The purpose of this study was to identify differences in force, impulse and power characteristics in block starts and first two contacts between youth academy (n=20) and elite senior male sprinters (n=17). Senior sprinters were significantly faster out of the blocks with a horizontal velocity of 3.35m/s ±0.15 compared to 3.14 ±0.16m/s, leading to 10m times of 1.64±0.045s and 1.706±0.06s respectively. Force application time of the arms, rear leg and front leg were significantly lower in the senior athletes (all
Purpose The best sprint performances are usually reached between the ages of 20 and 30 yr; however, ...
The effect of variations in joint kinetics on sprint performance in individual athletes is not yet k...
The aim of this paper was to investigate whether it is possible to evaluate the relationship between...
The purpose of this study was to examine the force production characteristics of the arms and each l...
To obtain more in-depth insights in biomechanical factors determining performance during sprint runn...
The sprint start lays a foundation to a good performance of track athletes. Thus, the aim was to und...
The purpose of this study was to analyze the push – off forces of male and female sprinters from a w...
[[abstract]]Biomechanical Analysis of Starts by College and Senior High Male Sprinters June 2007 ...
The purpose of this case study was to quantify the contribution of the arms in the sprint start and...
Five male sprinters (mean ± SO: age 21.0 ± 0.5 years; height 1.80 ± 0.07 m; body weight 763 ± 29 N) ...
The aim was to investigate the kinematic factors associated with successful performance in the initi...
The aim of this study was to investigate differences in joint power generation between well-trained ...
The purpose of this investigation was to understand how the athlete produces acceleration during the...
The purpose of the study was to explore and determine kinetic and kinematic variables that related t...
This study investigated lower-limb kinematics to explain the techniques used to achieve high levels ...
Purpose The best sprint performances are usually reached between the ages of 20 and 30 yr; however, ...
The effect of variations in joint kinetics on sprint performance in individual athletes is not yet k...
The aim of this paper was to investigate whether it is possible to evaluate the relationship between...
The purpose of this study was to examine the force production characteristics of the arms and each l...
To obtain more in-depth insights in biomechanical factors determining performance during sprint runn...
The sprint start lays a foundation to a good performance of track athletes. Thus, the aim was to und...
The purpose of this study was to analyze the push – off forces of male and female sprinters from a w...
[[abstract]]Biomechanical Analysis of Starts by College and Senior High Male Sprinters June 2007 ...
The purpose of this case study was to quantify the contribution of the arms in the sprint start and...
Five male sprinters (mean ± SO: age 21.0 ± 0.5 years; height 1.80 ± 0.07 m; body weight 763 ± 29 N) ...
The aim was to investigate the kinematic factors associated with successful performance in the initi...
The aim of this study was to investigate differences in joint power generation between well-trained ...
The purpose of this investigation was to understand how the athlete produces acceleration during the...
The purpose of the study was to explore and determine kinetic and kinematic variables that related t...
This study investigated lower-limb kinematics to explain the techniques used to achieve high levels ...
Purpose The best sprint performances are usually reached between the ages of 20 and 30 yr; however, ...
The effect of variations in joint kinetics on sprint performance in individual athletes is not yet k...
The aim of this paper was to investigate whether it is possible to evaluate the relationship between...