If the bulk modulus of a medium increases while density remains constant, what happens to the speed of ultrasound?

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If the bulk modulus of a medium increases while density remains constant, what happens to the speed of ultrasound?

Ultrasound travels faster when a medium is stiffer relative to its inertia. The speed of a compressional wave is tied to how resistant the material is to compression (bulk modulus) compared with its density. If density stays constant and the bulk modulus increases, the ratio B/ρ grows, so the speed increases. Intuitively, a stiffer medium transmits the pressure disturbance more quickly because it resists compression more strongly. Therefore, the speed goes up.

If the bulk modulus of a medium increases while density remains constant, what happens to the speed of ultrasound?

Prepare for the Davies Publishing SPI Test with our study materials featuring flashcards and multiple-choice questions. Each question includes hints and explanations to enhance your learning process. Ace your exam with confidence!

If the bulk modulus of a medium increases while density remains constant, what happens to the speed of ultrasound?

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