Análisis cinemático del rondat flic-flac

Ligia Diener-González; Patricio Robles-Calderón

doi:10.24310/riccafd.2019.v8i3.7488

Authors

Ligia Diener-González Facultad de Educación. Universidad Mayor Chile
Patricio Robles-Calderón Pontificia Universidad Católica de Valparaíso Chile

DOI:

https://doi.org/10.24310/riccafd.2019.v8i3.7488

Keywords:

rondat, flic-flac, gymnastics, technique, mechanics, kinematics, biomechanics

Abstract

The objective of the present article is to show an analysis of the kinetic and cinematic indicators of Rondat flic-flac exercise. A qualitative and systematic research of the corresponding literature of the last twenty years has been made considering the following sources: Academic Google, Elsevier, Medline, ScienceDirect and Journal of Human Kinetics. The obtained results show that the values of force and inertia indicators, as also the cinematic indicators related with velocity, motion of the center of mass, angular momentum and torsion angle between shoulder and trunk, determine the correct execution of the Rondat flic-flac exercise. We expect that these results will be useful for trainers and researchers of acrobatic exercises like the analyzed in the present article.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

Author Biographies

Ligia Diener-González, Facultad de Educación. Universidad Mayor

Magíster en Entrenamiento Deportivo.

Dr. Ciencias del Deporte

Patricio Robles-Calderón, Pontificia Universidad Católica de Valparaíso

Profesor Escuela Ingeniería Eléctrica

References

Aedo-Muñoz, E., & Bustamante-Garrido, A. (2012). Conceptualización de la Biomecánica Deportiva y de la Educación Física. Educación Física, Chile, 270, 63–68.

Aldazabal, I. (2010). Análisis cinético de los saltos específicos en Gimnasia Rítmica Deportiva. Universidad Europea de Madrid.

Arampatzis A, B. G. (1998). A mathematical high bar-human body model for analyzing and interpreting mechanical-energetic processes on the high bar. J Biomech., 31, 1083–1092.

Araújo, C. (2004). Manual de ayudas en Gimnasia. Paidotribo.

Bekker, I. (1837). Física de Aristóteles. Grecia.

Bermejo, J. (2013). Revisión del concepto de Técnica Deportiva desde la perspectiva biomecánica del movimiento. Revista Digital de Educación Física, 25, 45–59.

Boldrini, S. M., Carrara, P., Serrao, J. C., Amadio, A. C., & Mochizuki, L. (2016). Kinematic variables of table vault on artistic gymnastics. Revista Brasileira de Educação Física e Esporte, 30(1), 97–107. https://doi.org/10.1590/1807-55092016000100097

Bradshaw, E. (2004). Target-directed running in gymnastics: a preliminary exploration of vaulting. Sports Biomechanics, 3(1), 125–144. https://doi.org/10.1080/14763140408522834

Bradshaw, E., Hume, P., Calton, M., & Aisbett, B. (2010). Reliability and variability of day-to-day vault training measures in artistic gymnastics. Sports Biomechanics, 9(2), 79–97. https://doi.org/10.1080/14763141.2010.488298

Bradshaw, E. J., & Sparrow, W. A. (2001). the Approach, Vaulting Performance, and Judge’S Score in Women’S Artistic Gymnastics. 19 International Symposium on Biomechanics in Sports, 54–57.

Daly RM, Bass SL, F. C. (2001). Balancing the risk of injury to gymnastics: how effective are the counter measures? Br J Sports Med, 35, 1–19.

Diener, L. (2017). Indicadores cinemáticos en el salto de extensión. Revista Científica de La Educación Física y El Deporte. Arrancada., 17(31). Retrieved from http://revistarrancada.cujae.edu.cu/index.php/arrancada/article/view/9-31

Donskoi, D & Zatsiorski, V. (1988). Biomecánica de los ejercicios físicos. (E. P. y Educación, Ed.). La Habana.

Donskoi, D. (1959). Biomecanica exerci?iilor fizice. (Editura Tineretului, Ed.). Timi?oara.

Estapé Tous, E. (2002). La acrobacia en gimnasia artística: su técnica y su didáctica. INDE.

Federation International Artistic Gymnastic. (2017). Olympic Code of Points. United State American.

Gabriella Penitente, Franco Merni, W. S. (2011). Kinematic Analysis of the Centre of Mass in the Back Handspring: A case study. Gym Coach Journal of Coaching Sport Science in Gymnastics, 4, 1–11.

H. Geiblinger, W. E. M. & P. A. M. (1995). TAKE-OFF CHARACTERISTICS OF DOUBLE BACK SOMERSAULTS ON THE FLOOR. Biomechanics Unit, Dep’t of Physical Education and Recreation and Centre for Rehabilitation, Exercise and Sport Science, Victoria University of Technology.

Hassan, H. S., Hanna, S. J., & Ameen, F. M. (2015). Effect of theoretical biomechanics on open jump the platform jumps performance using jumps (vault) in artistic gymnastics. Journal of Human Sport and Exercise, 10(Special Issue 2), 21–24. https://doi.org/10.14198/jhse.2015.10.Proc2.15

Hedbávný, P., & Kalichová, M. (2015). Optimization of velocity characteristics of the yurchenko vault. Science of Gymnastics Journal, 7(1), 37–49.

Ibañez Mengual, J., Martín Rodríguez, E., & Zamarro Minguell, J. (1989). Física. Murcia: Universidad de Murcia.

Isaac Newton. (1962). Principia Mathematica.

Izquierdo, M., Echeverría, J. M., & Morante, J. C. (2008). Estructura y análisis del movimiento. In Biomecánica y bases neuromusculares de la actividad física y el deporte (Panamerica, p. 770). Madrid.

Jackson, M. (2010). The mechanics of the table contact phase of gymnastics vaulting. Loughborough University.

Jeans, J. (1948). The growth of physical science. (Brevarios, Ed.) (1°). Nueva York.

Jemni, M. (2013). The Science of Gymnastics. (Routledge, Ed.). Taylor & Francis.

Koh, M. (2007). Strategies in preflight for an optimal Yurchenko layout vault. Journal of Biomechanics.

Kreigbaum E, B. K. (1990). Kreigbaum E, Barthels K. Biomechanics. A qualitative approach for studying human movement. (Mc.Millan). New York.

Mkaouer, B., Jemni, M., Amara, S., Chaabene, H., & Tabka, Z. (2013). Kinematic and kinetic analysis of two gymnastics acrobatic series to performing the backward stretched somersault. Journal of Human Kinetics, 37, 17–26. https://doi.org/10.2478/hukin-2013-0021

Morante, J. C., & Izquierdo, M. (2008). Tecnica deportiva, modelos tecnicos y estilo personal. In Biomecánica y bases neuromusculares de la actividad física y el deporte (Panamerica, p. 771). Barcelona.

Nakamura T, Kato S, W. Y. A. (1999). A Case Study on the Forward Handspring of Beginning Gymnasts. Bulletin of Institute of Health and Sports Sciences. University of Tsukuba., 1(22), 33–42.

Penitente, G. (2007). Kinematics of the springboard phase in yurchenko-style vaults. In XXV ISBS Symposium 2007. Ouro Preto.

Penitente, G. (2014). Performance Analysis of the female Yurchenko layout on the table vault. International Journal of Performance Analysis in Sport, 14(1), 84–97. https://doi.org/10.1080/24748668.2014.11868705

Potop V. (2007). Reglarea conduitei motrice în gimnastica artistic? feminin? prin studiul biomecanic al tehnicii. Ed. Bren, Bucure?ti., 140.

Requejo, P. S., McNitt-Gray, J.L. y Flashner, H. (2004). Modification of landing conditions at contact via flight. Biological Cybernetics.

Roman Farana, Daniel Jandacka, Jaroslav Uchytil, D. Z. & G. I. (2017). The influence of hand positions on biomechanical injury risk factors at the wrist joint during the round-off skills in female gymnastics. Journal of Sports Sciences, 35(2).

Suchilin, N. (2010). Gymnastics – theory and practice. "Sovetskij Sport” Publishing House, Moscow., 1, 5–25.

Takei, Y. (2007). The roche vault performed by elite gymnasts: somersaulting technique, deterministic model, and judges’ scores. Journal of Applied Biomechanics, 23(1), 1–11.

Uzunov, V. (2011). Teaching a Great Yurchenko Layout Vault. Gym Coach, 55(August), 12–21. https://doi.org/10.13140/RG.2.1.4033.7127

Živ?i? K, Šadura T, D. S. M. D. (1996). Kinematic descriptions basic techniques somersault forward. In III Conference of sport (pp. 161–165). Zagreb: Faculty of Kinesiology.