Effect of leg kick on active drag in front-crawl swimming: Comparison of whole stroke and arms-only stroke during front-crawl and the streamlined position

Abstract: The purpose of this study was to examine the effect of leg kick on the resistance force in front-crawl swimming. The active drag in front-crawl swimming with and without leg motion was evaluated using measured values of residual thrust (MRT method) and compared with the passive drag of the streamlined position (SP) for the same swimmers. Seven male competitive swimmers participated in this study, and the testing was conducted in a swimming flume. Each swimmer performed front-crawl under two conditions: using a… Show more

“…Since swimmers were supposed to maintain the same motion as they did at 1.20 m⋅s –1 in all nine trials, the estimated residual thrust at zero flow velocity was assumed to be equivalent to the mean propulsive and resistive forces at a free-swimming condition with the target velocity. More detail of the procedure is provided in the literature ( Narita et al, 2017 , 2018 ).…”

Front Crawl Is More Efficient and Has Smaller Active Drag Than Backstroke Swimming: Kinematic and Kinetic Comparison Between the Two Techniques at the Same Swimming Speeds

“…Since swimmers were supposed to maintain the same motion as they did at 1.20 m⋅s –1 in all nine trials, the estimated residual thrust at zero flow velocity was assumed to be equivalent to the mean propulsive and resistive forces at a free-swimming condition with the target velocity. More detail of the procedure is provided in the literature ( Narita et al, 2017 , 2018 ).…”

Front Crawl Is More Efficient and Has Smaller Active Drag Than Backstroke Swimming: Kinematic and Kinetic Comparison Between the Two Techniques at the Same Swimming Speeds

“…A duração total da propulsão de braços e pernas foi avaliada por um novo índice de propulsão de peito plano (IFBP). 5,12,19,20,23,27,36,38,42,53 acabaram por avaliar poucos indivíduos; isso se deve ao fato de que, no ambiente aquático, as pesquisas tornam-se difíceis de serem realizadas. 63 Quanto às produções, no decorrer e a utilização de centrais inerciais 11,18,28,38 que permitem a coleta de variáveis, por telemetria e instantaneamente.…”

“…5,8,31,45 Destes, buscava-se a contribuição relativa entre braços e pernas. No estudo de Connaboy et al 25 36,59 Essa busca contou, ainda, com as diferenças entre velocistas e fundistas no nado crawl; 54 a caracterização técnica da ação das pernas do crawl em nadadores de 11 a 13 anos de idade; 47 e em como otimizar os membros inferiores para nadadores paraolímpicos por meio de medidas de força. 7,48,62 Com relação às forças, os estudos de Lauer, Olstad, Minetti, Kjendlie e Pouard, 23 Ressalva-se também que falta modelagem para geração de dados de dinâmica, inversa em decorrência da dificuldade em medir forças hidrodinâmicas em condições dinâmicas.…”

Diferentes perspectivas da ação de membros inferiores nos quatro nados competitivos: uma revisão integrativa

“…Most water sports, such as swim racing, emphasize moving speed in swimming pools. According to previous studies, understanding water flow around a swimmer is key to reducing water resistance when swimming and improving propulsive force [Narita et al 2018]. Flows are usually visualized by introducing micro-sized plastic particles, called tracer particles, into the fluid.…”

Fluid-measurement technology using flow birefringence of nanocellulose