Introduction to Sports Biomechanics provides a genuinely accessible and comprehensive guide to all of the biomechanics topics covered in an undergraduate sports and exercise science degree.
Now revised and in its second edition, Introduction to Sports Biomechanics is full of visual aids to support the text. Every chapter contains cross references to key terms and definitions from that chapter, learning objectives and summaries, study tasks to confirm and extend your understanding, and suggestions to further your reading.
Clearly structured and with many student friendly features, the text covers:
- movement patterns – exploring the essence and purpose of movement analysis
- qualitative analysis of sports movements
- movement patterns and the geometry of motion
- quantitative measurement and analysis of movement
- force and torques – causes of movement
- the human body and the anatomy of movement.
This edition is supported by a website containing animation and video clips, and offers sample data tables for comparison and analysis and multiple choice questions to confirm your understanding of the material in each chapter. Introduction to Sports Biomechanics is a must have for students of sport and exercise, human movement sciences, ergonomics, biomechanics, and sports performance and coaching.
Visit the companion website at: www.routledge.com/textbooks/9780415339940.
|Publisher:||Taylor & Francis|
|Product dimensions:||6.75(w) x 9.75(h) x 0.80(d)|
About the Author
Roger Bartlett is Professor of Sports Biomechanics in the School of Physical Education, University of Otago, New Zealand. He is an Invited Fellow of the International Society of Biomechanics in Sports and an Honorary Fellow of the British Association of Sport and Exercise Sciences, of which he was Chairman from 1991-4. Roger is a former Editor-in-Chief of the Journal of Sports Sciences and Sports Biomechanics.
Table of Contents
1. Movement Patterns – The Essence of Biomechanics 2. Qualitative Analysis of Sports Movements 3. More on Movement Patterns – The Geometry of Motion 4. Quantitative Analysis of Movement 5. Causes of Movement – Forces and Torques 6. The Anatomy of Human Movement