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2013 | 37 | 1 | 17-26
Tytuł artykułu

Kinematic and Kinetic Analysis of Two Gymnastics Acrobatic Series to Performing the Backward Stretched Somersault

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Back swing connections during gymnastics acrobatic series considerably influence technical performance and difficulties, particularly in the back somersault. The aim of this study was to compare the take-off’s kinetic and kinematic variables between two acrobatic series leading to perform the backward stretched somersault (also called salto): round-off, flic-flac to stretched salto versus round-off, tempo-salto to stretched salto. Five high level male gymnasts (age 23.17 ± 1.61 yrs; body height 1.65 ± 0.05 m; body mass 56.80 ± 7.66 kg) took part in this investigation. A force plate synchronized with a two dimensional movement analysis system was used to collect kinetic and kinematic data. Statistical analysis via the non-parametric Wilcoxon Rank-sum test showed significant differences between the take-offs’ variables. The backswing connections were different in the take-off angle, linear momentum, vertical velocity and horizontal and vertical displacements. In conclusion, considering that the higher elevation of the centre of mass in the flight phase would allow best performance and lower the risk of falls, particularly when combined to a great angular momentum, this study demonstrated that the optimal connection series was round-off, flic-flac to stretched salto which enabled the best height in the somersault. Analysis of the results suggests that both connections facilitate the performance of single and double (or triple) backward somersaults with or without rotations around the longitudinal axis. Gymnasts could perform these later while gaining height if they chose the round-off, flic-flac technique or gaining some backward displacement if they choose the round-off, salto tempo.
Słowa kluczowe
Wydawca

Rocznik
Tom
37
Numer
1
Strony
17-26
Opis fizyczny
Daty
wydano
2013-06-01
online
2013-07-05
Twórcy
  • Department of Sports and Physical Activities, Higher Institute of Sport and Physical Education of Ksar Saïd, 2011 Manouba, Tunisia. Phone.: + 216 – 23 066716; Fax: + 216 – 71 220121, bessem_gym@yahoo.fr
autor
  • School of Science, University of Greenwich, London, United Kingdom
autor
  • Higher Institute of Sport and Physical Education of Ksar Saïd, Univercity of Manouba, Tunisia
  • Higher Institute of Sport and Physical Education of Ksar Saïd, Univercity of Manouba, Tunisia
  • Faculty of Medicine of Sousse, University of Sousse, Tunisia
Bibliografia
  • Bardy BG, Laurent M. How do somersaulters control their moment of inertia during flight? Journal of Sportand Exercise Physiology, 1994; 16: 28
  • Bini RR, Senger D, Lanferdini F, Lopes AL. Joint kinematics assessment during cycling incremental test to exhaustion. Isokinetics and Exercise science Journal, 2012; 20: 99-105
  • Boloban W, Sadowski J, Wisniowski W, Mastalerz A, Niznikowski T. Kinematic structure of double salto backward stretched performed with stable landing and in combination with salto tempo. ResearchYearbook, Medsportpress, 2007; 13(1): 104-107
  • Brüggemann GP. Kinematics and Kinetics of the backward somersault take-off from the floor. In H. Matsui & K. Kobayashi Eds. Biomechanics VIII-B. Champaign, IL: Human Kinetics, 1983; 793-800
  • Brüggemann GP. Biomechanics of gymnastic techniques. Sport Science Review, 1994; 3: 79-120
  • Cuk I, Ferkolj MS. Kinematic analysis of some backward acrobatic jumps. In: Proceedings of the 18thInternational Symposium on Biomechanics in Sports; 2000
  • De Leva P. Adjustments to zatsiorsky-seluyanov’s segment inertia parameters. Journal of Biomechanics, 1996; 29(9): 1223-1230[Crossref]
  • Faul F, Erdfelder E. GPOWER: A Priori, Post-Hoc, and Compromise Power Analyses for MS-DOS (ComputerProgram). Bonn, FRG: Bonn University, Department of Psychology; 2004
  • Geiblinger H, Morrison WE, McLaughlin PA. Take-off characteristics of double back somersaults on the floor. In: Proceedings of the 13th International Symposium on Biomechanics in Sports; 1995
  • Halawish AMT. Kinematics of the Mawashi Shoudan Kick as a Parameter of Designing a Training Program for Karate Juniors. World Journal of Sport Sciences, 2011; 5(4): 237-244
  • Hraski Z. Correlation between selected kinematic parameters and angular momentum in backward somersaults. In: Proceedings of the 20th International Symposium on Biomechanics in Sports. Cilceres, Extremadura, 2002; 167-170
  • Hraski Z, Mejovsek M. Production of Angular Momentum for Backward Somersault. In: Hamza MM. (Eds), Biomechanics, Proceedings of the symposium biomech, 2004; 463
  • Huang C, Hsu GS. Biomechanical analysis of gymnastic back handspring. In: Proceedings of the 27thInternational Conference on Biomechanics in Sports; 2009
  • Hwang I, Seo G, Liu ZG. Take-off mechanics of the double backward somersault. International Journal of SportBiomechanics, 1990; 6: 177-186
  • Kerwin DG, Webb J, Yeadon MR. Production of angular momentum in double backward somersaults. In: Proceedings of the 16th International Symposium on Biomechanics in Sports; 1998
  • Knoll K. The biomechanical chain of effect in flight elements of preparatory movements and implication for round-off and flick-flack technique. In: Proceedings of the 1st International Conference “Biomechanicsin Gymnastics”. Cologne, Strauss, 1992; 116-125
  • Knoll K, Krug J. World Championships Artistic Gymnastics Stuttgart 1989, Scientific Report "Floor man and woman". In: International Gymnastics Federation, FIG (Eds.), Lausanne, Swiss, 1990; 43-58
  • McNitt-Gray JL. Impulse generation during jumping and landing movements. In: Proceedings of theBiomechanics Symposia. University of San Francisco, 2001; 95-99
  • McNitt-Gray JL, Munkasy B, Welch M. External reaction forces experienced by gymnasts during the take-off and landing of tumbling skills. Technique, 1994; 14(9): 10-16
  • McNitt-Gray JL, Requejo PS, Flashner H. Multijoint Control Strategies Transfer Between Tasks. BiologicalCybernetics, 2006; 94(6): 501-510
  • Mkaouer B, Jemni M, Amara S, Chaabèn H, Tabka Z. Kinematic and kinetic analysis of counter movement jump versus two different types of standing back somersaults. Sc Gym J., 2012; 4(3): 61-71
  • Nicolas G, Bideau B. A kinematic and dynamic comparison of surface and underwater displacement in high level monofin swimming. Human Movement Science, 2009; 28(4): 480-493[Crossref][WoS][PubMed]
  • Sadowski J, Boloban W, Mastalerz A, Niznikowski T. Velocities and joint angles during double backward stretched salto performed with stable landing and in combination with tempo salto. Biology ofSport, 2009; 26(1): 87-101
  • Sadowski J, Boloban W, Wisniowski W, Mastalerz A, Niznikowski T. Key components of acrobatic jump. Biology of Sport, 2005; 22 (4): 387-395
  • Sands WA. Biomechanics for gymnastics. In: M. Jemni Eds. The Science of Gymnastics. Routledge, Francis and Taylor Grp. London, 2001; 55-104
  • Scanlan AT, Dascombe BJ, Reaburn PRJ. The construct and longitudinal validity of the basketball exercise simulation test. J Strength Cond. Res., 2012; 26: 523-530[WoS]
  • Sinclar PJ, Walker CA, Rickards T. Kinematic determinants of dive height in springboard diving. Movementand Sport Science, 2012; 1(57): 107-112
  • Smith JA. The back somersault takeoff - A biomechanics study. Carnegie Research Paper, 1983; 5: 31-39
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.-psjd-doi-10_2478_hukin-2013-0021
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