What happens to wavelength as frequency increases in ultrasound?

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Prepare for the SPI Ultrasound Registry Exam with comprehensive flashcards and multiple choice questions. Each question provides hints and explanations to help you grasp the principles and instrumentation of sonography. Excel in your exam!

Multiple Choice

What happens to wavelength as frequency increases in ultrasound?

Explanation:
In ultrasound, wavelength is inversely related to frequency. As frequency increases, the wavelength of the sound wave decreases. This relationship is governed by the formula: Wavelength = Speed of Sound / Frequency. In this formula, the speed of sound in a given medium (such as soft tissue) remains constant. Therefore, if frequency increases, the wavelength must decrease to maintain the equality. This means that higher frequency ultrasound waves have shorter wavelengths, allowing for better resolution in imaging. Understanding this relationship is crucial in sonography, as different frequencies and their corresponding wavelengths affect the depth of penetration and the resolution of the ultrasound images. Higher frequencies provide better detail but are less able to penetrate dense tissues, while lower frequencies penetrate more but with reduced resolution. Hence, the correct response indicates that as frequency increases in ultrasound, the wavelength decreases.

In ultrasound, wavelength is inversely related to frequency. As frequency increases, the wavelength of the sound wave decreases. This relationship is governed by the formula:

Wavelength = Speed of Sound / Frequency.

In this formula, the speed of sound in a given medium (such as soft tissue) remains constant. Therefore, if frequency increases, the wavelength must decrease to maintain the equality. This means that higher frequency ultrasound waves have shorter wavelengths, allowing for better resolution in imaging.

Understanding this relationship is crucial in sonography, as different frequencies and their corresponding wavelengths affect the depth of penetration and the resolution of the ultrasound images. Higher frequencies provide better detail but are less able to penetrate dense tissues, while lower frequencies penetrate more but with reduced resolution. Hence, the correct response indicates that as frequency increases in ultrasound, the wavelength decreases.

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