Add to ORKGThrough using the method of biomechanical theory and experimental research, the paper studied the specific ability characteristics of takeoff leg muscles in long jump. Seven male long jumpers were required to complete running long jump. Kinematics and dynamics data were from biomechanical investigation. The 'Inverse Dynamics' method was used to calculate the muscles moment of hip, knee and ankle of the takeoff leg. The result showed that the ability of quick eccentric contraction of hip was important in takeoff. The knee was shown the characteristics of 'fore-support push' in take off. The ability of concentric contraction of knee's extensors played a very important part in getting vertical ve'locity, the larger peak of knee f1exion moment ...
INTRODUCTION: The human motor system developed under the influence of earth's gravitational field on...
The purpose of this study was to investigate three-dimensionally how long jumpers move during the ta...
INTRODUCTION: In order to reveal how load, length of muscles, velocity of stretch and other factors ...
The purpose of this study was to investigate the function of the takeoff leg as a support mechanism ...
The purpose of this study was to examine the biomechanical characteristics of the take-off technique...
This study investigated the biomechanical characteristics of takeoff preparation and takeoff motion ...
The purposes of this study were to investigate why long jumpers laterally leaned at the touchdown of...
Despite its importance to success in the long jump, the takeoff has been accorded little attention b...
[[abstract]]Purpose: To investigate the biomechanical characteristics of long jump takeoff between e...
The purpose of this study was to compare the takeoff preparation and the takeoff motions of the worl...
PURPOSE AND METHODS Biomechanical research on the takeoff of the long jump were classified and summa...
By means of analytical model for long jump achievements, the researchers analyzed the Interrelated r...
Jumping performance in sports was structured at a first glance. Then one-legged take-offs build the ...
The Routledge Handbook of Biomechanics and Human Movement Science is a landmark work of reference
INTRODUCTION: Many studies had proved that extra weights was held in the hands of the athletes durin...
INTRODUCTION: The human motor system developed under the influence of earth's gravitational field on...
The purpose of this study was to investigate three-dimensionally how long jumpers move during the ta...
INTRODUCTION: In order to reveal how load, length of muscles, velocity of stretch and other factors ...
The purpose of this study was to investigate the function of the takeoff leg as a support mechanism ...
The purpose of this study was to examine the biomechanical characteristics of the take-off technique...
This study investigated the biomechanical characteristics of takeoff preparation and takeoff motion ...
The purposes of this study were to investigate why long jumpers laterally leaned at the touchdown of...
Despite its importance to success in the long jump, the takeoff has been accorded little attention b...
[[abstract]]Purpose: To investigate the biomechanical characteristics of long jump takeoff between e...
The purpose of this study was to compare the takeoff preparation and the takeoff motions of the worl...
PURPOSE AND METHODS Biomechanical research on the takeoff of the long jump were classified and summa...
By means of analytical model for long jump achievements, the researchers analyzed the Interrelated r...
Jumping performance in sports was structured at a first glance. Then one-legged take-offs build the ...
The Routledge Handbook of Biomechanics and Human Movement Science is a landmark work of reference
INTRODUCTION: Many studies had proved that extra weights was held in the hands of the athletes durin...
INTRODUCTION: The human motor system developed under the influence of earth's gravitational field on...
The purpose of this study was to investigate three-dimensionally how long jumpers move during the ta...
INTRODUCTION: In order to reveal how load, length of muscles, velocity of stretch and other factors ...