Exam 2026/2027: 90 Practice Questions
with Answers for Radiography Students |
ARRT® Preparation
Description:
Master X-ray physics and radiation protection with this comprehensive 2026/2027
examination guide featuring 90 multiple-choice questions, detailed explanations, and
complete answer key. Covers inverse square law, X-ray tube components, digital
imaging, radiation safety, and fluoroscopy. Essential study resource for radiologic
technology students, ARRT® exam candidates, and healthcare professionals seeking
board certification.
Download now and pass with confidence!
, X-Ray Physics Exam 2026/2027 | 90 Questions & Answers
SECTION A: FUNDAMENTAL PHYSICS PRINCIPLES
Question 1
The inverse square law in radiography states that the intensity of radiation is:
A) Directly proportional to the square of the distance from the source
B) Inversely proportional to the square of the distance from the source
C) Directly proportional to the distance from the source
D) Independent of the distance from the source
Answer: B
Explanation: The inverse square law is a fundamental principle in radiation physics that
establishes an inverse relationship between radiation intensity and the square of the distance
from the radiation source. As distance increases, the radiation beam spreads over a larger
area, resulting in diminished intensity proportional to the square of that distance. This
principle is critical for radiation protection protocols and optimal image acquisition in
diagnostic radiography.
Question 2
Which equation correctly represents the inverse square law in radiography?
A) I₁/I₂ = D₁²/D₂²
B) I₁/I₂ = D₂²/D₁²
C) I₁ × D₁ = I₂ × D₂
D) I₁/I₂ = D₁/D₂
Answer: B
Explanation: The inverse square law is mathematically expressed as I₁/I₂ = D₂²/D₁², where I
represents radiation intensity and D represents distance from the radiation source. This
formulation demonstrates that intensity ratios are inversely proportional to the square of the
corresponding distance ratios. The equation is fundamental for calculating appropriate
exposure parameters and maintaining consistent image quality across varying source-to-
image distances in radiographic procedures.
,SECTION B: X-RAY TUBE COMPONENTS AND CONSTRUCTION
Question 3
The primary function of the glass envelope in an X-ray tube is to:
A) Focus the electron beam
B) Provide structural support and thermal resistance
C) Generate X-rays through electron interaction
D) Control the tube current
Answer: B
Explanation: The glass envelope, commonly constructed from Pyrex glass, serves as the
structural housing for all X-ray tube components while providing exceptional thermal
resistance to the intense heat generated during X-ray production. Borosilicate glass (Pyrex) is
specifically selected for its low coefficient of thermal expansion, which prevents cracking and
maintains vacuum integrity even under the extreme operating temperatures exceeding
2,000°C that occur during routine radiographic exposures.
Question 4
Pyrex glass is the material of choice for X-ray tube envelopes primarily because it:
A) Allows maximum X-ray transmission
B) Has excellent electrical conductivity
C) Exhibits high thermal resistance and minimal thermal expansion
D) Is the most cost-effective material available
Answer: C
Explanation: Pyrex glass, a borosilicate glass composition, is universally employed in X-ray
tube manufacturing due to its exceptional ability to withstand the extreme thermal stress
generated during X-ray production. The material's low coefficient of thermal expansion
prevents structural failure from repeated heating and cooling cycles, ensuring tube longevity
and maintaining the critical vacuum environment essential for efficient electron acceleration
and X-ray generation.
, Question 5
The cathode assembly in an X-ray tube functions as the:
A) Positive electrode
B) Negative electrode
C) Target for electron interaction
D) Primary X-ray emission surface
Answer: B
Explanation: The cathode serves as the negative electrode within the X-ray tube, functioning
as the source of electrons through thermionic emission. When heated to temperatures
approaching 2,200°C, the cathode filament releases electrons that are subsequently
accelerated toward the positively charged anode. This electron flow constitutes the tube
current, which directly influences X-ray quantity and overall radiographic exposure.
Question 6
The anode assembly in an X-ray tube carries which electrical charge?
A) Negative
B) Neutral
C) Positive
D) Alternating
Answer: C
Explanation: The anode functions as the positive electrode in the X-ray tube, creating the
electrical potential difference necessary for electron acceleration from the cathode. This
positive charge attracts the thermionically emitted electrons, which then impact the anode
target at high velocities. The conversion of kinetic energy to electromagnetic radiation
produces both characteristic and bremsstrahlung X-rays essential for diagnostic imaging.
Question 7
The approximate percentage of electrical energy converted to heat versus X-rays in a
diagnostic X-ray tube is:
A) 50% heat, 50% X-rays
B) 75% heat, 25% X-rays