Abstract
When traveling by rail, you might have experienced the following phenomenon: The train enters a tunnel, and after some seconds a noticeable pressure change occurs, as perceived by your ears or even by a rapid wobbling of the train windows. The basic physics is that pressure waves created by the train travel down the tunnel, are reflected at its other end, and travel back until they meet the train again. Here we will show (i) how this effect can be well understood as a kind of large-scale outdoor case of a textbook paradigm (Chap. 41 and [1–4]), and (ii) how, e.g., a prediction of the tunnel length from the inside of a moving train on the basis of this model can be validated by means of a mobile phone measurement.
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Notes
- 1.
More complete error considerations can be obtained from the authors.
- 2.
That the experimental value lies above the official value can be understood partly because reflections of sound waves at the open end occur a bit outside (end correction). The acoustical length of the tunnel is therefore some meters greater than the physical length.
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Müller, A., Hirth, M., Kuhn, J. (2022). Tunnel Pressure Waves: A Smartphone Inquiry on Rail Travel. In: Kuhn, J., Vogt, P. (eds) Smartphones as Mobile Minilabs in Physics. Springer, Cham. https://doi.org/10.1007/978-3-030-94044-7_42
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DOI: https://doi.org/10.1007/978-3-030-94044-7_42
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