The Effect of Learning Media and Coordination To Forehand Top Spin Accuration on Table Tennis

  • Diki Syafwan Subagja Universitas Pendidikan Indonesia
  • Nurlan Kusmaedi Universitas Pendidikan Indonesia
  • Komarudin Komarudin Universitas Pendidikan Indonesia

Abstract

This study aims to discuss the interaction of learning media and the coordination of avoiding hand movements from the forehand top spin of table tennis. This study uses an experimental method with a 2x2 factorial design, the study was conducted at UPI Sumedang Table Tennis UKM with a sample of 12 people and a sample placement to groups conducted by Random Assigment technique. The results of the study based on the two-way analysis of ANNOVA show the influence of learning media on the accuracy of forehand top spinning table tennis. Related interactions between instructional media with coordinating level on the accuracy of forehand top spinning table tennis are related to autorobot and spongewheel learning media for precision forehand spin over table tennis in the discussion group it was high and there was no difference between the autorobot and spongewheel learning media towards the accuracy of the forehand top spin table tennis in the low coordi- nation group. In conclusion, autorobot learning media is better used in groups with high coordination compared to spongewheel learning media, whereas in groups with low coordination learning media is useful to improve the accuracy of forehand top spin table tennis.

Keywords: Media Pembelajaran, Forehand Top Spin, Tenis Meja, Koordinasi

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References

Agun, I. (1988). Educational media management. In I. Agun & I. Imogie (Eds.). Fundamentals of educational technology. Ibadan: Y: Books.

Akpinar, S., Devrilmez, E., & Kirazci, S. (2012). Coincidence-Anticipation Timing Requirements are Different in Racket Sports. Perceptual and Motor Skills, 115(2), 581–593. https://doi.org/10.2466/30.25.27.PMS.115.5.581-593

Bompa. (1983). Theory and Metodology of Training to key Athletic Performance. Canada: Kendall / Hunt Pubhliser Comp.

Brown, J., Lewis, R., & Fred. (1983). Av Intruction Technology, Media and Methods. United States of America: Mc Graw-Hill Book Company.

Fraenkel, J. R., Wallen, N. E., & Hyun, H. H. (2013). How to Design and Evaluate Research in Education. In McGraw-Hil (Vol. 53). https://doi.org/10.1017/CBO9781107415324.004

Heinich, Molenda, & Russel. (1996). Instructional Media and New Technologies of Intruction, Engelewood Cliffs, N.J. Prentice-Hall.

Heinich, Molenida, Russel, & Smaldino. (2002). Instructional Media and Technology for Learning, 7th Edition. New Jersey : Prentice Hall, Inc.

Iino, Y., & Kojima, T. (2009). Kinematics of table tennis topspin forehands: Effects of performance level and ball spin. Journal of Sports Sciences, 27(12), 1311–1321. https://doi.org/10.1080/02640410903264458

Jayabalakrishnan, & Kamal. (2013). A study on Effectiveness of Robot training for High level Table Tennis Athletes. The 13th ITTF Sports Science Congress.

Kemp, & Dayton. (1985). Planning and Producing Instructional Media. New York: Harper and Row Publisher.

Kiram. (1994). Belajar Motorik, Jakarta. Depdikbud. Jakarta : Depdikbud. Ditjen Pendidikan Tinggi.

Le Mansec, Y., Dorel, S., Nordez, A., & Jubeau, M. (2016). Sensitivity and reliability of a specific test of stroke performance in table tennis. International Journal of Sports Physiology and Performance, 11(5), 678–684. https://doi.org/10.1123/ijspp.2015-0444

Liao, C., & Masters, R. S. W. (2010). Analogy learning : A means to implicit motor learning Analogy learning : A means to implicit motor learning. (November 2012), 37–41.

Malagoli Lanzoni, I., Di Michele, R., & Merni, F. (2014). A notational analysis of shot characteristics in top-level table tennis players. European Journal of Sport Science, 14(4), 309–317. https://doi.org/10.1080/17461391.2013.819382

Michalski, Szpak, Saredakis, Ross, Billinghurst, & Loetscher. (2019). Getting Your Game On: Using Virtual Reality to Improve Real Table Tennis Skills. PsyArXiv, 1–22. https://doi.org/10.31234/osf.io/aw5gk
Page. (2007). Second Edition Physique Fitness, and Performance.

Pfeiffer, M., Zhang, H., & Hohmann, A. (2010). A Markov Chain Model of Elite Table Tennis Competition. International Journal of Sports Science & Coaching, 5(2), 205–222. https://doi.org/10.1260/1747-9541.5.2.205

Ponnusamy, B., Yong, W. F., & Ahmad, Z. (2015). A low cost automated table tennis launcher. ARPN Journal of Engineering and Applied Sciences, 10(1), 291–296.

Safari, Suherman, & Ali. (2016). The Effect of Exercise Method and Hand-Eye Coordination Towards the Accuracy of Forehand Topspin in Table Tennis Preface: International Conference on Recent Trends in Physics (ICRTP 2016). Journal of Physics: Conference Series, 755(1), 0–10. https://doi.org/10.1088/1742-6596/755/1/011001

Santosa, & Setiono. (2017). The Journal of Educational Development Developing Return Board as an Aid for Forehand Topspin in Table Tennis. 5(36), 210–223.

Schmidt, R., & Wrisburg, C. (2004). Motor Learning and Performance. Human Kinetics.

Silva, P., Lott, R., Wickrama, K. a S., Mota, J., & Welk, G. (2011). Note : This article will be published in a forthcoming issue of the Journal of Physical Activity & Health . This article appears here in its accepted , peer-reviewed form ; it has not been copy edited , proofed , or formatted by the publisher . Psychosoci. International Journal of Sport Nutrition and Exercise Metabolism, 32, 1–44. https://doi.org/10.1123/ijspp.2015-0012

Suryabrata. (2001). Proses Belajar Mengajar di Sekolah. Jakarta : PT Rineka Cipta.

Zheng, & Jin. (2016). Multi Ball Training Method : A New Attempt of Table Tennis Training in Colleges and Universities. (SSEHR), 261–264.
Published
2019-07-26
How to Cite
Subagja, D. S., Kusmaedi, N., & Komarudin, K. (2019). The Effect of Learning Media and Coordination To Forehand Top Spin Accuration on Table Tennis. JUARA : Jurnal Olahraga, 4(2), 220-228. https://doi.org/10.33222/juara.v4i2.619
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