1. Armstrong, N., Welsman, J. R. ve Chia, M. Y. H. (2001). Short term power output in
relation to growth and maturation. British Journal of Sports Medicine: 35, 118-124.
2. Astrand, P. O. ve Rodahl, K., Textbook of Work Physiology, McGraw-Hill Company,
Singapore, 1986.
3. Beyaz, M., İzokinetik Tork Değerleri ve Wingate Test ile Anaerobik Gücün
Değerlendirilmesi. (1997). Tıpta Uzmanlık Tezi, İstanbul Üniversitesi Tıp Fakültesi
Spor Fizyolojisi Araştırma ve Uygulama Merkezi, İstanbul.
4. De Ste Croix, M. B. A., Armstrong, N., Chia, M. Y. H., Welsman, J. R., Parsons, G. ve
Sharpe, P., Changes in short-term power output in 10 to 12–year-olds, Journal of Sports of
Sciences., 19, 141-148, 2000.
5. Dore, E., Bedu, M., França, N. M. ve Praagh, E. V. (2001). Anaerobic cycling
performance characteristics in prepubescent, adolescent and young adults females.
European Journal of Applied Physiology: 84, 476-481.
6. Dowsan, M. N., Nevill, M.E., Lakomy, H.K. ve Hazeldine, R.J. (1998). Modelling the
relationship between isokinetic muscle strength amd sprint running performance. Journal
of Sports saciences: 16, 257-265.
7. Esbjörnson, M., Sylven, C., Holm, I. ve Jansson, E. (1993). Fast Twitch fibers may predict
anaerobic performance in both females and males. International Journal of Sports
Medicine: 14(5): 263.
8. Fox, E, Bowers, R. ve Foss, M., The Physiological Basis for Exercise and Sport, WCB
Brown and Bencmark Publishers, Dubuque IA, 1993.
9. Grant, S., Hynes, V., Whittaker, A., Aitchison, T. (1996). Anthropometric, Strength,
Endurance and Flexibility Characteristics of Elite and Recreational Climbers. Journal of
Sports Sciences: 14, 301-309.
10. Karatosun, H., Muratlı, S., Erman, A. ve Yaman, H. (1998). Anaerobik güç ve kapasite ile
vücut kompozisyonu arasındaki ilişkinin incelenmesi. Hacettepe Üniversitesi 5. Uluslar
arası Spor Bilimleri Kongresi Bildiri Özetleri kitabı. Onay Ajans. Ankara. 196.
11. Mann, R. V. (1981). A kinetic analysis of sprinting. Medicine Science Sports
Exercise: 13, 325-328.
International Journal of Science Culture and Sport (IntJSCS) Sep 2013 1 (3) : 14-23
Volume 1 Issue 3
2 3
12. Martin, R. J. F., Dore, E., Twisk, J., Van Praagh, E., Hautier, C. A. ve Bedu, M. (2004).
Longitutudial changes of maximal short-term peak power in girls and boys during growth.
Medicine and Science in Sport and Exercise: 36(3), 498-503.
13. Mayhew, J. L., Hancook, K., Rollisan, L., Ball, T. E. ve Bowen, J. C. (2001).
Contributionas of strength and body composition to the gender difference in anaerobic
power. Journal of Sports Medicine and Physical Fitness: 41, 33-38.
14. Mero, A. (1988). Force-time characteristic and running velocity of male sprinters
during the accelaration phase of sprinting. Research Quaterly for Exercise and
Sport: 59-94.
15. Shephard, R. J., Bouchlel, E., Vandewalle, H. ve Monod, H.(1988). Muscle mass as a
factor limiting physical work. Journal of Applied Physiology: 64(4), 1472-1479.
16. Staron, R. S., Hagerman, F. C., Hikida, R. S., Murray, T. F., Hostler, D. P., Crill, M.
T., Ragg, K. E. ve Toma, K. (2000). Fiber Type composition of the vastus lateralis muscle
of young men and women. The Journal of Histochemistry and Cytochemistry: 48(5), 623-
629.
17. Thorland, W. G., Johnson, G. O., Cisar, C. J., Housh, T. J. ve Tharp, G. D. (1987).
Strength and anaerobic responses of elite young female sprint and distance runners,
Medicine and Science in Sport and Exercise: 19(1), 56-61.
18. Van Praagh, E., Felmann, N., Bedu, M., Falgairette, G. Coudert, G., Gender, J. (1990).
Gender difference in the relationship of anaerobic power output to body composition in
children. Pediatr. Exerc. Sci: 2, 336-348.
19. Welsman, J.R., Armstrong, N., Kirby, B.J., Parsons, G., Sharpe, P. (1997). Exercise
performance and magnetic resonance imaging-determined thigh muscle volume in
children. Eur. J. Appl. Physiol: 76, 92-97.
Thank you for copying data from http://www.arastirmax.com