Author: Michael Lisa
Publisher: McGraw-Hill Higher Education
ISBN: 0077801881
Category : Science
Languages : en
Pages : 403

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Author: Alain Haché
Publisher: JHU Press
ISBN: 9780801870712
Category : Science
Languages : en
Pages : 208

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Book Description
Physicist and amateur hockey player Hache examines some of the physical principles behind the world's most popular winter team sport. Illustrations.

Author: Wendy H. Lanier
Publisher: ABDO
ISBN: 1680776614
Category : Juvenile Nonfiction
Languages : en
Pages : 51

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Book Description
What makes the best athletes excel? The Science of Sportsexamines how athletes master techniques that are rooted in the laws of physics, chemistry, and psychology in order to become the best. Easy-to-read text and vivid images bring this subject to life. Features include a table of contents, fast facts, a glossary, additional resources, and an index. Aligned to Common Core Standards and correlated to state standards. Essential Library is an imprint of Abdo Publishing, a division of ABDO.

Author: Mark Denny
Publisher: Johns Hopkins University Press
ISBN: 9781421402147
Category : Science
Languages : en
Pages : 0

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Book Description
As anyone from cold climates knows, living with lots of ice and snow can lead to a special appreciation of sports such as skiing, sledding, and skating. Prolific physics popularizer Mark Denny’s take on winter athletics lays out the physical principles that govern glaciated game play. After discussing the physical properties of ice and snow and describing the physics behind sliding friction and aerodynamic drag, Denny applies these concepts to such sports as bobsledding, snowboarding, and curling. He explains why clap skates would only hinder hockey players, how a curling rock curls, the forces that control luge speed, and how steering differs from skiing to snowboarding. With characteristic accuracy and a touch of wit, Denny provides fans, competitors, and coaches with handy, applicable insights into the games they love. The separate section of technical notes offers an original and mathematically rigorous exploration of the key aspects of winter sports physics. A physics-driven exploration of sports played on ice and snow that is truly fun and informative, Gliding for Gold is the perfect primer for understanding the science behind cold weather athletics.

Author: Jennifer Swanson
Publisher: Hachette UK
ISBN: 0762473010
Category : Juvenile Nonfiction
Languages : en
Pages : 248

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Book Description
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.

Author: Anthony J. Blazevich
Publisher: A&C Black
ISBN: 1408132613
Category : Sports & Recreation
Languages : en
Pages : 257

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Book Description
For coaches, athletes and students of biomechanics, the new edition of Sports Biomechanics: The basics answers real-world questions in sports using easily comprehensible language and clear and concise diagrams. Each chapter is devoted to answering questions in a single area of sports biomechanics with the scientific underpinnings of sports performance clearly explained. Biomechanics is simply the science of 'mechanics', a particular section of physics, as it relates to the human body. In the sport sciences, biomechanists do just about everything, including improving aerodynamics of vehicles, improving swim stroke technique to maximise swimming propulsion, and optimising running technique to increase running speed or efficiency. Biomechanics is a core subject on all sports science courses, and undergraduates must complete this module in their first (and often second) year. Because of the use of maths and physics to explain biomechanical concepts, students often find it difficult to grasp the basic elements of biomechanics. Anthony Blazevich's book is designed to explain to students the key concepts of biomechanics, using clear examples, tying all theory to practical examples to help students relate the biomechanics principles to improving in their coaching and performing.

Author: Prof. Anthony J. Blazevich
Publisher: Bloomsbury Publishing
ISBN: 1472917243
Category : Sports & Recreation
Languages : en
Pages : 273

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Book Description
Human beings are the 'all-rounders' of the natural world – while they aren't naturally the quickest, biggest or strongest creatures, they can achieve more amazing physical feats than any other animal. Nowhere is this ability more pronounced than in sporting performance, the ideal area for studying the mechanics of a human – our biomechanics. But all too often the study of sports biomechanics can become bogged down in pure mathematics, tables and graphs that bear little resemblance to what you see on the field of play. In this comprehensively revised third edition of bestselling Sports Biomechanics, Professor Anthony Blazevich answers real-world questions using easily accessible language and fully updated, clear and concise diagrams. Each chapter is devoted to a single area of the subject and details scientific underpinnings of sports performance; this edition features a new chapter on human gait (walking and running) as well as new information on the latest topics in sport biomechanics. An absolutely essential resource for any student, athlete or fitness professional involved in the field of sports biomechanics.

Author: Roland B. Minton
Publisher: CRC Press
ISBN: 1498706290
Category : Mathematics
Languages : en
Pages : 279

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Book Description
Can you really keep your eye on the ball? How is massive data collection changing sports? Sports science courses are growing in popularity. The author’s course at Roanoke College is a mix of physics, physiology, mathematics, and statistics. Many students of both genders find it exciting to think about sports. Sports problems are easy to create and state, even for students who do not live sports 24/7. Sports are part of their culture and knowledge base, and the opportunity to be an expert on some area of sports is invigorating. This should be the primary reason for the growth of mathematics of sports courses: the topic provides intrinsic motivation for students to do their best work. From the Author: "The topics covered in Sports Science and Sports Analytics courses vary widely. To use a golfing analogy, writing a book like this is like hitting a drive at a driving range; there are many directions you can go without going out of bounds. At the driving range, I pick out a small target to focus on, and that is what I have done here. I have chosen a sample of topics I find very interesting. Ideally, users of this book will have enough to choose from to suit whichever version of a sports course is being run." "The book is very appealing to teach from as well as to learn from. Students seem to have a growing interest in ways to apply traditionally different areas to solve problems. This, coupled with an enthusiasm for sports, makes Dr. Minton’s book appealing to me."—Kevin Hutson, Furman University

Author: Colin White
Publisher: Routledge
ISBN: 1134027621
Category : Education
Languages : en
Pages : 352

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Book Description
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.

Author: Vladimir Zatsiorsky
Publisher: John Wiley & Sons
ISBN: 0470693045
Category : Medical
Languages : en
Pages : 680

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Book Description
Biomechanics in Sport is a unique reference text prepared by the leading world experts in sport biomechanics. Over thirty chapters cover a broad spectrum of topics, ranging from muscle mechanics to injury prevention, and from aerial movement to wheelchair sport. The biomechanics of sports including running, skating, skiing, swimming, jumping in athletics, figure skating, ski jumping, diving, javelin and hammer throwing, shot putting, and striking movements are all explained.