The article explains the extreme physical and technical demands of the quadruple Axel, a jump requiring four and a half rotations in the air. It details the physics principles involved, including angular momentum, moment of inertia, and the precise timing needed for takeoff and landing. Skaters must generate tremendous rotational speed while maintaining perfect body …
The article explains the extreme physical and technical demands of the quadruple Axel, a jump requiring four and a half rotations in the air. It details the physics principles involved, including angular momentum, moment of inertia, and the precise timing needed for takeoff and landing. Skaters must generate tremendous rotational speed while maintaining perfect body position to complete the jump, which places immense stress on the body. The piece discusses why this jump remains so rare in competition, even at the elite level, and how skaters train to attempt it. For a full exploration of the science behind this feat, read the complete article at https://www.wired.com/story/2026-winter-olympics-figure-skating-quadruple-axel-science/
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