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Title
Fundamentals of biomechanics : equilibrium, motion, and deformation / Nihat Özkaya, David Goldsheyder, Margareta Nordin ; project editor: Dawn Leger.
Edition
Fourth edition.
ISBN
9783319447384 (electronic book)
3319447386 (electronic book)
9783319447377
Published
Cham, Switzerland : Springer, 2017.
Language
English
Description
1 online resource (xv, 454 pages) : illustrations.
Item Number
10.1007/978-3-319-44738-4 doi
Call Number
QP303
Dewey Decimal Classification
571.4/3
Summary
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.
Bibliography, etc. Note
Includes bibliographical references and index.
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed January 25, 2017).
Preface
1. Introduction
2. Force Vector
3. Moment And Torque Vectors
4. Statics: Systems in Equilibrium
5. Applications of Statics to Biomechanics
6. Introduction to Dynamics
7. Linear Kinematics
8. Linear Kinetics
9. Angular Kinematics
10. Angular Kinetics
11. Impulse and Momentum
12. Introduction to Deformable Body Mechanics
13. Stress & Strain
14. Multiaxial Deformations & Stress Analyses
15. Mechanical Properties of Biological Tissues
Appendix A. Plane Geometry
Appendix B. Vector Algebra
Appendix C. Calculus
Index.