This book teaches players and coaches how to understand momentum, affect it, control it and use it to their advantage by exploring match patterns, tactics and player and coach psychology.
Explains how the laws of science, especially physics, are at work in the game of soccer. Contains real-world examples and suggestions as to how readers can apply this information to real-world situations.
Readers will get a kick out of science and have fun using soccer balls to learn about angles, momentum, rebound ratings, and more while enjoying a favorite sport of soccer. There are lots of physics concepts involved in the sport of soccer. Great ideas for science fair projects are included.
For the first time ever, science gives us the answers to questions like "what's the chance of a team that wins the League or Premiership also winning the Cup? Can you predict how many goals will be scored? What's the best height for footballers? Is the winning team the best team?" The Science of Soccer is a fascinating book, dealing with a wide ran
Written with both coaches and players in mind, this volume offers a comprehensive overview of the skills and knowledge a goalkeeper needs to succeed. Goalkeeper Training is filled with proven training exercises accompanied by easy-to-follow illustrations that will help players and coaches of all levels improve their technique and learn new skills.
Manchester United’s Tony Strudwick leads an all-star panel in providing the most current research on soccer. Soccer Science features the world’s leading experts in soccer history, biomechanics, physiology, psychology, skill acquisition, coaching, tactical approaches, and performance and match analysis.
Now in a fully revised and updated fourth edition, Science and Soccer is still the most comprehensive and accessible introduction to the physiology, biomechanics and psychology behind the world's most popular sport. Offering important guidance on how science translates into practice, the book examines every key facet of the sport, with a particular focus on the development of expert performers. The topics covered include: • anatomy, physiology, psychology; sociology and biomechanics; • principles of training; • nutrition; • physical and mental preparation; • playing surfaces and equipment; injury • decision-making and skill acquisition; • coaching and coach education; • performance analysis; • talent identification and youth development. Science and Soccer: Developing Elite Performers is a unique resource for students and academics working in sports science. It is essential reading for all professional support staff working in the game, including coaches at all levels, physiotherapists, conditioning specialists, performance analysts, club doctors and sport psychologists.
Updated and revised throughout, this new edition of The Science of Soccer applies scientific analysis to football, giving us the answers to questions like "what's the chance of a team that wins the Premiership also winning the Cup? Can you predict how many goals will be scored? What's the best height for footballers? Is the team that wins the league the best team?" Starting with a qualitative description of the basic physics that relate to the ball and its bounce, the author then moves through kicks and throws, to a simple account of the more complex physics of a ball in flight. Fulfilling your scientific curiosity, this book uncovers aspects of the game that are not normally discussed. It includes a look at game theory, how the rules affect the flow and enjoyment of the game, unusual statistics about players, and an insight into the economics of the game. For those with a more mathematical interest in the physics, the final chapter provides a readable account of the theory behind the beautiful game. Features: Accessible to anyone interested in understanding more about the science behind the sport Updated throughout, with new content on transfer fees, wages, and the top goal-scorers Discusses topics not explored in current literature, including rudimentary game theory