Arnold, A.S., King, D.L., and Smith, S.L. 1994. Figure skating and sports biome-chanics: the basic physics of jumping and rotating. Skating 71:9.
de Boer, R.W., Ettema, G.J.C., van Gorkum, H., de Groot, G., and van Ingen Schenau, G.J. 1988. A geometrical model of speed skating the curves. J. Biomech. 21:445-450.
de Koning, J.J., de Groot, G., and van Ingen Schenau, G.J. 1992. Ice friction during speed skating. J. Biomech. 25:565-571.
van Ingen Schenau, G.J., de Groot, G., and de Boer, R.W. 1985. The control of speed in elite female speed skaters. J. Biomech. 18:91-96.
van Ingen, G.J. 1982. The influence of air friction in speed skating. J. Biomech. 15:449-458.
de Boer, R.W., Ettema, G.J.C., van Gorkum, H., de Groot, G., and van Ingen Schenau, G.J. 1987. Biomechanical aspects of push-off techniques in speed skating the curves. Int. J. Sport Biomech. 3:69-79.
White, J.D. 1992. The role of surface melting in ice skating. Physics Teacher 30:495-497.
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The use of dumbbells gives you a much more comprehensive strengthening effect because the workout engages your stabilizer muscles, in addition to the muscle you may be pin-pointing. Without all of the belts and artificial stabilizers of a machine, you also engage your core muscles, which are your body's natural stabilizers.