Affiliation:
1. Phetchabun Rajabhat University
Abstract
In this paper, we develop a mathematical and physics model or formula of displacement-time dependent, velocity-time dependent, acceleration-time dependent, kinetic energy-time dependent and mechanical power-time dependent for Usain Bolt in the 100 m sprint at Beijing olympic games 2008. We use data of distance, velocity, time for Usain Bolt from Mackata Krzysztof and Antti Mero analysis kinematic parameter of Usain Bolt to compare the mathematical and physics model. The mathematical and physics model corresponding velocity, and acceleration as shown in the book entitled Introduction to sport biomechanics of Roger Bartlett(pp.83-92).
Publisher
Trans Tech Publications, Ltd.
Reference6 articles.
1. S. Thornton and J.B. Marion, Classical Dynamics of Particles and System, Fifth Edition, Thomson publishing, 2002, pp.55-96.
2. R. Bartlett, Introduction to sports biomechanics analysing human movement patterns, 2 nd Edition, Taylor $\&$ Francis , (2007), pp.83-92.
3. O. Helene and M. Yamashita, The force, power and enery of the 100 meter sprint, Am. J. Phys, 78, 307 (2010).
4. JJ. Hernandez Gomez et al., On the performance of Usain Bolt in the 100 m sprint, European journal of physics, 34, (2013), pp.1227-1233.
5. K. Mackala and M. Antti, A Kinematics Analysis Of Three Best 100 M Performances Ever, Journal of Human Kinetics, 36, (2013), pp.149-160.