Radiologic Science for Technologists 11th Edition Bushong TEST BANK
Test Bank for Radiologic Science for Technologists Physics Biology and Protection 11th Edition By Stewart C. Bushong, ISBN-10: 0323353770, ISBN-13: 9780323353779
Chapter 01: Essential Concepts of Radiologic Science
Bushong: Radiologic Science for Technologists: Physics, Biology, and Protection, 11th Edition
MULTIPLE CHOICE
1. Matter is measured in ___________.
a. kilograms
b. joules
c. electron volts
d. rems
ANS: A
Matter is measured in kilograms.
DIF: Easy REF: p. 3 OBJ: Recognize the unit of measurement for matter.
2. Energy is measured in ___________.
a. kilograms
b. joules
c. electron volts
d. B or C
ANS: D
Energy is measured in joules or electron volts.
DIF: Moderate REF: p. 4 OBJ: Recognize the unit of measurement for energy.
3. 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.
DIF: Moderate REF: p. 3 OBJ: List the fundamental building blocks of matter.
4. 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.
DIF: Difficult REF: p. 4 OBJ: Describe states of matter.
5. 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.
DIF: Difficult REF: p. 5 OBJ: Understand the theory of energy-mass equivalence.
6. 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.
DIF: Difficult REF: p. 4 OBJ: List types of electromagnetic energy.
7. A moving object has ____________ energy.
a. potential
b. kinetic
c. nuclear
d. electromagnetic
ANS: B
A moving object has kinetic energy.
DIF: Moderate REF: p. 4 OBJ: Identify various forms of energy.
8. 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.
DIF: Moderate REF: p. 5 OBJ: Understand ionization of matter.
9. 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.
DIF: Moderate REF: p. 5
OBJ: Describe the process of ionization by ionizing radiation.
10. The energy of x-rays is ___________.
a. thermal
b. potential
c. kinetic
d. electromagnetic
ANS: D
X-rays are a form of electromagnetic energy.
DIF: Difficult REF: p. 5 OBJ: List the category of energy of x-rays.
11. 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.
DIF: Difficult REF: p. 6
OBJ: Understand the relative intensity of ionizing radiation from various sources.
12. In the United States, we are exposed to _________ mR/year of ionizing radiation from the natural environment.
a. 0–5
b. 5–20
c. 20–90
d. 100–300
ANS: C
We are exposed to 20–90 mR/yr of ionizing radiation from natural environmental sources in the United States.
DIF: Difficult REF: p. 6
OBJ: Understand the amount of natural environmental ionizing radiation to which the public is exposed in the United States.
13. The basic quantities measured in mechanics are ________, _________, and _________.
a. volume, length, meters
b. mass, length, time
c. radioactivity, dose, exposure
d. meters, kilos, seconds
ANS: B
The basic quantities measured in mechanics are mass, length, and time.
DIF: Easy REF: p. 12 OBJ: List the basic quantities measured in mechanics.
14. An example of a derived quantity in mechanical physics is a ________.
a. meter
b. second
c. dose
d. volume
ANS: D
Volume is a derived unit.
DIF: Moderate REF: p. 12 OBJ: Recognize an example of a derived quantity.
15. ___________ is a special quantity of radiologic science.
a. Mass
b. Velocity
c. Radioactivity
d. Momentum
ANS: C
Radioactivity is a special quantity of radiologic science.
DIF: Easy REF: p. 14
OBJ: Recognize radioactivity as a special quantity of radiologic science.
16. Exposure is measured in units of ___________.
a. becquerel
b. sieverts
c. meters
d. grays
ANS: D
Exposure is measured in units of grays.
DIF: Moderate REF: p. 14 OBJ: Understand units of radiation measurement.
17. Today, radiology is considered to be a(n) ___________ occupation.
a. safe
b. unsafe
c. dangerous
d. high-risk
ANS: A
Today, radiology is considered to be a safe occupation because of effective radiation protection practices.
DIF: Moderate REF: p. 10 OBJ: Understand the risk of an occupation in radiology.
18. What does ALARA mean?
a. All Level Alert Radiation Accident
b. As Low As Reasonably Achievable
c. Always Leave A Restricted Area
d. As Low As Regulations Allow
ANS: B
ALARA means As Low As Reasonably Achievable.
DIF: Moderate REF: p. 10 OBJ: Understand the meaning of ALARA.
19. Computed tomography was developed in the ________.
a. 1890s
b. 1920s
c. 1970s
d. 1990s
ANS: C
Computed tomography was developed in the 1970s.
DIF: Moderate REF: p. 10
OBJ: Relate history of the development of computed tomography.
20. Filtration is used to ____________________.
a. absorb low-energy x-rays
b. remove high-energy x-rays
c. restrict the useful beam to the body part imaged
d. fabricate gonadal shields
ANS: A
Filtration is used to absorb low-energy x-rays.
DIF: Moderate REF: p. 12
OBJ: Relate history of the development of computed tomography.