Increased distance of shooting on basketball jump shot (original) (raw)
Related papers
Kinematic Parameters of Jump Shot in Elite Male Basketball Players
Facta Universitatis, Series: Physical Education and Sport
The primary aim of this study was to determine kinematic parameters of jump shot in elite male basketball players, by analyzing the release time for shooting, the angle of entry, and ball spin and. The secondary aim of this study was to examine possible differences in these kinematic parameters among the players associated with their playing position. Eighteen male basketball players (7 guards, 8 forwards, 3 centers) from six Serbian senior teams were tested. 94Fifty basketball sensor was used to obtain the following kinematic parameters of jump shot). The highest average measured values of shot release time were found in centres (1.23±0.23 s) and the lowest in guards (1.07±0.28 s), although these differences were not statistically significant. Further, centres had a lower angle of entry (36.6±2.08°) than guards (40.54±4.76°) and forwards (42.05±3.77°). The highest value of backspin was obtained by forwards (130±11.91 rotations / min). There were no significant differences between g...
Facta Universitatis, Series: Physical Education and Sport
The aim of this study was to determine the influence of the specific training program on the kinematic parameters of made jump shots in basketball. Participants were 31 basketball players, aged 15.32±0.65. All participants trained according to a specific training program for 10 weeks. Data obtained at the initial and final measurements were processed by nonparametric statistics. Data processing was carried out in the direction of determining the difference in kinematic parameters within the group between the initial and final measurements. After that, the level of impact of a specific training program on the mentioned parameters was determined. The obtained results indicated that there are differences between initial and final measurements in eight out of 10 (80%) kinematic parameters and the influence of the specific training program existed in the same eight (80%) kinematic parameters.
دراسات - العلوم الإنسانية والاجتماعية, 2020
The aim of this study is to get to know the effects of a suggested training regimen concerning several kinematic characteristics and jump shot (from the left and right side) for basketball beginners, utilizing empirical research by creating two equivalent random groups suitable to the nature of such a study; by selecting a sample of 20 junior players in the field of basketball age group of 13-15 year olds mean 15.1 SD 0.64: A control group and an experimental group, each comprised of 10 members. Our control group was subjected to training using the conventional method, whereas the experimental group underwent the suggested training programme. The results of our study demonstrated that the new training programme yielded a positive effect in improving the values of several kinematic variables (ie velocity, angle and height of ball release). Especially of note was the vertical velocity, one of the most improved variables in basketball jump shots. Furthermore, this study recommends applying the new jump shot training regimen to the Palestinian school teams and junior clubs, as well as the importance of giving attention to the development of physical abilities for the adolescents, and the kinematic variables affecting the jump shot skills among basketball juniors during the training process.
UNSUPPORTED SHOT BIOMECHANICS SPECIFIC FOR DIFFERENT SKILL LEVELS IN BASKETBALL
There is a wide variety of shots in basketball, but 70% of all shots in the game are done using one hand in a jump (jump shot). It is important both for professional basketball players and for successful workouts of beginner players (students, pupils) to improve this type of shot, as it influences the psychological aspect of success in the game, and therefore the training process. At the same time, in the context of sports physiology unsupported position is not a standard condition for any motor action, and one needs a complex overall restructuring of functional systems to adapt to it. The specifics of the jump shot biomechanics depending on the skill levels of basketball players acting in the unsupported positions was studied. The results indicate that the restructuring of the set of movements of highly skilled basketball players provides first adaptation to the unsupported position, coordination of movement and turn the aerial position of the body into a technical skill. At the same time, the physiological adjustment of body systems to the unsupported position during a jump shot is a factor generating aspect that has an adverse complex effect on the quality of performance of this motor action.
Relationship of Kinematic Variables with the Performance of Basketballplayers in Lay-Up Shot
Citius Altius Fortius, 2009
The purpose of the study was to determine the relationship between selected kinematic variables and performance of lay-up shots. Five (N=5) male basketball players who represented Punjab Technical University, Jalandhar, were selected as subjects for the study. The help of digital photography was used to film the subjects in sagittal plane of lay-up shot. Joint point method was used in order to obtain the values of selected angular kinematic variables from developed stick figures. Height of center of Gravity was calculated by segmentation method. The performance in Lay-Up Shot was recorded by the scores in Lay-Up Shot, which was obtained by using a three point scale by the three judges. To determine the degree of relationship between selected kinematic variables with the performance in Layup Shot, Pearson's Product Moment Correlation Method was used. The results have shown the insignificant values of coefficient of correlation incase of all the selected kinematic variables and significant relationship between the height of center of gravity at the moment of release with the performance of the subjects in lay-up shots.
Kinematic Analysis of Basketball Jump Shot
Technique in sport is defined as rational and efficient performance of movement aimed to resolve motoric tasks in the training and competition process. Insight into the available literature resulted in selection of 3 kinematic variables used for analysis: release angle, release velocity and release height. Consequently, aim of this research is systematic review of kinematic parameters influencing the success of performance in basketball jump shot. Throwing angle is considered to be the most important factor for success of jump shot. Increased release angle is in correlation with the height of basketball trajectory which renders it a function of increased angle of entry of the basketball. Increased angle of entry enables the maximum use of the basket ring but demands increased release velocity. It is possible to control the release velocity using the spin created by the wrist flexion. Second manner of regulation of the velocity is increased release height. Influence on the release height is, however, reduced because it is determined by the constant basket ring height, player's height, jump height and organisation of segmented movements of body parts. Understanding the interaction of variables influencing the structure of basketball movement in duration of shot provides insight into the complexity of movement performance in basketball. It is therefore necessary to indicate these variables during trainings, which is possible under the current conditions due to the fact that the technology has advanced significantly in past few years and follow-up of the said parameters demands very little effort.
Different intensities of basketball drills affect jump shot accuracy of expert and junior players
PeerJ, 2018
In basketball a maximum accuracy at every game intensity is required while shooting. The aim of the present study was to investigate the acute effect of three different drill intensity simulation protocols on jump shot accuracy in expert and junior basketball players. Eleven expert players (age 26 ± 6 yrs, weight 86 ± 11 kg, height 192 ± 8 cm) and ten junior players (age 18 ± 1 yrs, weight 75 ± 12 kg, height 184 ± 9 cm) completed three series of twenty jump shots at three different levels of exertion. Counter Movement Jump (CMJ) height was also measured after each series of jump shots. Exertion's intensity was induced manipulating the basketball drills. Heart rate was measured for the whole duration of the tests while the rating of perceived exertion (RPE) was collected at the end of each series of shots. Heart rate and rating of perceived exertion (RPE) were statistically different in the three conditions for both expert and junior players. CMJ height remained almost unchanged ...
Exploring the Efficacy of Basketball Shooting: A Comprehensive Analysis of Success Rates
International Journal of Innovative Research in Computer Science and Technology (IJIRCST), 2023
The present study evaluated success rate of basketball shooting for different skill levels. A total of 10 subjects (5 skilled and 5 unskilled) participated in this study. The main goal of the study was to provide the preliminary data for further studies in finding mechanisms of improving shooting success rate during basketball games. This larger constraint is thought to require performers to change their motion control strategy to maintain accuracy and create a tremendous urge to push the ball the moment it is released. Still, many players have difficulty adapting to longer distance shooting. The results suggested that there were main effects of group and distance, but, no interaction effect was found. In conclusion, shooting success rate were affected by distance regardless of skill levels in basketball shooting.
Basketball Shoot and Players Height
2000
The present study aimed to compare the basketball jump shoot coordination of players with higher and lower height. Three basketball players with higher height (2,0 ± 0,12 m; experience 16,3 ± 5,9 years) and three with lower height (1,75 ± 0,06 m; experience 12,3 ± 1,2 years) were analyzed cinematically (2 D, 60 Hz, saggital plane) performing freethrow shoots. A biomechanical model (6 points determining 4 body's segments) provided the angular displacement and angular velocity of the shoulder, elbow and wrist. Angular displacement and velocity behavior was compared through confidence intervals of 95% during the whole movement cycle. Players with lower height seemed to optimize the counter-movement strategy around the elbow and wrist joints to release the ball. However, the coordination adopted between the players was not different in relation to the height, where only the control parameters were different. Thus, a common movement pattern is proposed in basketball shoot as a reference in the process teach-learning between players with different heights.