RELATIONSHIPBETWEEN EXPLOSIVE LEG STRENGTH SPEED AND AGILITY AMONG PHYSICAL EDUCATION STUDENTS FAISAL SULEH HAYYAT (original) (raw)
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The purpose of the study was to compare explosive leg strength, speed and agility among physical education boys and girls. The subjects selected for this study were male students who were doing their bachelor's in physical education at different affiliated physical education colleges of Dr. Babasaheb Ambedkar Marathwada University, Aurangabad Maharashtra. The age of the selected subjects for this study ranged between 21 to 25 years. Standing broad jump, 50 yard dash and 4×10 yard shuttle run tests were applied to measure between explosive leg strength, speed and agility respectively. Descriptive statistics and independent sample t test was applied to check the results. The results displayed that there was a significant difference in explosive leg strength and speed among physical education boys and girls while there was no significant difference in agility among physical education boys and girls. The significant value was set at 0.05.
An Association between Explosive Strength and Agility of Physical Education Students
Purpose: -The purpose of the study was to find out correlation between Explosive Strength, and Agility of physical education students. Methodology: - The subjects for this study were selected from Department of Physical Education, Guru Ghasidas Vishwavidyalaya, Bilaspur (C.G). A total of 40 male physical education students (B.P.Ed) were selected. Age of the subjects was ranging between 20 to 25 years. Selected Variables were Explosive Strength, and Agility. The selected variables were measured by different items of JCR test. To find out correlation between Explosive Strength, and Agility of physical education students, Product Moment Method of correlation was used. Findings: - There exists a significant relationship between Explosive Strength, and Agility of physical education students (r = .618, p < .05). Keywords: Explosive Strength, Agility, Physical Education.
Relationship between Explosive Strength With Speed and Agility among U-12 Football Athletes
International Journal of Academic Research in Business and Social Sciences, 2022
Relationship between Explosive Strength With Speed and Agility among U-12 Football Athletes. Abstract To excel in football, speed and agility are the key elements of fitness. Thus, some combinations of strength, power and plyometric training have been applied in order to enhance both components. There are some studies that found the positive correlations between explosive strength with both speed and agility components that led to the finding which suggested that improving muscle strength and power may help to turn these changes into reducing in time for sprinting and the ability to change direction for athletes. However, the studies about this relationship on youth football athletes have been limited especially for youth football athletes in Malaysia. Thus, this study aimed embarking to discover the correlation between explosive strength with speed and agility among U-12 football athletes in Malaysia. This study was divided into three tests which included standing broad jump, 30m s...
Relationship among explosive leg strength, leg length and speed of inter college level sprinters
The purpose of the present study was to determine the relationship among Leg Strength, Leg Length and Speed of Inter College Level Sprinters. For the purpose 20 male Inter College level Sprinters age ranged from 17-25 years of various participating colleges in the Dibrugarh University Inter College Athletic Meet 2014-15 were selected as the subjects. The required data were collected on the explosive strength, leg length and speed respectively by using Standing Broad Jump, measuring tap and 30 Yard Dash and score were recorded in centimeter and second respectively. For the statistical analysis the Pearsons' Product Moment Co-relation statistical technique was employed. To find out the relationship among the selected three variables Partial and Multiple correlations technique was also employed. To test the significance in correlation between the variables the t test was used and the level of significance was observed at 0.05 level of confidence. On the basis of findings it was found that there was no significant but slight positive correlation between leg length and Explosive leg strength (r12 = 0.072 < tabulated r value 0.433) and slight negative correlation between explosive leg strength and speed and leg length and speed (r32 =-0.31 & r13 =-0.0063 < tabulated r value 0.433). When significance was tested, no significant relationship between Leg length and Explosive leg strength, explosive leg Strength and Speed, Leg Length and Speed (r12 = 0.30, r13 =-0.026 and r23 =-1.46 < tabulated value 2.101). The positive partial co-relationship among the variables; in case of r12.3 = 0.071 and negative in partial co relationship r 13.2 =-0.029 and r 23.1 =-0.32 was observed. It was also further conclude that there are slight positive correlation among explosive leg strength, leg length and speed was observed (R1.23 = 0.070, R2.13 = 0.32, R3.12 = 0.002). Introduction: Since ancient times, sports activities in the shape of running, jumping and throwing have been a natural part of man's existence whether it was hunting animals for food or escaping from the wild and dangerous species. However, latterly these activities became pleasurable and competitive, leading to desire for improving his own speed of movement or ability to complete in these competitions. The development in the present country in all walk of human life has surprised the progress of thousands of years and sports also a part of life. It has become a very important and integral part of the total educational process. Through the well directed programme, children develop skills for the worth use of leisure time, engage in activities that are conductive to healthy living and all the endeavours load to their physical, social, mental and emotional health. Now it has became a necessity to identify and select a future elite athlete in right in childhood or adolescent it takes many years of intensive regular training till an international sports performance level is achieved [Tanwar, B (2013)] [1]. Human variation is a biological fact. This is a strikingly apparent in every sports and games where events selectively reflect concomitant genetic and environmental influence on physique. Anthropometry is the interface between anatomy and movement. It is the application of a series of measurements made on the body and from these we can use the data that we gather directly or perform calculations using the data to produce various indices and body composition predictions and to measure and describe physique [Balwinder & Singh, I.] [2]. Races over short distances, or sprints, are among the oldest running competitions. Sprinting events are focused around athletes reaching and sustaining their quickest possible running speed.
Relationship between explosive strength and agility of Football male players
Purpose:-The purpose of the study was to find out correlation between Explosive Strength, and Agility of football male players. Methodology:-The subjects for this study were selected from Bilaspur University, Bilaspur (C.G). A total of 25 male football players were selected. Age of the subjects ranged between 18 to 22 years. Selected Variables were Explosive Strength and Agility. The selected variables were measured by different items of JCR test. To find out correlation between Explosive Strength, and Agility of male football players, Product Moment Method of correlation was used. Findings:-There exists a significant relationship between Explosive Strength and Agility of male football players (r = .537, p < .05). Introduction The fitness components are qualities that athletes must develop to physically prepare for sport competition. They are the building blocks of exercise and physical activity. Sports training programs are designed to build these components in the proper proportions that match the requirements of each sport. A basic definition of physical fitness is "the ability to complete daily tasks with energy, reduce health risks due to inactivity, and be able to participate in a variety of physical activities." The 5 fitness components that are deemed health-related are: cardio, strength, endurance, flexibility, and body composition In addition, speed; agility, power, balance, and coordination have been identified as performance-related. All of these qualities exist to some degree in most sports, but developing certain combinations is important in any given sport. Physical fitness is general state of good physical health. Physical fitness is the ability to endure, beat with stand stress and carry on in circumstances where an unfit person could not continue. In order for one to be considered physically fit, heart, Lungs and muscles have to perform at a normal level for the Individual to continue feeling capable of performing an activity. The following are same of the important components of physical fitness: Strength, Speed, Endurance, Agility, Flexibility, CoOrdination , Balance and Reaction Time. Strength is the ability of overcoming resistance. Different forms of strength are applicable in different games and sports. For example performance on dynamometer is static strength, performing a clean and jerk in weight lifting is dynamic strength and putting shot is power activity of explosive strength form activities. Agility is referred to be the quality by which an individual will be able to change the direction of his body/motion in a shortest time and in a graceful manner. Many events in day to day life and in sports warrant this kind of efficiency on the part of the individuals to cope up various situations. Flexibility is the ability of possessing full range of motion around joints in the body. Flexibility reduces the injury proneness in day to day life and in sports and under various occasions. This component has its bearing on stride length in running, perfection in executing follow through actins involved in performing almost all executing follow through actions involved in performing almost all activities and in connection with the body space aesthetics. The flexibility can be improved by stretching exercises, calisthenics and practice of Asana.
The purpose of the present study to examine the relationship of agility and speed ability with selected anthropometric variables of male football players. For the purpose of the present study 30 male football players were randomly selected from Guru Ghasidas Vishwavidyalaya, Bilaspur (C.G.) and those players who represented this Vishwavidyalaya at inter university tournament. The age group of the subjects was ranged from 21-28 years. The data was collected through applying the tests: 10x4 meter shuttle run test for agility ability, 50 meter dash run test for speed ability and selected anthropometric variables: body weight, standing height, leg length, thigh girth and calf girth. For the relationship of agility and speed ability with selected anthropometric variables mean and standard deviation were used as descriptive statistics and Pearson Product Moment coefficient test were applied at 0.05 level of significant. All statistical analysis was done using MS Excel and SPSS version 16.0. The result of the present study showed that there was Significant relationship found in selected anthropometric variables (height-r=.384, p<0.05; weight-r=.451, p<0.05; and leg length-r=.371, p<0.05) and insignificant relationship found in thigh girth (r=.332) and calf girth (.353) of Guru Ghasidas Vishwavidyalaya, Bilaspur (C.G) in relation to agility ability. There was significant relationship found in selected anthropometric variables (height-r=.365, p<0.05; weight-r=.378, p<0.05; leg length-r=.392, p<0.05; and thigh girth-r=.370, p<0.05) and insignificant relationship found in calf girth (r=.231) of Guru Ghasidas Vishwavidyalaya, Bilaspur (C.G) in relation to speed ability.
2019
The problems found in male students of class VIII2 of SMP Negeri I Rambah Rokan Hulu District. that the results of the sprint run achieved by students are still not optimal, this is because the practice of watching too much does not make students take it seriously. Students are lazy, students are bored, students are stiff. From the students 'running techniques such as swinging their hands with foot movements less harmoniously, besides the coordination of the students' running movements were not maximal, so that when students ran, the coordination between swinging hands and feet still looked stiff and made the student's running speed reduced, beside seen from the leg muscle strength that students have, so to create the maximum running speed results, students always have to practice
The Influence of Explosive Strength and Speed on a Selected Group of Tests of Agility
Facta Universitatis Series Physical Education and Sport, 2014
The aim of this study is to determine the influence of strength and speed on a group of selected tests of agility. The sample of participants consisted of 77 secondyear students of the Faculty of Sport in Ljubljana (28 females and 49 males). The tests of general motor skills were focused on the targeted motor characteristics of the participants (speed, agility, strength). The tests of agility and speed were measured using the Brower Timing System (Salt Lake City, UT, USA), and the tests of explosive strength using the Opto Jump (Microgate, Bolzano, Italy), an optical device which measures the duration of the contact and flight time, while the strength of the hand squeeze was measured using a Hydraulic Hand Dynamometer (Baseline, USA). The study determined a high correlation between speed and the criterion variables, especially in situations in which the eccentric-concentric contractions are not pronounced (zig-zag movement, lateral movement), and recognized the influence of the countermovement jump as a significant predictor of the manifestations which are characteristic of eccentric-concentric contractions.
Association of Explosive Power and Agility among Cricketers of State Level
Medico-Legal Update, 2020
Often cricket is stated as an aerobic sport however when broken down the game is played by the players performing at various speeds and intensities-jumping, sprinting, catching, diving, majority of the play is in intervals and the activity does not lasts for long periods of time (e.g.; batting, bowling, fielding, wicket keeping, making a run).Purpose of the study is to determine association between explosive power agility in state level cricket players. Previous studies have investigated physical performances with respect to injury incidence and prevention. In this study physical aspects such as power, agility and anaerobic fitness shall be considered. Also due to paucity of evidences and studies on this literature it is important to find an association between the explosive power, agility among cricket players of state level. Total 100 male state level cricketers from different cricket academies were included in the study. Subjects with age group of 16-23 were taken in the study. Screening and assessment protocol were followed to select participants. Performance tests were measured. Explosive power with vertical jump test, agility with run a 3 test. Result of study showed: 1. Correlation between explosive power and agility was-.305 ** and it was significant at .002. Present study concluded that explosive power is negatively correlated with agility.
Speed and agility as predictors of long jump performance of male athletes
The main purpose of this study was to predict the long jump performance on the basis of speed, agility, height and weight of male athletes. 46 male athletes were participated in present study (mean ± SD; 22.28 ± 1.3770 years). The selected athletes were measured of their speed by 50m dash sprint test (sec.), agility measured by 4 x 10m shuttle run test (sec.) and long jump performance measured by long jump (meter). Pearson product-moment correlations revealed a significant negative correlation of Long Jump performance with speed (r =-0.813, p < 0.05), Agility (r =-0.702, p < 0.05) and weight (r =-0.343, p < 0.05). Multiple correlations revealed that joint contribution of all independent variables to estimating Long Jump performance (R = .847, R 2 =.717), which impales that 71.7% of Long Jump Performance is obtained by these variables (Weight, Height, Agility and Speed). The regression analysis (enter method) outcomes proved that long jump performance can be determined by selected independent variables (F=25.933, p<0.05). Based on the result of present study suitable formula was determined [Long Jump performance = 5.356-.283 (Speed)-.102 (Agility) + .021 (Height)-.019 (Weight)]. It was concluded that the formula suggested in this study, can be used to determine the long jump performance of male athletes.