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http://dx.doi.org/10.5103/KJSB.2012.22.4.395

A Kinetics Analysis of Tucked Backward Salto on the Balance Beam  

Kim, Kew-Wan (Department of Physical Education, College of Arts and Physical Education, University of Incheon)
Ryu, Young (Department of Physical Education, College of Arts and Physical Education, University of Incheon)
Jeon, Kyoung-Kyu (Sport Science Institute, College of Arts and Physical Education, University of Incheon)
Publication Information
Korean Journal of Applied Biomechanics / v.22, no.4, 2012 , pp. 395-404 More about this Journal
Abstract
This study was to perform the kinetic analysis of tucked backward salto on the balance beam. Eight women's gymnastics players(age: $15.88{\pm}2.45yrs$, career: $6.38{\pm}0.52yrs$, height: $152.38{\pm}7.35cm$, weight: $44.25{\pm}7.54kg$) of the I-region participated in this study. The kinematic variables were analyzed response time of motion, angle, velocity, acceleration and the kinetic variables were analyzed ground reaction force(GRF) of motion. For measure and analysis of kinematic and kinetic variables of this study, used to synchronized to 6 Eagle camera and 1 force plate, used to the Cortex(Ver. 1.0) for analyzed of variables. The results were as follows; To the kinematic variables of tucked backward salto on the balance beam, a time appeared longer landing than air rotation, changes of angle regulated segment of body smaller moment of inertia when air rotation, larger moment of inertia when releasing and landing. A velocity appeared fast motion when releasing and air rotation of body, but appeared more decelerations from landing and acceleration showed to be tended to velocity. A GRF appears jump more than twice the weight at the moment that showed the power of motion to all subject.
Keywords
Balance Beam; Tucked Backward Salto; Kinetic Analysis;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 Park, S. S.(2008). Sports science. Korean Institute of Sport Science, 105(0), 57-62.
2 An, W. S., Kim, Y. G., Park, H. C., & Kim, H. Y.(2000). Kinetic analysis of the free walkover forward stretched motion. Korean Journal of Sport Biomechanics, 10(1), 271-285.
3 Choi, I. A.(1992). A kinematic analysis of flic flac․flic flac-salto backward stretched motion on balance beam. Korean Journal of Physical Education, 31(1), 1237-1248.
4 Elliott, B., & Mitchell, J.(1991). A biomechanical comparison of the yurchenko vault and two associated teaching drills. International Journal of Sport Biomechanics, 7, 91-107.   DOI
5 Han, Y. S.(2004). Analysis of successful landing by type of the salto backward. Korean Journal of Sport Biomechanics, 14(1), 1-12.   DOI
6 Kim, S. B., & Jin, Y. W.(1995). Mechanical analysis of the backward somersault. Korean Journal of Physical Education, 34(2), 415-425.
7 Kwon, O. S.(2011). The Biomechanical comparison of instructional clues backward somersault with tucked, piked, stretched of the national team members. Korean Journal of Physical Education, 16(1), 211-218.
8 Kwon, Y. H., Fortney, V. L,., & Shin, I. S.(1990). 3-D Analysis of yurchenko vaults performed by female gymnasts during the 1988 Seoul olympic games. International Journal of Sport Biomechanics, 6, 157-175.   DOI
9 Lee, K. J., & Kim, Y. N.(2002). A study on the reaction force of take-off phase during balance beam mounts motion. Korean physical Education Association for Girls and Women, 16(1), 49-55.
10 Ryu, Y., & Kim, K. W.(2011). A biomechanics analysis of free walkover forward motion on balance beam. Korean Journal of physical Education, 50(4), 379-388.
11 Yeo, H. C., & Chang, J. K.(2008). Kinetic analysis of the salto side-ward tucked on the balance beam. Korean Journal of Sport Biomechanics, 18(3), 61-69.   과학기술학회마을   DOI
12 Yoon, H. J., Ryu, J. S., Kim, D. M., & Kim, Y. N.(2000). The kinetic analysis of forward somersault on balance beam. Korean Journal of Sport Biomechanics, 9(2), 291-305.
13 Yoshiaki Takei, Hiroshi Nohara, & Mamort Kamimura(1992). Techniques used by elite gymnasts in the 1992 olympic compulsiry dismount from the horiaontal bar. Journal of Sport Biomechanics, 8, 207-232.   DOI