Ch. 3 Describing Sound Waves

Question 1

______________________ describe features of a sound wave.

Answer 1

Parameters describe features of a sound wave

Question 2

___________________ is the time is takes a wave to vibrate a single cycle, or the time from start of one cycle to the start of the next cycle.

Answer 2

Period is the time it takes a wave to vibrate a single cycle, or the time from start of one cycle to the start of the next cycle.

Question 3

Units for Period:

Answer 3

units for period are units of time, such as microseconds, seconds, hours, or days

Question 4

Typical Values for Period:

Answer 4

0.06 to 0.5 microseconds

Question 5

Period is determined by:
Can it be changed?

Answer 5

period is determined by the ~sound source
~ & Cannot be changed

Question 6

______________________ is the number of particular events that occur in a specific duration of time.

Answer 6

frequency is the number of particular events that occur in a specific duration of time

Question 7

In diagnostic ultrasound, the _______________________ of a wave is described as the number of cycles that occurs in one second

Answer 7

In diagnostic ultrasound, the frequency of a wave is described as the number of cycles that occurs in one second

Question 8

Units for frequency:

Answer 8

per second, 1/second, hertz, or Hz

Question 9

1 cycle/second =

Answer 9

1 hertz

Question 10

1,000 cycles/second =

Answer 10

1 kHz

Question 11

1,000,000 cycles/second =

Answer 11

1 MHz

Question 12

In clinical imaging, frequency ranges from approximately ___ MHz to ________ MHz

Answer 12

In clinical imaging, frequency ranges from approximately 2MHz-15MHz

Question 13

Frequency is determined by the:

Answer 13

sound source

Question 14

frequency is __________ adjustable

Answer 14

Frequency is NOT adjustable

Question 15

Infrasound:

Answer 15

Sound waves with frequencies below 20 Hz.

Question 16

Audible Sound:

Answer 16

sound waves between 20 Hz and 20,000 Hz (20 kHz)

Question 17

Ultrasound:

Answer 17

Sound waves with frequencies above 20,000 Hz (20KHz).

Question 18

What is the relationship between frequency and period?

Answer 18

They are inversely related
They have an even more special relationship that is called reciprocal

Question 19

As frequency increases, period ____________________

Answer 19

As frequency increases, period decreases

Question 20

As frequency decreases, period ___________________

Answer 20

As frequency decreases, period increases

Question 21

What is the period of the earths rotation around the sun?
A. 1 day
B. 1 hour
C. 1 month
D. 1 year

Answer 21

D. the earth completes one cycle around the sun in one year

Question 22

A top in spinning on a table. What is the period of the spinning top?
A. 4 pounds
B. 8 dollars
C. 0.05 seconds
D. 3cm

Answer 22

C. of the available answers, the only one that has units of time is 0.05 seconds. This must be the answer

Question 23

Which of the following waves is infrasonic?
A. 4 Mhz
B. 400 kHz
C. 28 Hz
D. 2 Hz

Answer 23

D. A wave with a frequency less than 20 Hz cannot be heard because its frequency is less than the lower limit of human hearing

Question 24

Identify the wave that is ultrasonic.
A. 400 mHz
B. 4 MHz
C. 28 Hz
D. 2 Hz

Answer 24

B. A wave with a frequency greater than 20,000 Hz cannot be heard because its frequency is higher than the upper limit of human hearing

Question 25

Which of these waves is ultrasonic and most useful in diagnostic sonography?
A. 400 MHz
B. 4 Mhz
C. 2 kHz
D. 200,000 Hz

Answer 25

B. although choices A, B, and D are all ultrasonic, only B falls within the typical range of frequencies used in diagnostic sonography

Question 26

Identify all the waves that are inaudible (more than 1 answer may be correct)
A. 4 Mhz
B. 400 kHz
C. 28 Hz
D. 2 Hz

Answer 26

A, B, and D. These 3 waves are inaudiable and cannot be heard by humans. Choices A and B are ultrasonic, wheres D is infrasonic. Humans cannot hear infrasound or ultrasound

Question 27

Which of the following waves has the longest period?
A. 2 MHz
B. 4,000 Hz
C. 6 Hz
D. 1 kHz

Answer 27

C. the wave with a frequency of 6 Hz has the longest period. Period and frequency have an inverse relationship. Thus, the wave with the lowest frequency has the longest period

Question 28

Of the four waves whose frequencies are listed below, which has the shortest period?
A. 12 kHz
B. 6,000 Hz
C. 205 Hz
D. 1 kHz

Answer 28

A. Of the 4 choices, A has the highest frequency and thus, the shortest period.

Question 29

Of the four waves whose periods are listed below, which has the lowest frequency?
A. 8s
B. 80 us
C. 8Ms
D. 800ks

Answer 29

C. The wave with the longest period has the lowest frequency. Choice C has a period of 8 million seconds 8Ms, which is the longest period

Question 30

The three “bigness” parameters are _______________________, _____________________, and ______________________

Answer 30

The three “bigness” parameters are amplitude, power, and intensity

Question 31

__________________________ is the “bigness” of a wave. It is the difference between the maximum value and the average or undisturbed value of an acoustic variable.

Answer 31

amplitude is the “bigness” of a wave. It is the difference between the maximum value and the average or undisturbed value of an acoustic variable

Question 32

________________________ can also be the difference between the minimum value and the average value of the acoustic variable

Answer 32

amplitude can also be the difference between the minimum value and the average value of the acoustic variable

Question 33

Amplitude can have units of any of the acoustic variables such as __________________, ____________________, and ____________________ ___________________

Answer 33

Amplitude can have units of any of the acoustic variables such as pressure Pascals, density g/cm^3 and particle motion cm, inches, any distance and *decibels

Question 34

Typical Values for amplitude are:

Answer 34

1 million pascals (MPa) to 3 million pascals (MPa)

Amplitude, in relative terms, can also be expressed in decibels (dB)

Question 35

Amplitude is determined by:

Answer 35

the sound source

Question 36

Is amplitude adjustable?

Answer 36

Initial amplitude is, yes.

Question 37

What is the difference between amplitude and peak-to-peak amplitude?

Answer 37

amplitude is measured from the middle, or undisturbed, value to maximum value.

peak-to-peak amplitude is the difference between maximum and minimum values of an acoustic variable. Therefore peak-to-peak is twice the value of the amplitude.

Question 38

______________ is the rate of energy transfer or the rate at which work is performed.

Answer 38

power is the rate of energy transfer or the rate at which work is performed

Question 39

What are the units for power?

Answer 39

Watts (W)

Question 40

Typical values for Power range from _______ to ________ milliwatts

Answer 40

Typical values for power range from 0.004 to 0.090 watts (4-90 milliwatts)

Question 41

Power is determined by the:

Answer 41

sound source

Question 42

Is power adjustable by the sonographer?

Answer 42

Yes, initial power can be changed.

Question 43

When you think of Power, it helps to think of a _______________ ______________

Answer 43

When you think of power it helps to think of a light bulb

Question 44

Power is proportional to _____

Answer 44

amplitude squared

Question 45

If a sonographer increases the amplitude of a wave by the factor of 3. How does the power change?

Answer 45

Recall that power is proportional to the amplitude squared:

3 times 3 = 9

Thus the power is increased 9-fold. In other words, if the amplitude is increased by a factor of 3, the power is increased by a factor of 9

Question 46

______________________ is the concentration of energy in a sound beam.

Answer 46

Intensity is the concentration of energy in a sound beam

Question 47

Intensity formula:

Answer 47

I (W/cm^2) = P (w) /A (cm^2)

Question 48

Intensity is determined by the:

Answer 48

sound source

Question 49

Is intensity adjustable by the sonographer?

Answer 49

Yes, initial intensity, like power and amplitude, can be adjusted by the sonographer.

Question 50

Intensity is ____________________ to power

Answer 50

proportional

Question 51

If a waves power is doubled, intensity is _______.

Answer 51

doubled

Question 52

Intensity is ______________ to amplitude squared

Answer 52

Intensity is proportional to amplitude squared

Question 53

_________________________ is the distance or length of one complete cycle.

Answer 53

wavelength is the distance or length of one complete cycle

Question 54

What are the units for wavelength?

Answer 54

meters (m) or millimeters (mm) or any other unit of length

Question 55

Wavelength is determined by

Answer 55

Both the source and the medium

Question 56

Is wavelength adjustable by the sonographer?

Answer 56

No, wavelength cannot be changed by the sonographer when using basic ultrasound transducer

Question 57

______________________ is the only parameter that is determined by both the source and the medium

Answer 57

wavelength is the only parameter that is determined by both the source and the medium

Question 58

What is the relationship between wavelength and frequency?

Answer 58

As long as a wave remains in one medium, wavelength and frequency are inversely related. As frequency increases, wavelength decreases. The lower the frequency, the longer the wavelength.

Question 59

_____________________ _____________ is the rate at which a sound wave travels through a medium

Answer 59

propagation speed is the rate at which a sound wave travels through a medium

Question 60

what are the units for propagation speed?

Answer 60

Speed is measured in units of meters per second, mm/us, or any distance divided by time.

Question 61

What are the typical values for propagation speed?

Answer 61

In the body, the speed of sound ranges from 500 m/s to 4000 m/s depending on the tissue through which it is traveling

Question 62

Propagation speed is determined by

Answer 62

Medium only - density and stiffness

Question 63

Is propagation speed adjustable by the sonographer?

Answer 63

No, speed of sound cannot be changed by the sonographer. Speed changed only when the wave travels from one medium to a different medium

Question 64

Speed of sound in soft tissue

Answer 64

1540 m/s, 1.54 mm/us, 1.54 km/s

Question 65

What is the propagation speed for lung:

Answer 65

500 m/s

Question 66

What is the propagation speed for Fat:

Answer 66

1,450 m/s

Question 67

What is the propagation speed for Soft tissue:

Answer 67

1,540 m/s

Question 68

What is the propagation speed for Liver:

Answer 68

1,560 m/s

Question 69

What is the propagation speed for Blood:

Answer 69

1,560 m/s

Question 70

What is the propagation speed for Muscle:

Answer 70

1,600 m/s

Question 71

What is the propagation speed for Tendon:

Answer 71

1,700 m/s

Question 72

What is the propagation speed for Bone:

Answer 72

3,500 m/s

Question 73

What is the speed of sound in air?

Answer 73

330 m/s

Question 74

What is the speed of sound in water?

Answer 74

1,480 m/s

Question 75

What is the speed of sound in metals?

Answer 75

2,000 to 7,000 m/s

Question 76

What two characteristics affect the speed of sound?

Answer 76

• stiffness
• density

Question 77

______________________ describes the ability of an object to resist compression. In other words, what will happen if the material is squeezed?

Answer 77

stiffness describes the ability of an object to resist compression. A stiff material will retain its shape, whereas a non-stiff material will change its shape.

Question 78

____________________ describes the relative weight of a material.

Answer 78

density describes the relative weight of a material. When equal volumes of two materials are compared, the dense material weighs a lot, whereas the non-dense material weighs little.

Question 79

Stiffness and speed are ______ related.

Answer 79

directly; when Stiffness increases, Speed increases

Question 80

Density and speed are ___________ related

Answer 80

inversely; when density increases, speed decreases

Question 81

What are the units of:
- wavelength
- frequency
- intensity
- propagationspeed
- period
- power

Answer 81

Wavelength = millimeters

Frequency = hertz

Intensity = watts/cm^2

Propagation Speed = meters/second

Period = second

Power = watts

Question 82

Does the medium or the sound source determine these parameters:
- wavelength
- frequency
- intensity
- propagation speed
- period
- power
- amplitude

Answer 82

Wavelength - determined by both sound source & medium

Frequency - determined by sound source

Intensity - determined by sound source

Propagation Speed - determined by medium

Period - determined by sound source

Power - determined by sound source

Amplitude - determined by sound source

Question 83

Using a particular ultrasound system and transducer, which of the following cannot be changed by the operator?
- wavelength
- frequency
- intensity
- propagation speed
- period
- power
- amplitude

Answer 83

Wavelength cannot be operator changed

Frequency cannot be operator changed

Intensity can be changed by the operator

Propagation Speed cannot be operator changed

Period cannot be operator changed

Power can be changed by the operator

Amplitude can be changed by the operator