lesson 02 - sonicor incsonicorinc.com/images/web_lesson_02_2014.pdf · lesson 02: sound wave...
TRANSCRIPT
![Page 1: Lesson 02 - Sonicor Incsonicorinc.com/images/Web_Lesson_02_2014.pdf · Lesson 02: Sound Wave Production This lesson contains 24 slides plus 11 multiple-choice questions. ULTRASOUND](https://reader033.vdocuments.mx/reader033/viewer/2022060903/609f4ba1f5f4e055d0366175/html5/thumbnails/1.jpg)
Accompanying text for
the slides in this lesson
can be found on pages 2
through 7 in the textbook:
Lesson 02:
Sound Wave Production
This lesson contains 24 slides
plus 11 multiple-choice
questions.
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ULTRASOUND
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Sound Wave
Production
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SOUND
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INFRASOUND (subsonic) = below 20 Hz
AUDIBLE SOUND = 20 Hz to 20 kHz
ULTRASOUND = above 20 kHz
CATEGORIES OF SOUND
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MEDICAL DIAGNOSTIC ULTRASOUND
ABOVE 1 MHz
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STIFFNESS
(velocity increases with stiffness)
DENSITY
(velocity decreases with density)
SOUND VELOCITY
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SOUND VELOCITIES
Material Meters per second
Air 330
Pure Water 1430
Fat 1450
Soft Tissue 1540
Muscle 1585
Bone 4080
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SOUND VELOCITIES
STIFFNESS
OF MEDIUM
DENSITY OF
MEDIUM
SOUND
VELOCITY
Increase ——————— Increase
Decrease ——————— Decrease
——————— Increase Decrease
——————— Decrease Increase
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•TRANSMIT – electrical energy to mechanical energy
•RECEIVE – mechanical energy to electrical energy
PIEZOELECTRIC EFFECT
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•The fundamental frequency of a transducer
RESONANT FREQUENCY
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RESONANT FREQUENCY
PIEZOELECTRIC
ELEMENT THICKNESS
RESONANT FREQUENCY
Increase Decrease
Decrease Increase
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• lead zirconate titanate
• barium titanate
• lead metaniobate
• lead titanate
PIEZOELECTRIC CERAMICS
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PIEZOELECTRIC EFFECT
Mechanical energy Electrical energy
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PIEZOELECTRIC EFFECT
Mechanical energy Electrical energy
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PIEZOELECTRIC EFFECT
Mechanical energy Electrical energy
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LONGITUDINAL WAVE PROPAGATION
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WAVE PARAMETERS
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WAVE PARAMETERS
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WAVE PARAMETERS AND EXAMPLES
Period = 1 Frequency
Wavelength = Velocity Frequency
Pulse Duration = Period x Number of Cycles
Spatial Pulse Length = Wavelength x Number of Cycles
The number of cycles in a pulse is not the same as the frequency of the
sound, which is the number of cycles per unit time that a transducer,
which is operating continuously, is designed to produce.
DAMPING FREQUENCY PERIOD WAVELENGTH NUMBER OF
CYCLES
PULSE
DURATION
SPATIAL
PULSE LENGTH
———— Increase Decrease Decrease ———— Decrease Decrease
———— Decrease Increase Increase ———— Increase Increase
Increase ———— ———— ———— Decrease Decrease Decrease
Decrease ———— ———— ———— Increase Increase Increase
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3-cycle pulse
longer periods
longer wavelengths
longer pulse duration
longer spatial pulse length
3-cycle pulse
shorter periods
shorter wavelengths
shorter pulse duration
shorter spatial pulse length
SAME DAMPING & AMPLITUDE
DIFFERENT FREQUENCY & PHASE
Frequency = 5.0 MHz
Number of Cycles = 3
Period = 0.2 µs
Pulse Duration = 0.6 µs
Wavelength = 0.308 mm
Spatial Pulse Length = 0.924 mm
Frequency = 2.5 MHz
Number of Cycles = 3
Period = 0.4 µs
Pulse Duration = 1.2 µs
Wavelength = 0.616 mm
Spatial Pulse Length = 1.848 mm
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3-cycle pulse
same periods
same wavelengths
shorter pulse duration
shorter spatial pulse length
4-cycle pulse
same periods
same wavelengths
longer pulse duration
longer spatial pulse length
SAME FREQUENCY, AMPLITUDE, & PHASE
DIFFERENT DAMPING
Frequency = 5.0 MHz
Number of Cycles = 4
Period = 0.2 µs
Pulse Duration = 0.8 µs
Wavelength = 0.308 mm,
Spatial Pulse Length = 1.232 mm
Frequency = 5.0 MHz
Number of Cycles = 3
Period = 0.2 µs
Pulse Duration = 0.6 µs
Wavelength = 0.308 mm
Spatial Pulse Length = 0.924 mm
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SAME FREQUENCY & DAMPING
DIFFERENT AMPLITUDE & PHASE
4-cycle pulse
same periods
same wavelengths
same pulse duration
same spatial pulse length
4-cycle pulse
same periods
same wavelengths
same pulse duration
same spatial pulse length
Frequency = 5.0 MHz
Number of Cycles = 4
Period = 0.2 µs
Pulse Duration = 0.8 µs
Wavelength = 0.308 mm
Spatial Pulse Length = 1.232 mm
Frequency = 5.0 MHz
Number of Cycles = 4
Period = 0.2 µs
Pulse Duration = 0.8 µs
Wavelength = 0.308 mm
Spatial Pulse Length = 1.232 mm
![Page 24: Lesson 02 - Sonicor Incsonicorinc.com/images/Web_Lesson_02_2014.pdf · Lesson 02: Sound Wave Production This lesson contains 24 slides plus 11 multiple-choice questions. ULTRASOUND](https://reader033.vdocuments.mx/reader033/viewer/2022060903/609f4ba1f5f4e055d0366175/html5/thumbnails/24.jpg)
DAMPING vs. BANDWIDTH
DAMPING BANDWIDTH
Increase Increase
Decrease Decrease
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Pulse-echo
Damped
Wide Bandwidth
CW
Not damped
Narrow Bandwidth
Center frequency = 5.0 MHz
Range = 4.9 MHz to 5.1 MHz
Continuous Wave
Bandwidth = 0.2 MHz
Center frequency = 5.0 MHz
Range = 3.75 MHz to 6.25 MHz
Number of Cycles = 2
Bandwidth = 2.5 MHz
HIGH DAMPING vs. NO DAMPING
SAME FREQUENCY. DIFFERENT DAMPING
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Answers to the following
ELEVEN practice
questions were derived
from material in the
textbook:
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Ultrasound waves that are traveling through a medium
consist of:
compressions and refractions
condensations and refractions
electromagnetic and ionizing frequencies
compressions and rarefactions
Question 1
Pages 2 and 5
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Ultrasound waves that are traveling through a medium
consist of:
compressions and refractions
condensations and refractions
electromagnetic and ionizing frequencies
compressions and rarefactions
Question 1
Pages 2 and 5
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Question 2
What is the difference between audible sound and ultrasound?
Audible sound waves are ionizing
Audible sound has a higher frequency
Ultrasound has a higher frequency
Ultrasound waves are ionizing
Page 2
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Question 2
What is the difference between audible sound and ultrasound?
Audible sound waves are ionizing
Audible sound has a higher frequency
Ultrasound has a higher frequency
Ultrasound waves are ionizing
Page 2
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Question 3
A piezoelectric element produces a voltage when:
Sound velocity changes
an acoustic pressure is present on its surface
the receiver gain is increased
the attenuation increases
Page 3
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A piezoelectric element produces a voltage when:
Sound velocity changes
an acoustic pressure is present on its surface
the receiver gain is increased
the attenuation increases
Question 3
Page 3
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Question 4
A decrease in the thickness of a piezoelectric element
will result in:
a greater pulse duration
an increase in the propagation speed
an increase in the frequency of the transducer
a higher duty factor
Page 3
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Question 4
A decrease in the thickness of a piezoelectric element
will result in:
a greater pulse duration
an increase in the propagation speed
an increase in the frequency of the transducer
a higher duty factor
Page 3
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The resonant frequency of an ultrasound transducer is
dependent on:
damping
the backing material
the thickness of the piezoelectric element
the amplitude of the voltage applied to the transducer
Question 5
Page 3
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The resonant frequency of an ultrasound transducer is
dependent on:
damping
the backing material
the thickness of the piezoelectric element
the amplitude of the voltage applied to the transducer
Question 5
Page 3
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Question 6
What does A, B, and C represent on the graph?
amplitude, period, wavelength
pulse duration, duty factor, amplitude
wavelength, duty factor, pulse duration
period, wavelength, velocity
Pages 5 and 6
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What does A, B, and C represent on the graph?
amplitude, period, wavelength
pulse duration, duty factor, amplitude
wavelength, duty factor, pulse duration
period, wavelength, velocity
Question 6
Pages 5 and 6
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Question 7
If the frequency is doubled, the:
period will double
lateral resolution will be poorer
wavelength will double
wavelength will be one-half
Pages 5 and 6
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Question 7
Pages 5 and 6
If the frequency is doubled, the:
period will double
lateral resolution will be poorer
wavelength will double
wavelength will be one-half
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Question 8
The average speed of ultrasound in soft tissue is
closest to:
330 m/sec
1450 m/sec
1540 m/sec
4080 m/s
Page 2
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The average speed of ultrasound in soft tissue is
closest to:
330 m/sec
1450 m/sec
1540 m/sec
4080 m/s
Question 8
Page 2
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Question 9
If the frequency is doubled, the propagation
speed is:
quadrupled
doubled
halved
unchanged
Pages 2 and 3
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If the frequency is doubled, the propagation
speed is:
quadrupled
doubled
halved
unchanged
Question 9
Pages 2 and 3
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Question 10
The propagation speed is highest in:
bone
tissue
fat
water
Pages 2 and 3
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The propagation speed is highest in:
bone
tissue
fat
water
Question 10
Pages 2 and 3
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Question 11
A single pulse of ultrasound from a transducer:
contains a range of frequencies
does not result from damping
has a narrow bandwidth
contains continuous waves
Page 7
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A single pulse of ultrasound from a transducer:
contains a range of frequencies
does not result from damping
has a narrow bandwidth
contains continuous waves
Question 11
Page 7
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END OF LESSON 02
For information on the accompanying textbook, visit the Website:
www.Sonicorinc.com