Final Exam Review

Question 1

______ is energy in transit, either as particles or electromagnetic waves…

Answer 1

Radiation

Question 2

______ is the characteristic of various materials to emit ionizing radiation…

Answer 2

Radioactivity

Question 3

______ is the removal of electrons from an atom and the essential characteristic of high energy radiations when interacting with matter…

Answer 3

Ionization

Question 4

T/F, Electromagnetic energy of different sources and their ionizing ability are directly proportionate to their wavelength. As the wavelength decreases, the energy and ionizing potential will decrease…

Answer 4

FALSE: Electromagnetic energy of different sources and their ionizing ability are inversely proportionate to their wavelength. As the wavelength decreases, the energy and ionizing potential increases.

Question 5

What is the largest man made source of ratiation?

Answer 5

Medical imaging (x-rays) 11%

Question 6

What is the largest naturally occurring source of radiation?

Answer 6

Radon Gas (55%)

Question 7

T/F: X-rays represent a form of man-made electromagnetic radiation…

Answer 7

TRUE

Question 8

The cathode is what charge, and the anode is what charge?

Answer 8

Cathode -

Anode +

Question 9

What are 5 characteristics of X-rays?

Answer 9

1 - Penetrate most matters
2 - Invisible
3 - No charge
4 - Cause ionization and biological changes
5 - Make compounds emit light

Question 10

The x-rays produced include _____ and ____ radiation…

Answer 10

Bremsstrahlung, characteristic

Question 11

How are Bremsstrahlung x-rays made?

Answer 11

Bremsstrahlung x-rays are produced due to sudden deceleration of fast moving electrons when they collide and interact with the target anode’s nucleus

Question 12

In the process of Bremsstrahlung x-rays being made how much of the energy is actually converted to usable x-rays?

Answer 12

In the process of deceleration more than 99% of the electron energy is converted into heat and less than 1% of energy is converted into x-rays

Question 13

T/F: Bremsstrahlung x-rays represent majority in the x-ray spectrum produced at the anode

Answer 13

TRUE

Question 14

How is characteristic radiation made?

Answer 14

When a fast moving electron collides with a K-shell electron, the electron in the K-shell is ejected (provided the energy of incident electron is greater than the binding energy of K-shell electron) leaving behind a “void” The void left behind is filled by an outer shell electron (from the L-shell, M-shell etc.) with an emission of a single x-ray photon, called characteristic radiation

Question 15

X-rays can interact with matter by what 5 ways?

Answer 15

1 - PE effect
2 - Compton effect
3 - Classical/Coherent, Thompson Scatter
4 - Photodisintegration
5 - Pair production

Question 16

This statement describes which interaction with matter: Relatively low energy x-ray photons interact with the atomic electron and removes it from its shell and the energy of the x-photon is equal to or just greater than the binding energy of the electron in its shell…

Answer 16

Photoelectric effect

Question 17

T/F: The probability of the photoelectric effect increases when the kVp is decreased…

Answer 17

TRUE

Question 18

Contrast is increased when kVp has (increased/decreased)?

Answer 18

Decreased

Question 19

During the PE effect the electron that is removed is then called a ______

Answer 19

Photoelectron

Question 20

During the PE effect the incident photon is completely absorbed in the process thus the reason for the _____ of x-ray beam as it passes through different matter…

Answer 20

Attenuation

Question 21

T/F: IN the PE effect a secondary characteristic radiation photon is also produced in the process…

Answer 21

TRUE

Question 22

What happens to the PE effect when the atomic mass is increased?

Answer 22

If atomic number (Z) increases, PE will increase

Question 23

As x-ray energy increases what three things take place relative to the PE effect?

Answer 23

1 - increased penetration through tissue without interaction
2 - Less PE effect relative to compton effect
3 - Reduced absolute PE effect

Question 24

As mass density increases what happens to the photoelectric effect?

Answer 24

As mass density of absorber increases it leads to a proportional INCREASE in PE absorption

Question 25

T/F: The pgotoelectric effect is most likely to occur with outer-shell electrons, loosely bound electrons, and when x-ray energy is just higher than electron-binding energy…

Answer 25

FALSE: The PE effect is most likely to occur with inner shell electrons, tightly bound electrons and when x-ray energy is just higher than electron-binding energy

Question 26

Compton scatter is most likely to occur with (outer/inner) - shell electrons?

Answer 26

Outer

Question 27

AS x-ray energy increases what happens to the Compton effect?

Answer 27

Increased penetration through tissue without interaction (decrease in compton effect), however, there is increased compton scattering relative to PE effect

Question 28

As atomic number of absorber increases what happens to compton scattering?

Answer 28

No effect on compton scattering

Question 29

As mass density of absorber increases what happens to compton scattering?

Answer 29

Proportional increase in Compton scattering

Question 30

T/F: Compton scatting has no useful contribution to the radiographic image and creates fogging, lowering image contrast…

Answer 30

TRUE

Question 31

How does Differential Absorption occur?

Answer 31

DIfferential Absorption occurs because of compton scattering, PE effect, and x-rays transmitted through the patient

Question 32

Define radiopaque…

Answer 32

Radiopaque - or opaque, the relative capacity of matter to obstruct the transmission of radiant energy. When x-rays are obstructed the film appears light. (Ex. Bone or metal or soft tissue radiopacity)

Question 33

Define radiolucent…

Answer 33

Radiolucent - or non-opaque, being permeable to radiation or penetrable by x-rays. When x-rays are not absorbed and obstructed the film is dark.

Question 34

What is the difference between the radiopaque and the radiolucent areas of the body, these areas give _____ or differential absorption of the image.

Answer 34

Contrast

Question 35

Differential absorption (contrast) increases as the kVp (energy) is ________ (increased/reduced)

Answer 35

Reduced

Question 36

As x-ray energy increases what happens to each of the following:

1) compton scattering
2) PE effect
3) Exposure of the film

Answer 36

1) fewer compton interactions
2) Many fewer PE interactions
3) More transmission through tissue exposing (blackening) the film

Question 37

As atomic mass density increases what happens to each of the following:

1) compton scattering
2) PE effect
3) Exposure of the film

Answer 37

1) Proportional increase in Compton interactions
2) Proportional increase in PE interactions
3) Proportional reduction in x-ray transmission “whitening” the film more

Question 38

The process by which radiation loses power as it travels through matter and interacts with it is known as….

Answer 38

Attenuation

Question 39

T/F: Beam attenuation is the basis of the contrast observed in all x-ray based imaging methods…

Answer 39

True

Question 40

The x-ray tube contains two principal elements. The _________ which provides electrons, while the _________ acts as the target for electrons and releases x-rays whilst dissipating heat.

Answer 40

Cathode (+)

Anode (-)

Question 41

T/F: The anode expels the electrons from the circuit and focus them in a beam towards the focal spot of the cathode…

Answer 41

False, The cathode expels the electrons from the circuit and focuses them in a beam towards the focal spot of the anode….

Question 42

The electrons are produced by heating the filament, i.e., a coil of wire made from __________, placed within the focusing cup that provides electrostatic focusing of the beam on the anode’s focal spot (can be Large or Small)

Answer 42

Tungsten

Question 43

In order to expel the electrons they need to be given the energy. Heat is used to expel the electrons from the cathode, this process is called…

Answer 43

Thermionic emission

Question 44

T/F: In the Cathode the filament is heated with the high electric current passing through it, reaching glowing temperature and the electrons are then expelled from the cathode…

Answer 44

FALSE: Cathode is heated with the LOW electric current passing through it…

Question 45

T/F: Positron Emission refers to the collection of electrons which are emitted from the metal filament surface, after the application of tube current, at a short distance away from the metal surface…

Answer 45

FALSE: SPACE CHARGE refers to the collection of electrons which are emitted from the metal filament surface, after the application of tube current, at a short distance away from the metal surface…

Question 46

Electrons collect and form a could of (-) charge which forms around the metal surface of the cathode. This space charge limits the further emission of electrons from the surface and is referred to as what?

Answer 46

Space Charge effect

Question 47

The ___ of an x-ray tube represents the component in which the x-rays are produced?

Answer 47

Anode (+)

Question 48

The whole anode is not included in the x-ray production. The x-rays are produced at small rectangular surface called the…

Answer 48

Focal spot

Question 49

There are _____ focal spots chosen according to the image procedure and (mAs) selected by the radiologist, and choosing the wrong focal spot may contribute to heat-related damage of the anode…

Answer 49

Two focal spots (Large/Small)

Question 50

Describe the Anode Heel Effect…

Answer 50

The x-ray beam consists of a central ray and a diverging beam. The x-rays towards the cathode end of the tube have more intensity. This is because, in a diverging beam, the rays which are parallel or near parallel to the inclined/angulated anode get absorbed by the anode itself. Thus in radiographic positioning, thicker patient’s part should be positioned to the cathode (-) end of the tube and vice versa

Question 51

T/F: A patients thicker parts should be placed towards the Anode (+) end of the tube…

Answer 51

FALSE: Thicker parts should be placed towards the cathode end of the tube…

Question 52

mAs = milliamps x seconds (time) = mAs milliamp (1/1000 of ampere) times (x) TIME (in seconds). This is what controls the ______ (quantity/quality) of electrons and x-ray photons produced…

Answer 52

Quantity/Amount

Question 53

T/F: mAs controls the BLACKENING or DENSITY on the x-ray film…

Answer 53

TRUE

Question 54

kVp: kilovolt Peak is the component that controls the _____ of the x-ray beam produced…

Answer 54

Quality

Question 55

kVp is what controls the _____ or ______ in the produced x-ray film…

Answer 55

Contrast, Gray Scale

Question 56

T/F: the higher the kVp the higher the contrast…

Answer 56

FALSE: the higher the kVp the lower the contrast

Question 57

T/F: When the kV is set on the control console, the maximum kilovolt that will be achieved is 33% of the number you have selected. For example, if you set the kVp at “60”, the maximum kilovolt that will be produced is 20kV, or 20,000 volts.

Answer 57

FALSE: When the kV is set on the control console, the maximum kilovolt that will be achieved is the number you have selected. For example, if you set the kVp at “60”, the maximum kilovolt that will be produced is 60kV, or 60,000 volts…

Question 58

Change in 10-15 kVp an equivalent change in mAs could be ____%?

Answer 58

50% mAs

Question 59

The __________ is the width of a material required to reduce the x-ray or gamma-ray beam to half its original value…

Answer 59

Half Value Layer (HVL)

Question 60

T/F: The HVL is a direct measure of photon energy or the hardness of a beam…

Answer 60

FALSE: The HVL is an INDIRECT measure of photon energy or the hardness of a beam…

Question 61

HVL is measured in millimeters of what type of material?

Answer 61

Aluminum

Question 62

T/F: Filters are metallic sheets that are used to absorb the low energy x-ray photons from the spectrum thus reducing the patient dose…

Answer 62

TRUE

Question 63

What are the two types of filtration?

Answer 63

Inherent filtration (tube and housing)
Added filtration (aluminum and copper)

Question 64

Select the false statement (dealing with Collimators):

1) Collimators are devices that are used in the x-ray tube housing in such a way that the light and x-ray fields match each other
2) They are made of aluminum shutters which completely absorb the photons
3) Thus reduce patient dose as well as focus the radiation accordingly to the area of interest
4) They allow different projections of x-ray fields

Answer 64

2) They are made of LEAD shutters which completely absorb the photons

Question 65

Select the false statement (dealing with Grids):

1) Grids are placed between the patient and the image receptor to reduce the scattered radiation (produced mainly by Compton effect) and thus improve image contrast
2) Grids are made of parallel strips of lead with an interspace having an aluminum or organic spacer
3) The strips can be oriented either linear or crossed in their longitudinal axis
4) Grids are useful as the scatter radiation is decreased in “thinner” patients and when the field size is left small (poor collimation or a type of view)
5) Grids are very useful in such scenarios to improve image contrast

Answer 65

4) Grids are useful as the scatter radiation is INCREASED in “THICKER” patients and when the field size is left LARGE (poor collimation or a difficult type of view)

Question 66

T/F: Grid ratio of 8:1 or 10:1 is generally used for 70-90 kVp technique and 12:1 is used for >90 kVp technique

Answer 66

TRUE

Question 67

When are Grids most commonly used?

Answer 67

Grids are mostly used for: Abdomen, Pelvis and Spine (except lateral cervical, this uses air-gap technique) imaging…

Question 68

T/F: The higher the grid ratio, the worse the image contrast (less scatter clean up) but at a benefit of reduced patient dose…

Answer 68

FALSE: The higher the grid ratio, the better the image contrast (more scatter clean up) but at a cost of increased patient dose

Question 69

What are 5 typical problems radiographers run into with grids?

Answer 69

1) Off-level: cut-off across entire image, LIGHT image
2) Off-centre: cut-off across entire image, LIGHT image
3) Off-focus: cut-off towards the edge of the image
4) Upside-down grid: severe cut-off towards the edge of the film
5) Off-focus and off-centre grid: DARK on one side and LIGHT on the other side

Question 70

As tissue mass density increases what happens to each of the following:

1) compton scatter
2) PE effect
3) Exposure of the film

Answer 70

1) Proportional INCREASE in compton interactions
2) Proportional INCREASE in PE interaction
3) Proportional reduction in x-ray transmission “whitening” the film more