左手和右手羽毛球削球:相反的羽毛球旋转和马格努斯效应

arXiv - PHYS - Popular Physics Pub Date : 2023-10-17 DOI:arxiv-2310.11155

Eric Collet

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引用次数: 0

摘要

羽毛球的手性是它在空气中自然传播时逆时针旋转的原因。这导致了左手和右手球员之间的不对称，以及由此产生的羽毛球运动轨迹，这是在羽毛球场上的真实条件下以3700帧/秒的慢动作拍摄的。视频清楚地证明了这种不对称，因为右撇子的削球加速了自然的逆时针旋转，而左撇子的削球则导致了顺时针到逆时针的旋转，使得羽毛球的轨迹不同。慢动作视频还捕捉到了一个在羽毛球运动中经常被忽视的短暂的马格努斯效应，它将左撇子和右撇子的毽子举起来，影响了削球的效果。

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Left- vs right-handed badminton slice shots: opposite shuttlecock spinning and Magnus effect

The chiral nature of a badminton shuttlecock is responsible for its anti-clockwise spinning as it naturally propagates through the air. This induces a dissymmetry between left-handed and right-handed players and the resulting trajectories of the shuttlecock, which were captured in real condition on the badminton court and in slow-motion at 3700 fps. The videos clearly evidence this dissymmetry as slice shots performed by righties accelerate the natural anti-clockwise spinning, while the one performed by lefties induces a clockwise to anti-clockwise spinning, making trajectories of shuttlecocks different. The slow-motion videos also caught a brief Magnus effect, often neglected in badminton, lifting up the shuttlecock for both lefties and righties and affecting the effectiveness of the slice shot.

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arXiv - PHYS - Popular Physics

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