Show:
Describing Sound Waves
Describing Pulsed Waves
Sound Beam & Intensities
Transducers, Sound in Media
Axial & Lateral Resolution & Sound Beam Anatomy
100
All sound waves carry what from one location to another?

Energy

100

Define Spatial Pulse Length

SPL is the distance that a pulse occupies in space from the start to the end of a pulse

100

Acoustic energy that interacts with human tissues

Bioeffects

100
Damping material in a transducer improves what type of resolution?

longitudinal resolution

100

What are the units for lateral resolution?

length (mm)

200

Name the three Acoustic Variables

Pressure, Density, Distance

200

Is Pulse Repetition Period adjustable?

Yes. When the sonographer adjusts the scan depth of view, the PRP is also altered

200

Which type of intensity risks thermal bioeffects?

SPTA

200

A pulse's time-of-flight is 26 microseconds. How deep was the reflector?

2cm (13 microseconds per 1cm)

200

What part of the beam is Azimuthal resolution the best?

At the focus (Azimuthal = Lateral resolution)

300

Period and frequency are both determined by what?

Sound source only, not the medium

300

Duty factor = (Pulse duration divided by what?) x 100

DF (%) = (PD/ PRP) x 100

300

Which probe would create a deeper focus?

small diameter, low frequency
large diameter, high frequency
small diameter, high frequency
large diameter, low frequency

large diameter, high frequency

300

A soundwave strikes a boundary with normal incidence. The impedances of the two media are identical. What percentage of sound is refracted?

0% (Refraction cannot occur with normal incidence)

300

What type of frequency (high or low) has the best range resolution?

High frequency

400

Medium 1 has a density of 9 and a stiffness of 6. Medium 2 has a density of 8 and a stiffness of 6. In which medium will sound travel SLOWER?

Medium 1. Since both have same stiffness, the medium with the greater density has the lower propagation speed

400

By changing the imaging depth, which of the following does the operator also change? (choose 3):

PRF, DF, Speed, PRP, Amplitude, SPL

PRF

DF

PRP

400

Which type of probe would create the most divergence?

small diameter, low frequency
small diameter, high frequency
large diameter, low frequency
large diameter, high frequency

small diameter, low frequency

400

Refraction occurs only if what two conditions are satisfied?

1. oblique incidence
2. different propagation speed of the two media

400

Which type of focusing is adjustable or can create multiple focuses?

Phased array (electronic focusing)

500

If intensity remains the same while the power is doubled, what has happened to the beam area?

Doubled. Intensity = power/area. If intensity is unchanged, then what ever happens to power must also happen to area

500

Going from a 3MHz transducer to a 6MHz transducer, if image depth is the same, what happens to wavelength? (increase, decrease, stays the same)

decreases. higher freq = smaller wavelength

500

What principle or law explains why a sound beam created by a disc-shaped crystal is hourglass shaped?

Huygens' Principle: Large elements have millions of tiny sound sources with V shaped wavelets. These waves interfere (constructive and destructive) to combine to create the hourglass shape

500

A PW transducer has a resonant frequency of 5MHz. The lowest freq. is 2MHz and the highest is 8MHz. What is the bandwidth?

6MHz

8MHz-2MHz= 6MHz

500

The sensitivity of a transducer that create short duration pulses is likely to be (greater than, less than, or equal to) that of transducers that create long pulses

less than