The research was published in the journal Science Advances. “We believe the findings of this study could have further scientific applications by helping us to find and understand limits of different properties such as viscosity and thermal conductivity relevant for high-temperature superconductivity, quark-gluon plasma and even black hole physics,” says Kostya Trachenko, lead author of the study. The team used quantum mechanical calculations to test just how fast it would move through the material, and found that the speed is close to the theoretical fundamental limit.īesides being fascinating, this kind of study might not have all that much impact on our everyday lives, but the team says that improving our understanding of these fundamental constants and limits can improve our models for a range of sciences. One prediction made by the theory is that the speed of sound should decrease with the mass of the atom, so by extension sound should travel fastest in solid atomic hydrogen. These numbers play huge roles in a variety of scientific fields, including in this case, material properties. The researchers came to this conclusion by studying two fundamental constants – the fine structure constant and the proton-to-electron mass ratio. Under those conditions, hydrogen is compressed into a metallic solid that can easily conduct electricity – and, it turns out, sound. This form of the element only occurs under immense pressure, such as that found at the core of gas giant planets like Jupiter. So what medium lets sound travel at such a high speed? According to the new study, it’s solid atomic hydrogen. That’s more than 100 times faster than its average speed through air, which is 343 m (1,125 ft) per second, and three times faster than its previously-measured top speed of 12 km (7.5 mi) per second, through diamond. The team found that at its fastest, sound can travel at 36 km (22.4 mi) per second. But it can travel much faster through other media, and now scientists at the University of Cambridge and Queen Mary University of London have identified the absolute top speed of sound. Kelvin: in the International System of Units, the base unit of thermodynamic temperature 1/273.When we talk about the speed of sound, we usually mean how fast it moves through air. Medium: General term for different types of materials. That value is 344 m/s.Įlastic: The property of a material deformed under the load can regain its original dimensions when unloaded
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