Relationship Between Physical Fitness Variables and Bowling, Batting & All-Round Performance in State-Level Cricket Players
DOI:
https://doi.org/10.55544/ijrah.4.3.33Keywords:
Speed, Agility, all-rounders, Bowlers & Batsmen Cricket playersAbstract
The purpose of the present study is to find out the correlation between Physical variables and different players in Cricket. The objective of this study is to examine and compare the speed and agility of state-level cricket players across different players: Bowlers, All-rounders, and Batsmen. Speed and agility are critical physical attributes that contribute significantly to a Cricket player's performance, and understanding their variation across positions can provide valuable insights into position-specific training and talent identification. A sample of 75 players from M.P. State-level teams was selected for the study, and their speed and agility were assessed through standardized tests such as the 50-meter sprint test for speed and the Shuttle Run Agility Test for agility.
The results reveal significant differences in both speed and agility between playing positions. Batsmen demonstrated the highest average speed, which is essential for running between the wickets and run-scoring opportunities, while Bowlers exhibited superior agility, reflecting their need to navigate tight spaces and switch directions frequently during the game. All-rounders displayed moderate levels of both attributes, balancing the need for speed in Bowling & Batting and agility in fielding maneuvers.
The findings suggest that position-specific physical training could enhance the performance of cricket players, and coaches should consider these differences when developing conditioning programs. This comparative analysis highlights the importance of tailoring speed and agility training to the specific positional requirements, which could lead to better overall team performance.
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Espada, M., et al. (2020). Physical profile differences among U-15 soccer players based on field positions. Journal of Youth Sports, 12(2), 101-114.
Carter, J. E. L., & Heath, B. H. (1990). Somatotyping: Development and Applications. Cambridge University Press.
Fogel, R. W. (2004). The Escape from Hunger and Premature Death, 1700-2100: Europe, America, and the Third World. Cambridge University Press.
Kumar, N., & Garg, R. P. (2022). The Evolution of Cricket: From Seasons to All- Year-Round Play. Journal of Sports History, 35(2), 98-115.
Major, J. (2007). More Than a Game: The Story of Cricket's Early Years. HarperCollins Publishers.
Wilmore, J. H., & Costill, D. L. (1999). Physiology of Sport and Exercise. Human Kinetics.
Heyward, V. H. (2010). Advanced Fitness Assessment and Exercise Prescription
(6th ed.). Human Kinetics.
Andreff, W., & Szymanski, S. (2006). Handbook on the Economics of Sport. Edward Elgar Publishing.
Coakley, J. (2011). Youth Sports: What Counts as "Positive Development?" Journal of Sport and Social Issues, 35(3), 306-324.
Sassatelli, R. (2010). Fitness Culture: Gyms and the Commercialisation of Discipline and Fun. Palgrave Macmillan.
Haigh, G. (2019). The Big Ship: Warwick Armstrong and the Making of Modern Cricket. Hardie Grant Books.
Bhandari, D., & Kalra, S. (2019). Cricket Analytics: Understanding the Performance Metrics. International Journal of Sports Science and Coaching, 14(3), 427-440.
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