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Deck 3: Transducers

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Question
In a single-element transducer,additional beams not included in the ultrasound beam are called _____________.

A) grating lobes
B) side lobes
C) slice thickness
D) scattering
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Question
The useful frequency range for most diagnostic applications is ____________ MHz.

A) 1-15
B) 2-20
C) 2-15
D) 1-50
Question
The transducer element converts _________ to _______ and vice versa.

A) voltage; electricity
B) pulses; ultrasound
C) ultrasound; voltage
D) electricity; ultrasound
Question
Which of the following is attached to the rear face of the transducer element?

A) Damping.
B) Ceramics.
C) Matching layer.
D) Coupling media.
Question
The matching layer __________________.

A) reduces reflection of ultrasound at element
B) reduces transmission of ultrasound at element
C) increases reflection of the ultrasound element
D) increases the spatial pulse length
Question
Which resolution relates more directly to transducers?

A) Temporal.
B) Contrast.
C) Vectoral.
D) Detail.
Question
What principle states that some materials produce a voltage when deformed by an applied pressure?

A) ALARA (as low as reasonably achievable) principle.
B) Piezoelectric principle.
C) Snell's principle.
D) Huygens' principle.
Question
The critical temperature an ultrasound transducer cannot exceed is called the ________.

A) Curie point
B) quality factor
C) critical point
D) piezoelectric point
Question
The transducer has an impedance ______ times that of tissue.

A) 4
B) 10
C) 20
D) 6
Question
Another name for the Fresnel zone is ________________.

A) near zone
B) far zone
C) field length
D) near path length
Question
The linear image consists of _______ scan lines.

A) vertical
B) oblique
C) horizontal
D) perpendicular
Question
Sequenced,phased,and vector are types of ________.

A) transducers
B) operations
C) focusing
D) construction
Question
Lateral resolution is equal to _____________.

A) wavelength/2
B) beam width
C) spatial pulse length/2
D) operating frequency/2
Question
Arrays are operated in two ways,called ___________ and ___________.

A) linear; convex
B) sequencing; phasing
C) pulse wave; continuous wave
D) spatial; angular
Question
If the propagation speed of the transducer element material is 6 mm/µs,the operating frequency for a thickness of 0.2 mm is ______ MHz.

A) 15
B) 30
C) 12
D) 7.5
Question
Factors determining axial resolution are the ________________.

A) frequency and wavelength
B) beam diameter and element thickness
C) number of cycles in the pulse and wavelength
D) propagation speed and number of cycles in a pulse
Question
Which of the following frequencies is operated by the thinnest element?

A) 2.5 MHz.
B) 3.5 MHz.
C) 7.5 MHz.
D) 10.0 MHz.
Question
At a distance of two near-zone lengths,the beam diameter is _______ the diameter of the transducer element.

A) one half of
B) double
C) equal to
D) triple
Question
Coupling medium is applied to the transducer-tissue boundary to increase _________ of the sound wave.

A) reflection
B) scattering
C) refraction
D) transmission
Question
Electric _______ applied to a transducer are converted to ultrasound.

A) pulses
B) waves
C) echoes
D) voltages
Question
___________ array is the combination of linear and phased array operations.

A) Phased
B) Convex
C) Vector
D) Interventional
Question
Arrays have additional beams resulting from their multi-element structure called ________.

A) speckle
B) side lobes
C) refraction
D) grating lobes
Question
Partial-volume artifact is also called ____________.

A) section thickness artifact
B) side lobe artifact
C) refraction artifact
D) grating lobe artifact
Question
Invasive transducers ________.

A) decrease detail resolution
B) utilize smaller wavelengths
C) increase imaging depth
D) utilize lower frequencies
Question
The dimension perpendicular to the scan plane is called ________.

A) side lobes
B) section thickness
C) grating lobes
D) variable aperture
Question
Without compensation,the ultrasound transducer would cause about _________ of the emitted intensity to be reflected at the skin boundary.

A) 25%
B) 80%
C) 10%
D) 50%
Question
If the propagation speed of the transducer element is 4 mm/µs,the thickness required for an operating frequency of 10 MHz is ________.

A) 0.4 mm
B) 0.8 mm
C) 0.2 mm
D) 0.1 mm
Question
The near-zone length is determined by the size and the _________ of the element.

A) thickness
B) propagation speed
C) operating frequency
D) All of the above.
Question
Increasing the transducer frequency decreases the ________.

A) frame rate
B) detail resolution
C) propagation speed
D) maximum imaging depth
Question
The purpose of the coupling medium is ________.

A) to provide patient comfort
B) to produce an air pocket
C) to reduce the number of cycles in a pulse
D) to facilitate passage of ultrasound into human tissue
Question
Ultrasound transducers operate according to _____________.

A) Snell's law
B) Huygen's principle
C) the piezoelectric principle
D) the piezoenergy principle
Question
Intravascular imaging generally utilizes a frequency range ________.

A) between 2.5 and 5.0 MHz
B) between 5.0 and 7.5 MHz
C) between 10.0 and 15 MHz
D) up to 50 MHz
Question
Electronic scanning is performed by ________ transducers.

A) linear
B) array
C) sector
D) mechanical
Question
In a curved array,the pulses travel ________.

A) out in different directions
B) in straight lines
C) faster in the center of the beam
D) from an apex
Question
Which image format is similar to that for convex array except that the footprint is smaller?

A) Sector.
B) Vector.
C) Curvilinear.
D) Interventional.
Question
Phasing can ________.

A) focus the beam
B) improve the image quality
C) steer the beam
D) All of the above.
Question
The three aspects to imaging resolution are contrast,temporal,and ________ resolution.

A) depth
B) angular
C) detail
D) spatial
Question
Shortening the pulses in diagnostic ultrasound broadens the ______________.

A) bandwidth
B) duty factor
C) pulse duration
D) lateral resolution
Question
Which of the following describes the far zone?

A) It lies within one near zone length.
B) It is called the Fresnel zone.
C) Its beam width (diameter) increases with increasing depth.
D) The length of the far zone increases with increases in frequency.
Question
Linear and convex are types of ________ arrays.

A) focusing
B) operation
C) assembly
D) scanning
Question
Axial resolution is determined by the width of the ultrasound beam.
Question
The focal length is the distance between equal beam widths that are some multiple of the minimum value at the focus.
Question
Utilization of multiple focal points is likely to achieve a ________.

A) short focus
B) narrow focus
C) long focus
D) wide focus
Question
As sound travels,the width of the beam remains unchanged.
Question
The matching layer increases reflection of the transducer element.
Question
Which of the following is achieved within the Fresnel zone?

A) Focusing of the sound beam.
B) Divergence of the sound beam.
C) Increasing of the beam width.
D) Uniform intensity of the sound beam.
Question
With phasing,the reception beam is ________ and dynamically ________.

A) focused; steered
B) steered; focused
C) variable; focused
D) generated; received
Question
Which of the following determines the beam width at the focus?

A) Focal length and frequency.
B) Aperture, focal length, and wavelength.
C) Aperture propagation speed and thickness.
D) Spatial pulse length and propagation speed of the element.
Question
The impedance of the matching layer is ________.

A) an intermediate value between the transducer element and tissue
B) greater than the value between the transducer element and tissue
C) less than the value between the transducer element and tissue
D) equal to the impedance of tissue
Question
The distance from the transducer to the center of the focal region is called the ________.

A) focus
B) path length
C) focal length
D) focal zone length
Question
Continuous-wave (CW) transducers have higher efficiencies because energy is not lost to damping material.
Question
Axial resolution is the ________.

A) minimum separation necessary to resolve reflectors along the scan line
B) ability to differentiate similar and dissimilar tissue
C) minimum separation necessary to resolve reflectors perpendicular to the beam direction
D) ability to differentiate a moment in time
Question
If the aperture increases,the near-zone length ________.

A) doubles
B) increases
C) decreases
D) remains unchanged
Question
The operating frequency depends on the element propagation speed and thickness
Question
Many frequencies are present in short pulses.
Question
Utilizing multiple focal zones simultaneously increases image detail resolution and degrades ________.

A) contrast resolution
B) temporal resolution
C) sectional thickness
D) harmonic frequencies
Question
Damping material in pulsed transducers increases the spatial pulse length.
Question
With a linear phased array transducer,the elements measure the width of about ________.

A) one wavelength
B) two wavelengths
C) one half of a wavelength
D) one quarter of a wavelength
Question
The near-zone length decreases with an increase in frequency.
Question
Lateral resolution remains consistent at any depth.
Question
Wide bandwidth allows harmonic imaging.
Question
The three aspects of imaging resolution include axial,contrast,and temporal resolution.
Question
Multi-Hertz transducers are driven at only one selectable frequency.
Question
The frequency of a transducer is determined by the diameter and the propagation speed of the element.
Question
Even unfocused transducers have a natural focus.
Question
Elevational resolution can be considered a third aspect of detail resolution.
Question
Various formulations of lead zirconate titanate are commonly used in modern day transducers.
Question
Focusing in the section-thickness plane reduces section thickness artifact.
Question
Intensity is uniform throughout the beam.
Question
Axial resolution is often normally better than lateral resolution.
Question
Minimum reflector separation in the direction perpendicular to the beam direction describes axial resolution.
Question
Ceramics used as materials in the production of modern ultrasound transducer elements are naturally piezoelectric.
Question
Beam width can be reduced by focusing to improve lateral resolution.
Question
Contrast and temporal resolution relate more directly to the transducer.
Question
The thicker the section thickness,the less its negative impact on sonographic images.
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Deck 3: Transducers
1
In a single-element transducer,additional beams not included in the ultrasound beam are called _____________.

A) grating lobes
B) side lobes
C) slice thickness
D) scattering
B
In a single-element transducer,additional beams not included in the ultrasound beam are called side lobes.
2
The useful frequency range for most diagnostic applications is ____________ MHz.

A) 1-15
B) 2-20
C) 2-15
D) 1-50
B
The useful frequency range for most diagnostic applications is 2-20 MHz.Frequencies up to 50 MHz are used in ophthalmologic,dermatologic,and intravascular imaging.
3
The transducer element converts _________ to _______ and vice versa.

A) voltage; electricity
B) pulses; ultrasound
C) ultrasound; voltage
D) electricity; ultrasound
D
The transducer element refers to the piece of piezoelectric material that converts electricity to ultrasound and vice versa.
4
Which of the following is attached to the rear face of the transducer element?

A) Damping.
B) Ceramics.
C) Matching layer.
D) Coupling media.
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Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
5
The matching layer __________________.

A) reduces reflection of ultrasound at element
B) reduces transmission of ultrasound at element
C) increases reflection of the ultrasound element
D) increases the spatial pulse length
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
6
Which resolution relates more directly to transducers?

A) Temporal.
B) Contrast.
C) Vectoral.
D) Detail.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
7
What principle states that some materials produce a voltage when deformed by an applied pressure?

A) ALARA (as low as reasonably achievable) principle.
B) Piezoelectric principle.
C) Snell's principle.
D) Huygens' principle.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
8
The critical temperature an ultrasound transducer cannot exceed is called the ________.

A) Curie point
B) quality factor
C) critical point
D) piezoelectric point
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
9
The transducer has an impedance ______ times that of tissue.

A) 4
B) 10
C) 20
D) 6
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k this deck
10
Another name for the Fresnel zone is ________________.

A) near zone
B) far zone
C) field length
D) near path length
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k this deck
11
The linear image consists of _______ scan lines.

A) vertical
B) oblique
C) horizontal
D) perpendicular
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Unlock Deck
k this deck
12
Sequenced,phased,and vector are types of ________.

A) transducers
B) operations
C) focusing
D) construction
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Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
13
Lateral resolution is equal to _____________.

A) wavelength/2
B) beam width
C) spatial pulse length/2
D) operating frequency/2
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Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
14
Arrays are operated in two ways,called ___________ and ___________.

A) linear; convex
B) sequencing; phasing
C) pulse wave; continuous wave
D) spatial; angular
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Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
15
If the propagation speed of the transducer element material is 6 mm/µs,the operating frequency for a thickness of 0.2 mm is ______ MHz.

A) 15
B) 30
C) 12
D) 7.5
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16
Factors determining axial resolution are the ________________.

A) frequency and wavelength
B) beam diameter and element thickness
C) number of cycles in the pulse and wavelength
D) propagation speed and number of cycles in a pulse
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Unlock for access to all 75 flashcards in this deck.
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k this deck
17
Which of the following frequencies is operated by the thinnest element?

A) 2.5 MHz.
B) 3.5 MHz.
C) 7.5 MHz.
D) 10.0 MHz.
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18
At a distance of two near-zone lengths,the beam diameter is _______ the diameter of the transducer element.

A) one half of
B) double
C) equal to
D) triple
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k this deck
19
Coupling medium is applied to the transducer-tissue boundary to increase _________ of the sound wave.

A) reflection
B) scattering
C) refraction
D) transmission
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k this deck
20
Electric _______ applied to a transducer are converted to ultrasound.

A) pulses
B) waves
C) echoes
D) voltages
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
21
___________ array is the combination of linear and phased array operations.

A) Phased
B) Convex
C) Vector
D) Interventional
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
22
Arrays have additional beams resulting from their multi-element structure called ________.

A) speckle
B) side lobes
C) refraction
D) grating lobes
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
23
Partial-volume artifact is also called ____________.

A) section thickness artifact
B) side lobe artifact
C) refraction artifact
D) grating lobe artifact
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
24
Invasive transducers ________.

A) decrease detail resolution
B) utilize smaller wavelengths
C) increase imaging depth
D) utilize lower frequencies
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
25
The dimension perpendicular to the scan plane is called ________.

A) side lobes
B) section thickness
C) grating lobes
D) variable aperture
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k this deck
26
Without compensation,the ultrasound transducer would cause about _________ of the emitted intensity to be reflected at the skin boundary.

A) 25%
B) 80%
C) 10%
D) 50%
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
27
If the propagation speed of the transducer element is 4 mm/µs,the thickness required for an operating frequency of 10 MHz is ________.

A) 0.4 mm
B) 0.8 mm
C) 0.2 mm
D) 0.1 mm
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
28
The near-zone length is determined by the size and the _________ of the element.

A) thickness
B) propagation speed
C) operating frequency
D) All of the above.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
29
Increasing the transducer frequency decreases the ________.

A) frame rate
B) detail resolution
C) propagation speed
D) maximum imaging depth
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Unlock Deck
k this deck
30
The purpose of the coupling medium is ________.

A) to provide patient comfort
B) to produce an air pocket
C) to reduce the number of cycles in a pulse
D) to facilitate passage of ultrasound into human tissue
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
31
Ultrasound transducers operate according to _____________.

A) Snell's law
B) Huygen's principle
C) the piezoelectric principle
D) the piezoenergy principle
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
32
Intravascular imaging generally utilizes a frequency range ________.

A) between 2.5 and 5.0 MHz
B) between 5.0 and 7.5 MHz
C) between 10.0 and 15 MHz
D) up to 50 MHz
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
33
Electronic scanning is performed by ________ transducers.

A) linear
B) array
C) sector
D) mechanical
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
34
In a curved array,the pulses travel ________.

A) out in different directions
B) in straight lines
C) faster in the center of the beam
D) from an apex
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
35
Which image format is similar to that for convex array except that the footprint is smaller?

A) Sector.
B) Vector.
C) Curvilinear.
D) Interventional.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
36
Phasing can ________.

A) focus the beam
B) improve the image quality
C) steer the beam
D) All of the above.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
37
The three aspects to imaging resolution are contrast,temporal,and ________ resolution.

A) depth
B) angular
C) detail
D) spatial
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
38
Shortening the pulses in diagnostic ultrasound broadens the ______________.

A) bandwidth
B) duty factor
C) pulse duration
D) lateral resolution
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
39
Which of the following describes the far zone?

A) It lies within one near zone length.
B) It is called the Fresnel zone.
C) Its beam width (diameter) increases with increasing depth.
D) The length of the far zone increases with increases in frequency.
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k this deck
40
Linear and convex are types of ________ arrays.

A) focusing
B) operation
C) assembly
D) scanning
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Unlock Deck
k this deck
41
Axial resolution is determined by the width of the ultrasound beam.
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k this deck
42
The focal length is the distance between equal beam widths that are some multiple of the minimum value at the focus.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
43
Utilization of multiple focal points is likely to achieve a ________.

A) short focus
B) narrow focus
C) long focus
D) wide focus
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
44
As sound travels,the width of the beam remains unchanged.
Unlock Deck
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Unlock Deck
k this deck
45
The matching layer increases reflection of the transducer element.
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Unlock Deck
k this deck
46
Which of the following is achieved within the Fresnel zone?

A) Focusing of the sound beam.
B) Divergence of the sound beam.
C) Increasing of the beam width.
D) Uniform intensity of the sound beam.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
47
With phasing,the reception beam is ________ and dynamically ________.

A) focused; steered
B) steered; focused
C) variable; focused
D) generated; received
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
48
Which of the following determines the beam width at the focus?

A) Focal length and frequency.
B) Aperture, focal length, and wavelength.
C) Aperture propagation speed and thickness.
D) Spatial pulse length and propagation speed of the element.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
49
The impedance of the matching layer is ________.

A) an intermediate value between the transducer element and tissue
B) greater than the value between the transducer element and tissue
C) less than the value between the transducer element and tissue
D) equal to the impedance of tissue
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
50
The distance from the transducer to the center of the focal region is called the ________.

A) focus
B) path length
C) focal length
D) focal zone length
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Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
51
Continuous-wave (CW) transducers have higher efficiencies because energy is not lost to damping material.
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
52
Axial resolution is the ________.

A) minimum separation necessary to resolve reflectors along the scan line
B) ability to differentiate similar and dissimilar tissue
C) minimum separation necessary to resolve reflectors perpendicular to the beam direction
D) ability to differentiate a moment in time
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
53
If the aperture increases,the near-zone length ________.

A) doubles
B) increases
C) decreases
D) remains unchanged
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Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
54
The operating frequency depends on the element propagation speed and thickness
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k this deck
55
Many frequencies are present in short pulses.
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k this deck
56
Utilizing multiple focal zones simultaneously increases image detail resolution and degrades ________.

A) contrast resolution
B) temporal resolution
C) sectional thickness
D) harmonic frequencies
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
57
Damping material in pulsed transducers increases the spatial pulse length.
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k this deck
58
With a linear phased array transducer,the elements measure the width of about ________.

A) one wavelength
B) two wavelengths
C) one half of a wavelength
D) one quarter of a wavelength
Unlock Deck
Unlock for access to all 75 flashcards in this deck.
Unlock Deck
k this deck
59
The near-zone length decreases with an increase in frequency.
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k this deck
60
Lateral resolution remains consistent at any depth.
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k this deck
61
Wide bandwidth allows harmonic imaging.
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k this deck
62
The three aspects of imaging resolution include axial,contrast,and temporal resolution.
Unlock Deck
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Unlock Deck
k this deck
63
Multi-Hertz transducers are driven at only one selectable frequency.
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k this deck
64
The frequency of a transducer is determined by the diameter and the propagation speed of the element.
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k this deck
65
Even unfocused transducers have a natural focus.
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66
Elevational resolution can be considered a third aspect of detail resolution.
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k this deck
67
Various formulations of lead zirconate titanate are commonly used in modern day transducers.
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k this deck
68
Focusing in the section-thickness plane reduces section thickness artifact.
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k this deck
69
Intensity is uniform throughout the beam.
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k this deck
70
Axial resolution is often normally better than lateral resolution.
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k this deck
71
Minimum reflector separation in the direction perpendicular to the beam direction describes axial resolution.
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k this deck
72
Ceramics used as materials in the production of modern ultrasound transducer elements are naturally piezoelectric.
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k this deck
73
Beam width can be reduced by focusing to improve lateral resolution.
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74
Contrast and temporal resolution relate more directly to the transducer.
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75
The thicker the section thickness,the less its negative impact on sonographic images.
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locked card icon
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