ABSTRACT
This study examined whether Sanders’ model is suitable for estimating accurately the propulsive force generated by the hands’ motion in swimming comparing the calculated force obtained using the model and the measured force during an actual propulsive action. The measured and calculated forces were obtained from 13 swimmers who, while tethered, performed a sculling motion in a prone position for the purpose of displacing the body by moving it forward. Kinematic analyses were conducted to obtain the calculated force, while the measured force was obtained via the use of a load cell. The calculated force was lower than the measured force and accounted for only a small part of the variation in the measured force. The forces could not be used interchangeably, and there were fixed and proportional differences between them. Consequently, this study indicates that Sanders’ model is not suitable for estimating accurately the propulsive force generated by the swimmer’s hands during sculling motion. However, research that integrates analyses from different approaches could result in improvements to the model that would render it applicable for estimating the propulsive forces during movements that are characterised by directional changes of the hands.
Acknowledgements
The authors would like to thank Professors Edith Beatriz Camaño Schettini and Flávio Castro from the Federal University of Rio Grande do Sul, João Paulo Vilas-Boas from the University of Porto and Raúl Arellano from the University of Granada for valuable discussions of fluid mechanics and swimming propulsion.
Disclosure statement
No potential conflict of interest was reported by the authors.