Two types of ball-effector interaction and their relative contribution to soccer kicking |
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Authors: | Nikitas Tsaousidis Vladimir Zatsiorsky |
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Affiliation: | Biomechanics Laboratory, Department of Exercise and Sport Science, The Pennsylvania State University, University Park, PA 16802, USA |
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Abstract: | The study attempts a closer examination of the ball-foot interaction at the instant of soccer kicking using high speed videotaping. This allows a detailed biomechanical analysis of the collision. A central question is whether the ball-foot interaction can be modeled as an elastic impact, or as a mixture of ‘impact-like’ and ‘throwing-like’ patterns. The findings prove that the theory of conservation of momentum alone is not adequate for modeling kicking: additional momentum and mechanical energy is supplied to the system during the collision phase because of the muscle work. This is due to the relatively long duration of collision (about 16 ms) and the large ball-foot displacement (about 26.0 cm). More than 50% of the ball's speed and at least 30% of its kinetic energy is imparted to the ball without any contribution of the potential energy of the ball deformation. |
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Keywords: | Sports Soccer Muscle contractions Momentum Mechanical energy Impact Kick |
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