Published September 1, 2023 | Version v1
Dataset Open

A proposed equation for calculating the total horizontal distance in projectiles of varying launch and landing levels

Authors/Creators

  • 1. University of Al-Qadisiyah

Description

Abstract

The projectile draws a path for the flight of the tool, a horizontal distance can be calculated according to the general law, but only if the two points of the launch and fall of the tool are equal, otherwise we need an equation to be added to the general law to calculate the real distance that was generated due to the difference between the launch and fall points. There are several equations to calculate this, but they are complex and can be simplified, the proposed equation was tested on large samples for three different throwing events from the track and field games, (javelin, shotput, disc). The proposed equation was based on the basics of mathematics and geometry. The equation was tested in terms of the advantage of deleting the height different, if the height is zero, the proposed equation is suitable even for projectiles with equal levels, and the credibility of the proposed equation with the previous equation was tested statistically, and there were no differences between the two equations (p>0.05). and due to the relative ease of access of the proposed equation to very similar results, researcher suggests applying the proposed equation.

Files

Files (13.8 kB)

Name Size Download all
md5:583a61bb18d46cbc0857cbd654e77b8f
13.8 kB Download

Additional details

Additional titles

Alternative title (English)
A proposed equation for calculating the total horizontal distance in projectiles of varying launch and landing levels

References

  • Abdel-Monsef Aly, R., Abdelhamid Salem, M., Ismail El-Shaer, O., Abd El Baky Aly, A., Abdel-Hamid Attaallah, M., Mohamed Abdel-Gawad, M., & Ghazy, T. (2012). Biomechanical Analysis of Top Discus Throwers Performance in Egypt. Journal of Applied Sports Science, 2(1), 21-28.
  • Ariel, G., Finch, A., & Penny, A. (1997). BIOMECHANICAL ANALYSIS OF DISCUS THROWING AT 1996 ATLANTA OLYMPIC GAMES. ISBS-Conference Proceedings Archive,
  • BADURA, M. (15–23 August 2009). Biomechanical analyses
  • Finals, M. s. S.-P. (2011). Biomechanics Research Project in the IAAF World Championships Daegu.
  • Hall, S. J. (1995). Basic Biomechanics (2nd ed.).
  • Jung, J.-H., Kim, D.-S., Kang, H.-Y., Chae, W.-S., Lim, Y.-T., Yoon, C.-J., & Lee, H.-S. (2012). Kinematic analysis of the women's javelin throw at the IAAF World Championships, Daegu 2011. ISBS-Conference Proceedings Archive,
  • Kinomura, Y., Fujibayashi, N., & Zushi, K. (2013). Characteristics of the long jump take-off as the novice increases the number of steps in the approach run. Procedia Engineering, 60, 313-318.
  • Mercadante, L. A., Menezes, R. P., Martini, T. P., Trabanco, J. L. A., & de Barros, R. M. L. (2007). 3D kinematical analysis of the hammer throw in competitions. ISBS-Conference Proceedings Archive,
  • Omer, H. M. (2018). Analysis of Projectiles law for throwing events (Discus, Javelin, Shotput, and hammer) in track and field. Journal of Zankoy Sulaimnia part (B-for Humanities), 647-668
  • Panoutsakopoulos, V. (2008). Biomechanical analysis of the men's discus throw in the Athens 2006 IAAF World Cup in Athletics. In.
  • Woen-Sik Chae, Y.-T. L. (2011). IAAF World Championships, Daegu KSSB Project Final Report (Javelin Throw - Men's - Finals).