ARRT Radiography Registry Mock Exam 3:
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Which of the following is (are) demonstrated in the lateral projection of the thoracic spine?
1. Intervertebral spaces
2. Apophyseal joints
3. Intervertebral foramina
A. 1 only B. 2 only C. 1 and 3 only D. 1, 2, and 3
Correct Answer: C
Rationale: In the lateral projection of the thoracic spine, intervertebral disk spaces and
intervertebral foramina are clearly demonstrated. Apophyseal (zygapophyseal) joints are best
visualized in a 70° oblique position.
Question 2
How is source-to-image distance (SID) related to exposure rate and radiographic density?
A. As SID increases, exposure rate increases and radiographic density increases. B. As SID
increases, exposure rate increases and radiographic density decreases. C. As SID increases,
exposure rate decreases and radiographic density increases. D. As SID increases, exposure
rate decreases and radiographic density decreases.
Correct Answer: D
Rationale: Increasing SID reduces the intensity of radiation reaching the image receptor,
thereby decreasing both exposure rate and radiographic density according to the inverse
square law.
Question 3
Which of the following can affect radiographic contrast?
1. Processing
2. Pathology
3. OID
A. 1 only B. 1 and 2 only C. 1 and 3 only D. 1, 2, and 3
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Correct Answer: D
Rationale: Processing (e.g., chemical development or digital lookup tables), pathologic
conditions (e.g., edema or pneumothorax changing subject contrast), and object-to-image
distance (OID, via the air-gap technique) can all significantly influence radiographic contrast.
Question 4
Below-diaphragm ribs are better demonstrated when:
A. Respiration is suspended at the end of full inhalation. B. Exposed using shallow breathing
technique. C. The patient is in the recumbent position. D. The patient is in the AP erect
position.
Correct Answer: C
Rationale: The recumbent position improves visualization of below-diaphragm ribs because
gravity shifts the abdominal contents upward, making the diaphragm place less density
variation over the lower ribs, while also minimizing patient movement.
Question 5
To demonstrate the glenoid fossa in profile, the patient is positioned:
A. 45° oblique, affected side up B. 45° oblique, affected side down C. 25° oblique, affected
side up D. 25° oblique, affected side down
Correct Answer: B
Rationale: A 45° posterior oblique position (Grashey method) with the affected side down
aligns the scapulohumeral (glenoid) cavity parallel to the central ray, bringing it directly into
profile.
Question 6
Which cholangiographic procedure uses an indwelling drainage tube for contrast medium
administration?
A. Endoscopic retrograde cholangiopancreatography (ERCP) B. Operative cholangiography C.
T-tube cholangiography D. Percutaneous transhepatic cholangiography
Correct Answer: C
Rationale: A T-tube cholangiogram is performed postoperatively using an indwelling, T-
shaped tube previously placed in the common bile duct during surgery to inject contrast and
visualize the biliary tree.
Question 7
How is source-to-image distance (SID) related to exposure rate and radiographic density?
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A. As SID increases, exposure rate increases and radiographic density increases. B. As SID
increases, exposure rate increases and radiographic density decreases. C. As SID increases,
exposure rate decreases and radiographic density increases. D. As SID increases, exposure
rate decreases and radiographic density decreases.
Correct Answer: D
Rationale: Increasing the SID spreads the beam over a larger area, which decreases the
exposure rate and subsequent radiographic density at the image receptor in accordance with
the inverse square law.
Question 8
As the image intensifier's field of view (FOV) is reduced, how is the resulting image affected?
1. Magnification increases
2. Brightness decreases
3. Quality increases
A. 1 only B. 1 and 2 only C. 2 and 3 only D. 1, 2, and 3
Correct Answer: D
Rationale: Reducing the FOV in a multi-field image intensifier causes magnification. Because
fewer photoelectrons are focused onto the output phosphor, image brightness inherently
decreases (which prompts automatic brightness control to increase dose). Image
quality/resolution increases because the focal point changes, utilizing a more central, sharper
area of the input phosphor.
Question 9
Which of the following is (are) characteristic(s) of a 5:1 grid?
1. It allows some positioning latitude.
2. It is used with high-kilovoltage exposures.
3. It absorbs a high percentage of scattered radiation.
A. 1 only B. 1 and 3 only C. 2 and 3 only D. 1, 2, and 3
Correct Answer: A
Rationale: A 5:1 grid is a low-ratio grid that offers wide positioning latitude, meaning it is
more forgiving to centering and angling errors. However, it does not efficiently absorb high
percentages of scatter and is completely inadequate for high-kVp techniques.
Question 10
Which of the following are demonstrated in the oblique position of the cervical spine?
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1. Intervertebral foramina
2. Apophyseal joints
3. Intervertebral joints
A. 1 only B. 1 and 2 only C. 2 and 3 only D. 1, 2, and 3
Correct Answer: A
Rationale: Oblique projections of the cervical spine are explicitly utilized to open up and
demonstrate the intervertebral foramina. The apophyseal (zygapophyseal) joints are only
seen in a true lateral view.
Question 11
If a radiograph exhibits insufficient density, this might be attributed to:
1. Inadequate kVp
2. Inadequate SID
3. Grid cutoff
A. 1 only B. 1 and 2 only C. 1 and 3 only D. 1, 2, and 3
Correct Answer: C
Rationale: Inadequate kVp leads to insufficient beam penetration and low density. Grid
cutoff results in the unintended absorption of primary beam photons, reducing density. In
contrast, an inadequate (shorter) SID would drastically increase density due to the inverse
square law.
Question 12
Methods that help to reduce the production of scattered radiation include using:
1. Compression
2. Beam restriction
3. A grid
A. 1 and 2 only B. 1 and 3 only C. 2 and 3 only D. 1, 2, and 3
Correct Answer: A
Rationale: Compression and beam restriction (collimation) actively reduce the volume of
tissue irradiated, directly limiting the production of scatter. Grids do nothing to stop scatter
from being produced; they simply clean it up after it leaves the patient's body.
Question 13