Vliv rozcvičení na sílu úderu / Acute effect of warm-up on the force of a punch

Rudolf, Jan

January 2020

Title: Acute effect of a warm-up on the force of a punch Objectives: The aim of this diploma thesis is to test whether a warm-up before a performance affects the force of a punch at a sample participants practicing full-contact combat sports. Further goal is to analyze a change in the force of a punch depending on elapsed time after warming up. Methods: Each participant in this experimental study with intra-subject design went through all phases of the measurement, where the force of a punch was tested in four specified times (before a warm-up and then 4, 10 and 25 minutes after the warm-up). Results: No statistically significant effect of a warm-up on the force of a punch was observed, nor was there a statistically significant change in the force of a punch during the time following a warm-up. However, a warm-up did have a significant effect on change in heart rate and body temperature. Keywords: Combat sports, performance, fight, dynamic stretching, explosive power, punch sensor

Ovlivnění rychlosti střelby ve fotbale / Influencing Shooting Speed in Football

Čáp, Ondřej

January 2020

Title: Influencing the shooting speed in football Objectives: The aim of my thesis was to record, evaluate changes and verify the effectiveness of the implemented intervention during the reference period in the development of shooting speed together with a rebound ability in a long jump in a football team which is operating in the 5th highest football competition in Germany. Methods: Quantitative research was carried out in the form of motor testing of a football team from a selected foreign football league during the autumn part of the competition. Two tests were selected to determine the development of the explosive force of the lower limbs. It was a specific test of the explosive force of the lower limbs - a kick from a one-step rhythm and a test of the general explosive force of lower limbs - jump. It was a so-called cross over study. Team was divided in two groups, where group A was doing implemented intervention in a different part of reference period than group B. Results: Based on the analysis of descriptive statistics, there was an increase in the statistics in the long jump and a decrease in the statistics in both monitored groups, while group A has the observations with the greatest improvement, but in the group B can be seen mostly an improvement across the whole group. For the second...

Vliv zimního přípravného období na explozivní sílu u amatérských fotbalistů / The effect of the winter preparation period torwards the explosive power in amateur football players

Bébr, Milan

January 2021

Title The effect of the winter preparation period torwards the explosive power in amateur football players Objectives To find out what efect has preparation period on explosive power of lower limbs at football players of the regional championship level. Methods Quantitative research was held as a motorical testing of football team Sokol Kolovraty (n = 20) during winter preparation period. To determine the development of explosive power of the lower limbs was selected 5 motoric tests: High jump from the spot, Four jump from foot to foot, Long jump from the spot, Triple jump on the left (right) leg, Deep forward bend in standing position. This study was so-called "cross over" study, or as crossover study in which the team was divided by randomization info two groups, group A and a group B. The first half of the study (4 weeks) the group A performer strength intervention and the group B a different running intervention. In the middle of the research, after control measurements, the group exchanged their intervetnions. Results Based on the Mix-design ANOVA I can state the results showed the statistical significance of strength intervention compared to running intervention without strength exercise. In all test fot the explosive power of the lowe limbs the positive changes occurred during the strength...

Vliv tonizace v rozcvičení na výkon u florbalistů / Effect of toning in warm-up on performance of floorball players

Králíčková, Kateřina

January 2019

Title: Effect of toning in warm-up on performance of floorball players Objectives: Find out the influence of toning in warm-up before performance in exercises aimed at determining the action speed, explosive power of legs and agility of floorball players. Methods: A total of 20 floorball player aged 17 - 27 years participated in two measurements, one week apart. On the test day each proband passed one of two types of warm-up, non-toning warm-up and toning warm-up, and the next test day passed the second type of warm-up. The warm-up was follwed by three tests, the 20 m run, the jump from place and the shuttle run. For analysis of results was used statistics methods. Results: The first hypothesis was confirmed for the group of probands aged 17-19 years in the overall performance, 10 m run, 20 m run and jump from place. The second hypothesis was confirmed in the overall performance for all probands, then for the group of probands aged 17-19 years and for the group of probands aged 20-24 years. The second hypothesis was confirmed in the 10 and 20 m run for all probands, in the 10 m, 20 m run and in the jump from the place for the group of probands aged 17-19 years, in the 10 and 20 m run for group of probands aged 20-24 years. According to Cohen's d the results of the 10 and 20 m run were the most...

Selected anthropometric, physical and motor performance predictors of lower body explosive power in adolescents : the PAHL study / Koert Nicolaas van der Walt

Van der Walt, Koert Nicolaas

January 2014

Lower body explosive power (LBEP) forms a critical component in any individual and team sport performance and it is therefore essential to develop a means of predicting LBEP in adolescents for early identification of future talent in various sporting codes. LBEP is frequently used by athletes during matches or competitions where explosive movements such as jumping, agility running and sprinting are required for successful performance. These movements are usually found in individual sports such as long jump and high jump as well as in team sports such as basketball, volleyball and soccer. To date not much literature is available on LBEP, especially with regard to LBEP prediction models. Furthermore, studies on adolescents are scarce and a LBEP prediction model has not yet been developed for a South African adolescent population. It is against this background that the objectives of this study were firstly, to develop a LBEP prediction model from various physical and motor performance components among a cohort of adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa; and secondly, to develop a LBEP prediction model from several anthropometric measurements among a cohort of male and female adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa. Two hundred and fourteen (15.8±0.68 years) 15-year-old adolescents (126 females, 88 males) from 6 surrounding schools within the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province of South Africa were purposefully selected from pre-acquired class lists took part in the study. Data was collected by means of various questionnaires as well as anthropometrical, physical and motor performance tests. For representation of LBEP a principal component factor analysis was done and the results indicated that the vertical jump test (VJT) was the best indicator of LBEP in the cohort of adolescents. With regard to the anthropometrical related LBEP prediction model, the forward stepwise regression analysis yielded a correlation coefficient of R2 = 0.69. The following variables contributed significantly (p≤0.001) to the anthropometrical LBEP prediction model: stature (57%), muscle mass percentage (10%) and maturity age (3%). The LBEP prediction model that was developed equated to LBEP (vertical jump) = -136.30 + 0.84(stature) + 0.7(muscle mass percentage) + 4.6(maturity age). Variables other than the variables that formed part of the study could explain the further 31% variance in the LBEP of the adolescents. The physical and motor performance LBEP prediction model indicated that gender (39%) and 10 m speed (7%) contributed significantly (p ≤ 0.001) to the overall prediction of the LBEP of the adolescents. The LBEP prediction model delivered a stepwise forward regression analysis coefficient of R2=0.458 and a prediction formula LBEP = 68.21 + 9.82 (gender) – 18.33(10 m speed). The remaining 56% of the variance in the results could be explained by other factors than the variables considered in the study. In conclusion, to the best of the researchers’ knowledge, this is the first study which has made an attempt at developing LBEP prediction models from the anthropometrical, physical and motor performance components of a cohort of adolescents of South Africa. The prediction models developed in the study will assist teachers sport scientists and sporting coaches who have limited resources available, to measure and calculate LBEP in adolescents, with the means to do so in South Africa. Further high quality studies are necessary to further improve and develop such prediction models for various age groups of adolescents in the greater South Africa. / MSc (Sport Science), North-West University, Potchefstroom Campus, 2014

Adolescent

Anaerobic power

Anthropometry

Explosive power

Horizontal jump

Motor and physical performance

Prediction model

Sprint

Standing broad jump test

Vertical jump

Adolessent

Anaerobiese krag

Antropometriese

Eksplosiewe krag

Horisontale sprong

Motor- en fisiese prestasie

Voorspellingsmodel

Naelloop

Staande breësprong-toets

Vertikale sprong

Selected anthropometric, physical and motor performance predictors of lower body explosive power in adolescents : the PAHL study / Koert Nicolaas van der Walt

Van der Walt, Koert Nicolaas

January 2014

Lower body explosive power (LBEP) forms a critical component in any individual and team sport performance and it is therefore essential to develop a means of predicting LBEP in adolescents for early identification of future talent in various sporting codes. LBEP is frequently used by athletes during matches or competitions where explosive movements such as jumping, agility running and sprinting are required for successful performance. These movements are usually found in individual sports such as long jump and high jump as well as in team sports such as basketball, volleyball and soccer. To date not much literature is available on LBEP, especially with regard to LBEP prediction models. Furthermore, studies on adolescents are scarce and a LBEP prediction model has not yet been developed for a South African adolescent population. It is against this background that the objectives of this study were firstly, to develop a LBEP prediction model from various physical and motor performance components among a cohort of adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa; and secondly, to develop a LBEP prediction model from several anthropometric measurements among a cohort of male and female adolescents living in the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province, South Africa. Two hundred and fourteen (15.8±0.68 years) 15-year-old adolescents (126 females, 88 males) from 6 surrounding schools within the Tlokwe local municipality of Dr Kenneth Kaunda district in the North-West Province of South Africa were purposefully selected from pre-acquired class lists took part in the study. Data was collected by means of various questionnaires as well as anthropometrical, physical and motor performance tests. For representation of LBEP a principal component factor analysis was done and the results indicated that the vertical jump test (VJT) was the best indicator of LBEP in the cohort of adolescents. With regard to the anthropometrical related LBEP prediction model, the forward stepwise regression analysis yielded a correlation coefficient of R2 = 0.69. The following variables contributed significantly (p≤0.001) to the anthropometrical LBEP prediction model: stature (57%), muscle mass percentage (10%) and maturity age (3%). The LBEP prediction model that was developed equated to LBEP (vertical jump) = -136.30 + 0.84(stature) + 0.7(muscle mass percentage) + 4.6(maturity age). Variables other than the variables that formed part of the study could explain the further 31% variance in the LBEP of the adolescents. The physical and motor performance LBEP prediction model indicated that gender (39%) and 10 m speed (7%) contributed significantly (p ≤ 0.001) to the overall prediction of the LBEP of the adolescents. The LBEP prediction model delivered a stepwise forward regression analysis coefficient of R2=0.458 and a prediction formula LBEP = 68.21 + 9.82 (gender) – 18.33(10 m speed). The remaining 56% of the variance in the results could be explained by other factors than the variables considered in the study. In conclusion, to the best of the researchers’ knowledge, this is the first study which has made an attempt at developing LBEP prediction models from the anthropometrical, physical and motor performance components of a cohort of adolescents of South Africa. The prediction models developed in the study will assist teachers sport scientists and sporting coaches who have limited resources available, to measure and calculate LBEP in adolescents, with the means to do so in South Africa. Further high quality studies are necessary to further improve and develop such prediction models for various age groups of adolescents in the greater South Africa. / MSc (Sport Science), North-West University, Potchefstroom Campus, 2014

Adolescent

Anaerobic power

Anthropometry

Explosive power

Horizontal jump

Motor and physical performance

Prediction model

Sprint

Standing broad jump test

Vertical jump

Adolessent

Anaerobiese krag

Antropometriese

Eksplosiewe krag

Horisontale sprong

Motor- en fisiese prestasie

Voorspellingsmodel

Naelloop

Staande breësprong-toets

Vertikale sprong

Sportspesifieke inoefening en antropometriese, fisieke en motoriese vereistes van 15– tot 17–jaar oue vroulike netbalspelers / Y. Willemse

Willemse, Yolandi

January 2010

In the light of the facts given in literature it is evident that players in the game of netball need to meet specific anthropometric (body length, body mass, percentage body fat and percentage muscle mass), physical (pliancy, abdominal power, aerobic endurance and anaerobic endurance) and motor (speed over 5 m and 10 m, agility and explosive power) requirements. This consequently necessitates specific attention to be given to the mentioned requirements. In spite of the fact that a few studies do exist that enter into the requirements of the profile of netball players in different positions, as well as into what the effect of a periodization programme is on anthropometric, physical and motor requirements, voids do exist regarding the positional profile of 15 to 17 year old netball players and as to what the effect is of a sport specific periodization programme in the course of a season on 15 to 17 year old netball players. In the light of the above–mentioned, this study was undertaken with the aim to: 1) Determine the requirements for 15 to 17 year old netball players; 2) Compile positional profile scales of netball specific requirement for 15 to 17 year old players in the Tlokwe region; 3) Establish the effect of a sport specific periodization programme on anthropometric, physical and motor requirements for 15 to 17 year old female netball players, of a specific school in the Tlokwe region, in the course of a season. 96 players (28 goalkeepers, 44 centre court players and 24 defenders) between ages 15 and 17 years from two high schools in the North–West Province were used in the study to determine positional differences. A group of only 22 player of one school was exposed to a sport specific periodization programme for purposes of the study, since the coach and players from only one school’s teams were prepared to participate in the sport scientific intervention programme for the full duration of the netball season. The afore–mentioned group was evaluated over a period of two years, namely prior to the start of the season (T1), after conclusion of the season once the sport specific periodization programme was completed (T2), prior to the start of the season in the subsequent year (T3) and after conclusion of the season without the sport specific being followed. The data is processed on the basis of descriptive statistics. Furthermore, the practical significance of test result changes between the respective groups and different test sessions were compared using Cohen’s effect size. Literature was consulted to determine whether specific requirements exist for netball players and whether differences occur in the three positional groups. However, no literature could be traced in which only netball specific requirements for 15 to 17 year old players were focused on. The literature did indeed point out clear anthropometric differences between the three positional groups, namely attacking, centre court and defence players in club and elite netball players. The goalkeeper and defence players are, according to literature, considerably taller and heavier than the centre court players. Literature also indicated that differences do indeed occur regarding physical and motor requirements. Centre court players are significantly faster and more agile than the goalkeeper and defenders. However, there were components of which the differences were not prominent concerning the three positional groups. Where a specific positional profile of anthropometric, physical and motor requirements for 15 to 17 year old female netball players was composed from available data of players in the North–West Province, Tlokwe region, the results of the anthropometric requirements indicated that body length showed a large significant difference between the three positional groups, with defenders being the tallest, followed by goalkeepers, and the centre court players being the shortest. Body mass also showed a medium significant difference between goalkeepers and centre court players as well as between centre court players and defence players. Goalkeepers were heavier than centre court players, and defenders also showed a higher body mass than centre court players. The other two variables, namely percentage fat and percentage muscle mass, only showed small practically significant differences, in this group of netball players, between the test sessions. With the physical and motor requirements, results indicated that large practically significant differences occurred in vertical jumping, 5 m speed, 10 m speed and agility between the groups. The general trend observed in the profiles was that the largest significant differences occurred between goalkeepers and defence players on the one hand and centre court players on the other. Vertical jump and speed showed a large significant difference between goalkeepers and centre court players as well as between centre court players and defenders, although the goalkeepers and defenders’ results corresponded considerably. Other large significant differences occurred in the 10 m speed as well as in 505–agility to the left between centre court players and defenders. In summary it can be mentioned that the most and the largest significant differences occurred between goalkeepers and centre court players as well as between defenders and centre court players. Only one medium significant difference occurred between the goalkeepers and defenders, which is ankle dorsiflexion and which can be ascribed to injuries. From this it can be inferred that a positional profile can indeed be compiled for the different positional groups in netball, but that the requirements of positional variables between goalkeepers and defenders correspond largely and that the large difference between the last–mentioned two groups occur when compared with those of the centre court players of this specific group. The results of the group of twenty–two players that were evaluated twice during the course of both netball seasons indicate that the variable that showed a large significant difference between T1 and T2, following the sport specific periodization program, was body mass (inverted difference). Although there was no large significant difference, it can clearly be deduced from the graphs presented in the study that a visible difference (improvement) was observed in most of the variables. The variables that showed a large practically significant difference with the training of the coach’s general programme, were ankle dorsiflexion on the left, abdominal power and 5 m speed (inverted effect). A number of variables indeed existed that also showed medium and small significant differences during the course of both seasons, but it will not be mentioned here. A number of shortcomings and recommendations did indeed come to the fore during and after the course of the study. It should, however, be borne in mind that such a structured periodization programme is very important for the development of netball potential. / Thesis (Ph.D. (Human Movement Science))--North-West University, Potchefstroom Campus, 2011.

Netball

Basketball

Ball sports codes

Anthropometric

Fat percentage

Muscle mass percentage

Physical components

Motor components pliancy

Speed

Agility

Power

Explosive power

Periodization programme

Netbal

Basketbal

Balsportsoorte

Antropometrie

Persentasie vet

Persentasie spiermassa

Fisieke komponente

Motoriese komponente soepelheid

Spoed

Ratsheid

Krag

Eksplosiewe krag

Periodiseringsprogram

Sportspesifieke inoefening en antropometriese, fisieke en motoriese vereistes van 15– tot 17–jaar oue vroulike netbalspelers / Y. Willemse

Willemse, Yolandi

January 2010

In the light of the facts given in literature it is evident that players in the game of netball need to meet specific anthropometric (body length, body mass, percentage body fat and percentage muscle mass), physical (pliancy, abdominal power, aerobic endurance and anaerobic endurance) and motor (speed over 5 m and 10 m, agility and explosive power) requirements. This consequently necessitates specific attention to be given to the mentioned requirements. In spite of the fact that a few studies do exist that enter into the requirements of the profile of netball players in different positions, as well as into what the effect of a periodization programme is on anthropometric, physical and motor requirements, voids do exist regarding the positional profile of 15 to 17 year old netball players and as to what the effect is of a sport specific periodization programme in the course of a season on 15 to 17 year old netball players. In the light of the above–mentioned, this study was undertaken with the aim to: 1) Determine the requirements for 15 to 17 year old netball players; 2) Compile positional profile scales of netball specific requirement for 15 to 17 year old players in the Tlokwe region; 3) Establish the effect of a sport specific periodization programme on anthropometric, physical and motor requirements for 15 to 17 year old female netball players, of a specific school in the Tlokwe region, in the course of a season. 96 players (28 goalkeepers, 44 centre court players and 24 defenders) between ages 15 and 17 years from two high schools in the North–West Province were used in the study to determine positional differences. A group of only 22 player of one school was exposed to a sport specific periodization programme for purposes of the study, since the coach and players from only one school’s teams were prepared to participate in the sport scientific intervention programme for the full duration of the netball season. The afore–mentioned group was evaluated over a period of two years, namely prior to the start of the season (T1), after conclusion of the season once the sport specific periodization programme was completed (T2), prior to the start of the season in the subsequent year (T3) and after conclusion of the season without the sport specific being followed. The data is processed on the basis of descriptive statistics. Furthermore, the practical significance of test result changes between the respective groups and different test sessions were compared using Cohen’s effect size. Literature was consulted to determine whether specific requirements exist for netball players and whether differences occur in the three positional groups. However, no literature could be traced in which only netball specific requirements for 15 to 17 year old players were focused on. The literature did indeed point out clear anthropometric differences between the three positional groups, namely attacking, centre court and defence players in club and elite netball players. The goalkeeper and defence players are, according to literature, considerably taller and heavier than the centre court players. Literature also indicated that differences do indeed occur regarding physical and motor requirements. Centre court players are significantly faster and more agile than the goalkeeper and defenders. However, there were components of which the differences were not prominent concerning the three positional groups. Where a specific positional profile of anthropometric, physical and motor requirements for 15 to 17 year old female netball players was composed from available data of players in the North–West Province, Tlokwe region, the results of the anthropometric requirements indicated that body length showed a large significant difference between the three positional groups, with defenders being the tallest, followed by goalkeepers, and the centre court players being the shortest. Body mass also showed a medium significant difference between goalkeepers and centre court players as well as between centre court players and defence players. Goalkeepers were heavier than centre court players, and defenders also showed a higher body mass than centre court players. The other two variables, namely percentage fat and percentage muscle mass, only showed small practically significant differences, in this group of netball players, between the test sessions. With the physical and motor requirements, results indicated that large practically significant differences occurred in vertical jumping, 5 m speed, 10 m speed and agility between the groups. The general trend observed in the profiles was that the largest significant differences occurred between goalkeepers and defence players on the one hand and centre court players on the other. Vertical jump and speed showed a large significant difference between goalkeepers and centre court players as well as between centre court players and defenders, although the goalkeepers and defenders’ results corresponded considerably. Other large significant differences occurred in the 10 m speed as well as in 505–agility to the left between centre court players and defenders. In summary it can be mentioned that the most and the largest significant differences occurred between goalkeepers and centre court players as well as between defenders and centre court players. Only one medium significant difference occurred between the goalkeepers and defenders, which is ankle dorsiflexion and which can be ascribed to injuries. From this it can be inferred that a positional profile can indeed be compiled for the different positional groups in netball, but that the requirements of positional variables between goalkeepers and defenders correspond largely and that the large difference between the last–mentioned two groups occur when compared with those of the centre court players of this specific group. The results of the group of twenty–two players that were evaluated twice during the course of both netball seasons indicate that the variable that showed a large significant difference between T1 and T2, following the sport specific periodization program, was body mass (inverted difference). Although there was no large significant difference, it can clearly be deduced from the graphs presented in the study that a visible difference (improvement) was observed in most of the variables. The variables that showed a large practically significant difference with the training of the coach’s general programme, were ankle dorsiflexion on the left, abdominal power and 5 m speed (inverted effect). A number of variables indeed existed that also showed medium and small significant differences during the course of both seasons, but it will not be mentioned here. A number of shortcomings and recommendations did indeed come to the fore during and after the course of the study. It should, however, be borne in mind that such a structured periodization programme is very important for the development of netball potential. / Thesis (Ph.D. (Human Movement Science))--North-West University, Potchefstroom Campus, 2011.

Netball

Basketball

Ball sports codes

Anthropometric

Fat percentage

Muscle mass percentage

Physical components

Motor components pliancy

Speed

Agility

Power

Explosive power

Periodization programme

Netbal

Basketbal

Balsportsoorte

Antropometrie

Persentasie vet

Persentasie spiermassa

Fisieke komponente

Motoriese komponente soepelheid

Spoed

Ratsheid

Krag

Eksplosiewe krag

Periodiseringsprogram