2017
DOI: 10.1016/j.jbiomech.2017.01.037
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Developing a methodology for estimating the drag in front-crawl swimming at various velocities

Abstract: We aimed to develop a new method for evaluating the drag in front-crawl swimming at various velocities and at full stroke. In this study, we introduce the basic principle and apparatus for the new method, which estimates the drag in swimming using measured values of residual thrust (MRT). Furthermore, we applied the MRT to evaluate the active drag (Da) and compared it with the passive drag (Dp) measured for the same swimmers. Da was estimated in five-stages for velocities ranging from 1.0 to 1.4ms; Dp was meas… Show more

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Cited by 46 publications
(46 citation statements)
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“…Similar results were reported in studies using an energetics approach (Di Prampero et al, 1974;Zamparo et al, 2005). Narita et al (2017) estimated drag during swimming using measured values of residual thrust (MRT) and found similar results. From data reported in previous studies, it is evident that the active drag in front-crawl swimming is larger than that in passive conditions, except when the data were obtained using the MAD approach.…”
Section: .Introductionsupporting
confidence: 84%
See 1 more Smart Citation
“…Similar results were reported in studies using an energetics approach (Di Prampero et al, 1974;Zamparo et al, 2005). Narita et al (2017) estimated drag during swimming using measured values of residual thrust (MRT) and found similar results. From data reported in previous studies, it is evident that the active drag in front-crawl swimming is larger than that in passive conditions, except when the data were obtained using the MAD approach.…”
Section: .Introductionsupporting
confidence: 84%
“…To evaluate active drag, we used the MRT method developed by Narita et al (2017). Prior to measuring the value of residual thrust, which is the difference between the propulsive force and the resistance force, to evaluate the active drag at the targeted swimming velocity V Si , each swimmer self-propelled in the flume with the flow velocity U set to i m s 1 (i indicates an arbitrary velocity at which to evaluate active drag).…”
Section: Testing Proceduresmentioning
confidence: 99%
“…We measured the residual thrust at eight points within the range of 0.2 m/s around VSi, changing U by 0.05 m/s each time. Thereafter, we derived best-fit regression curves for the measured values of residual thrust and U and used them to calculate the active drag (for further details, see Narita et al [6]). The drag was estimated in six-staged velocities from 0.9 to 1.4 m/s.…”
Section: Mrt-methodsmentioning
confidence: 99%
“…A methodology for estimating the drag in swimming using measured values of residual thrust (MRT-method) has recently been developed by Narita et al [6]. The MRT-method has no restriction on swimming style and velocity, therefore, the method can evaluate active drag at any velocities as with MAD-system.…”
Section: Introductionmentioning
confidence: 99%
“…Narita et al(2017)による MRT 法を用いて評価された.速度に関しては, 回帰曲線により導出された速度(U Tre0 )を分析に 用いた.なお,U Tre0 は評価対象となる速度(V Si )Top view of the measurement process. To measure only the horizontal component forces, the angles of inclination of each wire, θ 1 and θ 2, were considered.…”
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