Pendergast D R, Di Prampero P E, Craig A B, Wilson D R, Rennie D W
J Appl Physiol Respir Environ Exerc Physiol. 1977 Sep;43(3):475-9. doi: 10.1152/jappl.1977.43.3.475.
Body drag, D, and the overall mechanical efficiency of swimming, e, were measured from the relationship between extra oxygen consumption and extra drag loads in 42 male and 22 female competitive swimmers using the front crawl at speeds ranging from 0.4 to 1.2 m/s. D increased from 3.4 (1.9) kg at 0.5 m/s to 8.2 (7.0) kg at 1.2 m/s, with D of women (in brackets) being significantly less (P less than 0.05) than that of men. Mechanical efficiency increased from 2.9% at 0.5 m/s to 7.4% at 1.2 m/s for men, the values for women being somewhat greater than those for men. The ratio, D/e was shown to be identical to the directly measured energy cost of swimming one unit distance, V02/d, and was independent of the velocity up to 1.2 m/s. It averaged 52 and 37 l/km for men and women respectively (P less than 0.05). When corrected for body surface area the values were 27 and 22 l/km-m2 for men and women, respectively (P less than 0.05). The underwater torque, T, a measure of the tendency of the feet to sink, was 1.44 kg-m for men and 0.70 kg-m for women (P less than 0.05). VO2/d increased linearly with T for both men and women of similar competitive experience. However, the proportionality constant delta VO2/d-delta T was significantly less for competitive than noncompetitive swimmers. The analysis of the relationship VO2/d vs. T provides a valuable approach to the understanding of the energetics of swimming.
通过测量42名男性和22名女性竞技游泳运动员在0.4至1.2米/秒速度范围内进行自由泳时额外耗氧量与额外阻力负荷之间的关系,测定了身体阻力(D)和游泳的整体机械效率(e)。D从0.5米/秒时的3.4(1.9)千克增加到1.2米/秒时的8.2(7.0)千克,女性的D(括号内数值)显著低于男性(P<0.05)。男性的机械效率从0.5米/秒时的2.9%增加到1.2米/秒时的7.4%,女性的值略高于男性。结果表明,D/e与直接测量的游过单位距离的能量消耗V02/d相同,并且在速度达到1.2米/秒时与速度无关。男性和女性的平均值分别为52和37升/千米(P<0.05)。经体表面积校正后,男性和女性的值分别为27和22升/千米·平方米(P<0.05)。水下扭矩(T)是衡量脚部下沉趋势的指标,男性为1.44千克·米,女性为0.70千克·米(P<0.05)。对于具有相似竞技经验的男性和女性,V02/d均随T线性增加。然而,竞技游泳运动员的比例常数δV02/d-δT显著低于非竞技游泳运动员。对V02/d与T之间关系的分析为理解游泳能量学提供了一种有价值的方法。
