Physics

Question 1

Which cell type is the most radiosensitive in the body?

a. erythrocyte
b. lymphocyte
c. megakaryocyte
d. monocyte
e. neutrophil

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p516.

Answer 1

b. lymphocyte

Question 2

How many half-value layers represent the equivalent of one tenth-value layer?

a. 1.5
b. 2.2
c. 2.75
d. 3.3
e. 5

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p547.

Answer 2

d. 3.3

Question 3

Which form of leukemia is not considered to be a form of radiation induced leukemia?

a. acute lymphocytic
b. acute myelogenous
c. chronic lymphocytic
d. chronic myelogenous
e. none of the above

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p529.

Answer 3

c. chronic lymphocytic

Question 4

Which represents a nearly tissue-equivalent radiation dosimeter? a. calcium fluoride b. calcium sulfate c. calcium tungstate d. lithium borate e. lithium fluoride Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p565.

Answer 4

e. lithium fluoride

Question 5

True or false:

Teleradiology is the process of remote transmission and viewing of images.

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p330.

Answer 5

True

Question 6

True or false: Distortion is reduced by positioning the anatomical part of interest perpendicular to the plane of the image receptor. a. false b. true Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p252.

Answer 6

False

Question 7

7. The 5% rule describes that an increase of kVp by 5% can be accompanied by a decrease in mAs by what percent?
   a. 5
   b. 15
   c. 30
   d. 50
   e. 66

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p250.

Answer 7

c. 30

Question 8

A 15% increase in kVp accompanied by how much of a reduction in mAs creates the same optical density? a. 1/10 b. 1/5 c. ¼ d. 1/3 e. ½ Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p248.

Answer 8

½

Question 9

True or false:

A long exposure time reduces motion blur?

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p238.

Answer 9

False

Question 10

True or false:

Silver sulfide stain is the most common cause of poor archival quality.

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p231.

Answer 10

True

Question 11

Scatter radiation increases as the x-ray field size _______.

a. decreases
b. increases

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p189.  

Answer 11

increases

Question 12

There is a decrease in patient dose and an improvement in contrast resolution when collimation is _______.

a. large
b. small

Answer 12

small

Question 13

Compression of anatomy ______ spatial resolution. a. improves b. worsens Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p190.

Answer 13

improves

Question 14

The focal spot blur is ______ on the anode side of the image.

a. large
b. small

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p178.

Answer 14

small

Question 15

Image receptors with a wide latitude have a _____ grayscale. a. long b. short Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p172.

Answer 15

long

Question 16

X-rays with energy of 15 MeV is capable of which interaction with matter?

a. coherent scatter
b. Compton effect
c. pair production
d. photodisintegration
e. photoelectric effect

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p153.

Answer 16

photodisintegration

Question 17

The description of the photoelectric effect earned who the Nobel prize? a. Dally b. Edison c. Einstein d. Hounsfield Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p149.

Answer 17

Einstein

Question 18

Beam hardening refers to a relative ______ in average energy.

a. decrease
b. increase

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p131.

Answer 18

increase

Question 19

Which type of x-rays form a continuous emission spectrum?

a. bremsstrahlung
b. characteristic

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p128.

Answer 19

bremsstrahlung

Question 20

True or false:

Most x-rays in the diagnostic range are bremsstrahlung.

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p127.

Answer 20

True

Question 21

True or false:

Ferromagnetic materials can become magnets by induction.

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p73.

Answer 21

True

Question 22

True or false:

Magnetic susceptibility is the degree to which a material can be magnetized.

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p72.

Answer 22

True

Question 23

True or false:

The amount of transmitted photons increases as attenuation increases.

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p53.

Answer 23

False

Question 24

True or false:

Gamma rays are emitted from an electron cloud that has been artificially stimulated.

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p51.

Answer 24

False

Question 25

Which is not a part of the electromagnetic spectrum?

a. gamma rays
b. microwaves
c. radiofrequency
d. ultrasound
e. x-rays

Bushong, Stewart. Radiologic Science for Technologists. 11th ed. p49.

Answer 25

ultrasound

Question 26

Energy emitted and transferred through space best describes

a. excitation
b. frequency
c. ionization
d. magnetization
e. radiation

Bushong, S. C. (2017). Page 5

Answer 26

radiation

Question 27

The removal of an electron from an atom describes

a. excitation
b. frequency
c. ionization
d. magnetization
e. radiation Bushong, S. C. (2017). Page 5

Answer 27

ionization

Question 28

Which is an electromagnetic radiation form which can ionize?

a. infrared light
b. microwaves
c. visible light
d. radiowaves
e. x-rays

Bushong, S. C. (2017). 11th ed Page 6

Answer 28

x-rays

Question 29

Which is a way to protect x-ray equipment operators from radiation exposure?

a. appropriate film-screen combination
b. collimation
c. filtration
d. shielding
e. using a high kVp

Bushong, S. C. (2017). 11th ed. Page 605

Answer 29

shielding

Question 30

The risk of childhood leukemia is increased by what percentage if a fetus is irradiated in utero?

a. 20%
b. 30%
c. 40%
d. 50%
e. 60%

Bushong, S. C. (2017). 11th ed. Page 536

Answer 30

50%

Question 31

What is the genetically significant dose value in the United States?

a. 100rem
b. 100mSv
c. 150mGy
d. 200rad
e. 200mGy

Bushong, S. C. (2017). 11th ed. Page 572

Answer 31

200mGy

Question 32

Which type of leukemia is not considered a radiation induced leukemia?

a. acute lymphocytic leukemia
b. acute myelogenous leukemia
c. chronic lymphocytic leukemia
d. chronic myelogenous leukemia

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 529

Answer 32

chronic lymphocytic leukemia

Question 33

Permanent epilation occurs with radiation doses of

a. 2Gy
b. 5Gy
c. 7Gy
d. 9Gy
e. 10Gy

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection, pg. 513

Answer 33

7Gy

Question 34

Which radiation dose-response relationship is described as having a response which is directly proportional to the dose?

a. linear
b. non-linear
c. threshold
d. non-threshold

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 487

Answer 34

linear

Question 35

Which radiation dose - response relationship suggests that any dose is expected to produce a response?

a. linear
b. non-linear
c. threshold
d. non-threshold

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 488

Answer 35

non-threshold

Question 36

Rayleigh-Tyndall scattering in sonography is due to

a. an inadequate Fresnel zone.
b. an enlarged Fraunhoffer zone.
c. inadequate transducer contact.
d. the presence of calcium in the visualized

anatomy.

e. red blood cells.

Curry, T. S. Dowdey, J. E. Murray, R. C. (1990). Christensen’s Physics of Diagnostic Radiology. 4th ed. Malvern, PA: Lea & Febiger. Page 355.

Answer 36

red blood cells

Question 37

The CT characterized by a rotating x-ray tube and a couch which moves the patient through the rotating beam describes a

a. first generation CT.
b. second generation CT.
c. third generation CT.
d. multislice helical

CT. Bushberg, J. T. Seibert, J. A. Leidholdt, E. M. Boone, J. M. The Essential Physics of Medical Imaging. (2012. 3rd. ed. Philadelphia, PA: Lippincott Williams & Wilkins. Page 337.

Answer 37

multislice helical CT.

Question 38

Ring artifacts are seen on CT images due to the use of a rotate-rotate scanner. This scanner was seen in which generation of CT?

a. first generation CT
b. second generation CT
c. third generation CT
d. fourth generation

Curry, T. S. Dowdey, J. E. Murray, R. C. (1990). Christensen’s Physics of Diagnostic Radiology. 4th ed. Malvern, PA: Lea & Febiger. Page 320.

Answer 38

third generation CT

Question 39

The relationship between the patient couch movement and the x-ray beam width in CT is known as the

a. interpolation.
b. gantry ratio.
c. piezoelectric effect.
d. pitch.
e. Q factor.

Bushberg, J. T. Seibert, J. A. Leidholdt, E. M. Boone, J. M. The Essential Physics of Medical Imaging. (2012. 3rd. ed. Philadelphia, PA: Lippincott Williams & Wilkins. Page 338.

Answer 39

pitch

Question 40

The purity of sound and length of time sound persists with regard to the crystal in an ultrasound transducer is known as the

a. interpolation.
b. gantry ratio.
c. piezoelectric effect.
d. pitch.
e. Q factor.

Curry, T. S. Dowdey, J. E. Murray, R. C. (1990). Christensen’s Physics of Diagnostic Radiology. 4th ed. Malvern, PA: Lea & Febiger. Page 330.

Answer 40

Q factor.

Question 41

What is cinefluorography most commonly used to image?

a. bones
b. bowel
c. brain
d. heart
e. lungs

Curry, T. S. Dowdey, J. E. Murray, R. C. (1990). Christensen’s Physics of Diagnostic Radiology. 4th ed. Malvern, PA: Lea & Febiger. Page 189.

Answer 41

heart

Question 42

How can motion blur be avoided when taking radiographs of a patient?

a. decreasing kVp
b. increasing exposure time
c. using a large OID
d. using a small SID
e. using a breath hold

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. Page 181

Answer 42

using a breath hold*

Question 43

How can penumbra be reduced when taking radiographs?

a. decreasing kVp
b. decreasing SID
c. increasing mAs
d. increasing OID
e. using a small focal spot

Curry, T. S. Dowdey, J. E. Murray, R. C. (1990). Christensen’s Physics of Diagnostic Radiology. 4th ed. Malvern, PA: Lea & Febiger. Page 225.

Answer 43

using a small focal spot

Question 44

Which step of radiographic film processing removes unexposed silver halide crystals?

a. development
b. drying
c. fixing
d. stop bath
e. washing

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 230

Answer 44

fixing

Question 45

A 20-year-old radiographic film has turned a yellow-brown color. What is the most likely cause?

a. expiration of developing agents
b. fixer retention
c. inadequate developing
d. normal film aging
e. oxidation of the developer

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 231

Answer 45

fixer retention

Question 46

The silver halide in the radiographic film emulsion layer is mostly made of

a. silver bromide
b. silver iodide
c. silver nitrate
d. silver oxide e. silver sulfide

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 209

Answer 46

a. silver bromide

Question 47

Fixer retention leads to the development of which compound?

a. silver bromide
b. silver iodide
c. silver nitrate
d. silver oxide
e. silver sulfide

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 231

Answer 47

e. silver sulfide

Question 48

Which is true regarding the performance of the air-gap technique during radiographic examination?

a. kVp should be increased by 25% for every 1cm

increase in OID

b. mAs must be increased by 10% for every 1cm

increase in OID

c. mAs must decrease by a factor of 2 for every

2cm increase in OID

d. no changes are needed in kVp or mAs
e. The technique can only be used with a kVP

greater than 100.

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 204

Answer 48

b. mAs must be increased by 10% for every 1cm increase in OID

Question 49

If a patient is properly exposed at 40 inches SID with a mAs of 20 what must the mAs be if the SID is changed to 72 inches?

a. 35
b. 50
c. 60
d. 65
e. 70

Bushong, S. C. (2017). Radiologic science for technologists: Physics, biology, and protection. St. Louis, MO: Elsevier. Page 240

Answer 49

d. 65

Question 50

To prevent a female accidentally exposing an embryo to radiation during the early stages of pregnancy, the radiographer should _______________.

a. only irradiate her during the last 10 days of her menstrual period
b. never irradiate a female for any reason
c. do it whenever, because it isn’t that much radiation
d. only irradiate her during the first 10 days of her menstrual period

Answer 50

d. only irradiate her during the first 10 days of her menstrual period

Question 51

When x-raying females, the radiographer is expected to:

a. employ the stochastic principle
b. follow the 10 day rule
c. use only high LET radiation
d. do all of the above

Answer 51

b. follow the 10 day rule

Question 52

The number of photons in the beam is influenced by_______________.

a. mA
b. Time
c. kVp
d. all of the above

Answer 52

d. all of the above

Question 53

Which of the following influences the photon energy of the beam?

a. mA b. Time c. kVp all d. of the above

Answer 53

c. kVp

Question 54

The uneven distribution of radiation from one end of the x-ray field to the other is due to the _______.

a. line focus principle
b. inverse square law
c. heel effect
d. larger anode angle

Answer 54

c. heel effect

Question 55

Which of the following is NOT a method for reducing the production of scatter radiation?

a. Patient compression
b. Beam restricting device
c. Having the patient lie down
d. Increasing the mAs

Answer 55

d. Increasing the mAs

Question 56

Which of the following is NOT a method of restricting the x-ray beam?

a. Cone
b. Aperture
c. Grid
d. Positive beam limiting device

Answer 56

c. Grid

Question 57

________________ is the principle disadvantage of using an aperture to limit the size of the x-ray field.

a. Large penumbra
b. Decreased kvp
c. Being too simple a device
d. Because it can only be used at a large FFD

Answer 57

a. Large penumbra

Question 58

The best method for restricting x-ray field size is the ______________.

a. aperture
b. collimator
c. cone
d. cylinder

Answer 58

b. collimator

Question 59

A positive beam limiting device is ____________.

a. an automatic collimator
b. an automatic grid
c. a form of cylinder
d. any form of beam restrictor

Answer 59

a. an automatic collimator

Question 60

A device that shows a light on the patient in order to aim the x-ray beam and also serves to limit the size of the x-ray field is called a ___________.

a. grid
b. collimator

. cone

d. bucky

Answer 60

b. collimator

Question 61

Modern collimators have two sets of shutters in each direction for what purpose?

a. Prevent shoot-through by the primary beam
b. Redundancy in case one set fails
c. Clean up penumbra
d. All of the above are correct

Answer 61

c. Clean up penumbra

Question 62

If you wanted to test the accuracy of your collimator, which test would you perform?

a. Mesh screen test
b. Bucky’s diagnostic exam
c. Paper clip test
d. Determine the half value layer (HVL)

Answer 62

c. Paper clip test

Question 63

Radiation effects within the cell are ____________________.

a. definite and predictable
b. selective and definite
c. selective and indefinite
d. random and non-selective

Answer 63

d. random and non-selective

(Stochastic)

Question 64

The biologic effects of radiation that occur in living cells are __________.

a. always immediate
b. unique to radiation damage
c. always after some latent period
d. usually delayed only a few seconds

Answer 64

c. always after some latent period

Question 65

The direct effects of radiation include:

a. damage to DNA
b. radiolysis of water
c. production of free radicals
d. none of the above

Answer 65

a. damage to DNA

Question 66

Which of the following molecules in the cell are most sensitive to radiation?

a. Protein
b. DNA
c. Enzymes
d. All of these are equally sensitive

Answer 66

b. DNA

Question 67

The interaction of a photon with water producing a free radical to damage the internal portions of a cell is _________________.

a. a form of indirect damage
b. direct damage
c. a normal process
d. none of the above

Answer 67

a. a form of indirect damage

Question 68

Regarding the indirect mechanism of cellular radiation damage, in which stage do free radicals react to form new molecules?

a. Physical stage
b. Physio-chemical stage
c. Chemical stage
d. Biologic stage

Answer 68

c. Chemical stage

Question 69

The rate at which energy is deposited into matter by radiation is the __________.

a. SED
b. LET
c. RAD
d. Roentgen

Answer 69

b. LET

Question 70

The principle that states the younger immature cells are most radiosensitive is _______.

a. Law of Bergonie & Tribondeau
b. Law of Bergman & Bordeaux
c. Gray & Sievert
d. Kassabian & Dally

Answer 70

a. Law of Bergonie & Tribondeau

Question 71

Which of the following is NOT an effect on the embryo & fetus from radiation?

a. Lethality
b. Congenital abnormality
c. Long term effects that develop in life
d. All of the above are effects of radiation

Answer 71

d. All of the above are effects of radiation

Question 72

An embryo is most sensitive to death if exposed to radiation during which stage of development?

a. Major organogenesis
b. Fetal stage
c. Pre-implantation
d. Vegetative-intermitotic stage

Answer 72

c. Pre-implantation

Question 73

The effects of irradiation during the fetal stage are usually:

a. lethal
b. congenital abnormality
c. retinoblastoma
d. sterility & other late effects

Answer 73

d. sterility & other late effects

Question 74

An effect in which the probability of occurance increases with increasing absorbed dose, but the severity of the effect does not increase with dose is defined as:

a. stochastic effect
b. non-stochastic effect
c. law of Bergonie & Tribondeau
d. Non-random event

Answer 74

a. stochastic effect

Question 75

A somatic effect that increases in severity with increasing absorbed dose is known as a ______________ effect.

a. stochastic
b. non-stochastic
c. random
d. characteristic

Answer 75

b. non-stochastic

Question 76

Of the following, which one is considered a stochastic effect?

a. Genetic alteration
b. Lens opacification
c. Blood changes
d. Decreased sperm production

Answer 76

a. Genetic alteration

Question 77

The paper clip test will determine _______________________.

a. the screen film contact
b. focal spot size
c. grid cutoff
d. proper collimator alignment

Answer 77

d. proper collimator alignment

Question 78

Which form of beam restriction has an extended metal tube structure to limit the size of the x-ray field?

a. Aperture diaphragm
b. Cylinder
c. Collimator
d. All of the above

Answer 78

b. Cylinder

Question 79

CT utilizes what to create its images?

a. A big magnet
b. Technetium 99
c. X-rays
d. None of the above

Answer 79

c. X-rays

Question 80

In CT imaging, the setting of how the gray scale is displayed for reading is called, what?

a. Windowing
b. Weighting
c. Withering
d. Contrasting

Answer 80

a. Windowing

Question 81

According to what was said in class, which form of imaging is preferred for seeing fractures of the posterior elements of the spine?

a. MRI
b. CT
c. Bone scanning
d. Radiography

Answer 81

b. CT

Question 82

A darkroom is used to process film, for what reason?

a. To refrigerate the latent image until processed
b. To make enough fog for a well exposed film
c. To prevent fogging of the film by other radiation or visible light
d. None of the above

Answer 82

c. To prevent fogging of the film by other radiation or visible light

Question 83

Which statement about film fog is TRUE?

a. Fog is desirable for adequate density
b. Fog is created by complete darkness and controlled temperatures
c. Fog can be removed by the film processor
d. Fog contributes to image noise and is undesirable

Answer 83

d. Fog contributes to image noise and is undesirable

Question 84

True or False

A safelight can fog film.

Answer 84

True

Question 85

Which of the following is NOT used in making a darkroom light tight?

a. Maze
b. Revolving door
c. Window
d. Weather stripping

Answer 85

c. Window

Question 86

Of the following, which is NOT a requirement for a radiographic darkroom?

a. Safelight
b. Overhead light
c. Film storage bin
d. Viewbox

Answer 86

d. Viewbox

Question 87

Which of the following is a variable that affects film detail?

a. ma
b. kvp
c. time
d. focal spot size

Answer 87

d. focal spot size

Question 88

The effective focal spot appears smaller than the actual focal spot because of __________.

a. the line-focus principle
b. the heal effect
c. the object-film distance
d. grid ratio

Answer 88

a. the line-focus principle

• Line focus principle explains the relationship between the anode surface and the effective focal spot size.
  
  • The focal spot is the area of the target upon which the electron beam impinges. The energy of the electrons in the electron beam is mostly converted into heat (approx 99% ) and dissipated uniformly across the focal spot and anode surface.
  • The x-rays produced at the anode comprise of less than one percent of the energy of the electrons in the electron beam.
  • A large focal spot is useful to protect the tungsten target as the heat accumulates and dissipates within the area of focal spot. However, a small focal spot is required to achieve a good radiographic image quality

​Thus the line focus principle helps resolve this issue by stating that an angulation of the anode surface will result in an apparent decrease in the focal spot size.

Question 89

The region at the edge of an object that appears unsharp (less detailed) because the many x-ray “point sources” from the focal spot overlap there is called what?

a. Line focus principle
b. Heel effect
c. Penumbra
d. Umbra

Answer 89

c. Penumbra

Question 90

To calculate the size of the focal spot, which test would you perform?

a. Resolution chart
b. Star diagram
c. Slit test
d. Pinhole test

Answer 90

d. Pinhole test

Question 91

What is the most common type of distortion?

a. Foreshortening
b. Elongation
c. Motion
d. None of the above

Answer 91

b. Elongation

Question 92

In order to minimize magnification on an image, you would do which of the following?

a. Decrease OFD, and decrease FFD
b. Decrease OFD, and increase FFD
c. Increase OFD, and decrease FFD
d. Increase OFD, and increase FFD

Answer 92

b. Decrease OFD, and increase FFD

Question 93

Which of the following is a TRUE statement about the geiger counter?

a. It is good for detecting particulate radiation
b. It permanently stores a count of all radiation encountered
c. It uses a gas filled tube and is portable
d. It determines the energy level of encountered radiation

Answer 93

c. It uses a gas filled tube and is portable

Question 94

A TLD is a detector that ______________.

a. uses fluorescence
b. is a pocket dosimeter
c. has a higher voltage than the geiger counter
d. All of the above are true about the TLD

Answer 94

a. uses fluorescence

Question 95

The type of radiation dose monitoring device that measures the total blackness of a piece of film is called a _____________.

a. TLD
b. film badge
c. pocket geiger
d. film shield

Answer 95

b. film badge

Question 96

With regard to ionization chambers, the greater the voltage _______________.

a. the greater the specificity
b. the less the sensitivity
c. the greater the sensitivity
d. the less the specificity

Answer 96

c. the greater the sensitivity

Question 97

The principle disadvantage of using an air-gap technique is:

a. increased dose
b. decreased FFD
c. increased kVp
d. increased OFD

Answer 97

d. increased OFD

Question 98

Electrical current is measured in __________.

a. Volts
b. Amperes
c. Roentgens
d. Ohms

Answer 98

b. Amperes

Question 99

Substances that permit the easy flow of electrons are ____________.

a. insulators
b. shells
c. ionizers
d. conductors

Answer 99

d. conductors

Question 100

Glass is an example of, what?

a. A substance that easily permits electrons to travel. b. A substance that does not easily permit electrons travel.
c. An anode target material.
d. A low resistance material.

Answer 100

b. A substance that does not easily permit electrons travel.

Question 101

Electrical resistance is governed by ______________.

a. Ohm’s law
b. Planck’s constant
c. Grenz principle
d. Boyle’s law

Answer 101

a. Ohm’s law

Question 102

The difference in electrical potential as measured at different points of a circuit is called the _________________.

a. amperage
b. power
c. voltage
d. resistance

Answer 102

c. voltage

Question 103

An electrical current that oscillates between two directions is called, what?

a. Direct current (DC)
b. Alternating current (AC)
c. A rock band (AC/DC)
d. Transformed

Answer 103

b. Alternating current (AC)

Question 104

A device that converts AC to DC is called a ______________.

a. rectifier
b. alternator
c. director
d. transformer

Answer 104

a. rectifier

Question 105

How are heat units of an x-ray tube determined?

a. Volts x resistance x watts
b. Volts x Amps x watts
c. Seconds x Volts x resistance
d. Volts x Amps x seconds

Answer 105

d. Volts x Amps x seconds

Question 106

The variation of voltage from its maximum value to some lower percentage is called, what?

a. Phase
b. Wavelength
c. Frequency
d. Ripple

Answer 106

d. Ripple

Question 107

A diode is used to, what

a. Accelerate electrons
b. Step-up voltage
c. Rectify current
d. None of the above

Answer 107

c. Rectify current

Question 108

Copper wire is an example of a(n)

a. capacitor
b. transformer
c. ainsulator
d. conductor

Answer 108

d. conductor

Question 109

The conversion of current of AC to DC is done with a(n) ______________.

a. transformer
b. rectifier
c. anode
d. converter

Answer 109

b. rectifier

Question 110

A step up transformer has a turn ratio that is:

a. greater than 1
b. less than 1
c. equal to 1
d. none of the above

Answer 110

a. greater than 1

Question 111

The curve that represents the relationship of film density and radiation exposure is called the:

a. Compton curve
b. Hunter & Dreyfus curve
c. Rayleigh & Thomson curve
d. Hurter & Driffeld curve

Answer 111

d. Hurter & Driffeld curve

Question 112

The part of the characteristic curve representing the lightest possible portion is:

a. straight line portion
b. the toe
c. the shoulder
d. the top

Answer 112

b. the toe

Question 113

Spectral matching refers to:

a. matching of the size of the film to the cassette
b. matching of the color sensitivity of the film with that emitted by the screen
c. matching of the ghost with our car on the haunted mansion ride at Disneyland
d. the dating service you got thrown out of

Answer 113

b. matching of the color sensitivity of the film with that emitted by the screen

Question 114

The film emulsion is composed of gelatin and holds the light sensitive crystals in suspension. What are the majority of the crystals made of?

a. Silver iodide (AgI)
b. Silver bromide (AgBr)
c. Silver chloride (AgCl)
d. Silver fluoride (AgF)

Answer 114

b. Silver bromide (AgBr)

Question 115

Modern film is made with a base made of polyester. Before that they were made of, what?

a. Celluose polyvinylchloride
b. Methylmethacrylate
c. Cellulose triacetate
d. Rubber

Answer 115

c. Cellulose triacetate

Question 116

When something appears to be in two different locations on the film, this is due to ______________.

a. parallax
b. Gurney-Mott hypothesis
c. quantum mottle
d. big trouble in little China

Answer 116

a. parallax

Question 117

The type of film used in general radiography today is

a. direct exposure film
b. duplicating film
c. screen film
d. latent film

Answer 117

c. screen film

Question 118

A liberated electron in a silver halide crystal that is trapped by the sensitivity speck forms

a. a development center
b. a conduction band
c. parallax effect
d. All of the above

Answer 118

a. a development center

Question 119

A film’s sensitivity to light is referred to as its, what?

a. Density
b. Graininess
c. Speed
d. Noise

Answer 119

c. Speed

Question 120

The ability to visually detect separate objects on a film is called its___________.

a. contrast
b. resolution
c. speed
d. density

Answer 120

b. resolution

Question 121

The sensitivity speck of a film crystal is central to the ________________.

a. Gurney-Mott hypothesis
b. quantum mottle theory
c. law of Bergonie & Tribondeau
d. None of the above

Answer 121

a. Gurney-Mott hypothesis

See Christtensen’s pg. 140

The theory states that the formation of latent image is d/t metallic silver formed at sensitivity centres located at imperfections in structure of silver halide crystals

Question 122

What about the H & D curve is responsible for film speed?

a. Straight line
b. Toe
c. Shoulder
d. Position on the X - axis

Answer 122

d. Position on the X - axis

Question 123

A film that has a lot of contrast has a curve with a:

a. high shoulder
b. low curve
c. long gray scale
d. steep straight line portion

Answer 123

d. steep straight line portion

Question 124

The minimum total thickness of Al equivalent (in mm) for machines with settings above 70 KVP is:

a. 0.5
b. 1.0
c. 2.5
d. 3.0

Answer 124

c. 2.5

Question 125

Which of these is NOT a process of attenuation?

a. Photon braking
b. Absorption
c. Scatter
d. Distance

Answer 125

a. Photon braking

Question 126

The removal of low energy x-rays by the tube envelope plus 2 mm of Al is called

a. Added filtration
b. Inherent filtration
c. Compensating filtration
d. Total filtration

Answer 126

d. Total filtration

Question 127

Filtration of low energy x-rays from the beam by the tube envelope is known as

a. Added filtration
b. Extra filtration
c. Inherent filtration
d. Total filtration

Answer 127

c. Inherent filtration

Question 128

What might you do to make an even exposure of the AP thoracic spine to compensate for variation in body thickness?

a. Use inherent filtration
b. Have the tube mounted upside down to use the heel effect
c. Use a compensating filter
d. Hang the patient upside down to take advantage of the heel effect

Answer 128

c. Use a compensating filter

Question 129

The most common material to use for a compensating filter is

a. copper
b. acrylic
c. aluminum
d. lead

Answer 129

c. aluminum

Question 130

Single phase x-ray machines have how much ripple in their voltage?

a. 1%
b. 30%
c. 70%
d. 100%

Answer 130

d. 100%

Question 131

Which of the following generators are more efficient at producing x-rays?

a. Half rectified
b. Self rectified
c. Full rectified
d. 3-phase

Answer 131

d. 3-phase

Question 132

The ripple on a single-phase fully rectified machine is __________.

a. 10%
b. 25%
c. 75%
d. 100%

Answer 132

d. 100%

Question 133

The Grid and the Bucky are designed for the purpose of ____________.

a. reducing the production of scatter radiation
b. decrease the contrast of the film
c. reducing the x-ray field size
d. reducing the scatter radiation that reaches the film

Answer 133

d. reducing the scatter radiation that reaches the film

Question 134

Who designed a device that moves a grid back and forth to blur grid lines?

a. Clarence Dally
b. Gustav Bucky
c. Hollis Potter
d. William Coolidge

Answer 134

c. Hollis Potter

Question 135

The person responsible for inventing the first grid was

a. Clarence Dally
b. Gustav Bucky
c. Hollis Potter
d. William Coolidge

Answer 135

b. Gustav Bucky

Question 136

The most important feature of a grid that determines its ability to reduce scatter is the ___________.

a. grid ratio
b. lead content
c. grid frequency
d. grid pattern

Answer 136

a. grid ratio

Question 137

The grid ratio for any given grid is determined by comparing ___________.

a. the lines per inch to the space between the lines
b. the height of the strips to the space in between
c. the height of the lead strips to the lines per inch
d. the height of the strips to the lead content

Answer 137

b. the height of the strips to the space in between

Question 138

The grid used for most general radiography purposes is of which type?

a. Crossed
b. Parallel
c. Reciprocating
d. Focused

Answer 138

d. Focused

Question 139

If extended out from the grid, the lines of a focused grid meet at an imaginary location called the __________________.

a. convergent line
b. parabolic line
c. focusing cup
d. central ray

Answer 139

a. convergent line

Question 140

The principle disadvantage of using a crossed grid is what?

a. Increased scatter reduction
b. Improved image contrast
c. Cannot use tube angulation
d. Decreased image contrast

Answer 140

c. Cannot use tube angulation

Question 141

The measurement of the percentage of primary radiation transmitted through a grid is called, what?

a. Primary transmission
b. Bucky factor
c. Contrast improvement factor
d. Grid pattern

Answer 141

a. Primary transmission

Question 142

The undesirable removal of primary radiation by a grid is called, what?

a. Collimation
b. Grid cutoff
c. Interspacing
d. Sequestering

Answer 142

b. Grid cutoff

Question 143

Which of the following is NOT a type of grid cutoff?

a. Lateral de-centering
b. Near de-centering
c. Far de-centering
d. Crossed de-centering

Answer 143

d. Crossed de-centering

Question 144

When using an air-gap technique, the radiographer must make which adjustment to reduce magnification?

a. Increase the OFD
b. Decrease the HVL
c. Increase the FFD
d. Decrease the FFD

Answer 144

c. Increase the FFD

Question 145

The amount of radiation that is shot at and reaches a film with a grid divided by the amount that reaches the film without a grid and is then expressed as a percentage is the, what?

a. Bucky factor
b. Contrast improvement factor
c. Primary transmission
d. Grid frequency

Answer 145

c. Primary transmission

Question 146

The person who created a method to eliminate grid lines from the image was, who?

a. Gustav Bucky
b. William Coolidge
c. Hollis Potter
d. Mihran Kassabian

Answer 146

c. Hollis Potter

Question 147

In the grid, the height of the lead strips divided by the space between the strips is _________.

a. the grid frequency
b. the grid pattern
c. the grid ratio
d. not as important as the lead strip thickness

Answer 147

c. the grid ratio

Question 148

Compare the two characteristic film curves presented here. Choose the correct statement.

a. Film A has less contrast than film B
b. Film A is a faster film than B
c. Film B has a more narrow latitude than film A
d. Film B is more sensitive to light than film A

Answer 148

b. Film A is a faster film than B

• The farther to the right that a curve is on the chart, the slower the film speed.
• Characteristic curve is a graph of the relationship between the amount of exposure given to a film and it’s corresponding density after processing.
• A typical film characteristic curve is made by plotting density produced, against the log of exposure given (Log E).

In film radiography, the number of photons reaching the film determines how dense the film will become when other factors such as the developing time are held constant. The number of photons reaching the film is a function of the intensity of the radiation and the time that the film is exposed to the radiation.

• The term used to describe the control of the number of photons reaching the film is “exposure.”

Different types of radiographic film respond differently to a given amount of exposure. Film manufacturers commonly characterize their film to determine the relationship between the applied exposure and the resulting film density. This relationship commonly varies over a range of film densities.

The plot is called a film characteristic curve, sensitometric curve, density curve, or H and D curve (named for developers Hurter and Driffield).

• “Sensitometry” is the science of measuring the response of photographic emulsions to light or radiation.

Question 149

Film with a wide latitude will have which of the following characteristics?

a. A short gray scale
b. High contrast
c. A long gray scale
d. Shorter exposure time

Answer 149

c. A long gray scale

Question 150

The primary reason for viewing x-rays as transparencies is, what?

a. A print does not represent the full range of available optical densities
b. It doesn’t matter, the effect is the same
c. The transparency is just another name for a print
d. We should be viewing them as a print, we are just behind the state of the art

Answer 150

A print does not represent the full range of available optical densities

Question 151

Which of the listed choices is NOT a method of controlling heat in the tube?

a. Using a smaller anode angle
b. Using a tube rating chart
c. Figuring the heat units for an exposure before making it
d. Low KVP and high mAs exposures

Answer 151

d. Low KVP and high mAs exposures

Question 152

The uneven distribution of radiation between the cathode and anode sides of the x-ray field is called _________________.

a. heel effect
b. space charge effect
c. line focus principle
d. bremsstrahlung

Answer 152

a. heel effect

Question 153

Which one of the following will cause a decrease in heel effect in a given exposure?

a. Decreasing distance to the film
b. Increasing film size
c. Larger anode angle
d. None of the above

Answer 153

c. Larger anode angle

Question 154

True or False:

There is a decrease in beam intensity at the anode side of the x-ray beam.

Answer 154

.True

Question 155

Heel effect creates which of the following situations?

a. The cathode side of the beam shows a decrease in image clarity
b. The anode side shows an increase in beam intensity
c. The anode side shows a decrease in image clarity
d. The cathode side shows a decrease in beam intensity

Answer 155

a. The cathode side of the beam shows a decrease in image clarity

Question 156

______________was the person who discovered x-rays.

a. Coolidge
b. Crookes
c. Roentgen
d. Geiger

Answer 156

c. Roentgen

Question 157

The type of tube that was being used when x-rays were first discovered was a __________tube.

a. Coolidge
b. Crookes
c. Geiger
d. Roentgen

Answer 157

b. Crookes

Question 158

For his work with x-rays ________________ was awarded ______________.

a. Roentgen; first Nobel prize in physics
b. Roentgen; first Nobel prize in medicine
c. Geiger; first Nobel prize in physics
d. Geiger; first Nobel prize in medicine

Answer 158

a. Roentgen; first Nobel prize in physics

Question 159

Which of the following is TRUE of the Coolidge tube?

a. It was partially evacuated.
b. It had more fluctuation in x-ray intensity than earlier tubes.
c. It used a heated cathode.
d. None of the above are true.

Answer 159

c. It used a heated cathode.

Question 160

True or False

Modern x-ray tubes are essentially the same as the one x-rays were discovered with.

Answer 160

False

Question 161

Roentgen’s experiments with x-rays did NOT include which of the following?

a. His wife
b. Crookes tube
c. Coolidge tube
d. All of these were used by Roentgen

Answer 161

c. Coolidge tube

Question 162

Which of the following is TRUE regarding Roentgen?

a. He got rich off of x-rays
b. He died of brain cancer in 1896
c. He named the new ray “X” for an unknown quantity in math.
d. He was a chiropractic patient

Answer 162

c. He named the new ray “X” for an unknown quantity in math.

Question 163

The image that is waiting to be developed after exposure but before processing is called the ____________.

a. mystery image
b. manifest image
c. big picture
d. latent image

Answer 163

d. latent image

Question 164

The principle that explains the formation of the latent image is called:

a. latent image theory
b. quantum speck hypothesis
c. Gurney-Mott hypothesis
d. sensitivity speck postulate

Answer 164

c. Gurney-Mott hypothesis

Question 165

Absorption of a photon causes the release of an electron that is then trapped at an impurity in the silver halide crystal. That in turn makes the spot of the impurity more negative, and attractive to silver is the basis of _______________.

a. latent image formation
b. Guthie-Renker hypothesis
c. sensitivity spectra
d. spectral matching

Answer 165

a. latent image formation

Question 166

__________ is a form of image noise.

a. Increased spatial resolution
b. Quantum mechanics
c. Quantum mottle
d. None of the above contribute to image noise

Answer 166

c. Quantum mottle

Question 167

When a lower number of photons are used to create an image, you are going to increase the _____________.

a. spectral matching
b. conversion efficiency of the screen
c. spatial resolution
d. quantum mottle

Answer 167

d. quantum mottle

Question 168

Which of the following represents an x-ray interaction with matter?

a. Thomson scatter
b. Characteristic
c. Bremsstrahlung
d. Bohr scatter

Answer 168

a. Thomson scatter

Question 169

The recoil electron is seen with which interaction with matter?

a. Compton
b. Photoelectric
c. Pair production
d. Classical scatter

Answer 169

a. Compton

Question 170

Of the following interactions, which one results in ionization?

a. Photoelectric
b. Compton Pair
c. production
d. All of the above

Answer 170

d. All of the above

Question 171

Which interaction is responsible for producing more subject contrast?

a. Rayleigh scatter
b. Compton scatter
c. Classical scatter
d. Photoelectric

Answer 171

d. Photoelectric

Question 172

Compton interactions occur when:

a. an electron interacts with an inner shell electron
b. an electron interacts with an outer shell electron
c. a photon interacts with an inner shell electron
d. a photon interacts with an outer shell electron

Answer 172

d. a photon interacts with an outer shell electron

Question 173

The probability of a photoelectric interaction increases when:

a. the photon energy is slightly below the k-shell binding energy
b. the photon energy is much greater than the k-shell binding energy
c. the photon energy and the k-shell binding energy match
d. cannot be ejected by x-raysk-shell electrons

Answer 173

c. the photon energy and the k-shell binding energy match

Question 174

How much photon energy is required to cause pair production?

a. 0.51 MeV
b. 0.75 MeV
c. 1.02 MeV
d. 10.2 MeV

Answer 174

c. 1.02 MeV

Question 175

The interaction where the binding energy of a k-shell electron is overcome by an incident photon is, what?

a. Characteristic
b. Bremsstrahlung
c. Compton
d. Photoelectric

Answer 175

d. Photoelectric

Question 176

Differential absorption of x-rays by the patient provides the basis of:

a. subject contrast
b. film contrast
c. film density
d. None of the above

Answer 176

a. subject contrast

Question 177

A positron is:

a. an electron with a different name
b. a form of anti-matter
c. a negatively charged electron
d. a photonic version of the electron

Answer 177

b. a form of anti-matter

Question 178

Ejection of an orbital electron by a photon that results in a pair of charged particles is known as:

a. transformation
b. bremsstrahlung
c. ionization
d. photodisintegration

Answer 178

c. ionization

Question 179

Which interaction with matter falls within the diagnostic region?

a. Characteristic
b. Photodisintegration
c. Pair production
d. Compton

Answer 179

d. Compton

Question 180

A recoil electron is seen with which interaction?

a. Characteristic
b. Photoelectric
c. Classical
d. Compton

Answer 180

d. Compton

Question 181

The interaction with matter that is responsible for dose within the patient is:

a. characteristic
b. photoelectric
c. classical scattering
d. Compton

Answer 181

b. photoelectric

Question 182

The factor that controls the quality of the radiation emitted from the tube is _______.

a. mAs
b. KVP
c. FFD
d. SID

Answer 182

b. KVP

Question 183

The quality of the radiation is altered by adjusting the ___________ bombarding the anode.

a. number of electrons
b. time the electrons are
c. size of the electrons
d. kinetic energy of the electrons

Answer 183

d. kinetic energy of the electrons

Question 184

Which is TRUE about KVP

a. Increasing KVP decreases film density and increases contrast
b. Increasing KVP increases film density and decreases contrast
c. Decreasing KVP increases film density and decreases contrast
d. Decreasing KVP decreases film density and decreases contrast

Answer 184

b. Increasing KVP increases film density and decreases contrast

“Remember kVp and contrast have inverse relationship”

Question 185

The part of the x-ray tube that prevents the electrons from spraying all over the tube is called the ________________.

a. filament
b. anode
c. anti-cathode
d. focusing cup

Answer 185

d. focusing cup

Question 186

Most modern x-ray tubes utilize which of the following characteristics?

a. rotating anode
b. partially evacuated tube
c. self-rectification
d. All of the above are used in modern tubes

Answer 186

a. rotating anode

Question 187

The maximum voltage setting for an x-ray technique is determined by the:

a. mAs
b. FFD
c. kVp
d. OFD

Answer 187

c. kVp

Question 188

The ____________ is on the anode side of the tube?

a. focusing cup
b. target
c. filament
d. collimator

Answer 188

b. target

Question 189

The cloud of electrons produced at the filament is called the:

a. Roentgen cloud
b. focused charge
c. Edison effect
d. Coolidge effect

Answer 189

c. Edison effect

Question 190

The accuracy of a machine’s timer may be checked by the __________ test.

a. pinhole camera
b. spin top
c. wire mesh
d. paper clip

Answer 190

b. spin top

Question 191

Which statement best describes the filament circuit of the x-ray tube?

a. High voltage; high amperage
b. High voltage; low amperage
c. Low voltage; high amperage
d. Low voltage; low amperage

Answer 191

c. Low voltage; high amperage

Question 192

On which side of the x-ray field is the apparent focal spot smallest?

a. Anode
b. Cathode
c. Middle
d. It’s the same throughout

Answer 192

a. Anode

Question 193

Which statement regarding controlling (reducing) tube heat is TRUE?

a. Smaller angles dissipate more heat
b. Low kVp and high mAs techniques are preferred
c. Three phase units produce less heat
d. Heat units are determined by kVp x mA

Answer 193

a. Smaller angles dissipate more heat

Question 194

What is the most common cause of tube failure?

a. Beam damage
b. Overheating
c. Spark over
d. Filament evaporation

Answer 194

d. Filament evaporation

Question 195

As discussed in class, if a patient’s x-rays come out too light, how do you fix it so the image has the correct film blackness?

a. Double the mAs
b. Half the mAs
c. Adjust the kvp up
d. Adjust the kvp down

Answer 195

a. Double the mAs

Question 196

The relationship that mAs has with film density is ______________.

a. geometric
b. direct
c. inverse
d. reciprocal

Answer 196

b. direct

Question 197

The current model of the atom used in science today is the _____________ model.

a. Geiger
b. Bohr
c. Roentgen
d. Einstein

Answer 197

b. Bohr

Question 198

Matter is defined as _________________ .

a. anything with weight
b. anything with potential energy
c. kinetic energy at rest
d. anything that occupies space

Answer 198

d. anything that occupies space

Question 199

____________________ are the basic building blocks of matter.

a. Atoms
b. Photons
c. Electrons
d. Angstroms

Answer 199

a. Atoms

Question 200

Which statement about atoms is TRUE?

a. Electrons are orbited by a nucleus.
b. Atoms are mostly empty space.
c. The nucleus has a neutral charge
d. All of the above are true.

Answer 200

b. Atoms are mostly empty space.

Question 201

The electron shell closest to the nucleus is the ____________ shell.

A

K

M

T

Answer 201

K

Question 202

Electrons may

a. move to higher energy shell w/ emission of energy
b. move to a lower energy shell w/ absorption of energy
c. not move at all
d. move to a higher energy shell w/ absorption of energy

Answer 202

d. move to a higher energy shell w/ absorption of energy

Question 203

The creation of positive and negative ions is called ______________.

a. emission
b. radiation
c. ionization
d. excitation

Answer 203

c. ionization

Question 204

Atoms that exist in an abnormally excited state with an unstable nucleus are ________.

a. ionized
b. radioactive
c. energized
d. electromagnetic

Answer 204

b. radioactive

Question 205

The energy of motion is called ________________.

a. kinetic energy
b. potential energy
c. electromagnetism
d. chemical energy

Answer 205

a. kinetic energy

Question 206

A small dense positively charged nucleus with a cloud of negatively charged particles describes the:

a. Edison effect
b. Bohr model of the atom
c. rectified model of the atom
d. Kassabian hypothesis

Answer 206

b. Bohr model of the atom

Question 207

The atomic number of an atom is determined by:

a. number of protons
b. number of neutrons
c. number of protons and neutrons
d. number of protons and electrons

Answer 207

a. number of protons

Question 208

The number of electrons in any given electron shell is governed by the equation 2n2. How many electrons are present in the k-shell of a tungsten atom?

a. 2
b. 8
c. 18
d. 32

Answer 208

a. 2

Question 209

The state of an atom that has an unstable nucleus that spontaneously emits particles and energy is called:

a. characteristic production
b. pair production
c. ionization
d. radioactivity

Answer 209

d. radioactivity

Question 210

An object that permits the passage of x-ray through it and produces dark areas on the film is called:

a. radiolucent
b. radiopaque
c. radioactive
d. radiostation

Answer 210

a. radiolucent

Question 211

Which of the following is FALSE regarding x-rays?

a. They travel at the speed of light
b. Polyenergetic
c. Can be focused by a lens
d. Cause chemical changes

Answer 211

c. Can be focused by a lens

Question 212

X-rays in the energy range of 30 - 150 keV are used for ___________.

a. dermatology
b. diagnostic imaging
c. research
d. analysis therapy

Answer 212

b. diagnostic imaging

Question 213

On a T1 weighted MRI image, which of tissues will be bright?

a. Water
b. Cortical bone
c. Fat
d. Cartilage

Answer 213

c. Fat

Question 214

Water based tissues will have more signal (brighter) on which MRI sequence?

a. T1
b. T2
c. Proton density
d. None of the above

Answer 214

b. T2

Question 215

Which of the following methods of imaging does not use ionizing radioation?

a. CT
b. Nuclear medicine
c. Radiography
d. MRI

Answer 215

d. MRI

Question 216

Which method of imaging would be good for detecting multiple areas of suspected bone destruction throughout the body?

a. CT
b. MRI
c. Bone scan
d. Radiography

Answer 216

c. Bone scan

Question 217

Bone scan is a form of imaging that is, _______________.

a. sensitive, but not specific
b. specific, but not sensitive
c. sensitive and specific
d. None of the above

Answer 217

a. sensitive, but not specific

Question 218

Manual processing generally takes how much time to complete?

a. 2 minutes
b. 10 minutes
c. 30 minutes
d. 60 minutes

Answer 218

d. 60 minutes

Question 219

The principle advantage of automatic processing is what?

a. Increased time
b. Eliminates the variability created by manual processing
c. Less expensive
d. All of the above are advantages

Answer 219

b. Eliminates the variability created by manual processing

Question 220

Most automatic processors today will process a film in what amount of time?

a. 45 sec
b. 60 sec
c. 90 sec
d. 120 sec

Answer 220

c. 90 sec

Question 221

What is the overall purpose of film processing?

a. Conversion of the latent image into the visible image
b. Conversion of the manifest image into the latent image
c. Reduction of the radiation dose by amplifying the Gurney-Mott hypothesis
d. Depositing the sensitivity speck onto the film emulsion

Answer 221

a. Conversion of the latent image into the visible image

Question 222

Of the following, which one is a step in the processing of a film?

a. Fixing
b. Heating
c. Running
d. Sequestering

Answer 222

a. Fixing

Question 223

While processing, the development step performs which task?

a. Removing excess silver from the emulsion
b. Conversion of the latent image
c. Stops the fixing of the image
d. Hardens the emulsion for processing

Answer 223

b. Conversion of the latent image

Question 224

What is the optimum temperature for automatic processing?

a. 55 degrees
b. 70 degrees
c. 95 degrees
d. 120 degrees

Answer 224

c. 95 degrees

Question 225

The developing solution must be periodically replenished for what reason?

a. It becomes explosive
b. It evaporates very quickly
c. It runs over
d. It becomes chemically exhausted

Answer 225

d. It becomes chemically exhausted

Question 226

Of the following, which is NOT a function of the fixer?

a. Preserve film image
b. Harden emulsion
c. Remove unexposed silver halide from emulsion
d. Anti-fog agent

Answer 226

d. Anti-fog agent

Question 227

The clearing time is defined as the time________________.

a. required for the film to complete processing
b. necessary to convert the latent image
c. needed to remove the unexposed silver crystals from the emulsion
d. it takes for the film to go from the developer into the fixer

Answer 227

c. needed to remove the unexposed silver crystals from the emulsion

Question 228

The most common type of replenishment used in automatic processing is ________

a. manual
b. flood
c. thermostatic
d. volume

Answer 228

d. volume

Question 229

Automatic processors that use cold tap water to wash their films off use which type of temperature control system?

a. Thermostatically controlled
b. Volume controlled
c. Water controlled
d. Flood controlled

Answer 229

a. Thermostatically controlled

Question 230

According to federal guidelines silver content is liquid waste from your processor cannot exceed _____________.

a. 1 ppm
b. 5 ppm
c. 10 ppm
d. 15 ppm

Answer 230

b. 5 ppm

Question 231

Metallic replacement is a method of ?

a. Development
b. Scatter control
c. Developer replenishment
d. Silver reclamation

Answer 231

d. Silver reclamation

Question 232

What would happen if fixer were added to the developer tank of the processor?

a. Nothing
b. The film would get caught in the processor
c. The developer would neutralize the fixer and the unexposed silver would not be removed
d. The fixer would neutralize the developer and the film would not be developed

Answer 232

d. The fixer would neutralize the developer and the film would not be developed

Question 233

______________ is part of the developer.

a. Sodium thiosulfate
b. Potassium alum
c. Phenidone
d. Methidone

Answer 233

c. Phenidone

Question 234

The form of x-ray production that is dependent on the k-shell electron binding energy is ___________.

a. photoelectric
b. characteristic
c. bremsstrahlung
d. Rayleigh

Answer 234

b. characteristic

Question 235

The form of radiation production that results from an electron giving up its energy as it nears the nucleus:

a. depends on k-shell binding energies for most of its x-ray production
b. produces about 20% of the x-ray beam
c. also occurs within the intensifying screen
d. is responsible for the heterogeneity of the beam

Answer 235

d. is responsible for the heterogeneity of the beam

Question 236

To produce a characteristic x-ray the kVp must be set to at least, what?

a. 20 kVp
b. 50 kVp
c. 70 kVp
d. 80 kVp

Answer 236

c. 70 kVp

Question 237

The recommended lead thickness for protective aprons in the radiography suite is _____ mm Pb.

a. 0.001
b. 0.25
c. 0.15
d. 0.5

Answer 237

d. 0.5

Question 238

To protect your patients, your collimator must be within _______ of the indicated field.

a. 1%
b. 2%
c. 5%
d. 10%

Answer 238

b. 2%

Question 239

In order to maintain safety in the radiography suite, you must exercise the principles of protection. Which of the following is NOT considered a method of radiation protection?

a. Short exposure time
b. Large distance between the source and patient
c. Shielding
d. Large collimation field

Answer 239

d. Large collimation field

Question 240

___________________was the first reported radiation fatality in the U.S.

a. Mirhan Kassabian
b. Clarence Dally
c. Thomas Edison
d. Wilhelm Roentgen

Answer 240

b. Clarence Dally

Question 241

The doctor that documented his own radiation injuries so that the information could be used after his death was, who?

a. Mirhan Kassabian
b. Clarence Dally
c. Thomas Edison
d. Wilhelm Roentgen

Answer 241

a. Mirhan Kassabian

Question 242

The amount of radiation required to produce a certain degree of skin erythema is known as:

a. MeV
b. RAD
c. SED
d. Sievert

Answer 242

c. SED

Question 243

The unit of radiation measurement that measures the amount of ionization left behind by the radiation is the _____________.

a. RAD
b. REM
c. Roentgen
d. Sievert

Answer 243

c. Roentgen

Question 244

The SI unit of occupational dose is the:

a. REM
b. RAD
c. Gray
d. Sievert

Answer 244

d. Sievert

Question 245

There are ___________ RAD’s in a Gray.

a. 1
b. 10
c. 100
d. 1000

Answer 245

c. 100

Question 246

One Sievert is equal to __________.

a. 10 Grays
b. 100 RADs
c. 100 REMs
d. 100 Roentgens

Answer 246

c. 100 REMs

Question 247

Multiplying the amount of absorbed dose by a quality factor gives the ________.

a. Dose equivalent
b. Linear energy transfer
c. Energy per kilogram of matter
d. None of the above

Answer 247

a. Dose equivalent

Question 248

Radiation induced GI distress can be produced with how much dose?

50 REM

100 REM

150 REM

250 REM

Answer 248

150 REM

Question 249

The amount of radiation that the average person receives from background sources is ___________mR/year.

a. 10
b. 50
c. 120
d. 180

Answer 249

c. 120 mR/year

Question 250

_____________ is a type of natural radiation.

a. Organic
b. Terrestrial
c. Diagnostic
d. Coherent

Answer 250

b. Terrestrial

Question 251

The general public is limited to ___________ of radiation, not including medical exams.

a. 0.5 REM/year
b. 1.0 REM/year
c. 5.0 REM/year
d. 0.5 Sieverts/year

Answer 251

a. 0.5 REM/year

Question 252

A radiological technology student in your office who is 17 years old is allowed how much radiation exposure per year?

a. 0.001 REM
b. 0.01 REM
c. 0.1 REM
d. 1.0 REM

Answer 252

a. 0.001 REM

Question 253

The maximum amount of occupational radiation that a person may receive during their lifetime is, what?

a. 0.5 per year x their age / 2
b. 1/10 of a REM per years of working in radiation
c. Total dose of medical exams + total occupational exposure / age
d. Should not exceed their age in REMs

Answer 253

d. Should not exceed their age in REMs

Question 254

Which of the following exams is responsible for a significant amount of dosage from medical exams?

a. Lumbar spine
b. Chest
c. Skull
d. Extremities

Answer 254

a. Lumbar spine

Question 255

As kvp increases _____________.

a. compton radiation scatters more forward
b. photoelectric absorption prevents scatter formation
c. photons scatter more back towards the source
d. none of the above

Answer 255

a. compton radiation scatters more forward

Question 256

Photons that interact with the patient and change direction to go on to strike the film are called, what?

a. Bucky fog
b. compton scatter
c. orbital decay
d. pair production

Answer 256

b. compton scatter

Question 257

Which of the following increases the amount of scatter produced in a patient?

a. Decreasing kvp
b. Increased patient thickness
c. Compressing the patient
d. Decreasing the x-ray field size

Answer 257

b. Increased patient thickness

Question 258

How much of the film blackness do x-rays expose by themselves?

a. 1%
b. 20%
c. 50%
d. 90%

Answer 258

a. 1%

Question 259

Which effect takes place in the screen to convert x-rays into visible light?

a. Bremsstrahlung
b. Compton
c. Conduction band theory
d. Rayleigh

Answer 259

c. Conduction band theory

Question 260

Which of the following statements is TRUE?

a. Intensifying screens improve image quality substantially
b. Screens dramatically decrease patient dose
c. Intensifying screens are made of copper and iodine
d. Intensifying screens invented by Clarence Dally

Answer 260

b. Screens dramatically decrease patient dose

Question 261

Modern intensifying screens use which element as their active component?

a. Gadolinium
b. Iridium
c. Helium
d. Rhenium

Answer 261

a. Gadolinium

Question 262

_____________ is the light producing layer of the intensifying screen.

a. The base
b. The reflecting layer
c. The protective layer
d. The phosphor layer

Answer 262

d. The phosphor layer

Question 263

If light is emitted by the intensifying screen slower than 10^-8 seconds, what is this effect called?

a. Phosphorescence
b. Conduction band instability
c. Edison effect
d. Afterglow

Answer 263

d. Afterglow

Question 264

The process by which light is emitted by an intensifying screen is called _________.

a. fluorescence
b. phosphorescence
c. light bringing

Answer 264

a. fluorescence

Question 265

The number that indicates the relative sensitivity of a screen to x-rays is the:

a. luminescence
b. intensification factor
c. speed
d. neediness

Answer 265

c. speed

Question 266

Calcium tungstate is given the standard speed number of ___________.

a. 100 b. 300 c. 800 d. 1000

Answer 266

a. 100

Question 267

An intensifying screen that decreases the exposure of a given radiographic technique by 25 times over a non-screen technique with the same film density has a(n) __________ of ___________.

a. speed; 100
b. intensification factor; 25
c. filtration; 5
d. pair production; 1/25

Answer 267

b. intensification factor; 25

Question 268

The increase in beam absorption as photon energies match the k-shell binding energy is called:

a. k-edge
b. k-match
c. photoelectric effect
d. k-charge effect

Answer 268

a. k-edge

Question 269

An incident photon is captured by a crystal in an intensifying screen and emits light to expose film, this is an example of:

a. Photodisintigration
b. Conduction band theory
c. Gurney-Mott hypothesis
d. None of the above

Answer 269

b. Conduction band theory

Question 270

Producing a large amount of light per x-ray absorption is

a. fluorescence
b. luminescence
c. conversion efficiency
d. spectral matching

Answer 270

c. conversion efficiency

Question 271

The active layer of an intensifying screen is the

a. phosphor layer
b. base
c. reflective layer
d. None of these are active

Answer 271

a. phosphor layer

Question 272

Most screens are only about ______________ efficient in converting x-ray to light.

a. 1%
b. 5%
c. 15%
d. 40%

Answer 272

c. 15%

Question 273

What can be done to determine the presence of poor screen contact?

a. Spin top test
b. Hinge test
c. Screen clean test
d. Wire mesh test

Answer 273

d. Wire mesh test

Question 274

What is the difference between fluorescence and phosphorescence?

a. Fluorescence is slower than 10^-8 seconds
b. Phosphorescence is faster than 10^-8 seconds
c. Fluorescence has an afterglow
d. None of the above

Answer 274

d. None of the above

Question 275

What substance is used as the standard 100 speed in intensifying screens?

a. Gadolinium
b. Calcium tungstate
c. Yttrium
d. Zinc sulfide

Answer 275

b. Calcium tungstate

Question 276

The ___ is the point of increased absorption due to the matching of binding and photon energies.

a. k-shell
b. k-edge
c. k-bar
d. k-band

Answer 276

b. k-edge

Question 277

The space charge effect at the filament happens with, what?

The amount of electrons surrounding the filament don’t leave enough room for new ones to leave the filament

The large amount of electrons createing a very negative charge and keeps new electrons from leaving the filament

Machines operating above 100 mA d.

None of the above are correct

Answer 277

The large amount of electrons createing a very negative charge and keeps new electrons from leaving the filament

Question 278

In 1895 Roentgen was working in his lab, when he noticed a plate began to emit light, what was the plate coated with?

a. Methyl methacrylate
b. Zinc
c. Calcium tungstate
d. Barium platinocyanide

Answer 278

d. Barium platinocyanide

Question 279

PART I

A 35 y.o. male patient comes to your office with a history of low back pain. You decide to x-ray his lumbar spine. In the AP direction he measures 27 cm and laterally, 39 cm. The Total Correction Factor (TCF) in your suite for regular cassettes is -4. What is the mAs for an AP lumbar spine view at 80 kVp (40 FFD with bucky (12:1 grid) technique)?

A. 15

B. 25

C. 50

D. 75

PART II

Using the information from the last question, what is the exposure time for a lateral lumbar spine view at 90 kVp using a 200 mA time station?

a. 1/5 sec
b. 1/2 sec
c. 3/10 sec
d. 3/4 sec

Answer 279

PART I

• 50

PART II

• 1/2 sec

Question 280

To examine a patient for pneumonia, you decide to shoot a PA chest x-ray. The patient is a body builder and he measures 24 cm in the PA direction. What is the mAs for this shot at 72” in the grid at 120 kVp, with a TCF of -5 1/2 for your chest cassette in this room?

a. 1.00
b. 1.5
c. 3.3
d. 7

Answer 280

b. 1.5

Question 281

Transformers require ____________ to operate. a. direct current (DC) b. alternating current (AC) c. rectifiers d. diodes

Answer 281

b. alternating current

Question 282

A transformer with a turn ratio greater than 1 is a ___________ transformer.

a. step-up
b. step-down
c. auto
d. rectifying

Answer 282

a. step-up

Question 283

Alternating current passed through wire looped around a metal core will induce a(n) ___________ in the metal core.

a. moving electrical field
b. static electrical charge
c. ionization
d. alternating magnetic field

Answer 283

d. alternating magnetic field

Question 284

A step-down transformer would have:

a. a turn ratio of 0.5
b. a turn ratio of 1
c. a turn ratio of 100
d. none of the above

Answer 284

a. a turn ratio of 0.5

Question 285

In order to change electrical wall current into something an x-ray tube can use, which piece of equipment is utilized?

a. LED
b. LCD
c. Tube stand
d. Transformer

Answer 285

d. Transformer

Question 286

Electrons are liberated from the filament by which process?

a. Thermoionic emission
b. Thermal ignition
c. Thermal ejection
d. Thermoionic eversion

Answer 286

a. Thermoionic emission

Question 287

The cloud of electrons created around the filament when the low voltage current is activated is called, what?

a. The Roentgen cloud
b. Space-charge
c. Ionic cloud
d. None of the above

Answer 287

b. Space-charge

Question 288

The target material of the anode is made of ______________________.

a. Copper
b. Lead
c. Tungsten
d. Uranium

Answer 288

c. Tungsten

Question 289

The part of the cathode that keeps electrons from flying all over the tube is ________.

a. filament
b. target
c. focusing cup
d. stator coil

Answer 289

c. focusing cup

Question 290

Modern x-ray tubes used in chiropractic offices use which of the following:

a. stationary anode
b. rotating anode
c. rotating cathode
d. glass focusing cup

Answer 290

b. rotating anode

Question 291

The main advantage to a rotating anode is:

a. greater heat capacity
b. lower melting point
c. electrons spin to produce more focused x-rays
d. none of the above are advantageous

Answer 291

a. greater heat capacity

Question 292

X-rays exit the tube through the

a. tube window b. cathode c. stator d. anode

Answer 292

b. window

Question 293

What is the most common cause for x-ray tube failure?

a. Spark over
b. Heel effect
c. Filament evaporation
d. Heat convection

Answer 293

c. Filament evaporation

Question 294

What speed film/cassette combination works best for general purpose spinal radiography?

a. 100
b. 200
c. 400
d. 800

Answer 294

c. 400

Question 295

What of the following aids in obtaining optimal AP thoracic x-rays?

a. Open collimation
b. Aluminum wedge filter
c. Inherent filtration
d. Ion pair production

Answer 295

b. Aluminum wedge filter

Question 296

What patient information is required on the ID stamper?

a. Name, Age, Sex, Date of Service
b. Name, Sex, Ethnicity, Date of Service
c. Name, Age, Sex, Date of Birth
d. Name, Date of Birth, Sex

Answer 296

a. Name, Age, Sex, Date of Service

Question 297

Which of the following is NOT a factor in causing safelight fog?

a. Filter color
b. Bulb wattage
c. Time under the safelight
d. Film type

Answer 297

d. Film type

Question 298

The deceleration of electrons to produce x-rays is called ____________.

a. characteristic
b. compton
c. bremsstrahlung
d. photoelectric

Answer 298

c. bremsstrahlung

Question 299

The majority of x-rays produced in the anode result from which process?

a. Bremsstrahlung
b. Characteristic
c. Pair Production
d. Photoelectric

Answer 299

a. Bremsstrahlung

Question 300

What percentage of x-rays produced at the anode result from the displacement of a k-shell electron?

a. 20% b. 45% c. 60% d. 90%

Answer 300

a. 20%

Question 301

At the anode, an incident electron ejects a k-shell electron from its orbit. When is an x-ray is emitted?

a. When another electron comes along to take its place
b. When an outer shell electron drops in to fill the vacancy
c. When the nucleus ejects a positron to fill the vacancy
d. When the incident has the energy to 0.51 MeV

Answer 301

b. When an outer shell electron drops in to fill the vacancy

Question 302

What is the binding energy of a Tungsten (W) k-shell electron?

a. 30.2 keV
b. 57.4 keV
c. 69.5 keV
d. 75.3 keV

Answer 302

c. 69.5 keV

Question 303

Bremsstrahlung is also known as:

a. braking radiation
b. characteristic radiation
c. sonic radiation
d. photoradiation

Answer 303

a. braking radiation

Question 304

Of Bremsstrahlung radiation production, which is TRUE?

a. The lower the atomic number of the anode, the higher the contrast
b. The higher the atomic number of the target the higher the energy x-ray produced
c. Gives distinct spikes of radiation production
d. All of the above are true

Answer 304

b. The higher the atomic number of the target the higher the energy x-ray produced

Question 305

Characteristic radiation production produces

a. lower energy radiation with higher target atomic numbers
b. radiation energies that are independent of the target material used
c. the majority of x-rays below 80 kvp
d. radiation energies that are specific to differences between electron orbits

Answer 305

d. radiation energies that are specific to differences between electron orbits

Question 306

We usually measure the energy of x-rays in ____________.

a. wavelengths
b. frequencies
c. Planck constants
d. electron volts

Answer 306

d. electron volts

Question 307

An object that permits the passage of x-rays is said to be _______________.

a. radiolucent
b. radiopaque
c. radiosensitive
d. radiostationary

Answer 307

a. radiolucent

Question 308

The white area of a radiograph results from x-rays encountering a ___________ area.

a. radiolucent
b. radiopaque
c. radiosensitive
d. radiostationary

Answer 308

b. radiopaque

Question 309

Which of the following is FALSE regarding x-rays?

a. They are electrically neutral.
b. They cannot be focused.
c. They are monoenergetic.
d. They travel at the speed of light.

Answer 309

c. They are monoenergetic.

Question 310

Identify “A” Window Glass tube Stator coil Anode Identify “B” Glass tube Transformer Stator coil Anode Identify “C” Anode Cathode Focusing Cup Stator coil Identify “D” Cathode Stator Coil Filament Exit window Identify “E” Target Stator coil Filament Transformer Identify “F” Filament Focusing cup Stator coil Target

Answer 310

A

Question 311

The type of voltage rectification with the LEAST amount of ripple is _________.

a. single phase fully rectified
b. self rectified
c. three phase - 6 pulse
d. High frequency

Answer 311

d. High frequency (voltage ripple of 1%)

• single phase voltage ripple - 100%
• 3 phase 6 pulse voltage ripple - 14%
• 3 phase 12 pulse voltage ripple - 4%

Question 312

The NCRP limits occupational exposure to ___________ per year.

5 Grays
10 RADs
5 REMs
500 Sieverts

Answer 312

5 REMs

Question 313

Intensifying screen efficiency is approximately:

1%
20%
50%
75%

Answer 313

20%