Milan Coh1, Milan Zvan1, Otmar Kugovnik1
1Faculty of Sport, University of Ljubljana, Slovenia
BIOMEHANICAL MODEL OF THE GOLF SWING TECHNIQUE
BIOMEHANICAL MODEL OF THE GOLF SWING TECHNIQUE
Sport Mont 2011, IX(28-29-30),
3-8
Golf is an extremely complex game which depends on a number of
interconnected factors. One of the most important elements is undoubtedly the golf
swing technique. High performance of the golf swing technique is generated by: the
level of motor abilities, high degree of movement control, the level of movement
structure stabilisation, morphological characteristics, inter- and intro-muscular coordination,
motivation, and concentration. The golf swing technique was investigated
using the biomechanical analysis method. Kinematic parameters were registered using
two synchronised high-speed cameras at a frequency of 2,000 Hz. The sample of
subjects consisted of three professional golf players. The study results showed a
relatively high variability of the swing technique. The maximum velocity of the ball
after a wood swing ranged from 233 to 227 km/h. The velocity of the ball after an iron
swing was lower by 10 km/h on average. The elevation angle of the ball ranged from
11.7 to 15.3 degrees. In the final phase of the golf swing, i.e. downswing, the trunk
rotators play the key role golf, technique, kinematics, velocity parameters
Abstract
Keywords
View full article
(PDF – 159KB)