the |public |is
| .
a. atomic |fallout
b. diagnostic |x-rays
c. smoke |detectors
d. nuclear |power |plants
ANS: | B
Medical |x-ray |exposure |is |the |biggest |source |of |man-made |radiation.
11. In |the |United |States, |we |are |exposed |to _ |mSv/year |of |ionizing |radiation |from |the
natural |environment.
|
a. 0 |to |5
b. 5 |to |20
c. 20 |to |90
