What is the wavelength at 0.5 MHz given a speed of sound of 1540 m/s?

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Multiple Choice

What is the wavelength at 0.5 MHz given a speed of sound of 1540 m/s?

Explanation:
Wavelength in a medium is found from the relation λ = c / f, where c is the speed of sound and f is the frequency. With c = 1540 m/s and f = 0.5 MHz = 5 × 10^5 Hz, the wavelength is λ = 1540 / 500,000 = 0.00308 m, which is 3.08 mm. This matches the provided value. The other numbers would correspond to different frequencies (for example, about 2 MHz gives ~0.77 mm, about 20 MHz gives ~0.077 mm, and about 20 kHz gives ~77 mm), highlighting that wavelength is inversely related to frequency.

Wavelength in a medium is found from the relation λ = c / f, where c is the speed of sound and f is the frequency. With c = 1540 m/s and f = 0.5 MHz = 5 × 10^5 Hz, the wavelength is λ = 1540 / 500,000 = 0.00308 m, which is 3.08 mm. This matches the provided value. The other numbers would correspond to different frequencies (for example, about 2 MHz gives ~0.77 mm, about 20 MHz gives ~0.077 mm, and about 20 kHz gives ~77 mm), highlighting that wavelength is inversely related to frequency.

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