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A simple method for measurement of mechanical power in jumping

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Summary

A simple test for the measurement of mechanical power during a vertical rebound jump series has been devised. The test consists of measuring the flight time with a digital timer (±0.001 s) and counting the number of jumps performed during a certain period of time (e.g., 15–60 s). Formulae for calculation of mechanical power from the measured parameters were derived. The relationship between this mechanical power and a modification of the Wingate test (r=0.87, n=12 ♂) and 60 m dash (r=0.84, n=12 ♂) were very close. The mechanical power in a 60 s jumping test demonstrated higher values (20 W×kgBW−1) than the power in a modified (60 s) Wingate test (7 W×kgBW−1) and a Margaria test (14 W×kgBW−1). The estimated powers demonstrated different values because both bicycle riding and the Margaria test reflect primarily chemo-mechanical conversion during muscle contraction, whereas in the jumping test elastic energy is also utilized. Therefore the new jumping test seems suitable to evaluate the power output of leg extensor muscles during natural motion. Because of its high reproducibility (r=0.95) and simplicity, the test is suitable for laboratory and field conditions.

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References

  • Adamson GT, Whitney RJ (1971) Critical appraisal of jumping and measure of human power. Medicine and Sport, vol 6. Biomechanics II. Karger, Basel, pp 208–211

    Google Scholar 

  • Asmussen E, Bonde-Petersen F (1974a) Storage of elastic energy in skeletal muscles in man. Acta Physiol Scand 91: 385–392

    Google Scholar 

  • Asmussen E, Bonde-Petersen F (1974b) Apparent efficiency and storage of elastic energy in human muscles during exercise. Acta Physiol Scand 92: 537–545

    Google Scholar 

  • Ayalon A, Inbar O, Bar-Or O (1974) Relationships among measurements of explosive stretching and anaerobic power. In: Nelson RC, Morehouse CA (eds) International Series on Sports Sciences, vol 1. Biomechanics IV. University Park Press, Baltimore, pp 527–537

    Google Scholar 

  • Bar-Or O (1980) A new anaerobic capacity test — characteristics and applications. Med Esporte Porto Alegre 5: 73–82

    Google Scholar 

  • Bar-Or O, Dotan R, Inbar O, Rothstein A, Karlsson J, Tesch P (1980) Anaerobic capacity and muscle fiber type distribution in man. Int J Sports Med 1: 82–85

    Google Scholar 

  • Bosco C (1980) Sei un grande atleta vediamo cosa dice l'Ergojump. Pallavolo no 5: 34–36

    Google Scholar 

  • Bosco C, Komi PV (1979) Mechanical characteristics and fiber composition of human leg extensor muscles. Eur J Appl Physiol 41: 275–284

    Google Scholar 

  • Bosco C, Komi PV (1982) Muscle elasticity in athletes. In: Komi PV (ed) International series on sports sciences, vol. 12. Exercise and sport biology. Human Kinetics Publ, Champain Ill, pp 109–117

    Google Scholar 

  • Bosco C, Komi PV, Locatelli E (1979) Coinsiderazioni sull'allenamento del potenziale elastico del muscolo scheletrico umano. Quaderno, Del Centro Studi di Coverciano No 2: 5–18

    Google Scholar 

  • Bosco C, Viitasalo JT, Komi PV, Luhtanen P (1981a) Combined effect of elastic energy and myoelectrical potentiation during stretch-shortening cycle exercise. Acta Physiol Scand 114: 557–565

    Google Scholar 

  • Bosco C, Komi PV, Sinkkonen K (1981b) Mechanical power, net efficiency and muscular structure in male and female middle-distance runners. Scand J Sports Sci 2 (2): 47–51

    Google Scholar 

  • Bosco C, Ito A, Komi PV, Luhtanen P, Rahkila P, Rusko H, Viitasalo JT (1981c) Neuromuscular function and mechanical efficiency of human leg extensor muscles during jumping exercises. Acta Physiol Scand 114: 543–550

    Google Scholar 

  • Bosco C, Komi PV, Tihanyi J, Fekete G, Apor P (1982) Mechanical power test and fiber composition of human leg extensor muscles (submitted for publication)

  • Cavagna GA, Komarek L, Citterio G, Margaria R (1971) Power output of the previously stretched muscle. Med Sport 6: 159–167

    Google Scholar 

  • Cavagna GA, Zamboni A, Faraggiana R, Margaria R (1972) Jumping on the moon: Power output at different gravity values. Aerosp Med 43: 408–414

    Google Scholar 

  • Davies CTM (1971) Human power output of short duration in relation to body size and composition. Ergonomics 14 (2): 245–256

    Google Scholar 

  • Davies CTM, Rennie R (1968) Human power output. Nature 217: 770–771

    Google Scholar 

  • Davies CTM, Wemyss-Holden J, Young K (1982) Maximal power output during cycling and jumping. J Physiol 322: 43–44

    Google Scholar 

  • Jacobs I (1980) The effects of thermal dehydration on performance of the Wingate test. Int J Sports Med 1: 21–24

    Google Scholar 

  • Komi PV (1979) Neuromuscular performance: factors influencing force and speed production. Scand J Sports Sci 1 (1): 2–15

    Google Scholar 

  • Komi PV, Bosco C (1978) Utilization of stored elastic energy in leg extensor muscles by men and women. Med Sci Sports 10 (4): 261–265

    Google Scholar 

  • Margaria R, Aghemo P, Rovelli E (1966) Measurement of muscular power (anaerobic) in man. J Appl Physiol 21: 1662–1664

    Google Scholar 

  • Sargeant AJ, Hoinville E, Young A (1981) Maximum leg force and power output during short-term dynamic exercise. J Appl Physiol: Respirat Environ Exercise Physiol 51 (5): 1175–1182

    Google Scholar 

  • Smidt GI (1973) Biomechanical analysis of knee flexion and extension. J Biomech 6: 79–92

    Google Scholar 

  • Thys H, Faraggiana T, Margaria R (1972) Utilization of muscle elasticity in exercise. J Appl Physiol 32: 491–494

    Google Scholar 

  • Thys H, Cavagna GA, Margaria R (1975) The role played by elasticity in an exercise involving movements of small amplitude. Pflügers Arch 354: 281–285

    Google Scholar 

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Bosco, C., Luhtanen, P. & Komi, P.V. A simple method for measurement of mechanical power in jumping. Europ. J. Appl. Physiol. 50, 273–282 (1983). https://doi.org/10.1007/BF00422166

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