TEST BANK For Radiologic Science for Technologists 1
n n n n n n n
2th Edition by Stewart C Bushong
n n n n n
n Chapters 1 - 40, Complete
n n n n n
, TABLE OF CONTENTS n n n
1. Essential Concepts of Radiologic Science
n n n n n
2. Basic Physics Primer
n n n
3. The Structure of Matter
n n n n
4. Electromagnetic Energy
n n
5. Electricity, Magnetism, and Electromagnetism
n n n n
6. The X-Ray Imaging System
n n n n
7. The X-Ray Tube
n n n
8. X-Ray Production
n n
9. X-Ray Emission
n n
10. X-Ray Interaction with Matter
n n n n
11. Imaging Science
n n
12. Computed Radiography
n n
13. Digital Radiography
n n
14. Digital Radiographic Technique
n n n
15. Image Acquisition
n n
16. Patient-Image Optimization
n n
17. Viewing the Medical Image
n n n n
18. Picture Archiving and Communication System
n n n n n
19. Image Perception
n n
20. Digital Display Device
n n n
21. Medical Image Descriptors
n n n
22. Scatter Radiation
n n
23. Radiographic Artifacts
n n
24. Mammography
n
25. Fluoroscopy
n
26. Interventional Radiology
n n
27. Computed Tomography
n n
28. Tomosynthesis
n
29. Human Biology
n n
30. Fundamental Principles of Radiobiology
n n n n
31. Molecular Radiobiology
n n
32. Cellular Radiobiology
n n
33. Deterministic Effects of Radiation
n n n n
34. Stochastic Effects of Radiation
n n n n
35. Health Physics
n n
36. Designing for Radiation Protection
n n n n
37. Radiography/Fluoroscopy Patient Radiation Dose
n n n n
38. Computed Tomography Patient Radiation Dose
n n n n n
39. Patient Radiation Dose Management
n n n n
40. Occupational Radiation Dose Management
n n n n n
,Chapter n01:nEssentialnConcepts nofnRadiologic nScience nBusho
ng:nRadiologic nScience nfor nTechnologists,n12thnEdition
MULTIPLEnCHOICE
1. Mattern isn measured n in .
a. kilograms
b. joules
c. electronn volts
d. rems
ANS A
WER
Mattern isn measured n inn kilograms.
:
2. Atomsn and n moleculesn aren then fundamentaln buildingn blocksn of .
a. energy
b. radiation
c. matter
d. gravity
ANS C
WER
Atomsn and n moleculesn aren then fundamentaln buildingnblocksn of n matter.
:
3. Icen and n steamn aren examplesn of n twon formsn of .
a. matter
b. radiation
c. energy
d. work
ANS: A
Icen and n steamn aren examplesn of n twon formsn of n matter.
4. Then formulan En =n mc2n isn then basisn forn then theoryn that n led n ton then development n of .
a. x-rays
b. electromagneticn radiation
c. nuclearn power
d. cathoden rayn tubes
ANS: C
Then formulan En =n mc2 n isn then basisn forn then theoryn that n led n ton then development n of n nuclearn power.
5. Radion waves,n light,n and n x-raysn aren alln examplesn of energy.
a. nuclear
b. thermal
c. electrical
d. electromagnetic
ANS: D
Electromagneticn energyn includesn radion waves,n light,n and n x-
raysn asn welln asn othern partsn of n thenspectrum.
, 6. A n movingn object n has energy.
a. potential
b. kinetic
c. nuclear
d. electromagnetic
ANS:n B
A n movingn object n hasn kineticn energy.
7. What n isn then removaln of n ann electronn fromn ann atomn called?
a. Ionization
b. Pairn production
c. Irradiation
d. Electricity
ANS:n A
Then removaln of n ann electronn fromn ann atomn isn called n ionization.
8. Ionizingn radiationn isn capablen of n removing
fromn atomsn asn it n passesn throughn thenmatter.
a. neutrons
b. protons
c. electrons
d. ions
ANS:n C
Ionizingn radiationn isn capablen of n removingn electronsn fromn atomsn asn it n passesn throughn then matter.
9. Then energyn of n x-raysn isn _ .
a. thermal
b. potential
c. kinetic
d. electromagnetic
ANS:n D
X-raysn aren an formn of n electromagneticn energy.
10. Then biggest n sourcen of n man-maden ionizingn radiationn exposuren ton then publicn is
n .
a. atomicn fallout
b. diagnosticn x-rays
c. smoken detectors
d. nuclearn powern plants
ANS:n B
Medicaln x-rayn exposuren isn then biggest n sourcen of n man-maden radiation.
11. Inn then United n States,n wen aren exposed n to
_n mSv/yearn of n ionizingn radiationn fromn thennaturaln environment.
a. 0n ton 5
b. 5n ton 20
c. 20n ton 90
n n n n n n n
2th Edition by Stewart C Bushong
n n n n n
n Chapters 1 - 40, Complete
n n n n n
, TABLE OF CONTENTS n n n
1. Essential Concepts of Radiologic Science
n n n n n
2. Basic Physics Primer
n n n
3. The Structure of Matter
n n n n
4. Electromagnetic Energy
n n
5. Electricity, Magnetism, and Electromagnetism
n n n n
6. The X-Ray Imaging System
n n n n
7. The X-Ray Tube
n n n
8. X-Ray Production
n n
9. X-Ray Emission
n n
10. X-Ray Interaction with Matter
n n n n
11. Imaging Science
n n
12. Computed Radiography
n n
13. Digital Radiography
n n
14. Digital Radiographic Technique
n n n
15. Image Acquisition
n n
16. Patient-Image Optimization
n n
17. Viewing the Medical Image
n n n n
18. Picture Archiving and Communication System
n n n n n
19. Image Perception
n n
20. Digital Display Device
n n n
21. Medical Image Descriptors
n n n
22. Scatter Radiation
n n
23. Radiographic Artifacts
n n
24. Mammography
n
25. Fluoroscopy
n
26. Interventional Radiology
n n
27. Computed Tomography
n n
28. Tomosynthesis
n
29. Human Biology
n n
30. Fundamental Principles of Radiobiology
n n n n
31. Molecular Radiobiology
n n
32. Cellular Radiobiology
n n
33. Deterministic Effects of Radiation
n n n n
34. Stochastic Effects of Radiation
n n n n
35. Health Physics
n n
36. Designing for Radiation Protection
n n n n
37. Radiography/Fluoroscopy Patient Radiation Dose
n n n n
38. Computed Tomography Patient Radiation Dose
n n n n n
39. Patient Radiation Dose Management
n n n n
40. Occupational Radiation Dose Management
n n n n n
,Chapter n01:nEssentialnConcepts nofnRadiologic nScience nBusho
ng:nRadiologic nScience nfor nTechnologists,n12thnEdition
MULTIPLEnCHOICE
1. Mattern isn measured n in .
a. kilograms
b. joules
c. electronn volts
d. rems
ANS A
WER
Mattern isn measured n inn kilograms.
:
2. Atomsn and n moleculesn aren then fundamentaln buildingn blocksn of .
a. energy
b. radiation
c. matter
d. gravity
ANS C
WER
Atomsn and n moleculesn aren then fundamentaln buildingnblocksn of n matter.
:
3. Icen and n steamn aren examplesn of n twon formsn of .
a. matter
b. radiation
c. energy
d. work
ANS: A
Icen and n steamn aren examplesn of n twon formsn of n matter.
4. Then formulan En =n mc2n isn then basisn forn then theoryn that n led n ton then development n of .
a. x-rays
b. electromagneticn radiation
c. nuclearn power
d. cathoden rayn tubes
ANS: C
Then formulan En =n mc2 n isn then basisn forn then theoryn that n led n ton then development n of n nuclearn power.
5. Radion waves,n light,n and n x-raysn aren alln examplesn of energy.
a. nuclear
b. thermal
c. electrical
d. electromagnetic
ANS: D
Electromagneticn energyn includesn radion waves,n light,n and n x-
raysn asn welln asn othern partsn of n thenspectrum.
, 6. A n movingn object n has energy.
a. potential
b. kinetic
c. nuclear
d. electromagnetic
ANS:n B
A n movingn object n hasn kineticn energy.
7. What n isn then removaln of n ann electronn fromn ann atomn called?
a. Ionization
b. Pairn production
c. Irradiation
d. Electricity
ANS:n A
Then removaln of n ann electronn fromn ann atomn isn called n ionization.
8. Ionizingn radiationn isn capablen of n removing
fromn atomsn asn it n passesn throughn thenmatter.
a. neutrons
b. protons
c. electrons
d. ions
ANS:n C
Ionizingn radiationn isn capablen of n removingn electronsn fromn atomsn asn it n passesn throughn then matter.
9. Then energyn of n x-raysn isn _ .
a. thermal
b. potential
c. kinetic
d. electromagnetic
ANS:n D
X-raysn aren an formn of n electromagneticn energy.
10. Then biggest n sourcen of n man-maden ionizingn radiationn exposuren ton then publicn is
n .
a. atomicn fallout
b. diagnosticn x-rays
c. smoken detectors
d. nuclearn powern plants
ANS:n B
Medicaln x-rayn exposuren isn then biggest n sourcen of n man-maden radiation.
11. Inn then United n States,n wen aren exposed n to
_n mSv/yearn of n ionizingn radiationn fromn thennaturaln environment.
a. 0n ton 5
b. 5n ton 20
c. 20n ton 90
