Central European Journal of Sport Sciences and Medicine

ISSN: 2300-9705     eISSN: 2353-2807    OAI    DOI: 10.18276/cej.2021.4-01
CC BY-SA   Open Access   DOAJ  DOAJ

Lista wydań / Vol. 36, No. 4/2021
Key Kinematic Components for Optimal Basketball Free Throw Shooting Performance

Autorzy: Dimitrije Cabarkapa ORCID
Jayhawk Athletic Performance Laboratory, University of Kansas, Lawrence, KS, USA

Andrew C. Fry ORCID
College of Arts and Sciences, Des Moines, IA, USA

Kevin M. Carlson ORCID
Department of Educational Psychology, University of Kansas, Lawrence, KS, USA

John P. Poggio ORCID
Jayhawk Athletic Performance Laboratory, University of Kansas, Lawrence, KS, USA

Michael A. Deane ORCID
Jayhawk Athletic Performance Laboratory – Wu Tsai Human Performance Alliance, University of Kansas, Lawrence, KS, USA
Słowa kluczowe: coaching sport science shooting technique analysis
Data publikacji całości:2021
Liczba stron:11 (5-15)
Cited-by (Crossref) ?:

Abstrakt

The purpose of this study was to determine the difference in five kinematic variables (internal knee and elbow angles, elbow height, forearm angle from vertical, and shoulder flexion angle at ball release) between proficient and non-proficient free throw shooters and which variables had the greatest contributions to a successful free throw shooting outcome. Seventeen male basketball players shoot three sets of 10 free throws with a two-minute break between each set. A three-dimensional motion tracking system composed of 17 sensors sampling at 60 Hz was used for data collection. Proficient free throw shooters had greater knee and elbow flexion, lower elbow height, and a smaller forearm angle compared to non-proficient shooters. These results explained 89.5% of the total variance. While maintaining the optimal range of these kinematic variables allows each subject to reach an appropriate level of free throw shooting performance, the key variable capable of distinguishing between made and missed shots within the proficient group of shooters was the forearm angle. Positioning the forearm parallel, or close to parallel, with an imaginary vertical line during the preparatory phase of the shooting motion accounted for 23.9% of the total variance and was associated with a greater number of made shots.

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Bibliografia

1.Ammar, A., Chtourou, H., Abdelkarim, O., Parish, A., Hoekelmann, A. (2016). Free throw shot in basketball: kinematic analysis of scored and missed shots during the learning process. Sport Sciences for Health, 12 (1), 27–33.
2.Branch, J. (2009, March 04). For free throws, 50 years of practice is no help. Retrieved from: https://www.nytimes.com/2009/03/04/sports/basketball/04freethrow.html (2.07.2020).
3.Brancazio, P.J. (1981). Physics of basketball. American Journal of Physics, 49 (4), 356–365.
4.Cabarkapa, D., Fry, A.C., Poggio, J.P, Deane, M.A. (in press). Kinematic differences between proficient and non-proficient free throw shooters – a video analysis. Journal of Applied Sport Sciences.
5.Csataljay, G., O’Donoghue, P., Hughes, M., Dancs, H. (2009). Performance indicators that distinguish winning and losing teams in basketball. International Journal of Performance Analysis in Sport, 9 (1), 60–66.
6.Goosey-Tolfrey, V., Butterworth, D., Morriss, C. (2002). Free throw shooting technique of male wheelchair basketball players. Adapted Physical Activity Quarterly, 19 (2), 238–250.
7.Hays, D., Krause, J. V. (1987). Score on the Throw. The Basketball Bulletin, Winter, 4–9.
8.Huston, R.L., Grau, C.A. (2003). Basketball shooting strategies – the free throw, direct shot and layup.Sports Engineering, 6 (1), 49–64.
9.Hamilton, G.R., Reinschmidt, C. (1997). Optimal trajectory for the basketball free throw. Journal of Sports Sciences, 15 (5), 491–504.
10.Hudson, J.L. (1985). Prediction of basketball skill using biomechanical variables. Research Quarterly for Exercise and Sport , 56 (2), 115–121.
11.Kozar, B., Vaughn, R.E., Whitfield, K.E., Lord, R.H., Dye, B. (1994). Importance of free-throws at various stages of basketball games. Perceptual and Motor Skills, 78 (1), 243–248.
12.Mullineaux, D.R., Uhl, T.L. (2010). Coordination-variability and kinematics of misses versus swishes of basketball free throws. Journal of Sports Sciences, 28 (9), 1017–1024.
13.Miller, S., Bartlett, R. (1996). The relationship between basketball shooting kinematics, distance and playing position. Journal of Sports Sciences, 14 (3), 243–253.
14.Okubo, H., Hubbard, M. (2006). Dynamics of the basketball shot with application to the free throw. Journal of Sports Sciences, 24 (12), 1303–1314.
15.Robinson, N. (2016, July 25). Why are NBA big men so useless at free throws? Retrieved from: http://theniche-cache.com/american-sports/why-are-nba-big-men-so-useless-at-free-throws (2.07.2020).
16.Sampaio, J., Janeira, M. (2003). Importance of free-throw performance in game outcome during the final series of basketball play-offs. International Journal of Applied Sports Sciences, 15 (2), 9–16.
17.Trninic, S., Dizdar, D., Luksic, E. (2002). Differences between winning and defeated top quality basketball teams in final tournaments of European club championship. Collegium Antropologicum, 26 (2), 521–531.
18.Tran, C.M., Silverberg, L.M. (2008). Optimal release conditions for the free throw in men’s basketball. Journal of Sports Sciences, 26 (11), 1147–1155.
19.Tan, A., Miller, G. (1981). Kinematics of the free throw in basketball. American Journal of Physics, 49 (6), 542–544.
20.Uygur, M., Goktepe, A., Ak, E., Karabork, H., Korkusuz, F. (2010). The effect of fatigue on the kinematics of free throw shooting in basketball. Journal of Human Kinetics, 24 (2010), 51–56.