Total attenuation depends upon which three factors?

• A. Frequency of the sound; Distance traveled by the beam; The tissue through which the sound wave travels
• B. Sound speed; Wavelength; Amplitude
• C. The tissue density; Distance traveled by the beam; Frequency
• D. Frequency; Distance; Tissue

Answer: (A)

Total attenuation is the amount the ultrasound signal weakens as it travels, and it depends on three things: the frequency of the sound, the distance it travels, and the tissue it passes through.

The frequency matters because higher-frequency waves lose more energy to absorption and scattering in tissue, so attenuation increases with frequency. The distance traveled matters because attenuation accumulates as the wave moves; more distance means more energy lost. The tissue matters because different tissues have different abilities to absorb and scatter sound; some tissues (like bone) attenuate much more than others (like fluid), so the same distance and frequency will produce different attenuation in different tissues.

Other factors like the speed of sound or the initial amplitude aren’t the primary determinants of total attenuation, which is governed by how much energy is lost per unit length (the attenuation per distance) and how that loss scales with frequency and tissue properties.