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In the movie Bull Durham, frustrated manager Joe Riggins stresses to his team, "This is a simple game. You throw the ball. You hit the ball. You catch the ball." This simplification works well for biomechanists too, as sports can be broken down into specific physical tasks like throwing, hitting, catching, and running. There have been significant advances in understanding some actions, but not others. In the first ten years of the journal Sports Biomechanics, only 18 of 236 articles were about hitting a ball. This scarcity is startling considering that according to USA Today (May 20, 2005), three of the five hardest things to do in sports involve hitting a ball (#1: baseball batting, #4: golf tee shot, and #5: tennis serve return). This book provides the latest biomechanical research in the under-studied field of hitting a ball. The biomechanics of baseball, cricket, hockey, hurling, softball, table tennis, and tennis are all examined. The chapters are written in a style that will both satisfy the high standards of biomechanists and provide information for instructors and athletes to improve performance. This book is based on a special issue of Sports Biomechanics.
In the movie Bull Durham, frustrated manager Joe Riggins stresses to his team, "This is a simple game. You throw the ball. You hit the ball. You catch the ball." This simplification works well for biomechanists too, as sports can be broken down into specific physical tasks like throwing, hitting, catching, and running. There have been significant advances in understanding some actions, but not others. In the first ten years of the journal Sports Biomechanics, only 18 of 236 articles were about hitting a ball. This scarcity is startling considering that according to USA Today (May 20, 2005), three of the five hardest things to do in sports involve hitting a ball (#1: baseball batting, #4: golf tee shot, and #5: tennis serve return). This book provides the latest biomechanical research in the under-studied field of hitting a ball. The biomechanics of baseball, cricket, hockey, hurling, softball, table tennis, and tennis are all examined. The chapters are written in a style that will both satisfy the high standards of biomechanists and provide information for instructors and athletes to improve performance. This book is based on a special issue of Sports Biomechanics.
Since the beginning of organized baseball there has been a great deal of material written on the extremely difficult skill of hitting a baseball. Hall of Fame players and former Major League hitting coaches have produced much of this literature, sharing decades of experience from the baseball "trenches" with those who aspire to follow in their profession. However, despite the thousands of publications written over the last hundred years, little information is available on the correct and essential body mechanics required to achieve success at the highest levels of baseball. Biomechanics is the science of measuring and describing human body movement. The purpose of this book is to define the "art" of hitting a baseball using knowledge gained from the science of biomechanical analysis.In 1986 Bio Kinetics Research & Development began conducting biomechanical research to better understand the body mechanics of the best hitters in the game of baseball, captured during live Major League competition. This book addresses the results of those three dimensional analyses that Bio Kinetics performed on hundreds of Major League hitters over the course of three decades. It is important to note that the information presented is NOT based on any past or present hitting theories or a simple two dimensional observation (such as with video or still images), as is the case with almost all prior publications. To the best of our knowledge, the scope and depth of this work is unique, and no other organization currently has both the process and the expertise employed by Bio Kinetics Research & Development. So, how have we accomplished this? The process starts with data capture. Multiple synchronized high speed and high resolution video cameras are used to record hitters in actual game situations. Next, the multiple two dimensional motion sequences are digitized and converted into a single computerized three dimensional motion sequence. Finally, the laws of physics, along with knowledge of exercise physiology and motor learning, are applied to yield an in-depth understanding of the essential patterns of movement, balance and muscular exertion required to successfully hit a major league pitch. It is the science of biomechanics, not simple observation that provides the irrefutable data presented in this book. Under the title of "Pitch Out" various detailed experiences of this 30 year venture are told in each section. The author is well aware of the various "schools of thought" on the correct understanding of hitting mechanics, each with its attending army of vocal proponents and equally vocal opponents! The intention of this publication is neither to praise nor attack prevailing hitting theory, nor to discount anyone's contribution to the science of hitting. It is important to remember that the evolution of knowledge and understanding of the baseball swing began more than one hundred years ago and many have made positive contributions along the way. Our research, and this book are simply the next step on the path. Three dimensional motion analyses, captured from live competition and compiled over three decades, provides solid evidence of what REALLY happens in the baseball swing, while exposing a tremendous amount of misinformation about the mechanics of hitting as well. This book separates fact from fiction and style from absolute efficient mechanics by presenting cutting edge objective information from those analyses.While the focus of this book is what the best hitters in baseball do, biomechanically, it is important to point out that hitting a baseball is more than simply a mechanical skill. Although often affected by mechanics, the mental, perceptual, and reactional components of this skill are discussed in chapters 9, 10 &11.
Fundamentals of Biomechanics introduces the exciting world of how human movement is created and how it can be improved. Teachers, coaches and physical therapists all use biomechanics to help people improve movement and decrease the risk of injury. The book presents a comprehensive review of the major concepts of biomechanics and summarizes them in nine principles of biomechanics. Fundamentals of Biomechanics concludes by showing how these principles can be used by movement professionals to improve human movement. Specific case studies are presented in physical education, coaching, strength and conditioning, and sports medicine.
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.
Chapter1: Biomechanics 1 Chapter2: Biomechanics 2 Chapter3: Robotics
"Sports Medicine of Baseball includes all-encompassing coverage of the evaluation and treatment of common problems encountered in baseball players at all levels of competition. A large portion of the book focuses on shoulder and elbow problems, given thehigh number of shoulder and elbow injuries that affect baseball players. The text will also cover lower extremity injuries, spine conditions, and common medical problems that may be encountered. Of special interest to athletic trainers, topics such as different training regimens for in-season versus off-season workouts and tailoring throwing programs for relievers and starters is given particular attention."--Provided by publisher.
Biomechanics of Sport and Exercise, Second Edition, introduces exercise and sport biomechanics in concise terms rather than focusing on complex math and physics. This book helps students learn to appreciate external forces and their effects, how the body generates forces to maintain position, and how forces create movement in physical activities.
Biomechanics of Human Motion: Applications in the Martial Arts delineates the general laws governing the human biomechanics through an extensive review of martial arts techniques and references to fundamental theory. Using straightforward mathematics and physics, the book covers in depth the anatomical foundation of biomechanics, the biomechanical and physiological foundation of human motion, and the fundamentals of biomechanics. Divided into four parts, the book covers: The musculoskeletal anatomy of the major muscles, their functions, and the different roles of the muscles in human mechanics The biomechanical and physiological foundations of human motion, including the very basic conceptions about lever systems, center of gravity, kinematic chain systems, and Newton’s laws Kinematics and kinetics via complex examples from martial arts and their comparison to different sports techniques The biomechanical principles and analysis of the martial arts, including anatomical and physiological considerations, and the analysis of the physical properties of a range of techniques Focusing on martial arts and sports activities, this book is designed to be used by undergraduate and graduate students of human movement science, physical education, and fitness, as well as college instructors and martial artists.
This textbook integrates the classic fields of mechanics—statics, dynamics, and strength of materials—using examples from biology and medicine. The book is excellent for teaching either undergraduates in biomedical engineering programs or health care professionals studying biomechanics at the graduate level. Extensively revised from a successful third edition, Fundamentals of Biomechanics features a wealth of clear illustrations, numerous worked examples, and many problem sets. The book provides the quantitative perspective missing from more descriptive texts, without requiring an advanced background in mathematics. It will be welcomed for use in courses such as biomechanics and orthopedics, rehabilitation and industrial engineering, and occupational or sports medicine. This book: Introduces the fundamental concepts, principles, and methods that must be understood to begin the study of biomechanics Reinforces basic principles of biomechanics with repetitive exercises in class and homework assignments given throughout the textbook Includes over 100 new problem sets with solutions and illustrations