Biomechanical study for stride length of pull-resisted and un-resisted run of acceleration phase for youth 100m sprinters
Suleiman Salam Salem, M. (2015). Biomechanical study for stride length of pull-resisted and un-resisted run of acceleration phase for youth 100m sprinters. EKB Journal Management System, 215(2), 537-554. doi: 10.21608/ajssa.2015.70815
Mohammed Suleiman Salam Salem. "Biomechanical study for stride length of pull-resisted and un-resisted run of acceleration phase for youth 100m sprinters". EKB Journal Management System, 215, 2, 2015, 537-554. doi: 10.21608/ajssa.2015.70815
Suleiman Salam Salem, M. (2015). 'Biomechanical study for stride length of pull-resisted and un-resisted run of acceleration phase for youth 100m sprinters', EKB Journal Management System, 215(2), pp. 537-554. doi: 10.21608/ajssa.2015.70815
Suleiman Salam Salem, M. Biomechanical study for stride length of pull-resisted and un-resisted run of acceleration phase for youth 100m sprinters. EKB Journal Management System, 2015; 215(2): 537-554. doi: 10.21608/ajssa.2015.70815

Biomechanical study for stride length of pull-resisted and un-resisted run of acceleration phase for youth 100m sprinters

Assiut Journal of Sport Science and Arts
Article 29, Volume 215, Issue 2, July 2015, Page 537-554  XML PDF (304.83 K)
Document Type: Original Article
DOI: 10.21608/ajssa.2015.70815
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Author
Mohammed Suleiman Salam Salem
the Department of theories and application track and field events, Faculty of Physical Education- Zagazig University
Abstract
The researcher supposes that pull-resisted runs develop acceleration phase, in which the runner’s rate of velocity gradually increased for the longest possible distance, in other words, picking up acceleration to dilly maximum velocity. Runners pull additional weights (mass), which enable them to store more energy to improve muscle actions, which in turn improve support time and its relation to frequency and stride length in un-resisted run, without negatively influence the running technique.  Therefore, the researcher, in this study, identifies the biomechanics of stride length with pull-resisted runs of acceleration phase, and its impact on the technique and velocity.
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