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to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
What is the vertical axis of a graph called? a. z-axis b. x-axis c. y-axis d. time-axis - ansc. y-axis What is the name of the horizontal axis of a graph? a. z-axis b. x-axis c. y-axis d. red axis - ansb. x-axis How are scores on the ultrasound board exams related to study time? a. inversely b. conversely c. directly d. unrelated - ansc. directly How are caloric intake and weight related? A. inversely B. partially C. reciprocally D. directly - ansd. directly How is weight related to a sonographer's time spent exercising? a. inversely b. conversely c. directly d. unrelated - ansA. inversely What is the reciprocal of 1,000? a. one-hundreth b. 1, c. 0. d. one-millionth - ansc. 0. What is the reciprocal of 5? a. one-hundredth b. 5 c. 1/ d. one-millionth - ansc. 1/ What is the reciprocal of 1/10? a. one-hundredth b. 10 c. 1/ d. one-millionth - ansb. 10 A sack contains 6 pounds of flour. The contents of the bag are increased by a factor of 5. How much flour is in the bag? a. 6 pounds b. 11 pounds
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
c. 60 pounds d. 30 pounds - ansd. 30 pounds A bouquet has 30 flowers. The size of the bouquet is decreased by a factor of 3. How many flowers remain? a. 27 b. 0 c. 10 d. 15 - ansc. 10 Which of the following is not a measurement of area? a. square cm b. meters squared c. cubic meters d. feet x feet - ansc. cubic meters A sonographer measures the perimeter of an anatomical structure. Which of the following choices is a reasonable value for the measurement? A. 6 cm B. 5 cc C. 15 mm D. 18 dB - ansc. 15mm What are the units associated with the circumference of a circle? a. mm b. mm c. cm d. m4 - ansa. mm The volume of a cystic structure is estimated from sonographic data. Which of the following is an acceptable measurement of this volume? a. 6 b. 6cm c. 6cm d. 6cm3 - ansd. 6cm The speed of red blood cells traveling through a blood vessel is 750 cm/sec. You are asked to measure this speed in miles per hour. What information would be sufficient for you to complete your task? A. how many seconds in a minute and how many blood cells in the vessel B. the number of miles in a meter C. how many seconds per hour and the number of miles in a centimeter D. the direction of red blood cell motion and the Doppler shift frequency - ansc. how many seconds per hour and the number of miles in a centimeter How much bigger is one billion than one thousand? a. 1,000 times b. 1,000,000 times c. 10 times d. 10,000 times - ansb. 1,000,000 times Select the sequence that appears in increasing order.
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
What term is used to describe the effects of an ultrasound wave on living tissues? a. toxic effects b. acoustic propagation properties c. biological effects d. transmission properties - ansc. biological effects As sound travels through a medium, what term describes the effects of the medium on the sound wave? a. toxic effects b. acoustic propagation properties c. bioeffects d. transmission properties - ansb. acoustic propagation properties Which of the following is true of all waves? a. they travel through a medium b. all carry energy from one site to another c. their amplitudes do not change d. they travel in a straight line - ansb. they all carry energy from one site to another Which of the following types of waves do not require a medium in order to propagate? (More than one answer may be correct). a. light b. heat c. sound d. television - ansA. light B. heat D. television Which of the following describes the characteristics of a sound wave? a. longitudinal, non-mechanical b. mechanical, transverse c. transverse, acoustic d. mechanical, longitudinal - ansd. mechanical, longitudinal Sound is best described as _____. A. a series of compressions and rarefactions B. a transverse wave C. a wave humans can hear D. an oblique displacement of acoustic energy - ansa. a series of compressions and rarefactions All of the following are true about sounds waves except: a. they are mechanical b. they are transverse c. they carry energy from place to place d. they generally travel in a straight line - ansb. they are transverse Which of the following 8 selections are acoustic variables?
- frequency
- pressure
- propagation speed
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
- wavelength
- voltage
- intensity
- motion of particles in the wave
- density - ans2. pressure
- motion of particles in the wave
- density What are the units of a pressure measurement of an acoustic wave? (More than one answer may be correct). a. atmospheres (atm) b. pascals (Pa) c. millimeters of mercury (mm Hg) d. pounds/sq. inch (lb/in^2) - ansa. atmospheres (atm) b. pascals (Pa) c. millimeters of mercury (mm Hg) d. pounds/sq. inch (lb/in^2) Sound can be characterizes as: a. energy flowing through a vacuum b. a variable c. cyclical oscillations in certain variables d. a principle of acoustics - ansc. cyclical oscillations in certain variables Which units are appropriate for pressure: a. lb/in^ b. fahrenheit degrees c. miles d. Pa e. cm f. centigrade degrees g. lb/in^ h. kg/m^3 - ansd. Pa g. lb/in^ Which units are appropriate for density: a. lb/in^ b. fahrenheit degrees c. miles d. Pa e. cm f. centigrade degrees g. lb/in^ h. kg/m^3 - ansa. lb/in^ h. kg/m^ Which units are appropriate for particle motion: a. lb/in^ b. fahrenheit degrees
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
a. reflection b. constructive interference c. refraction d. destructive interference - ansb. constructive interference What is the range of periods commonly found in waves produced by ultrasound systems? a. 0.001 to 1 s b. 0.06 to 0.5 microseconds c. 0.2 to 1 milliseconds d. 10 to 100 nanoseconds - ansb. 0.06 to 0.5 microseconds With standard ultrasonic imaging, what happens to the period of a wave as it propagates? a. increases b. decreases c. remains the same - ansc. remains the same What determines the period of an ultrasound wave? a. the transducer b. the medium through which the sound travels c. both a & b d. neither choice a or b - ansa. the transducer Which of the following units are appropriate to describe the period of an acoustic wave? (More than one answer may be correct). a. minutes b. microseconds c. meters d. mm/microseconds e. cubic centimeters - ansa. minutes b. microseconds True or False? The sonographer has the ability to alter the period of an ultrasound wave that is produced by a basic transducer. - ansFalse What term describes the number of cycles that an acoustic variable completes in a second? a. period b. frequency c. pulse repetition period d. variable rate - ansb. frequency Which of the following cannot be considered a unit of frequency? a. per day b. cycles/sec c. Hz d. Hertz e. cycles - anse. cycles What is the range of frequencies emitted by transducers used in ultrasonic imaging? a. 1 to 3 MHz b. 1 to 1000 kHz c. - 10,000 to +10,000 Hz d. 2,000,000 to 15,000,000 Hz - ansd. 2,000,000 to 15,000,000 Hz
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
What establishes the frequency of an ultrasound wave? a. the transducer b. the medium through which the sound travels c. both a & b d. neither choice a or b - ansa. the transducer True or False? With standard ultrasound pulses, the frequency of the ultrasound changes significantly as the wave propagates through the body. - ansFalse When a sonographer increases the maximum imaging depth during an exam, what happens to the frequency? a. frequency increases b. frequency decreases c. remains unchanged - ansc. remains unchanged Ultrasound is defined as a sound with a frequency of ____. A. greater than 20,000 kHz B. less than 1 kHz C. greater than 10 MHz D. greater than 0.02 MHz - ansd. greater than 0.02 MHz Infrasound is defined as sound with a frequency of ______. A. greater than 20,000 kHz B. less than 20 Hz C. greater than 10 Mhz D. less than 0.02 MHz - ansb. less than 20Hz True or False? Waves in the ultrasound range behave in the same general manner as sound waves that are audible. - ansTrue What is characteristic of acoustic waves with frequencies exceeding 20,000Hz when compared with waves having frequencies of less than 20,000Hz? a. they travel more effectively in soft tissue b. they travel more rapidly c. they attenuate less when traveling in soft tissue d. humans can't hear them - ansd. humans can't hear them What is characteristic of acoustic waves with frequencies of less than 20MHz when compared with waves having frequencies of more than 20Hz? a. they travel less effectively in soft tissue b. they travel more rapidly c. they attenuate more when traveling in soft tissue d. humans can't hear them - ansd. humans can't hear them The frequency of a continuous acoustic wave is 5MHz. The wave is then pulsed with a duty factor of 0.1. What is the new frequency? a. 0. b. 0.5MHz c. 5MHz d. 10MHz - ansc. 5MHz True or False? The period of an ultrasound wave is related to the frequency and is the same, regardless of whether the wave is pulsed or continuous. - ansTrue
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
Typically, as an ultrasound wave travels through soft tissue, the power of the wave: a. decreases b. increases c. remains the same - ansa. decreases True or False? A sonographer can routinely change the power of a wave emitted by a transducer used in diagnostic ultrasonic imaging. - ansTrue Mathematically, when a number is squared, the number is multiplied by: a. 2 b. 0. c. itself d. 1.5 - ansc. itself The final amplitude of an acoustic wave decreases from 27 pascals to 9 pascals. If the initial power in the wave was 27 watts, what is the waves final power? a. 3 watts b. 9 watts c. 1 watt d. none of the above - ansa. 3 watts The final amplitude of an acoustic wave is reduced to one-half its original value. The final power is ____ the original power. a. the same as b. one-half c. double d. none of the above - ansd. none of the above The intensity of an ultrasound beam is defined as the ___ in a beam ___ by the ___ of the beam. a. power, multiplied, diameter b. amplitude, divided, area c. power, divided, area d. amplitude, multiplied, circumference - ansc. power, divided, area As sound travels in the body, what typically happens to the intensity of the wave? a. increases b. decreases c. remains the same - ansb. decreases What are the units of intensity? a. watts b. watts/cm c. watts/cm^ d. dB - ansc. watts/cm^ True or False? With diagnostic ultrasonic imaging instruments, the operator can alter the intensity of an ultrasound beam produced by the transducer. - ansTrue What determines the initial intensity of an ultrasound beam? a. the source of the sound wave b. the medium through which the sound travels c. both A & B
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
d. Neither A or B - ansa. the source of the sound wave What determines the intensity of an ultrasound beam after it has traveled through the body? a. a sound wave's source b. the medium through which the sound travels c. both A & B d. neither A or B - ansc. both the sound wave's source and the medium through which the sound travels What are the units of the transmitted intensity of a sound wave? a. W/cm^ b. watts c. dB d. none, it is unitless - ansa. w/cm^ What happens when the power in an ultrasound beam is unchanged, and at the same time, the beam area doubles? a. doubles b. is halved c. is quartered d. remains the same - ansd. is halved What happens to an acoustic beam's intensity when the power in the beam increases by 25% while the cross-sectional area of the beam remains the same? a. it increases by 25% b. it increases by 75% c. it increases by 50% d. decreases by 25% - ansa. it increases by 25% When the power in an acoustic beam is doubled and the cross-sectional area of a beam, is halved, then the intensity of the beam is: a. doubled b. halved c. quartered d. four times larger - ansd. four times larger What happens to the intensity of an ultrasound beam when the beam's cross-sectional area remains unchanged while the amplitude of the wave triples? a. it triples b. increases ninefold c. remains the same d. none of the above - ansb. it increases ninefold If the power of the beam is tripled while the cross-sectional area of the beam remains the same, the intensity ____. a. triples b. increases ninefold c. remains the same d. none of the above - ansa. triples The amplitude of an acoustic wave is increased. Which of the following will most likely remain unchanged? (More than one answer may be correct).
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
Two sound pulses travel through the same medium. One waves frequency is 2 MHz and the other is 10 MHz. Which pulse has a lower propagation speed? a. the 10MHz pulse b. the 2MHz pulse c. neither pulse d. cannot be determined - ansc. neither pulse Two sound pulses travel through the same medium. One waves frequency is 2 MHz and the other is 10 MHz. Which pulse has the lowest power? a. the 10MHz pulse b. the 2MHz pulse c. neither pulse d. cannot be determined - ansd. cannot be determined Two sound pulses travel through the same medium. One waves frequency is 2 MHz and the other is 10 MHz. Which pulse has a longer spatial pulse length? a. the 10MHz pulse b. the 2MHz pulse c. neither pulse d. cannot be determined - ansd. cannot be determined True or False? Lower frequency sound creates higher quality images with greater detail. - ansFalse What is the wavelength of 10 MHz sound in soft tissue? a. 0.77mm b. 0.15mm c. 1.54mm d. 10mm - ansb. 0.15mm Two waves, a 5MHz ultrasonic wave and a 5kHz audible wave, travel through soft tissue. T/F: Both the 5MHz and the 5kHz waves travel at similar speeds through the medium. - ansTrue Two waves, a 5MHz ultrasonic wave and a 5kHz audible wave, travel through soft tissue. T/F: The period of the 5 MHz wave is less than the period of the audible wave. - ansTrue Two waves, a 5MHz ultrasonic wave and a 5kHz audible wave, travel through soft tissue. T/F: The wavelength of the 5 MHz wave is greater than the 5 kHz wave. - ansFalse Two waves, a 5MHz ultrasonic wave and a 5kHz audible wave, travel through soft tissue. T/F: The ultrasound wave travels much faster than the audible wave. - ansFalse The ultrasound pulse propagates from soft tissue through a mass. Sound's propagation speed in the mass is 1,575 m/s. T/F: The frequency of the wave increases as it travels through the mass. - ansFalse The ultrasound pulse propagates from soft tissue through a mass. Sound's propagation speed in the mass is 1,575 m/s. T/F: The period of the sound wave decreases as it travels through the mass. - ansFalse The ultrasound pulse propagates from soft tissue through a mass. Sound's propagation speed in the mass is 1,575 m/s. T/F: The wavelength increases while the wave travels through the mass. - ansTrue
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
The ultrasound pulse propagates from soft tissue through a mass. Sound's propagation speed in the mass is 1,575 m/s. T/F: The power in the wave increases as it travels through the mass.
- ansFalse Three sound waves with identical frequencies of 3 MHz have powers of 2 mW, 5 mW, and 15 mW. They all travel through three media, wood, brick and fat -- with identical thicknesses of 5 cm. T/F: The waves travel through all three media at the same speed since they have identical frequencies. - ansFalse Three sound waves with identical frequencies of 3 MHz have powers of 2 mW, 5 mW, and 15 mW. They all travel through three media, wood, brick and fat -- with identical thicknesses of 5 cm. T/F: The waves travel through all three media at different speeds because the waves have different powers. - ansFalse Three sound waves with identical frequencies of 3 MHz have powers of 2 mW, 5 mW, and 15 mW. They all travel through three media, wood, brick and fat -- with identical thicknesses of 5 cm. T/F: The waves travel through all three media at different speeds because the media are different. - ansTrue Propagation speed can be correctly recorded with which of the following units? (More than one may be correct). a. miles per hour b. mm/msec c. km/sec d. inches per year - ansa. miles per hour b. mm/msec c. km/sec d. inches per year The propagation speed of continuous wave ultrasound is 1.8 kilometers per second. The wave is then pulsed with a duty factor of 50%. What is the new propagation speed? a. 0.5 km/sec b. 0.9 km/sec c. 1.8 km/sec d. 3.6 km/sec e. cannot be determined - ansc. 1.8km/sec What is the best estimate of the distance that sound can travel in soft tissue in one second? a. one yard b. one hundred yards c. one mile d. ten miles - ansc. one mile True or False? Shorter wavelength sound creates higher quality images with greater detail. - ansTrue True or False? The wavelength of an acoustic wace is shorter when it is pulsed rather than continuous. - ansFalse The speed of sound traveling through bone is ____ soft tissue. A. higher than B. lower than C. equal to
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
d. none of the above - ansb. the medium's properties only What two properties establish sound's propagation speed in a given medium? a. elasticity and stiffness b. stiffness and impedance c. conductance and density d. density and stiffness - ansd. density and stiffness The characteristics of four media are described below. Which if the media has the slowest propagation speed? a. high density and high elasticity b. low density and high stiffness c. low stiffness and low density d. low compressibility and low stiffness - ansa. high density and high elasticity Compressibility describes a characteristic of a medium. Which two terms describe the same property as compressibility? a. density and stiffness b. density and conductance c. stiffness and elasticity d. elastance and impedance - ansc. stiffness and elasticity When the elasticity of a medium is high, the ____ is high. a. stiffness b. propagation speed c. compressibility d. reflectivity - ansc. compressibility Two sound waves with frequencies of 5 and 3 MHz travel to a depth of 8 cm in a medium and then reflect back to the surface of the body. Which acoustic wave arrives first at the surface of the body? A. the 5 MHz wave B. the 3 MHz wave C. neither D. cannot be determined - ansc. neither What are the units of pulse duration? a. units of frequency (Hz) b. msec only c. units of time (sec, year) d. units of distance (feet) - ansc. units of time What determines the pulse duration? a. the source of the wave b. the medium in which the pulse travels c. both A & B c. neither A or B - ansA. the source of the wave True or False? The pulse duration of an ultrasound and transducer system does not change significantly as long as the system components remain unchanged. - ansTrue The pulse duration is expressed in the same units as the ___. a. period
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
b. PRF c. wavelength d. density - ansa. period T/F: A sonographer can adjust the duration of an acoustic pulse since it depends upon the pulse's propagation speed. - ansFalse T/F: A sonographer can adjust the duration of an acoustic pulse since it depends upon the maximum imaging depth. - ansFalse T/F: The sonographer cannot change the duration of a sound pulse unless the transducers are switched. - ansTrue T/F: The pulse duration cannot be changed under any circumstances or by any action of the sonographer. - ansFalse What is the pulse duration equal to? a. frequency multiplied by period b. period multiplied by wavelength c. the number of cycles in the pulse divided by the wavelength d. period multiplied by the number of the cycles in the pulse - ansd. period multiplied by the number of the cycles in the pulse What happens to the pulse duration when a sonographer decreases the maximum imaging depth in an ultrasound scan? a. increases b. decreases c. remains the same d. cannot be identified - ansc. remains the same The spatial pulse length describes certain characteristics of an ultrasound pulse, what are its units? a. time b. hertz c. meters d. none; it is unitless - ansc. meters In diagnostic imaging, what determines the spatial pulse length? a. the ultrasound system b. the medium through which the pulse travels c. both A & B d. neither A or B - ansc. both A & B Which of the following best describes the spatial pulse length? a. frequency multiplied by wavelength b. PRF multiplied by the wavelength c. wavelength multiplied by the number of cycles in the pulse d. duty factor mutliplied by the wavelength - ansc. wavelength multiplied by the number of cycles in the pulse Two transducers send ultrasound pulses in soft tissue. One transducer emits sound with a 4MHz frequency, and the other produces sound at a 6MHz frequency. Each pulse contains 4 cycles. Which has a greater spatial pulse length? a. the 6MHz pulse
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
Two ultrasound systems, one producing sound with a frequency of 3MHz and the other at 6MHz, are used to image a patient. The maximum imaging depths of both exams is 8cm. T/F: The PRF of the 6MHz transducer is greater than the PRF of the 3MHz transducer. - ansFalse The maximum imaging depth during an exam is unchanged. A new transducer with a longer pulse duration is used. T/F: The pulse repetition period is increased. - ansFalse The maximum imaging depth during an exam is unchanged. A new transducer with a longer pulse duration is used. T/F: The pulse repetition frequency is increased. - ansFalse The maximum imaging depth during an exam is unchanged. A new transducer with a longer pulse duration is used. T/F: The duty factor is increased. - ansTrue The maximum imaging depth during an exam is unchanged. A new transducer with a longer pulse duration is used. T/F: The frequency is increased. - ansFalse What are the units of pulse repetition frequency (PRF)? a. seconds b. 1/seconds c. mm/microseconds d. seconds^- 2 - ansb. 1/seconds (same as hertz) The pulse repetition frequency of ultrasound produced by a transducer typical of diagnostic imaging systems _________. a. can be changed by the sonographer b. depends on the medium through which the sound travels c. is unchanged as long as the same ultrasound system is used d. has nothing to do with the clinical imaging - ansa. can be changed by the sonographer In diagnostic imaging, what establishes the pulse repetition frequency? a. the source of the sound b. the medium through which the sound travels c. both A and B d. neither A or B - ansa. the source of the sound When a sonographer increases the maximum imaging depth during an exam, what happens to the PRF? a. PRF increases b. PRF decreases c. remains unchanged - ansb. PRF decreases T/F: The pulse repetition frequency and the frequency are unrelated. - ansTrue The pulse repetition frequency is the _______. a. product of the wavelength and propagation speed b. reciprocal of the period c. sum of the pulse duration and listening time d. reciprocal of pulse repetition period - ansd. reciprocal of pulse repetition period What is typical duty factor (also called duty cycle) of pulsed sound waves used in diagnostic imaging? a. 0.001 msec b. 0.001 kg/cm^ c. 0. d. 0.001 - ansd. 0.
to Understanding Ultrasound Physics, Fourth
Edition by Edelman.
A Top-Rated Exam Study Guide Current Updated
Edition 2025/
What is the value of the duty cycle for continuous wave ultrasound? a. 100 b. 1% c. 1000% d. none of these - ansd. none of these The duty factor for continuous wave ultrasound is 1.0 or 100% In the case of pulsed ultrasound, what is the maximum value of the duty factor? a. 100% b. 1 c. less than 100% d. none of the above - ansc. less than 100% While using a particular imaging system, what happens to the duty factor when the depth of view increases? a. increases b. decreases c. unchanged - ansb. decreases duty factor is inversely related to depth of view T/F: The sonographer alters the duty cycle when adjusting the maximum imaging depth of a scan. - ansTrue T/F The duty factor is a characteristic of an ultrasound and transducer system and does not change as long as the system components remain unchanged. - ansFalse While using the same ultrasound machine and transducer, which of the following can a sonographer alter? (More than one answer may be correct). a. pulse repetition period b. PRF c. frequency d. duty cycle e. pulse duration - ansa. pulse repetition period b. PRF d. pulse duration Which of the following terms does not belong with the others? a. increased depth of view b. increased duty factor c. increased pulse repetition period d. decreased pulse repetition frequency - ansb. increased duty factor Which of the following terms does not belong with the others? a. increased depth of view b. decreased duty factor c. increased pulse repetition period d. decreased spatial pulse length - ansd. decreased spatial pulse length What is the importance of describing sound beam intensities in a variety of ways with regard to space and time? a. it allows better transducer design
