This study aims to investigate the difference in hand acceleration induced by rapid changes in hand movement directions and propulsion between fast and slow groups of swimmers during front crawl swimming. Twenty-two participants, consisting of 11 fast and 11 slow swimmers, performed front crawl swimming at their maximal effort. Hand acceleration and velocity and the angle of attack were measured using a motion capture system. The dynamic pressure approach was used to estimate hand propulsion. In the insweep phase, the fast group attained significantly higher hand acceleration than the slow group in the lateral and vertical directions (15.31 [3.44] m·s−2 vs 12.23 [2.60] m·s−2 and 14.37 [1.70] m·s−2 vs 12.15 [1.21] m·s−2), and the fast group exerted significantly larger hand propulsion than the slow group (53 [5] N vs 44 [7] N). Although the fast group attained large hand acceleration and propulsion during the insweep phase, the hand velocity and the angle of attack were not significantly different in the 2 groups. The rapid change in hand movement direction could be considered in the technique of underwater arm stroke, particularly in the vertical direction, to increase hand propulsion during front crawl swimming.
CITATION STYLE
Kudo, S., Matsuda, Y., Sakurai, Y., & Ikuta, Y. (2023). Rapid Change in the Direction of Hand Movement to Increase Hand Propulsion During Front Crawl Swimming. Journal of Applied Biomechanics, 39(2), 90–98. https://doi.org/10.1123/jab.2022-0106
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