CERTAIN RESPIRATORY GASES’ RESPONSE AFTER PERFORMING A CUMULATIVE AEROBIC EFFORT

The present study aims to identify the response of a number of blood gases after performing a cumulative aerobic effort in order to identify the differences between the pre and post-tests in a number of blood gases after performing a cumulative aerobic effort. The researcher assumed that there are statistically significant differences in the number of blood gases after cumulative aerobic effort and there are statistically significant differences between the pre and post-tests after performing a cumulative aerobic effort. The researcher used the descriptive approach in a comparative method for its suitability for the nature of the present study. The research sample consists of (12) students from faculty of Physical Education and Sports Sciences at University of Al-Qadisiyah in Al-Diwaniyah, who are practicing sports and are in good health. They are intentionally chosen from those who could complete the test well. The researcher used the arithmetic mean, standard deviation, (t-Test) for related samples, and variation coefficient. The (SPSS) version (11.0) was used for the purpose of statistical data processing.

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Abdulfattah, A. (2000). Biology of Sport and Athlete’s Health, Dar Al-Fikr Al-Arabi, Cairo. Abdulfattah, A. and Hassanain, M. (1997). Physiology and Morphology of Sports, Measurement and Evaluation Methods, 1st Edition, Dar Al-Fikr Al-Arabi, Cairo Abdulfattah, A. and Sayed, A. (2003). Physiology of physical fitness, Dar Al-Fikr Al-Arabi, Cairo. Adams, Gene M. (2002): Exercise Physiology, Laboratory Manual, 4th ed., McGraw-Hill Companies, Boston, U.S.A. Al-Tikriti, W. and Al-Ubaidi, H. (1999). Statistical Applications and Computer Uses in Physical Education Research, Dar Al-Kutub for Printing and Publishing, University of Mosul. Bergman,B.C. & Brooks, G.A. (1999): Respiratory Gas-Exechange Ratios During Grated Exercise In Fed And Faster Trained And Untrained Men. Journal of applied physiology, No. (86) ,p479-487. Birch, k. Maclaren, D. George, K. (2005): Sport And Exercise Physiology, Garland Science, Taylor & Francis E-Library, U.S.A. Feather, C.(2011):The effect of fitness test protocol on Maximal heart rate, Abstract booklet of BASES Annual Student Conference. Foss, Merle L. Keteyian, Steven J.(1998): Physiological Basis For Exercise And Sport,6thed, Mc Graw Hill, Singapore. Froelicher, Victor F. Jr., Brammell, Homer., Davis, Garland., Noguera, Ignacio., Stewart, Alderus & Lancaster, Malcolm C. (1974) : A Comparison of the Reproducibility and Physiologic Response to Three Maximal Treadmill Exercise Protocols, Chest online, No. (65), pp. 512-517. Gollnick, P.D. (1985): Metabolism Of Substrate Metabolism During Exercise And As Modified By Training. Federation Proceedings, No. (44), p353-357. Lukaski, H. C., Bolonchuk, W. W & Klevay, L. M (1989): Comparison Of Metabolic Responses And Oxygen Cost During Maximal Exercise Using Three Treadmill Protocols, Journal Of Sports Medicine, No. (29), 223-229. Nielson, David E. (2009): Predicting (VO2max) in college-aged participants using cycle ergometry and nonexercise measures , MSC thesis, Brigham Young University. Kumar, S. (2022). A quest for sustainium (sustainability Premium): review of sustainable bonds. Academy of Accounting and Financial Studies Journal, Vol. 26, no.2, pp. 1-18 Radhwan, M. (1998). Methods of measuring physical effort in sports, 1st edition, Al-Kitab Center for Publishing, Nasr City, Cairo. Rogers, Kara. (2011): The human body blood physiology and circulation, Encyclopedia Britannica.