• The Effect of Pedal Crank Arm Length on Lower Limb Joint Angles in an Upright Cycling Position

      Too, Danny; Williams, Christopher D.; The College at Brockport (2012-08-17)
      The purpose of this investigation was to determine whether changes in CAL resulted in significant changes in joint angles, and how these changes are related to changes in cycling performance.
    • The Effect of Seat-To-Pedal Distance on Anaerobic Power and Capacity in Recumbent Cycling

      Too, Danny; The College at Brockport (1993-06-11)
      Paper submitted to the Dr. G. Arthur Broten Young Scholars Recognition Award Program, Western College Physical Education Society, and investigating how the human organism interacts with human powered vehicles to maximize performance. What is the most effective body position. body orientation. body configuration, seat-to-pedal distance, and pedal crank-arm length that would maximize power production in cycling? The purpose of this investigation was to determine the effect of systematic changes in seat-to-pedal distance on·peak anaerobic power and capacity in recumbent cycling.
    • The Role, Direction, and Future of Biomechanical Research in Strength and in Resistance Training

      Too, Danny; The College at Brockport (1994-06-13)
      There is a plethora of literature related to strength training, resistance training, weight training, weight lifting, body building, and rehabilitation. The majority of the literature is physiological in nature, involving the neural, muscular, skeletal and hormonal systems. These studies have focused on the physiological response and muscular adaptations that occur with different: (1) training programs (circuit weight training, light-heavy, pyramid, etc.); (2) exercise prescriptions (intensity, volume, variation, progression, rest intervals, specificity); (3) resistance modalities (free weights, machines, etc.); and (4) types of contractions (isometric, isokinetic, dynamic). The biomechanical literature on strength appears to be quite extensive, whereas the literature on the biomechanics of resistance training appear to be very limited. This dichotomy may be attributed to an number of reasons, including: (1) insufficient interest, expertise and/or experience in the field of biomechanics and resistance training; (2) confusion and differences in opinion as to what defines biomechanical research in resistance training; (3) the overlap of resistance training research with other disciplines; and (4) the generally a theoretical nature of biomechanics. This paper proposes to address the role of biomechanics in strength research, probable directions for future strength research; and possible biomechanical research in resistance training.