A STUDY OF THE INFLUENCE OF DISTANCE, SPEED AND POWER IN HEIGHT OF LAY UP JUMPING IN BASKETBALL PLAYERS

Main Article Content

Kanokwan Ratsamiyungthong
Sonthaya Sriramart
Watcharee Rittiwat

Abstract

The purpose of this  research was to study the influence of distance, speed and power in height of layup jumping in basketball players. Methods The samples consisted of twelve male basketball players. Data were analyzed using 3D motion analysis program. The data analytics instruments used in this research were 1) Mean (gif.latex?\bar{x}), Standard Deviation (S.D.), Minimum (Min) and Maximum (Max) of the first stride length and the second stride length, speed of the first stride and speed of the second stride, peak power and the layup vertical jump height 2) to find out the relationship between first stride length, the second stride length, speed of the first stride and speed of the second stride, peak power and the vertical jump height of layup using Pearson's correlation statistics 3) to analyze the ability to predict the layup vertical jump height of the first stride length, the second stride length, speed of the first stride and speed of the second stride, peak power using multiple regression statistics with a statistical significance at 0.05 level. Results were found that the first stride length, the second stride length, speed of the first stride, the speed of the second stride, and peak power had statistically significant correlation with the vertical jump height of layup of 0.05. Also, the analysis of prediction of height indicated that the peak power, the second stride length, and speed of the second stride had statistically significant correlation with the prediction of vertical jump height of layup of 0.05. The three predict abilities influence 59.5% of the jump height. It is found that the length of stride is one of key drivers in accuracy of shooting which also important to build-up the most effective power of jumping, especially the last stride before jumping. Hence, the movement from horizontal to vertical direction requires proper gravity to balance the body during speed-up. This promotes stability and speed of movement which are important skills for layup jumping.

Article Details

How to Cite
Ratsamiyungthong, K. ., Sriramart, S. ., & Rittiwat, W. . (2020). A STUDY OF THE INFLUENCE OF DISTANCE, SPEED AND POWER IN HEIGHT OF LAY UP JUMPING IN BASKETBALL PLAYERS. Academic Journal of Thailand National Sports University, 13(1), 41–52. Retrieved from https://he02.tci-thaijo.org/index.php/TNSUJournal/article/view/248334
Section
Research Articles

References

Adashevskiy, V. M., Lermakov, S. S., & Marchenko, A. A. (2013). Biomechanics aspects of technique of high jump. Physical Education of Students, 17(2), 11-17.

Aphichat Onsoi & Preecha Siriratphaibun. (2012). Basketball (1st ed.). Pathum Thani: Run To Vision.

Artur Struzik, Bogdan Pietraszewski, & Jerzy Zawadzki. (2014). Biomechanical analysis of the jump shot in basketball. Journal of Human Kinetics, 42(1), 73-79.

Bal, Baljinder Singh, Deol, Nishan Singh, & Kaur, Perminder Jeet. (2009). Relationship of kinematic variables with the performance of basketballplayers in lay-up shot. Citius Altius Fortius, 24(3), 112-119.

Charoen Krabuanrat. (1997). Speed training. Bangkok: Sport Science. Kasetsart University.

Christopher, Thomas, Irene, Kyriakidou, Thomas, Dos'Santos, & Jones, Paul A. (2017). Differences in vertical jump force-time characteristics between stronger and weaker adolescent basketball players. Sports (Basel, Switzerland), 5(3).

Chua, Yaohui K., Quek, Raymond K. K., & Kong, Pui W. (2017). Basketball lay-up - foot loading characteristics and the number of trials necessary to obtain stable plantar pressure variables. Sports Biomechanics, 16(1), 13-22.

Adashevskiy, V. M., Lermakov, S. S., & Marchenko, A. A. (2013). Biomechanics aspects of technique of high jump. Physical Education of Students, 17(2), 11-17.

Aphichat Onsoi & Preecha Siriratphaibun. (2012). Basketball (1st ed.). Pathum Thani: Run To Vision.

Artur Struzik, Bogdan Pietraszewski, & Jerzy Zawadzki. (2014). Biomechanical analysis of the jump shot in basketball. Journal of Human Kinetics, 42(1), 73-79.

Bal, Baljinder Singh, Deol, Nishan Singh, & Kaur, Perminder Jeet. (2009). Relationship of kinematic variables with the performance of basketballplayers in lay-up shot. Citius Altius Fortius, 24(3), 112-119.

Charoen Krabuanrat. (1997). Speed training. Bangkok: Sport Science. Kasetsart University.

Christopher, Thomas, Irene, Kyriakidou, Thomas, Dos'Santos, & Jones, Paul A. (2017). Differences in vertical jump force-time characteristics between stronger and weaker adolescent basketball players. Sports (Basel, Switzerland), 5(3).

Chua, Yaohui K., Quek, Raymond K. K., & Kong, Pui W. (2017). Basketball lay-up - foot loading characteristics and the number of trials necessary to obtain stable plantar pressure variables. Sports Biomechanics, 16(1), 13-22.

Covadonga, Mateos-Padorno, Manuel, García-Manso Juan, José, Martínez-Patiño María, & Teresa, Valverde-Esteve. (2019). Analysis of effectiveness of free segment actions and antero-posterior and lateral body displacements during the take-off phase of high jump (flop style). International Journal of Performance Analysis in Sport, 19(1), 14-27.

Davis, D. Scott., Briscoe, David A., Markowski, Craig T., & Saville, Samuel E. (2003). Physical characteristics that predict vertical jump performance in recreational male athletes. Physical Therapy in Sport, 4(4), 167-174.

Gledson, Oliveira, Petrus, Gantois, Heloiana, Faro, & Paulo, Do Nascimento. (2018). Vertical jump and handgrip strength in basketball athletes by playing position and performance. Journal of Physical Education and Sport, 18(1), 132-137.

Hoffman, Jay R, & Kang, Jie. (2002). Evaluation of a new anaerobic power testing system. Journal of Strength and Conditioning Research, 16, 142-148.

Ivan, Cuk, Milos, Markovic, Aleksandar, Nedeljkovic, & Dusan, Ugarkovic. (2014). Force–velocity relationship of leg extensors obtained from loaded and unloaded vertical jumps. European Journal of Applied Physiology, 114(8), 1703-1714.

Joel, Smith P., Thomas, Kernozek W., Dennis, Kline E., & Glenn, Wright A. (2011). Kinematic and kinetic variations among three depth jump conditions in male NCAA Division III athletes. Journal of Strength and Conditioning Research, 25(1), 94-102.

Kumar, Santosh, Guru, Datt Ghai, & Chandra, Joshi Hem. (2015). Kinematic comparison of three point shot after first and fourth quarter in basketball. International Journal of Sports Sciences & Fitness, 5(2), 223-234.

Mário, Marques C., & Mikel, Izquierdo C. (2014). Kinetic and kinematic associations between vertical jump performance and 10-m sprint time. Journal of Strength and Conditioning Research, 28(8), 2366-2371.

Mary-Kathryn, Sewell-Loftin, Christopher, Brown B., Scott, Baldwin H., & David, Merryman W. (2012). A novel technique for quantifying mouse heart valve leaflet stiffness with atomic force microscopy. The Journal of heart valve disease, 21(4), 513.

Onwaree Ingkatecha. (2016). The relationship of momentum of lower extremities during layup in collegiate players. National Academic Conference Kasetsart University 13th Kamphaeng Saen Campus. Kasetsart University Kamphaeng Saen Campus.

Pedro, Jimenez-Reyes, Pierre, Samozino, Matt, Brughelli, & Jean-BenoiT, Morin. (2017). Effectiveness of an Individualized training based on force-velocity profiling during jumping (Report). Frontiers in Physiology, 7.