Author: Aaron Runner
Publisher:
ISBN:
Category : Hockey players
Languages : en
Pages : 76
Book Description
Predictors of Skating Speed Using Off-Ice Measures of College Ice Hockey Players
Author: Aaron Runner
Publisher:
ISBN:
Category : Hockey players
Languages : en
Pages : 76
Book Description
Publisher:
ISBN:
Category : Hockey players
Languages : en
Pages : 76
Book Description
Off-ice Plyometric Testing as Parameters for Predicting On-ice Skating Speed in Elite Level Hockey Players
Author:
Publisher:
ISBN:
Category : Plyometrics
Languages : en
Pages : 140
Book Description
Skating performance is one of the fundamental skills of a successful hockey player. It requires the acceleration of a large body of mass and the ability to repeatedly develop high power outputs. The purpose of this study was to determine the effectiveness of selected measures of off-ice performance (vertical jump, broad jump, 40-meter sprint) in their ability to predict the skating ability of elite level hockey players. Seventeen male NCAA Div.1 hockey players (age 22.06±1.35 yrs, medically cleared, with no medical or cardiovascular limitations, or musculoskeletal injuries) volunteered for this study. Both the broad jump and the 40-meter off-ice sprint held significant correlations with the 40-meter on-ice sprint, R2 = 0.31; r=-0.56 and R2 = 0.36; r=0.60, respectively. Statistical significance was set at p
Publisher:
ISBN:
Category : Plyometrics
Languages : en
Pages : 140
Book Description
Skating performance is one of the fundamental skills of a successful hockey player. It requires the acceleration of a large body of mass and the ability to repeatedly develop high power outputs. The purpose of this study was to determine the effectiveness of selected measures of off-ice performance (vertical jump, broad jump, 40-meter sprint) in their ability to predict the skating ability of elite level hockey players. Seventeen male NCAA Div.1 hockey players (age 22.06±1.35 yrs, medically cleared, with no medical or cardiovascular limitations, or musculoskeletal injuries) volunteered for this study. Both the broad jump and the 40-meter off-ice sprint held significant correlations with the 40-meter on-ice sprint, R2 = 0.31; r=-0.56 and R2 = 0.36; r=0.60, respectively. Statistical significance was set at p
Accumulated Oxygen Deficit as a Predictor of On-ice Hockey Skating Performance in College Players
Author: Jamie Jerdee
Publisher:
ISBN:
Category : Energy metabolism
Languages : en
Pages : 192
Book Description
Publisher:
ISBN:
Category : Energy metabolism
Languages : en
Pages : 192
Book Description
Validation of Ice Skating Protocol to Predict Aerobic Power in Hockey Players
Author: Nicholas J. Petrella
Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
Validation ofan Ice Skating Protocol to Predict Aerobic Power in Hockey Players In assessing the physiological capacity of ice hockey players, researchers have often reported the outcomes from different anaerobic skate tests, and the general physical fitness of participants. However, with respect to measuring the aerobic power of ice hockey players, few studies have reported a sport-specific protocol, and currently there is a lack of cohort-specific information describing aerobic power based on evaluations using an on-ice protocol. The Faught Aerobic Skating Test (FAST) uses an on-ice continuous skating protocol to induce a physical stress on a participant's aerobic energy system. The FAST incorporates the principle of increasing workloads at measured time intervals during a continuous skating exercise. Regression analysis was used to determine the estimate of aerobic power within gender and age level. Data were collected on 532 hockey players, (males=384, females=148) ranging in age between 9 and 25 years. Participants completed a laboratory test to measure aerobic power using a modified Bruce protocol, and the on-ice FAST. Regression equations were developed for six male and female, age-specific cohorts separately. The most consistent predictors were weight and final stage completed on the FAST. These results support the application of the FAST to estimate aerobic power among hockey players with R^ values ranging from 0.174 to 0.396 and SEE ranging from 5.65 to 8.58 ml kg' min'' depending on the cohort. Thus we conclude that FAST to be an accurate predictor of aerobic power in age and gender-specific hockey playing cohorts.
Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
Validation ofan Ice Skating Protocol to Predict Aerobic Power in Hockey Players In assessing the physiological capacity of ice hockey players, researchers have often reported the outcomes from different anaerobic skate tests, and the general physical fitness of participants. However, with respect to measuring the aerobic power of ice hockey players, few studies have reported a sport-specific protocol, and currently there is a lack of cohort-specific information describing aerobic power based on evaluations using an on-ice protocol. The Faught Aerobic Skating Test (FAST) uses an on-ice continuous skating protocol to induce a physical stress on a participant's aerobic energy system. The FAST incorporates the principle of increasing workloads at measured time intervals during a continuous skating exercise. Regression analysis was used to determine the estimate of aerobic power within gender and age level. Data were collected on 532 hockey players, (males=384, females=148) ranging in age between 9 and 25 years. Participants completed a laboratory test to measure aerobic power using a modified Bruce protocol, and the on-ice FAST. Regression equations were developed for six male and female, age-specific cohorts separately. The most consistent predictors were weight and final stage completed on the FAST. These results support the application of the FAST to estimate aerobic power among hockey players with R^ values ranging from 0.174 to 0.396 and SEE ranging from 5.65 to 8.58 ml kg' min'' depending on the cohort. Thus we conclude that FAST to be an accurate predictor of aerobic power in age and gender-specific hockey playing cohorts.
Physical Preparation for Ice Hockey
Author: Anthony Donskov
Publisher: AuthorHouse
ISBN: 1524651214
Category : Humor
Languages : en
Pages : 191
Book Description
This book was written for both hockey player and coach. Hockey has been a passion of mine since early childhood. I was born and raised in Canada and relocated to the United States in 1990. Hockey has been the fabric of our family tree. From youth hockey to having the opportunity to play at the minor professional level, I have enjoyed this great game and the life lessons it has instilled along the way. It was during my career in university where coaching became a passion. I loved the weight room, the preparation, and the process. It was, and still is, a place of solace for me—a classroom. My love for strength and conditioning was born in the sweaty confines of the Miami (OH) strength and conditioning facility located in Oxford, Ohio, and run by then strength and conditioning coach Dan Dalrymple. Coach D instilled pride, work ethic, and belief in his athletes. Our two-thousand-square foot weight room was a place of preparation, competition, and embodied the team-first spirit. At that instant, I knew my calling was to serve as a coach. I owe much gratitude and appreciation to Coach D. He was a mentor to me! Thanks, Coach, your imprint has left an indelible mark.
Publisher: AuthorHouse
ISBN: 1524651214
Category : Humor
Languages : en
Pages : 191
Book Description
This book was written for both hockey player and coach. Hockey has been a passion of mine since early childhood. I was born and raised in Canada and relocated to the United States in 1990. Hockey has been the fabric of our family tree. From youth hockey to having the opportunity to play at the minor professional level, I have enjoyed this great game and the life lessons it has instilled along the way. It was during my career in university where coaching became a passion. I loved the weight room, the preparation, and the process. It was, and still is, a place of solace for me—a classroom. My love for strength and conditioning was born in the sweaty confines of the Miami (OH) strength and conditioning facility located in Oxford, Ohio, and run by then strength and conditioning coach Dan Dalrymple. Coach D instilled pride, work ethic, and belief in his athletes. Our two-thousand-square foot weight room was a place of preparation, competition, and embodied the team-first spirit. At that instant, I knew my calling was to serve as a coach. I owe much gratitude and appreciation to Coach D. He was a mentor to me! Thanks, Coach, your imprint has left an indelible mark.
Relationships Between Psychological Attribute Information and Prediction of Ice Hockey Player Performance
Author: John Paul Hamre
Publisher:
ISBN:
Category : Hockey
Languages : en
Pages : 674
Book Description
Publisher:
ISBN:
Category : Hockey
Languages : en
Pages : 674
Book Description
Relationships Between Off-ice Performance Tests, Anthropometric Measures, and On-ice Acceleration Speed in Elite Women's Ice Hockey Players
Author: Shari D. Vogt
Publisher:
ISBN:
Category : Anthropometry
Languages : en
Pages : 122
Book Description
Publisher:
ISBN:
Category : Anthropometry
Languages : en
Pages : 122
Book Description
The Relationship Between the Vertical Jump and Ice Skating Speed of St. Cloud State University Hockey Players
Author: David James Morinville
Publisher:
ISBN:
Category : Hockey
Languages : en
Pages : 84
Book Description
Publisher:
ISBN:
Category : Hockey
Languages : en
Pages : 84
Book Description
The Gain, Go, Grow Manual
Author: Anthony Donskov
Publisher:
ISBN: 9781728343136
Category :
Languages : en
Pages : 166
Book Description
Physical Preparation for Ice Hockey was published in December of 2016 as a general programming guide for players and coaches alike working with the hockey playing population. The goal was to explain the "why" behind our process; the same process we use to train hockey players at Donskov Strength and Conditioning. With time comes change, and although Physical Preparation for Ice Hockey set out to explain the X's and O's of programming, several items were not covered in the original book. Most notably, the means, methods and current model we implement to train our high caliber hockey players. The goal of Physical Preparation for Ice Hockey II: The Gain, Go Grow Manual is to expand upon the first book and provide the reader with a unique insight into our current thought process for training high caliber hockey players. This book investigates critical thinking, the why behind program design, becoming a neo-generalist, creating a failure filter, navigating complex environments, maximizing adaptational gains, and the practical application of the Gain, Go, Grow model used to train high caliber hockey players. This manual is a culmination of my experiences as a practitioner for the last 15 years. It serves as a temporary hypothesis; a manual for the coach to aid in designing the appropriate strength and conditioning protocol for high caliber hockey players and most importantly, the reasoning behind it.
Publisher:
ISBN: 9781728343136
Category :
Languages : en
Pages : 166
Book Description
Physical Preparation for Ice Hockey was published in December of 2016 as a general programming guide for players and coaches alike working with the hockey playing population. The goal was to explain the "why" behind our process; the same process we use to train hockey players at Donskov Strength and Conditioning. With time comes change, and although Physical Preparation for Ice Hockey set out to explain the X's and O's of programming, several items were not covered in the original book. Most notably, the means, methods and current model we implement to train our high caliber hockey players. The goal of Physical Preparation for Ice Hockey II: The Gain, Go Grow Manual is to expand upon the first book and provide the reader with a unique insight into our current thought process for training high caliber hockey players. This book investigates critical thinking, the why behind program design, becoming a neo-generalist, creating a failure filter, navigating complex environments, maximizing adaptational gains, and the practical application of the Gain, Go, Grow model used to train high caliber hockey players. This manual is a culmination of my experiences as a practitioner for the last 15 years. It serves as a temporary hypothesis; a manual for the coach to aid in designing the appropriate strength and conditioning protocol for high caliber hockey players and most importantly, the reasoning behind it.
Ice Hockey Skating Mechanics
Author: Aleksandra Budarick
Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
"The purpose of this study was to compare kinematic profiles of elite male and female ice hockey players skating at maximal speed on the ice surface. An eighteen-camera 3D motion capture system was placed on the ice surface to record the trajectory of the body's centre of mass (COM) from a standing start to maximal speed. Skating kinematics were recorded during the initial acceleration and maximal skating strides over a 34 m corridor. In general, the results showed that males and females exhibit similar whole-body movement patterns from start to maximum speed; however, sex-specific differences in terms of velocity progression, as well as hip and knee joint angles were evident. In particular, males demonstrated greater net positive acceleration during the initial accelerative steps, and greater hip abduction and knee flexion from ice contact to push off. Both males and females exhibited a similar "knee extension plateau" phenomenon, in which a temporary cessation of knee extension occurs at ice contact, but females exhibited this phenomenon to a greater extent. This information may have some relation to lower body injuries' etiology, and may justify the creation of sex-specific training protocols, equipment (e.g. skate) designs, or rehabilitation techniques by showing that skating mechanics differ between the sexes, even at an elite level." --
Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
"The purpose of this study was to compare kinematic profiles of elite male and female ice hockey players skating at maximal speed on the ice surface. An eighteen-camera 3D motion capture system was placed on the ice surface to record the trajectory of the body's centre of mass (COM) from a standing start to maximal speed. Skating kinematics were recorded during the initial acceleration and maximal skating strides over a 34 m corridor. In general, the results showed that males and females exhibit similar whole-body movement patterns from start to maximum speed; however, sex-specific differences in terms of velocity progression, as well as hip and knee joint angles were evident. In particular, males demonstrated greater net positive acceleration during the initial accelerative steps, and greater hip abduction and knee flexion from ice contact to push off. Both males and females exhibited a similar "knee extension plateau" phenomenon, in which a temporary cessation of knee extension occurs at ice contact, but females exhibited this phenomenon to a greater extent. This information may have some relation to lower body injuries' etiology, and may justify the creation of sex-specific training protocols, equipment (e.g. skate) designs, or rehabilitation techniques by showing that skating mechanics differ between the sexes, even at an elite level." --