Chapter 1 Flashcards
(42 cards)
When were X-rays discovered?
a. October 8, 1985
b. November 8, 1895
c. January 23, 1896
d. August 15, 1902
b. November 8, 1895
X-rays were discovered by Wilhelm Conrad Roentgen on November 8, 1895.
- What type of tube was Roentgen working with in his lab when X-rays were discovered?
a. Crookes tube
b. Fluorescent tube
c. High-vacuum tube
d. Wurzburg tube
a. Crookes tube
Roentgen was working with a low-vacuum tube known as a Crookes tube.
- Which of the following terms could be defined as the instantaneous production of light only
during an interaction between a type of energy and some element or compound?
a. Phosphorescence
b. Afterglow
c. Glowing
d. Fluorescence
d. Fluorescence
Fluorescence is the instantaneous emission of light from a material due to the interaction with
some type of energy.
- Barium platinocyanide was the:
a. type of dark paper Roentgen used to darken his laboratory.
b. material Roentgen used to produce the first radiograph of his wife’s hand.
c. metal used to produce the low-vacuum tube.
d. fluorescent material that glowed when the tube was energized.
Solution: d. fluorescent material that glowed when the tube was energized
A piece of paper coated with barium platinocyanide glowed each time Roentgen energized his tube.
REF: p.2
- The first radiograph produced by Roentgen, of his wife’s hand, required an exposure time of:
a. 15 s.
b. 150 s.
c. 15 min.
d. 150 min.
Solution: c. 15 min.
It took a 15-min exposure time to produce the first radiograph.
REF: p.3
- The letter x in x-ray is the symbol for:
a. electricity.
b. the unknown.
c. penetrating.
d. discovery.
Solution: b. the unknown.
The letter x represents the mathematical symbol of the unknown.
REF: p.3
- The first Nobel Prize for Physics was received in 1901 by:
a. Marie Curie.
b. William Crookes.
c. Wilhelm Roentgen.
d. Albert Einstein.
Solution: c. Wilhelm Roentgen.
Wilhelm Roentgen received the first Nobel Prize for Physics in 1901.
REF: p.4
- X-rays were at one time called:
a. Becquerel rays.
b. Roentgen rays.
c. Z-rays.
d. None of the above.
Solution: b. Roentgen rays.
X-rays were at one time called Roentgen rays.
REF: p.4
- Erythema, an early sign of biologic damage due to x-ray exposure, is:
a. reddening of the skin.
b. a malignant tumor.
c. a chromosomal change.
d. one of the most serious effects of x-ray exposure.
Solution: a. reddening of the skin.
Erythema is reddening and burning of the skin, an early and less serious effect of exposure to large doses of x-radiation.
REF: p.5
- X-rays have which of the following properties?
a. Electrical
b. Magnetic
c. Chemical
d. A and B
e. A and C
Solution: d. A and B
X-rays, a type of electromagnetic radiation, have both electrical and magnetic properties.
REF: p.5
- The distance between two successive crests of a sine wave is known as:
a. an angstrom.
b. frequency.
c. the Greek letter mu.
d. wavelength
Solution: d. wavelength
The distance between two successive crests or troughs of a sine wave is the measure of its wavelength.
REF: p.6
- X-rays used in radiography have wavelengths that are measured in:
a. angstroms.
b. millimeters.
c. centimeters.
d. hertz.
Solution: a. angstroms
X-rays in the range used in radiography have wavelengths that are so short that they are measured in angstroms.
REF: p.6
- The frequency of a wave is the number of waves passing a given point per given unit of time. Frequency is measured in:
a. angstroms.
b. hertz.
c. inches.
d. eV.
Solution: b. hertz
The unit of frequency is hertz. The frequency of X-rays in the radiography range varies from about 3 × 10¹⁶ to 3 × 10¹⁹ Hz.
REF: p.6
- Which of the following is a correct description of the relationship between the wavelength and frequency of the x-ray photon?
a. Wavelength and frequency are directly proportional.
b. Wavelength and frequency are inversely related by the square root of lambda.
c. Frequency and wavelength are inversely related.
d. Wavelength and frequency have no relationship to each other.
Solution: c. Frequency and wavelength are inversely related.
Wavelength and frequency are inversely related; as one increases, the other decreases.
REF: p.6
- A ______ is a small, discrete bundle of energy.
a. phaser
b. quark
c. photon
d. mesion
Solution: c. photon
A photon, or quantum, is a small, discrete bundle of energy.
REF: p.7
- The speed of light is:
a. 3 × 10⁸ meters per second
b. 3 × 10⁸ miles per second
c. 186,000 miles per second
d. A and B
e. A and C
Solution: e. A and C
The speed of light can be described as either 3 × 10⁸ meters per second or 186,000 miles per second.
REF: p.8
- When first developed, the branch of medicine using X-rays was called:
a. radiology.
b. radiography.
c. roentgenology.
d. imaging sciences.
Solution: c. roentgenology
What we now call radiology was first called roentgenology.
REF: p.4
- The electrical energy applied to an x-ray tube will be transformed to:
a. heat.
b. light.
c. x-rays.
d. A and B.
e. A and C.
Solution: e. A and C
The electrical energy applied to the x-ray tube will be transformed into heat (primarily) and x-rays.
REF: p.5
- The Greek symbol lambda (λ) represents the x-ray’s:
a. wavelength.
b. speed.
c. frequency.
d. quantity.
Solution: a. wavelength
Lambda (λ) is the Greek symbol that represents wavelength.
REF: p.6
- An angstrom (Å) is equal to:
a. 10⁻¹ meter
b. 10⁻¹⁰ meter
c. 10⁻¹ foot
d. 10⁻¹⁰ foot
Solution: b. 10⁻¹⁰ meter
One angstrom is equal to 10⁻¹⁰ meter.
REF: p.6
- X-rays used in radiography have wavelengths ranging from 0.1 to:
a. 0.01 Å.
b. 1 Å.
c. 10 Å.
d. 100 Å.
Solution: b. 1 Å
X-rays used in radiography have wavelengths ranging from 0.1 to 1 Å.
REF: p.6
- X-rays used in radiography have wavelengths ranging from 3 × 10¹⁹ to:
a. 3 × 10⁸ Hz.
b. 3 × 10⁻¹⁰ Hz.
c. 3 × 10¹⁰ Hz.
d. 3 × 10¹⁸ Hz.
Solution: d. 3 × 10¹⁸ Hz
X-rays used in radiography have wavelengths ranging from 3 × 10¹⁹ to 3 × 10¹⁸ Hz.
REF: p.6
- In the formula c = λv, c represents:
a. frequency.
b. the speed of light.
c. wavelength.
d. kinetic energy.
Solution: b. the speed of light
In this formula, c represents the speed of light.
REF: p.6
- In the formula c = λv, v represents:
a. frequency.
b. the speed of light.
c. wavelength.
d. kinetic energy.
Solution: a. frequency
In this formula, v represents frequency.
REF: p.6
