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September 18, 2025

A simple multimedia resonance experiment for measuring the speed of sound

Key Points

The speed of sound was calculated to be 346 m s −1 at 27.0 °C, confirming established reference values.
Using a smartphone application created sound sources and recorded resonance with a digital camera for analysis.
Data analysis involved measuring frequency and wavelength using standard tools like Praat and Tracker software.
This straightforward methodology promotes engaging laboratory experiences for students exploring wave phenomena.

Abstract

Abstract The speed of sound was measured using a multimedia-based equipment with a standard setup involving a resonance tube and a smartphone-based sound source. In contrast to conventional methods, the Phyphox application was employed to generate sound source and resonance process was recorded using a digital camera. The collected data were analysed using Praat to determine time for the resonance condition, and Tracker to measure the corresponding air column length. The speed of sound was then calculated graphically from the measured frequency and wavelength. At an ambient temperature of 27.0 °C, the measured speed of sound was found to be (346 ± 2) m s −1 , in good agreement with established reference values. This simple and accessible method is well-suited for educational laboratories, offering students a practical and engaging way to explore wave phenomena using familiar multimedia tools.

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A simple multimedia resonance experiment for measuring the speed of sound

Key Points

Abstract

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