The asymmetrical friction mechanism that puts the curl in the curling stone
a b s t r a c t Curling is an Olympic winter sport in which two teams slide stones across a sheet of ice towards a target area, some 28 m away from the release line. The sport has its name from the fact that the trajectory of a rotating stone becomes slightly curled, a fact used to reach open spots...
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ftciteseerx:oai:CiteSeerX.psu:10.1.1.1044.9009 2023-05-15T16:41:18+02:00 The asymmetrical friction mechanism that puts the curl in the curling stone Harald Nyberg Sara Alfredson Sture Hogmark Staffan Jacobson The Pennsylvania State University CiteSeerX Archives application/pdf http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1044.9009 http://www.thesalmons.org/lynn/curling/A5.pdf en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1044.9009 http://www.thesalmons.org/lynn/curling/A5.pdf Metadata may be used without restrictions as long as the oai identifier remains attached to it. http://www.thesalmons.org/lynn/curling/A5.pdf text ftciteseerx 2020-04-05T00:16:49Z a b s t r a c t Curling is an Olympic winter sport in which two teams slide stones across a sheet of ice towards a target area, some 28 m away from the release line. The sport has its name from the fact that the trajectory of a rotating stone becomes slightly curled, a fact used to reach open spots or take out opponent stones behind hindering ''guarding'' stones, etc. By slowly turning the stone clockwise when it is released, it will curl to the right, and vice versa. The resulting sideward deviation is typically slightly more than a metre. This intriguing tribological phenomenon has so far lacked a satisfactory explanation, although many attempts have been presented. In many of them, the curling motion has been attributed to an asymmetrical distribution of the friction force acting on the sliding stone, such that the friction on the rear of the stone (as seen in the direction of motion) is higher than that on the front. In a recent paper, we could show that no such redistribution of the friction, no matter how extreme, can explain the magnitude of the observed motion of a real curling stone. The present work presents an alternative asymmetrical mechanism that actually is strong enough to account for the observed motion. Further, in contrast to previous models, it satisfies other observed phenomena, including the independence of rotational speed of the stone and the strong dependence of the roughness of the stone. The model is backed up by experimental evidence and is based on the specific tribological conditions presented by the contact between a scratched curling stone and a pebbled ice sheet. Text Ice Sheet Unknown Curl ENVELOPE(-63.071,-63.071,-70.797,-70.797) |
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English |
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a b s t r a c t Curling is an Olympic winter sport in which two teams slide stones across a sheet of ice towards a target area, some 28 m away from the release line. The sport has its name from the fact that the trajectory of a rotating stone becomes slightly curled, a fact used to reach open spots or take out opponent stones behind hindering ''guarding'' stones, etc. By slowly turning the stone clockwise when it is released, it will curl to the right, and vice versa. The resulting sideward deviation is typically slightly more than a metre. This intriguing tribological phenomenon has so far lacked a satisfactory explanation, although many attempts have been presented. In many of them, the curling motion has been attributed to an asymmetrical distribution of the friction force acting on the sliding stone, such that the friction on the rear of the stone (as seen in the direction of motion) is higher than that on the front. In a recent paper, we could show that no such redistribution of the friction, no matter how extreme, can explain the magnitude of the observed motion of a real curling stone. The present work presents an alternative asymmetrical mechanism that actually is strong enough to account for the observed motion. Further, in contrast to previous models, it satisfies other observed phenomena, including the independence of rotational speed of the stone and the strong dependence of the roughness of the stone. The model is backed up by experimental evidence and is based on the specific tribological conditions presented by the contact between a scratched curling stone and a pebbled ice sheet. |
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The Pennsylvania State University CiteSeerX Archives |
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Text |
| author |
Harald Nyberg Sara Alfredson Sture Hogmark Staffan Jacobson |
| spellingShingle |
Harald Nyberg Sara Alfredson Sture Hogmark Staffan Jacobson The asymmetrical friction mechanism that puts the curl in the curling stone |
| author_facet |
Harald Nyberg Sara Alfredson Sture Hogmark Staffan Jacobson |
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Harald Nyberg |
| title |
The asymmetrical friction mechanism that puts the curl in the curling stone |
| title_short |
The asymmetrical friction mechanism that puts the curl in the curling stone |
| title_full |
The asymmetrical friction mechanism that puts the curl in the curling stone |
| title_fullStr |
The asymmetrical friction mechanism that puts the curl in the curling stone |
| title_full_unstemmed |
The asymmetrical friction mechanism that puts the curl in the curling stone |
| title_sort |
asymmetrical friction mechanism that puts the curl in the curling stone |
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http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1044.9009 http://www.thesalmons.org/lynn/curling/A5.pdf |
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ENVELOPE(-63.071,-63.071,-70.797,-70.797) |
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Curl |
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Curl |
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Ice Sheet |
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Ice Sheet |
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http://www.thesalmons.org/lynn/curling/A5.pdf |
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http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.1044.9009 http://www.thesalmons.org/lynn/curling/A5.pdf |
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Metadata may be used without restrictions as long as the oai identifier remains attached to it. |
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