Capelli C, Zamparo P, Cigalotto A, Francescato M P, Soule R G, Termin B, Pendergast D R, Di Prampero P E
Dipartimento di Scienze e Tecnologie Biomediche, Università di Udine, Italy.
J Appl Physiol (1985). 1995 Feb;78(2):674-9. doi: 10.1152/jappl.1995.78.2.674.
"Underwater torque" (T') is one of the main factors determining the energy cost of front crawl swimming per unit distance (Cs). In turn, T' is defined as the product of the force with which the swimmer's feet tend to sink times the distance between the feet and the center of volume of the lungs. The dependency of Cs on T' was further investigated by determining Cs in a group of 10 recreational swimmers (G1: 4 women and 6 men) and in a group of 8 male elite swimmers (G2) after T' was experimentally modified. This was achieved by securing around the swimmers' waist a plastic tube filled, on different occasions, with air, water, or 1 or 2 kg of lead. Thus, T' was either decreased, unchanged, or increased compared with the natural condition (tube filled with water). Cs was determined, for each T' configuration, at 0.7 m/s for G1 and at 1.0 and 1.2 m/s for G2. For T' equal to the natural value, Cs (in kJ.m-1.m body surface area-2) was 0.36 +/- 0.09 and 0.53 +/- 0.13 for G1 in women and men, respectively, and 0.45 +/- 0.05 and 0.53 +/- 0.06 for G2 at 1.0 and 1.2 m/s, respectively. In a given subject at a given speed, Cs and T' were linearly correlated. To compare different subjects and different speeds, the single values of Cs and T' were normalized by dividing them by the corresponding individual averages. These were calculated from all single values (of Cs or T') obtained from that subject at that speed.(ABSTRACT TRUNCATED AT 250 WORDS)
“水下扭矩”(T')是决定自由泳每单位距离能量消耗(Cs)的主要因素之一。反过来,T'被定义为游泳者双脚下沉趋势的力与双脚和肺部体积中心之间距离的乘积。通过在一组10名休闲游泳者(G1:4名女性和6名男性)和一组8名男性精英游泳者(G2)中,在对T'进行实验性改变后测定Cs,进一步研究了Cs对T'的依赖性。这是通过在游泳者腰部固定一根塑料管来实现的,在不同情况下,该塑料管填充有空气、水或1或2千克铅。因此,与自然状态(管中充满水)相比,T'要么减小、不变,要么增大。对于每种T'配置,在0.7米/秒的速度下测定G1的Cs,在1.0和1.2米/秒的速度下测定G2的Cs。当T'等于自然值时,G1中女性和男性的Cs(以千焦·米-1·米体表面积-2为单位)分别为0.36±0.09和0.53±0.13,G2在1.0和1.2米/秒时的Cs分别为0.45±0.05和0.53±0.06。在给定速度下的给定受试者中,Cs和T'呈线性相关。为了比较不同受试者和不同速度,将Cs和T'的单个值除以相应的个体平均值进行归一化。这些平均值是根据该受试者在该速度下获得的所有单个值(Cs或T')计算得出的。(摘要截取自250字)
