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a.) Select a higher Doppler frequency.Refer to Eliminate Aliasing for further study.
b.) Place the sample volume at a greater depth.
c.) Decrease the pulse repetition frequency range.
d.) Select a lower Doppler frequency.
You said:
d). Select a lower Doppler frequency.
Correct!
See: Doppler Effect
2. The maximum Doppler shift occurs at which angle?
a.) Zero degreesRefer to Doppler Angle for further study.
b.) Thirty degrees
c.) Forty-five degrees
d.) Ninety degrees
You said:
a). Zero degrees
Correct!
See: Doppler Effect
3. The minimum Doppler shift occurs at which angle?
a.) Zero degreesRefer to Doppler Angle for further study.
b.) Thirty degrees
c.) Forty-five degrees
d.) Ninety degrees
You said:
a). Zero degrees
Incorrect!
See: Doppler Effect
4. What does the cos q component of the Doppler equation solve?
a.) The estimated angle between flow and the vessel wallRefer to Factors Affecting Doppler Angle for additional information.
b.) The estimated angle between flow and the sample volume
c.) The estimated angle between flow and the sound beam
d.) The estimated angle between flow and skin surface
You said:
c). The estimated angle between flow and the sound beam
Correct!
See: Doppler Effect
5. Which one of the following statements is true?
a.) When red blood cells move toward the transducer the frequency of the reflected wave is less than the frequency produced by the transducer.Refer to Factors Affecting Doppler for further study.
b.) When red blood cells move toward the transducer the frequency of the reflected wave is greater than the frequency produced by the transducer.
c.) When red blood cells move toward the transducer the frequency of the reflected wave is the same as the frequency produced by the transducer.
d.) When red blood cells move away from the transducer the frequency of the reflected wave is the same as the frequency produced by the transducer.
You said:
b). When red blood cells move toward the transducer the frequency of the reflected wave is greater than the frequency produced by the transducer.
Correct!
See: Doppler Effect
6. The Doppler equation demonstrates that the detected Doppler shift depends upon which one of the following factors?
a.) Velocity of blood flowRefer to Doppler Effect: Doppler Angle for additional information.
b.) Transmit frequency
c.) Angle of insonation
d.) Transmit time
You said:
a). Velocity of blood flow
Incorrect!
See: Doppler Effect
7. Cos q varies between 0 and 1 as the angle changes from 0° to 90°. When the angle of insonation is 0° the Doppler shift detected is:
a.) MinimumRefer to Doppler Angle for further study.
b.) None
c.) Maximum
d.) Moderate
You said:
c). Maximum
Correct!
See: Doppler Effect
8. A 5 MHz transducer is used to interrogate a blood vessel with a flow velocity of 100 cm/s using an angle of insonation of 60°. Taking the speed of sound in tissue to be 1540 m/s what would the Doppler shift frequency be?
a.) 1.3 kHzRefer to Factors Affecting Doppler for further study.
b.) 3.2 kHz
c.) 5.1 kHz
d.) 1.6 kHz
You said:
d). 1.6 kHz
Incorrect!
See: Doppler Effect
9. Which statement best describes a continuous wave Doppler transducer?
a.) A continuous wave Doppler transducer has one crystal.Refer to Continuous Wave Doppler for further study.
b.) A continuous wave Doppler transducer detects flow that occurs anywhere within the transmit beam.
c.) A continuous wave Doppler transducer allows unlimited maximum velocity detection.
d.) A continuous wave Doppler transducer gives range resolution information.
You said:
c). A continuous wave Doppler transducer allows unlimited maximum velocity detection.
Correct!
See: Doppler Effect
10. Which probe frequency would best detect flow in a superficial vessel?
a.) 2 MHzRefer to Continuous Wave Doppler for further study.
b.) 5 MHz
c.) 7 MHz
d.) 10 MHz
You said:
d). 10 MHz
Correct!
See: Doppler Effect
11. What is the function of phase quadrature detection?
a.) Amplifies low-level returning echoes.Refer to Generating a CW Waveform for further study.
b.) Filters and amplifies the signal for output to the spectrum analyzer.
c.) Detects the returning echoes.
d.) Determines if the returning signal frequency is higher or lower than the transmitted frequency.
You said:
d). Determines if the returning signal frequency is higher or lower than the transmitted frequency.
Correct!
See: Doppler Effect
12. The axial dimension of the sample volume is determined by which one of the following?
a.) The shape of the transmitted pulse.Refer to Sample Volume for further study.
b.) The transmit frequency of the transducer.
c.) The shape of the ultrasound beam.
d.) The length of time the receiving gate is open.
You said:
d). The length of time the receiving gate is open.
Correct!
See: Doppler Effect
13. The frequency at which pulses are sent is known as:
a.) Pulse repetition frequencyRefer to Nyquist Limit for further study.
b.) Pulse repetition period
c.) Pulse length
d.) Pulse volume
You said:
a). Pulse repetition frequency
Correct!
See: Doppler Effect
14. A pulsed wave Doppler system has a pulse repetition frequency of 10 kHz. What is the Nyquist limit?
a.) 2 kHzRefer to Nyquist Limit for further study.
b.) 6 kHz
c.) 5 kHz
d.) 3 kHz
You said:
c). 5 kHz
Correct!
See: Doppler Effect
15. Range resolution provides what information?
a.) Sample volume depthRefer to Pulsed Wave Doppler for further study.
b.) Beam focus
c.) Sample volume shape
d.) Pulse detection
You said:
a). Sample volume depth
Correct!
See: Doppler Effect
