Section I. How Things Move and Flow
3. Stability and Balance
4. Energy and Movement
Section II. Human Movement
6. Skeletal Muscle, Muscle Work, Strength, Power and Endurance
7. Joint Mobility
8. Posture and Balance
9. Motor Control
10. Development and Decline of Movement
Section III. Measurement of Movement
11. Nine Key Things That Define Physical Movement
12. Biomechanical Measurements Including Three-Dimensional Motion Analysis Systems
13. Clinical Measures of Mobility Within the International Classification of Functioning, Disability and Health Framework
14. Physical (In)Activity
Section IV. Restoring and Optimising Human Movement
15. Motor Relearning Principles
16. Ergonomics: The Influence of the Environment on Human Movement
17. Case Studies in Human Movement
Now in its seventh edition, this reputable textbook is an ideal introduction to the study of human movement and an excellent reference encouraging and directing further study.
For the first time there is a chapter dedicated to measuring and understanding physical activity, recognising the importance of this area to many health and sports professionals. More time is spent explaining the basic principles of biomechanics and the way they can be used to improve practice, including tissue mechanics and movement analysis techniques.
An Introduction to Human Movement and Biomechanics is the perfect guide for students and professionals all around the world to consolidate learning and apply to real clinical/sports situation.
Information is given in a clear and accessible way, with case studies, illustrations, textboxes and practical examples.
- A chapter on physical (in)activity.
- More chapters explaining basic biomechanics and its application to understanding human movement.
- A new section dedicated to measuring human movement including movement analysis techniques.
- A whole chapter of case studies with real patient and athlete data
- Scientific theory related to re-learning movement and movement control.
- Problems posed to help students work through the theory and apply it to clinical scenarios
- Written by well-known and multi-disciplinary researchers with extensive experience in the field
It includes access to the Evolve online resources:
- Log on to evolve.elsevier.com/Kerr/movement/ and test out your learning
- Case studies, including videoclips and animations
- Hundreds of self-assessment questions
Edited by Andrew Kerr, PhD, MSc, MCSP, Lecturer, Biomedical Engineering, University of Strathclyde, Glasgow, UK and Philip Rowe, PhD, Professor Of Rehabilitation Science, Biomedical Engineering, University of Strathclyde, Glasgow, UK