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Deck 6: X-Ray Production

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Question
If a filament electron leaves the tungsten atom with 15 keV of energy and the brems photon produced was 65 keV, how much energy did the incoming filament electron have?

A) 15 keV.
B) 50 keV.
C) 65 keV.
D) 80 keV.
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Question
The energy of the characteristic x-ray photon depends on

A) the binding energy of the inner-shell electron
B) the energy level of the filament electron
C) the shell of the electron that is dropping into the vacancy
D) all of these
Question
If a filament electron enters the tungsten atom with 80 keV of energy and leaves the atom with 75 keV of energy:

A) the brems photon will be 75 keV
B) the brems photon will be 80 keV
C) the filament electron traveled very close to the nucleus
D) the filament electron traveled very far from the nucleus
Question
A filament electron removes a K shell electron and an M shell electron fills the vacancy. The K shell binding energy is 69.5 keV and the M shell binding energy is 2.8 keV. What is the energy of the K-characteristic photon produced?

A) 2.8 keV.
B) 57.4 keV.
C) 66.7 keV.
D) 69.5 keV.
Question
The average energy of a brems photon is ______ of the kVp selected at the control panel.

A) 1/3
B) 1/2
C) 2/3
D) the same as that
Question
The process of a series of outer-shell electrons filling inner-shell vacancies right after the other is called

A) characteristic tumble
B) characteristic x-rays
C) characteristic sequence
D) characteristic cascade
Question
To double the beam quantity

A) halve the mAs
B) leave the mAs as is and reduce the kVp
C) double the mAs
D) increase the mAs by a factor of 4 (22)
Question
The majority of the x-ray photons produced are

A) characteristic photons
B) brems photons
C) photons with energy higher than 70 keV
D) photons with energy higher than 80 keV
Question
When filament electrons enter the anode target, they interact with

A) outer shell electrons of tungsten atoms
B) inner shell electrons of tungsten atoms
C) outer shell electrons of copper atoms
D) inner shell electrons of copper atoms
Question
When a filament electron knocks out a K shell electron from the tungsten atom, it leads to

A) a brems x-ray photon
B) a 39.5 keV energy x-ray photon
C) a characteristic x-ray photon
D) none of these
Question
Which of the following factors affect beam quantity?

A) kVp.
B) Distance.
C) Filtration.
D) All of these.
Question
Which of the following is the primary factor controlling quantity?

A) kVp.
B) mAs.
C) Distance.
D) Filtration.
Question
The total number of x-ray photons in a beam is referred to as the

A) x-ray quality
B) x-ray number
C) x-ray quantity
D) x-ray beam
Question
Characteristic x-ray photons result

A) when an outer-shell electron is knocked out
B) when an inner-shell electron is knocked out
C) when outer-shell electrons fill the vacancy in an inner shell
D) when an outer-shell electron is knocked out and when outer-shell electrons fill the vacancy in an inner shell
E) when an inner-shell electron is knocked out and when outer-shell electrons fill the vacancy in an inner shell
Question
During x-ray production the electrons penetrate the target approximately

A) 0.2 mm
B) 0.5 mm
C) 2 mm
D) 5 mm
Question
During the bremsstrahlung interaction, the filament electron

A) knocks out an inner-shell electron
B) knocks out an outer-shell electron
C) is absorbed by the nucleus
D) is attracted to the nucleus but not absorbed
Question
The energy of the brems photon depends on

A) the original energy of the filament electron
B) the strength of the attraction between the electron and the nucleus
C) the energy of the filament electron as it leaves the tungsten atom
D) all of these
Question
At the anode target, how much of the energy from filament electrons is lost as heat and how much will result in x-ray production.

A) 1% energy lost as heat ; 99% result in x-rays
B) 99% energy lost as heat; 1% result in x-rays
C) 0% energy lost as heat; 100% result in x-rays
D) 100% energy lost as heat; 0% result in x-rays
Question
X-rays are produced by

A) characteristic interactions
B) uncharacteristic interactions
C) bremsstrahlung interactions
D) characteristic and bremsstrahlung interactions
Question
Bremsstrahlung means

A) electron
B) x-ray production
C) braking radiation
D) all of these
Question
One HVL reduces the intensity of the x-ray beam to _______ of its original.

A) one fourth
B) one third
C) one half
D) two thirds
Question
A higher energy beam is said to be a ______ beam.

A) soft
B) hard
C) weak
D) powerful
Question
Which of the following results in the equivalent of doubling the mAs if the original kVp is 80?

A) 85 kVp.
B) 92 kVp.
C) 120 kVp.
D) 160 kVp.
Question
Beam quality refers to

A) the energy level of the radiation
B) the amount of radiation
C) how useful the radiation is
D) all of these
Question
Filtration placed in the path of the x-ray beam

A) absorbs low-energy photons
B) absorbs high-energy photons
C) increases patient dose
D) reduces the quantity of radiation by a factor of 2
Question
If kVp is doubled, the quantity of radiation increases by a factor of

A) 2
B) 3
C) 4
D) 8
Question
If the distance from the source is changed from 72 inches to 36 inches and the original beam intensity was 200 mR, what is the new intensity?

A) 50 mR.
B) 100 mR.
C) 400 mR.
D) 800 mR.
Question
It is recommended that kVp not be used to control beam quantity because

A) it affects scatter production
B) it affects penetrability of the beam
C) it is less predictable in how changing the kVp affects the image
D) all of these
Question
If the kVp is changed from 30 kVp to 90 kVp, the quantity of radiation in the beam increases by a factor of

A) 2
B) 3
C) 6
D) 9
Question
The inverse square law describes the relationship between ____________ and beam intensity.

A) kVp
B) distance
C) exposure time
D) kVp.
Question
To increase the quantity of radiation by adjusting the kVp to the same level as doubling the mAs, increase kVp by a factor of

A) 2%
B) 5%
C) 15%
D) 25%
Question
If the distance from the source is doubled, the quantity of radiation reaching a specific area is _________ the original.

A) double
B) quadruple
C) half
D) one fourth
Question
Placing filtration in the path of the beam results in

A) a harder beam
B) a softer beam
C) more x-ray photons
D) a sharper image
Question
To produce a radiographic image, which of the following conditions should NOT occur?

A) some photons penetrate the body
B) some photons do not penetrate the body
C) all photons penetrate the body
D) some photons, but not all, penetrate the body
Question
As the kVp increases

A) beam energy decreases
B) beam energy increases
C) beam penetrability increases
D) beam energy and beam penetrability increases
Question
As the distance increases, the beam quantity reaching a specific area

A) increases
B) decreases
C) stays the same
D) doubles
Question
The purpose of beam filtration is to

A) control beam quantity
B) reduce patient dose
C) reduce the wear and tear on the tube
D) all of these
Question
Half-value layer (HVL) is used to measure

A) beam intensity
B) beam quantity
C) beam quality
D) all of these
Question
If the intensity of the beam is 900 mR at a distance of 21 inches, what does the distance need to be for the intensity to measure 100 mR?

A) 7 inches.
B) 10.5 inches.
C) 42 inches.
D) 63 inches.
Question
The primary controlling factor for beam quality is

A) mAs
B) kVp
C) distance
D) filtration
Question
How many HVLs are needed to reduce beam intensity from 600 mR to 300 mR?

A) One.
B) Two.
C) Three.
D) Four.
Question
The remnant radiation that have an interaction with an anatomic structure is

A) primary radiation
B) filtered radiation
C) transmitted radiation
D) scattered radiation
Question
With a 75-kVp exposure, the energy of the photons displayed on the continuous emission spectrum can range from just above 0 to

A) 25 keV
B) 50 keV
C) 75 keV
D) 150 keV
Question
For a tungsten target, the discrete line on the x-ray emission spectrum is approximately

A) 59 keV
B) 69 keV
C) 79 keV
D) 89 keV
Question
The x-ray emission spectrum is a graphic illustration of

A) characteristic radiation
B) bremsstrahlung radiation
C) remnant radiation
D) characteristic radiation and bremsstrahlung radiation
E) bremsstrahlung radiation and remnant radiation
Question
The remnant radiation that did not interact with any anatomic structures is

A) primary radiation
B) secondary radiation
C) transmitted radiation
D) scattered radiation
Question
Changes along the x-axis of the x-ray emission spectrum reflect changes in the _________________ of the x-ray beam.

A) quality
B) velocity
C) quantity
D) size
Question
A discrete emission spectrum is a graphic representation of

A) characteristic radiation
B) bremsstrahlung radiation
C) remnant radiation
D) characteristic radiation and bremsstrahlung radiation
E) bremsstrahlung radiation and remnant radiation
Question
The y-axis for all emission spectra represents the

A) energy level of the photons
B) number of photons
C) HVL of the photons
D) penetrability of the radiation
Question
Increasing the kVp results in

A) an increase along the y-axis
B) a shift to the right along the x-axis
C) a shift to the left along the x-axis
D) an increase along the y-axis and a shift to the right along the x-axis
Question
The x-axis for all emission spectra represents the

A) energy level of the photons
B) number of photons
C) HVL of the photons
D) amount of transmitted radiation
Question
A continuous emission spectrum is a graphic representation of

A) characteristic radiation
B) bremsstrahlung radiation
C) remnant radiation
D) characteristic radiation and bremsstrahlung radiation
E) bremsstrahlung radiation and remnant radiation
Question
L-characteristic and higher photon energies are not usually displayed on a discrete emission spectrum because

A) there are no photons produced at those levels
B) the energies of the photons produced are too high for image production
C) the energies of the photons produced are too low for image formation
D) none of these; these photon energies are displayed
Question
The discrete emission spectrum typically displays

A) K-characteristic photon energies
B) L-characteristic photon energies
C) both of these
D) neither of these
Question
With the x-ray emission spectrum, the discrete line is the highest energy ___________________ bar.

A) J-characteristic
B) K-characteristic
C) L-characteristic
D) M-characteristic
Question
The x-ray beam that leaves the patient to expose the IR is called the

A) remnant beam
B) primary beam
C) patient beam
D) none of these
Question
With a 75-kVp exposure, the peak of the curve on the continuous emission spectrum is approximately

A) 25 keV
B) 50 keV
C) 75 keV
D) 150 keV
Question
Normal HVL of diagnostic x-ray beams is

A) 1-2 mm Al
B) 3-5 mm Al
C) 6-10 mm Al
D) 15-25 mm Al
Question
The beam that is found leaving the collimator and exposes the patient is called the

A) collimator beam
B) remnant beam
C) primary beam
D) transmitted beam
Question
If all other factors remain constant, a decrease in the mA results in

A) a shift to the right along the x-axis
B) a shift to the left along the x-axis
C) an increase along the y-axis
D) a decrease along the y-axis
Question
Changing from a high-frequency generator to a single-phase generator results in the x-ray emission spectrum

A) changing along the x-axis
B) changing along the y-axis
C) both of these
D) neither of these
Question
At the anode target, 1% of the energy from filament electrons is lost as heat and 99% will result in x-ray production.
Question
The stronger the attraction between the filament electron and the nucleus, the less energy the brems photon has.
Question
The discrete emission spectrum is limited to a few specific values.
Question
When 65 kVp is set on the operating console, no K-characteristic radiation is produced.
Question
HVL is described as a certain amount of tungsten or its equivalent that will reduce beam intensity by one half.
Question
A 65-keV filament electron is not able to produce characteristic radiation.
Question
Generally speaking, an increase in the quantity of radiation results in decreased patient dose.
Question
When the kVp is changed from 60 to 120, the discrete line on the x-ray emission spectrum shifts to the right.
Question
Adding filtration in the path of the beam results in the x-ray emission spectrum

A) changing along the x-axis
B) changing along the y-axis
C) both of these
D) neither of these
Question
As filament electrons enter the anode target, most interact with inner shell electrons of the tungsten atoms.
Question
Changing the ___________________ results in changes to the x-axis, y-axis, and location of the discrete line of the x-ray emission spectrum.

A) kVp
B) mAs
C) target material
D) distance
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Deck 6: X-Ray Production
1
If a filament electron leaves the tungsten atom with 15 keV of energy and the brems photon produced was 65 keV, how much energy did the incoming filament electron have?

A) 15 keV.
B) 50 keV.
C) 65 keV.
D) 80 keV.
80 keV.
2
The energy of the characteristic x-ray photon depends on

A) the binding energy of the inner-shell electron
B) the energy level of the filament electron
C) the shell of the electron that is dropping into the vacancy
D) all of these
all of these
3
If a filament electron enters the tungsten atom with 80 keV of energy and leaves the atom with 75 keV of energy:

A) the brems photon will be 75 keV
B) the brems photon will be 80 keV
C) the filament electron traveled very close to the nucleus
D) the filament electron traveled very far from the nucleus
the filament electron traveled very far from the nucleus
4
A filament electron removes a K shell electron and an M shell electron fills the vacancy. The K shell binding energy is 69.5 keV and the M shell binding energy is 2.8 keV. What is the energy of the K-characteristic photon produced?

A) 2.8 keV.
B) 57.4 keV.
C) 66.7 keV.
D) 69.5 keV.
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5
The average energy of a brems photon is ______ of the kVp selected at the control panel.

A) 1/3
B) 1/2
C) 2/3
D) the same as that
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k this deck
6
The process of a series of outer-shell electrons filling inner-shell vacancies right after the other is called

A) characteristic tumble
B) characteristic x-rays
C) characteristic sequence
D) characteristic cascade
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k this deck
7
To double the beam quantity

A) halve the mAs
B) leave the mAs as is and reduce the kVp
C) double the mAs
D) increase the mAs by a factor of 4 (22)
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8
The majority of the x-ray photons produced are

A) characteristic photons
B) brems photons
C) photons with energy higher than 70 keV
D) photons with energy higher than 80 keV
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k this deck
9
When filament electrons enter the anode target, they interact with

A) outer shell electrons of tungsten atoms
B) inner shell electrons of tungsten atoms
C) outer shell electrons of copper atoms
D) inner shell electrons of copper atoms
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k this deck
10
When a filament electron knocks out a K shell electron from the tungsten atom, it leads to

A) a brems x-ray photon
B) a 39.5 keV energy x-ray photon
C) a characteristic x-ray photon
D) none of these
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k this deck
11
Which of the following factors affect beam quantity?

A) kVp.
B) Distance.
C) Filtration.
D) All of these.
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k this deck
12
Which of the following is the primary factor controlling quantity?

A) kVp.
B) mAs.
C) Distance.
D) Filtration.
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13
The total number of x-ray photons in a beam is referred to as the

A) x-ray quality
B) x-ray number
C) x-ray quantity
D) x-ray beam
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14
Characteristic x-ray photons result

A) when an outer-shell electron is knocked out
B) when an inner-shell electron is knocked out
C) when outer-shell electrons fill the vacancy in an inner shell
D) when an outer-shell electron is knocked out and when outer-shell electrons fill the vacancy in an inner shell
E) when an inner-shell electron is knocked out and when outer-shell electrons fill the vacancy in an inner shell
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15
During x-ray production the electrons penetrate the target approximately

A) 0.2 mm
B) 0.5 mm
C) 2 mm
D) 5 mm
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16
During the bremsstrahlung interaction, the filament electron

A) knocks out an inner-shell electron
B) knocks out an outer-shell electron
C) is absorbed by the nucleus
D) is attracted to the nucleus but not absorbed
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17
The energy of the brems photon depends on

A) the original energy of the filament electron
B) the strength of the attraction between the electron and the nucleus
C) the energy of the filament electron as it leaves the tungsten atom
D) all of these
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18
At the anode target, how much of the energy from filament electrons is lost as heat and how much will result in x-ray production.

A) 1% energy lost as heat ; 99% result in x-rays
B) 99% energy lost as heat; 1% result in x-rays
C) 0% energy lost as heat; 100% result in x-rays
D) 100% energy lost as heat; 0% result in x-rays
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19
X-rays are produced by

A) characteristic interactions
B) uncharacteristic interactions
C) bremsstrahlung interactions
D) characteristic and bremsstrahlung interactions
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20
Bremsstrahlung means

A) electron
B) x-ray production
C) braking radiation
D) all of these
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21
One HVL reduces the intensity of the x-ray beam to _______ of its original.

A) one fourth
B) one third
C) one half
D) two thirds
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k this deck
22
A higher energy beam is said to be a ______ beam.

A) soft
B) hard
C) weak
D) powerful
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Unlock Deck
k this deck
23
Which of the following results in the equivalent of doubling the mAs if the original kVp is 80?

A) 85 kVp.
B) 92 kVp.
C) 120 kVp.
D) 160 kVp.
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k this deck
24
Beam quality refers to

A) the energy level of the radiation
B) the amount of radiation
C) how useful the radiation is
D) all of these
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k this deck
25
Filtration placed in the path of the x-ray beam

A) absorbs low-energy photons
B) absorbs high-energy photons
C) increases patient dose
D) reduces the quantity of radiation by a factor of 2
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k this deck
26
If kVp is doubled, the quantity of radiation increases by a factor of

A) 2
B) 3
C) 4
D) 8
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27
If the distance from the source is changed from 72 inches to 36 inches and the original beam intensity was 200 mR, what is the new intensity?

A) 50 mR.
B) 100 mR.
C) 400 mR.
D) 800 mR.
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28
It is recommended that kVp not be used to control beam quantity because

A) it affects scatter production
B) it affects penetrability of the beam
C) it is less predictable in how changing the kVp affects the image
D) all of these
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k this deck
29
If the kVp is changed from 30 kVp to 90 kVp, the quantity of radiation in the beam increases by a factor of

A) 2
B) 3
C) 6
D) 9
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30
The inverse square law describes the relationship between ____________ and beam intensity.

A) kVp
B) distance
C) exposure time
D) kVp.
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31
To increase the quantity of radiation by adjusting the kVp to the same level as doubling the mAs, increase kVp by a factor of

A) 2%
B) 5%
C) 15%
D) 25%
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32
If the distance from the source is doubled, the quantity of radiation reaching a specific area is _________ the original.

A) double
B) quadruple
C) half
D) one fourth
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33
Placing filtration in the path of the beam results in

A) a harder beam
B) a softer beam
C) more x-ray photons
D) a sharper image
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k this deck
34
To produce a radiographic image, which of the following conditions should NOT occur?

A) some photons penetrate the body
B) some photons do not penetrate the body
C) all photons penetrate the body
D) some photons, but not all, penetrate the body
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35
As the kVp increases

A) beam energy decreases
B) beam energy increases
C) beam penetrability increases
D) beam energy and beam penetrability increases
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36
As the distance increases, the beam quantity reaching a specific area

A) increases
B) decreases
C) stays the same
D) doubles
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37
The purpose of beam filtration is to

A) control beam quantity
B) reduce patient dose
C) reduce the wear and tear on the tube
D) all of these
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
38
Half-value layer (HVL) is used to measure

A) beam intensity
B) beam quantity
C) beam quality
D) all of these
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Unlock Deck
k this deck
39
If the intensity of the beam is 900 mR at a distance of 21 inches, what does the distance need to be for the intensity to measure 100 mR?

A) 7 inches.
B) 10.5 inches.
C) 42 inches.
D) 63 inches.
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Unlock Deck
k this deck
40
The primary controlling factor for beam quality is

A) mAs
B) kVp
C) distance
D) filtration
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Unlock Deck
k this deck
41
How many HVLs are needed to reduce beam intensity from 600 mR to 300 mR?

A) One.
B) Two.
C) Three.
D) Four.
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Unlock Deck
k this deck
42
The remnant radiation that have an interaction with an anatomic structure is

A) primary radiation
B) filtered radiation
C) transmitted radiation
D) scattered radiation
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Unlock Deck
k this deck
43
With a 75-kVp exposure, the energy of the photons displayed on the continuous emission spectrum can range from just above 0 to

A) 25 keV
B) 50 keV
C) 75 keV
D) 150 keV
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k this deck
44
For a tungsten target, the discrete line on the x-ray emission spectrum is approximately

A) 59 keV
B) 69 keV
C) 79 keV
D) 89 keV
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Unlock Deck
k this deck
45
The x-ray emission spectrum is a graphic illustration of

A) characteristic radiation
B) bremsstrahlung radiation
C) remnant radiation
D) characteristic radiation and bremsstrahlung radiation
E) bremsstrahlung radiation and remnant radiation
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Unlock Deck
k this deck
46
The remnant radiation that did not interact with any anatomic structures is

A) primary radiation
B) secondary radiation
C) transmitted radiation
D) scattered radiation
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Unlock Deck
k this deck
47
Changes along the x-axis of the x-ray emission spectrum reflect changes in the _________________ of the x-ray beam.

A) quality
B) velocity
C) quantity
D) size
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Unlock Deck
k this deck
48
A discrete emission spectrum is a graphic representation of

A) characteristic radiation
B) bremsstrahlung radiation
C) remnant radiation
D) characteristic radiation and bremsstrahlung radiation
E) bremsstrahlung radiation and remnant radiation
Unlock Deck
Unlock for access to all 72 flashcards in this deck.
Unlock Deck
k this deck
49
The y-axis for all emission spectra represents the

A) energy level of the photons
B) number of photons
C) HVL of the photons
D) penetrability of the radiation
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Unlock Deck
k this deck
50
Increasing the kVp results in

A) an increase along the y-axis
B) a shift to the right along the x-axis
C) a shift to the left along the x-axis
D) an increase along the y-axis and a shift to the right along the x-axis
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Unlock Deck
k this deck
51
The x-axis for all emission spectra represents the

A) energy level of the photons
B) number of photons
C) HVL of the photons
D) amount of transmitted radiation
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52
A continuous emission spectrum is a graphic representation of

A) characteristic radiation
B) bremsstrahlung radiation
C) remnant radiation
D) characteristic radiation and bremsstrahlung radiation
E) bremsstrahlung radiation and remnant radiation
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53
L-characteristic and higher photon energies are not usually displayed on a discrete emission spectrum because

A) there are no photons produced at those levels
B) the energies of the photons produced are too high for image production
C) the energies of the photons produced are too low for image formation
D) none of these; these photon energies are displayed
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54
The discrete emission spectrum typically displays

A) K-characteristic photon energies
B) L-characteristic photon energies
C) both of these
D) neither of these
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55
With the x-ray emission spectrum, the discrete line is the highest energy ___________________ bar.

A) J-characteristic
B) K-characteristic
C) L-characteristic
D) M-characteristic
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56
The x-ray beam that leaves the patient to expose the IR is called the

A) remnant beam
B) primary beam
C) patient beam
D) none of these
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57
With a 75-kVp exposure, the peak of the curve on the continuous emission spectrum is approximately

A) 25 keV
B) 50 keV
C) 75 keV
D) 150 keV
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58
Normal HVL of diagnostic x-ray beams is

A) 1-2 mm Al
B) 3-5 mm Al
C) 6-10 mm Al
D) 15-25 mm Al
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59
The beam that is found leaving the collimator and exposes the patient is called the

A) collimator beam
B) remnant beam
C) primary beam
D) transmitted beam
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60
If all other factors remain constant, a decrease in the mA results in

A) a shift to the right along the x-axis
B) a shift to the left along the x-axis
C) an increase along the y-axis
D) a decrease along the y-axis
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61
Changing from a high-frequency generator to a single-phase generator results in the x-ray emission spectrum

A) changing along the x-axis
B) changing along the y-axis
C) both of these
D) neither of these
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62
At the anode target, 1% of the energy from filament electrons is lost as heat and 99% will result in x-ray production.
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63
The stronger the attraction between the filament electron and the nucleus, the less energy the brems photon has.
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64
The discrete emission spectrum is limited to a few specific values.
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65
When 65 kVp is set on the operating console, no K-characteristic radiation is produced.
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66
HVL is described as a certain amount of tungsten or its equivalent that will reduce beam intensity by one half.
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67
A 65-keV filament electron is not able to produce characteristic radiation.
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68
Generally speaking, an increase in the quantity of radiation results in decreased patient dose.
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69
When the kVp is changed from 60 to 120, the discrete line on the x-ray emission spectrum shifts to the right.
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70
Adding filtration in the path of the beam results in the x-ray emission spectrum

A) changing along the x-axis
B) changing along the y-axis
C) both of these
D) neither of these
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71
As filament electrons enter the anode target, most interact with inner shell electrons of the tungsten atoms.
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72
Changing the ___________________ results in changes to the x-axis, y-axis, and location of the discrete line of the x-ray emission spectrum.

A) kVp
B) mAs
C) target material
D) distance
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