Physics of knuckleballs

Baptiste Darbois Texier; Caroline Cohen; David Quéré; Christophe Clanet

doi:10.1088/1367-2630/18/7/073027

Physics of knuckleballs

Baptiste Darbois Texier
, Caroline Cohen
, David Quéré
, Christophe Clanet

Laboratoire d'Hydrodynamique de l'Ecole Polytechnique
UMR 7636 CNRS-ESPCI ParisTech-Université Pierre et Marie Curie

Research output: Contribution to journal › Article › peer-review

Abstract

Zigzag paths in sports ball trajectories are exceptional events. They have been reported in baseball (from where the word knuckleball comes from), in volleyball and in soccer. Such trajectories are associated with intermittent breaking of the lateral symmetry in the surrounding flow. The different scenarios proposed in the literature (such as the effect of seams in baseball) are first discussed and compared to existing data. We then perform experiments on zigzag trajectories and propose a new explanation based on unsteady lift forces. In a second step, we exploit wind tunnel measurements of these unsteady lift forces to solve the equations of motion for various sports and deduce the characteristics of the zigzags, pointing out the role of the drag crisis. Finally, the conditions for the observation of such trajectories in sports are discussed.

Original language	English
Article number	073027
Journal	New Journal of Physics
Volume	18
Issue number	7
DOIs	https://doi.org/10.1088/1367-2630/18/7/073027
Publication status	Published - 1 Jul 2016

Keywords

drag crisis
path instability
sport ballistics
symmetry breaking
zigzag trajectory

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10.1088/1367-2630/18/7/073027

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title = "Physics of knuckleballs",

abstract = "Zigzag paths in sports ball trajectories are exceptional events. They have been reported in baseball (from where the word knuckleball comes from), in volleyball and in soccer. Such trajectories are associated with intermittent breaking of the lateral symmetry in the surrounding flow. The different scenarios proposed in the literature (such as the effect of seams in baseball) are first discussed and compared to existing data. We then perform experiments on zigzag trajectories and propose a new explanation based on unsteady lift forces. In a second step, we exploit wind tunnel measurements of these unsteady lift forces to solve the equations of motion for various sports and deduce the characteristics of the zigzags, pointing out the role of the drag crisis. Finally, the conditions for the observation of such trajectories in sports are discussed.",

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T1 - Physics of knuckleballs

AU - Texier, Baptiste Darbois

AU - Cohen, Caroline

AU - Quéré, David

AU - Clanet, Christophe

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N2 - Zigzag paths in sports ball trajectories are exceptional events. They have been reported in baseball (from where the word knuckleball comes from), in volleyball and in soccer. Such trajectories are associated with intermittent breaking of the lateral symmetry in the surrounding flow. The different scenarios proposed in the literature (such as the effect of seams in baseball) are first discussed and compared to existing data. We then perform experiments on zigzag trajectories and propose a new explanation based on unsteady lift forces. In a second step, we exploit wind tunnel measurements of these unsteady lift forces to solve the equations of motion for various sports and deduce the characteristics of the zigzags, pointing out the role of the drag crisis. Finally, the conditions for the observation of such trajectories in sports are discussed.

AB - Zigzag paths in sports ball trajectories are exceptional events. They have been reported in baseball (from where the word knuckleball comes from), in volleyball and in soccer. Such trajectories are associated with intermittent breaking of the lateral symmetry in the surrounding flow. The different scenarios proposed in the literature (such as the effect of seams in baseball) are first discussed and compared to existing data. We then perform experiments on zigzag trajectories and propose a new explanation based on unsteady lift forces. In a second step, we exploit wind tunnel measurements of these unsteady lift forces to solve the equations of motion for various sports and deduce the characteristics of the zigzags, pointing out the role of the drag crisis. Finally, the conditions for the observation of such trajectories in sports are discussed.

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KW - path instability

KW - sport ballistics

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Physics of knuckleballs

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Keywords

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