Which cavitation form is characterized by stable bubble oscillation without collapse?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Master the Sonography Principles and Instrumentation Exam. Hone your skills with flashcards and detailed multiple choice questions. Prepare confidently with real exam scenarios and in-depth explanations. Ready yourself for success!

Multiple Choice

Which cavitation form is characterized by stable bubble oscillation without collapse?

Explanation:
When ultrasound interacts with microbubbles, they can either stay intact while repeatedly expanding and contracting, or they can grow rapidly and collapse violently. The form that shows stable bubble oscillation without collapse is stable cavitation, also called noninertial cavitation. It occurs at lower acoustic pressures, so the bubble gently pulsates in step with the pressure cycles and does not break apart. This sustained oscillation creates microstreaming around the bubble, producing shear forces that can influence nearby cells or enhance mixing, with relatively milder bioeffects. In contrast, transient or inertial cavitation involves rapid bubble growth followed by a violent collapse, generating shock waves and higher local temperatures—effects that are much more disruptive and can risk tissue injury. The option “normal cavitation” isn’t a standard category for describing these behaviors.

When ultrasound interacts with microbubbles, they can either stay intact while repeatedly expanding and contracting, or they can grow rapidly and collapse violently. The form that shows stable bubble oscillation without collapse is stable cavitation, also called noninertial cavitation. It occurs at lower acoustic pressures, so the bubble gently pulsates in step with the pressure cycles and does not break apart. This sustained oscillation creates microstreaming around the bubble, producing shear forces that can influence nearby cells or enhance mixing, with relatively milder bioeffects.

In contrast, transient or inertial cavitation involves rapid bubble growth followed by a violent collapse, generating shock waves and higher local temperatures—effects that are much more disruptive and can risk tissue injury. The option “normal cavitation” isn’t a standard category for describing these behaviors.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy