PRINCIPLES OF MECHANICS IN SLAP SHOT IN ICE HOCKEY

Kai Zhang; Jiuling Wang; Zhenzhen Li; Jing Hu; Ning Wang; Yanfei Jin

doi:10.6052/1000-0879-22-091

PRINCIPLES OF MECHANICS IN SLAP SHOT IN ICE HOCKEY

Kai Zhang, Jiuling Wang, Zhenzhen Li, Jing Hu, Ning Wang, Yanfei Jin^*

^*Corresponding author for this work

School of Aerospace Engineering

China Media Group

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

Abstract

Ice hockey, as the only ball team sport in the Winter Olympics, exhibits the perfect combination of skill, strength and speed, and reflects the olympic spirit of “Faster, Higher, Stronger-Together”. From the perspective of mechanics, we analyze and discuss the important factors in slap shot in ice hockey, and reveal the underlying mechanics principles. By designing model experiments for slap shot in ice hockey, it is found that the angular velocity and the length of the stick have important effects on the speed of the puck. From the law of conservation of angular momentum and conservation of energy, it is found that the speed of the puck is proportional to the angular velocity before the player hits the ball, and the speed of the puck increases after hitting as the distance from the puck to the axis of rotation increases.

Original language	English
Pages (from-to)	454-457
Number of pages	4
Journal	Mechanics in Engineering
Volume	44
Issue number	2
DOIs	https://doi.org/10.6052/1000-0879-22-091
Publication status	Published - 8 Apr 2022

Keywords

angular velocity
conservation of angular momentum
conservation of energy
ice hockey
slap shot

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abstract = "Ice hockey, as the only ball team sport in the Winter Olympics, exhibits the perfect combination of skill, strength and speed, and reflects the olympic spirit of “Faster, Higher, Stronger-Together”. From the perspective of mechanics, we analyze and discuss the important factors in slap shot in ice hockey, and reveal the underlying mechanics principles. By designing model experiments for slap shot in ice hockey, it is found that the angular velocity and the length of the stick have important effects on the speed of the puck. From the law of conservation of angular momentum and conservation of energy, it is found that the speed of the puck is proportional to the angular velocity before the player hits the ball, and the speed of the puck increases after hitting as the distance from the puck to the axis of rotation increases.",

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T1 - PRINCIPLES OF MECHANICS IN SLAP SHOT IN ICE HOCKEY

AU - Zhang, Kai

AU - Wang, Jiuling

AU - Li, Zhenzhen

AU - Hu, Jing

AU - Wang, Ning

AU - Jin, Yanfei

PY - 2022/4/8

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N2 - Ice hockey, as the only ball team sport in the Winter Olympics, exhibits the perfect combination of skill, strength and speed, and reflects the olympic spirit of “Faster, Higher, Stronger-Together”. From the perspective of mechanics, we analyze and discuss the important factors in slap shot in ice hockey, and reveal the underlying mechanics principles. By designing model experiments for slap shot in ice hockey, it is found that the angular velocity and the length of the stick have important effects on the speed of the puck. From the law of conservation of angular momentum and conservation of energy, it is found that the speed of the puck is proportional to the angular velocity before the player hits the ball, and the speed of the puck increases after hitting as the distance from the puck to the axis of rotation increases.

AB - Ice hockey, as the only ball team sport in the Winter Olympics, exhibits the perfect combination of skill, strength and speed, and reflects the olympic spirit of “Faster, Higher, Stronger-Together”. From the perspective of mechanics, we analyze and discuss the important factors in slap shot in ice hockey, and reveal the underlying mechanics principles. By designing model experiments for slap shot in ice hockey, it is found that the angular velocity and the length of the stick have important effects on the speed of the puck. From the law of conservation of angular momentum and conservation of energy, it is found that the speed of the puck is proportional to the angular velocity before the player hits the ball, and the speed of the puck increases after hitting as the distance from the puck to the axis of rotation increases.

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KW - conservation of energy

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PRINCIPLES OF MECHANICS IN SLAP SHOT IN ICE HOCKEY

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Keywords

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