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Presents a comprehensive study of the technology behind the sport of tennis and contains diagrams and graphs to give a visual understanding of the physics involved in such things as the flight and bounce of the ball.
Science and technology have contributed immensely to the establishment of tennis as one of the world's major sports. The science involved is interdisciplinary, encompassing design, engineering, physics, sports science, biomechanics and many other areas. This book brings together a selection of international papers collated by the International Tennis Federation Technical Department. The papers come from a variety of sources including manufacturers, universities, national ruling bodies and the International Tennis Federation. Four main themes - equipment, sports science, facilities and the game itself - are covered, representing work carried out in over 20 countries. The themes dealt with are diverse and comprehensive, ranging from the construction of a championship grass court to the technical intricacies of the aerodynamics of tennis balls. The role of the player is also considered making this an important book for all those involved in the game of tennis, from researchers to coaches and players.
Plagued hackers and experts alike. This informative primer will help turn hours of mindless practice into a focused application of principles affecting the impact, bounce, and flight of the ball.
If you have watched a Grand Slam tennis tournament in the past decade, you are probably aware that the game is dominated by just a few international powerhouses. At the conclusion of each tournament, it is likely that you will see Serena Williams atop the women’s podium and a member of the Big Four—Roger Federer, Rafael Nadal, Novak Djokovic, and Andy Murray—hoisting the trophy for the men. And while there is not a lot of variety in the outcome of these matches, the game of tennis itself has changed drastically over the decades, as developments in technology and conditioning regimens, among other factors, have altered the style of play. Underpinning many of these developments is science, and this book explains the scientific wonders that take the ball from racket to racket and back again. Each chapter explores a different facet of the game—learning, technique, game analysis, the mental edge, physical development, nutrition for performance and recovery, staying healthy, and equipment—and is organized around a series of questions. How do we learn the ins and outs of hitting the ball in and not out? What are the main technological developments and software programs that can be used to assist in performance and notational analysis in tennis? What role does sports psychology play in developing a tennis player? What is the role of fluid replacement for the recreational, junior, and professional player? What rule changes have been made with respect to the racket, ball, and ball-court interaction to maintain the integrity of the game in the face of technological change? Each question is examined with the aid of explanatory diagrams and illustrations, and the book can be used to search for particular topics, or read straight through for a comprehensive overview of how player and equipment work together. Whether you prefer the grass courts of Wimbledon, the clay courts of the French Open, or the hard courts of the US and Australian Opens, Tennis Science is a must-have for anyone interested in the science behind a winning game.
How does your opponent put that tricky spin on the ball? Why are some serves easier to return than others? The mysteries behind the winning strokes, equipment, and surfaces of the game of tennis are accessibly explained by Howard Brody through the laws of physics. And he gives practical pointers to ways players can use this understanding to advantage in the game. Through extensive laboratory testing and computer modeling, Brody has investigated the physics behind the shape of the tennis racket, the string pattern, the bounce of the tennis ball, the ways a particular court surface can determine the speed of the game, and the many other physical factors involved in tennis.
Why does a football spiral? How do some athletes jump so high? The answer is science! The Secret Science of Sports helps kids better understand concepts of science, technology, engineering, and math through the sports they love to play and watch. Every sport -- from baseball to basketball, to football and soccer, to wrestling, tennis, and lacrosse -- involves a bit of science, technology, engineering, and math. You can't throw a ball without Newton's Law of Motion, and you can't calculate a player's stats without math. And every type of sports equipment -- a helmet, cleats, shoulder or knee pads -- were designed with the latest engineering and technology. The Secret Science of Sports breaks down normally difficult STEM concepts like forces of motion, gravity, algebra, and even neuroscience, in a language kids can -- and will want to -- understand. Divided into sections like chemistry, biology, physics, technology, and more, this handy guide uses examples from sports like soccer, baseball, softball, football, hockey, lacrosse, tennis, and others to explain important STEM concepts for kids ages 8 to 12. They'll learn how to use math to calculate a batter's average, why a tennis racket is shaped the way it is, how biology affects athletic performance, the aerodynamics behind competitive swimsuits, and much more. With dozens of original, captivating illustrations to engage young readers, kids will have fun while learning about key STEM ideas that will prepare them for years of schooling to come.
From the author of Infinite Jest and Consider the Lobster: a collection of five brilliant essays on tennis, from the author's own experience as a junior player to his celebrated profile of Roger Federer at the peak of his powers. A "long-time rabid fan of tennis," and a regionally ranked tennis player in his youth, David Foster Wallace wrote about the game like no one else. On Tennis presents David Foster Wallace's five essays on the sport, published between 1990 and 2006, and hailed as some of the greatest and most innovative sports writing of our time. This lively and entertaining collection begins with Wallace's own experience as a prodigious tennis player ("Derivative Sport in Tornado Alley"). He also challenges the sports memoir genre ("How Tracy Austen Broke My Heart"), takes us to the US Open ("Democracy and Commerce at the U.S. Open"), and profiles of two of the world's greatest tennis players ("Tennis Player Michael Joyce's Professional Artistry as a Paradigm of Certain Stuff About Choice, Freedom, Limitation, Joy, Grotesquerie, and Human Completeness" and "Federer Both Flesh and Not"). With infectious enthusiasm and enormous heart, Wallace's writing shows us the beauty, complexity, and brilliance of the game he loved best.
Plagued hackers and experts alike. This informative primer will help turn hours of mindless practice into a focused application of principles affecting the impact, bounce, and flight of the ball.
How can we predict the trajectory of a baseball from bat to outfield? How do the dimples in a golf ball influence its flight from tee to pin? What forces determine the path of a soccer ball steered over a defensive wall by an elite player? An understanding of the physical processes involved in throwing, hitting, firing and releasing sporting projectiles is essential for a full understanding of the science that underpins sport. This is the first book to comprehensively examine those processes and to explain the factors governing the trajectories of sporting projectiles once they are set in motion. From a serve in tennis to the flight of a ’human projectile’ over a high jump bar, this book explains the universal physical and mathematical principles governing movement in sport, and then shows how those principles are applied in specific sporting contexts. Divided into two sections, addressing theory and application respectively, the book explores key concepts such as: friction, spin, drag, impact and bounce computer and mathematical modelling variable sensitivity the design of sports equipment materials science. Richly illustrated throughout, and containing a wealth of research data as well as worked equations and examples, this book is essential reading for all serious students of sports biomechanics, sports engineering, sports technology, sports equipment design and sports performance analysis.
Advantage play. noun. legal methods used to gain an advantage, in contrast to cheating.Advantage Play tells the dramatic stories of thirteen technological breakthroughs in two thousand years of sporting history used to gain an advantage in sport. Novel materials are never far away: rubber for rugby and tennis balls, carbon fibre for bikes and prosthetics, polyurethane for swimsuits. Breakthroughs crop up throughout history, not just for modern football boots but for the javelin of the ancient Greeks and even the original starting line at Olympia. Our obsession with sporting data is not new although our methods of collecting it is: phones, sensors and monitors. And the biggest placebo of them all helps us buy this equipment and perform better - advertising.Together, these breakthroughs reveal that the way we design sports equipment has always been much the same. Rather than being a new thing, sports technology is actually as old as civilisation.Where will it all end? All current track and field events at the modern Olympic Games will reach their limit within a generation. With his 30 years as a sports engineer, Steve Haake shows that in a world where top performances are static, where we've found all the best athletes and deployed the best coaching methods, the one thing that might distinguish the winners from the losers is new technology.