Biomechanics of Running Shoes


Book Description




Biomechanics of Sport Shoes


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The Running Shoe Book


Book Description




Running Mechanics and Gait Analysis


Book Description

Running Mechanics and Gait Analysis With Online Video is the premier resource for running mechanics and injury prevention. Referencing over 250 peer-reviewed scientific manuscripts, this text is a comprehensive review of the research and clinical concepts related to gait and injury analysis.




Running


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{U2022} Coverage features the most up-to-date information available.




The Science of Running


Book Description

Reviews of The Science of Running:"The Science of Running sets the new standard for training theory and physiological data. Every veteran and beginner distance coach needs to have this on their book shelf."-Alan WebbAmerican Record Holder-Mile 3:46.91 "For anyone serious about running, The Science of Running offers the latest information and research for optimizing not only your understanding of training but also your performance. If you want to delve deeper into the world of running and training, this book is for you. You will never look at running the same."-Jackie Areson, 15th at the 2013 World Championships in the 5k. 15:12 5,000m best If you are looking for how to finish your first 5k, this book isn't for you. The Science of Running is written for those of us looking to maximize our performance, get as close to our limits as possible, and more than anything find out how good we can be, or how good our athletes can be. In The Science of Running, elite coach and exercise physiologist Steve Magness integrates the latest research with the training processes of the world's best runners, to deliver an in depth look at how to maximize your performance. It is a unique book that conquers both the scientific and practical points of running in two different sections. The first is aimed at identifying what limits running performance from a scientific standpoint. You will take a tour through the inside of the body, learning what causes fatigue, how we produce energy to run, and how the brain functions to hold you back from super-human performance. In section two, we turn to the practical application of this information and focus on the process of training to achieve your goals. You will learn how to develop training plans and to look at training in a completely different way. The Science of Running does not hold back information and is sure to challenge you to become a better athlete, coach, or exercise scientist in covering such topics as:· What is fatigue? The latest research on looking at fatigue from a brain centered view.· Why VO2max is the most overrated and misunderstood concept in both the lab and on the track· Why "zone" training leads to suboptimal performance.· How to properly individualize training for your own unique physiology.· How to look at the training process in a unique way in terms of stimulus and adaptation.· Full sample training programs from 800m to the marathon.




Biomechanics of Sport and Exercise


Book Description

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.




Natural Running


Book Description

Natural Running is the middle ground runners have been looking for. By learning to run the barefoot way, while wearing shoes, runners will become more efficient, stronger, and healthier runners. Backed by studies at MIT and Harvard, running form and injury expert Danny Abshire presents the natural running technique, form drills, and an 8-week transition plan that will put runners on the path to faster, more efficient, and healthier running.In Natural Running, Abshire explains how modern running shoes distort the efficient running technique that humans evolved over thousands of years. He reviews the history of running shoes and injuries, making the case for barefoot running but also warning about its dangers. By learning the natural running technique, runners can enjoy both worlds: comfortable feet, knees, and legs and an efficient running form that reduces impact and injuries.Natural Running teaches runners to think about injuries as symptoms of poor running form. Abshire specifies the overuse injuries that are most commonly associated with particular body alignment problems, foot types, and form flaws. Runners will learn how to analyze and identify their own characteristics so they can start down the path to natural running.Abshire explains the natural running technique, describing the posture, arm carriage, cadence, and land-lever-lift foot positioning that mimic the barefoot running style. Using Abshire’s 8-week transition plan and a tool kit of strength and form drills, runners will move from heel striking to a midfoot or forefoot strike.Natural Running is the newest way to run and also the oldest. By discovering how they were meant to run, runners will become more efficient, stronger, and healthier runners.




Running Anatomy


Book Description

Detailed, full-color anatomical illustrations have drawn over a million readers to this popular anatomy series. Now Running Anatomy is the ideal resource for fitness runners and competitive runners hoping to improve performance by increasing muscular strength and optimizing the efficiency of the running motion, while minimizing the risk for injury. Anatomical illustrations highlight the muscles in action during effective running exercises and help readers assess and rehab running injuries like plantar fasciitis and ITB syndrome. Original.




Biomechanics of Movement


Book Description

An engaging introduction to human and animal movement seen through the lens of mechanics. How do Olympic sprinters run so fast? Why do astronauts adopt a bounding gait on the moon? How do running shoes improve performance while preventing injuries? This engaging and generously illustrated book answers these questions by examining human and animal movement through the lens of mechanics. The authors present simple conceptual models to study walking and running and apply mechanical principles to a range of interesting examples. They explore the biology of how movement is produced, examining the structure of a muscle down to its microscopic force-generating motors. Drawing on their deep expertise, the authors describe how to create simulations that provide insight into muscle coordination during walking and running, suggest treatments to improve function following injury, and help design devices that enhance human performance.