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The aim of this paper is to investigate the influence of the time of rest on the change of maximal and average power as a function of time during training on an inclined plane. The values of power, developed during 7 series of 10 bounces with a 0.5 and 1 minute break, were analyzed. The research was conducted on 10 female students from the second year of master studies with a major of physical education. Taking into account the results obtained, which were compared to data from other sources, it is possible to conclude that the value of maximal power for the whole group examined during the training with a 0.5 minute break decreased by 22%, and for the training with a 1 minute break by 12%. One can assume that the training with a 0.5 minute break was more tiring, and for that reason students were not able to regenerate fully so as to bounce in the subsequent series. That is why one should say that the second method of training is more efficient for the evaluation of the maximal power of the contestant.
Czasopismo
Rocznik
Tom
Strony
17--22
Opis fizyczny
Bibliogr. 33 poz., rys., tab.
Twórcy
autor
autor
autor
- Department of Biomechanics, Józef Piłsudski's University of Physical Education in Warsaw, witiza83@wp.pl
Bibliografia
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- [15] FLECK S.J., KRAEMER W.J., Designing resistance training programs, 3rd edition, Human Kinetics Champaign, 2004.
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- [23] STANISZEWSKI M., MASTALERZ A., URBANIK C., LUTOSŁAWSKA G., Evaluation of the effectiveness of training the muscles of the lower limbs for example change the value of power and strength of knee extensor and keratin kinase activity changes in plasma, Rozprawy Naukowe, AWF Wrocław, 2008, 26, 4–7.
- [24] BIEZE J., Rest period boosts plyometric training effects, Biomechanics, The magazine of body movement and medicine, 2004.
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- [28] MIRANDA H., FLECK S.J., SIMAO R., BARRETO A.C., DANTAS E.H.M., NOVAES J., Effect of two different rest period lengths on the number of repetitions performed during resistance training, Journal of Strength and Conditioning Research, 2007, 19, 950–958.
- [29] VOIGT M., KLAUSEN K., Changes in muscle strength and speed of an unloaded movement after various training programmes, Eur. J. Appl. Physiol., 1990, 60(5), 370–376.
- [30] HILL-HAAS S., BISHOP D., DAWSON B., GOODMAN C., EDGE J., Effects of rest interval during high-repetition resistance training on strength, aerobic fitness, and repeated-sprint ability, Journal of Sports Science, 2007, 25, 619–628.
- [31] URBANIK CZ., NOWACKA S., Changing the strength, power and endurance of lower limbs in girls surveyed aged 15–18 (Zmiana siły, mocy i wytrzymałości kończyn dolnych u dziewcząt badanych w wieku 15–18 lat), Materiały XIV Szkoły Biomechaniki, Biol. Sport, 1997, 14 (Suppl. 7), 162–166.
- [32] URBANIK Cz., Ocena spadku mocy w funkcji czasu u dziewcząt w wieku szkolnym, Materiały Ogólnopolskiej Konferencji Biomechanika’95, AWF Kraków, 1995a, 270–273.
- [33] DWORAK L., Wybrane problemy rozwoju siły w ontogenezie człowieka na przykładzie chłopców 7–10 lat, [in:] T. Bober (ed.), Potencjał Ruchowy Człowieka z Warsztatów Badawczych, AWF Warsaw, 1986, 144–160.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPBD-0003-0016