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The Physics of Squeaking Sneakers
Geometry of tread patterns determines frequency, so blocks were designed to play Star Wars music.
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lamplighter
Joined 2013/04/13Visited 2026/03/12
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The physics of squeaking sneakers. Geometry of tread patterns determines frequency, so these scientists designed rubber blocks to play the Star Wars theme. Science! arstechnica.com/science/2026 ... [image or embed] -- Jennifer Ouellette (@jenlucpiquant.bsky.social) Feb 26, 2026 at 5:22 PM
The physics of squeaking sneakers. Geometry of tread patterns determines frequency, so these scientists designed rubber blocks to play the Star Wars theme. Science! arstechnica.com/science/2026 ... [image or embed]
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... We're all familiar with the high-pitched squeak of basketball shoes on the court during games, or tires squealing on pavement. Scientists conducted several experiments and discovered that the geometry of the sneakers' tread patterns determines the squeak's frequency, enabling the team to make rubber blocks set to specific frequencies and slide them across glass surfaces to play Star Wars' "Imperial March." "Tuning frictional behavior on the fly has been a long-standing engineering dream," said co-author Katia Bertoldi of Harvard University. "This new insight into how surface geometry governs slip pulses paves the way for tunable frictional metamaterials that can transition from low-friction to high-grip states on demand." In addition, the dynamics revealed by these results are similar to those of tectonic faults and thus give scientists a new model for the mechanics of earthquakes, according to their new paper published in the journal Nature. ...
Scientists conducted several experiments and discovered that the geometry of the sneakers' tread patterns determines the squeak's frequency, enabling the team to make rubber blocks set to specific frequencies and slide them across glass surfaces to play Star Wars' "Imperial March."
"Tuning frictional behavior on the fly has been a long-standing engineering dream," said co-author Katia Bertoldi of Harvard University. "This new insight into how surface geometry governs slip pulses paves the way for tunable frictional metamaterials that can transition from low-friction to high-grip states on demand."
In addition, the dynamics revealed by these results are similar to those of tectonic faults and thus give scientists a new model for the mechanics of earthquakes, according to their new paper published in the journal Nature. ...
#1 | Posted by LampLighter at 2026-02-27 02:31 PM | Reply
They made a road play the William Tell Overture
#2 | Posted by LegallyYourDead at 2026-02-28 02:13 AM | Reply | Newsworthy 1
Oh those nerdy scientists!
Wait until you see what AI can do for (and to) you!
#3 | Posted by donnerboy at 2026-03-02 11:42 AM | Reply
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