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Principles of Biomechanics and Motion Analysis Iwan W. Griffiths

Principles of Biomechanics and Motion Analysis By Iwan W. Griffiths

Principles of Biomechanics and Motion Analysis by Iwan W. Griffiths

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Summary

Offers a practical approach to biomechanics and motion analysis by illustrating mechanical and mathematical principles with real-world examples. This book explains the principles of mechanics and covers various aspects of kinematics and kinetics. Basic principles are illustrated with actual data obtained in laboratory settings.

Principles of Biomechanics and Motion Analysis Summary

Principles of Biomechanics and Motion Analysis by Iwan W. Griffiths

This text offers a practical approach to biomechanics and motion analysis by illustrating mechanical and mathematical principles with real-world examples. The book explains the principles of mechanics and covers all aspects of kinematics and kinetics. Basic principles are illustrated with actual data obtained in laboratory settings. Case studies in each chapter present real situations to provide a deeper understanding of the principles. Each chapter ends with study questions. Mathematics is restricted to the essentials and many advanced calculations are performed using spreadsheet calculations. More than 250 illustrations complement the text.

Principles of Biomechanics and Motion Analysis Reviews

International Journal of Sports Science & Coaching, 28-JAN-06, Volume 1, Issue 4 -- "In contrast to textbooks that use hypotheticalor idealized data, the author deals with data that might require processing before any conclusions can be drawn from it and, in doing so, uses this to facilitate understanding ofprinciples in motion analysis and biomechanics...This book is a significant addition to the biomechanics textbook market and can beconsidered as essential reading for every teacher of biomechanics who uses a motion analysis system... Iwan Griffiths has laid the foundation for a more specialized textbook to be produced that focuses on motion analysis of sports techniques and numerous real data sets that can be applied to coaching."

Table of Contents

Chapter 1. Scalar Quantities and Vector Quantities in Biomechanics 1.1 Scalars and Vectors 1.2 Addition of Scalars 1.3 Addition of Vectors 1.4 Parallelogram Rule 1.5 Resolution of Vectors into Components 1.6 Unit Vectors I, J, K 1.7 Scalar Products of Two Vectors 1.8 Vector Products of Two Vectors Chapter 2. Linear Kinematics 2.1 The Law of Inertia 2.2 Methods of Measuring an Object's Speed or Velocity 2.3 Graphical Means of Deriving Velocity 2.4 Equations for Speed and Velocity 2.5 Acceleration as the Slope of V-T Graph 2.6 Frames of Reference 2.7 Projectiles Chapter 3. Equilibrium 3.1 The Effect of Friction 3.2 Moments of Forces 3.3 Parallel Forces 3.4 Centre of Gravity 3.5 Couples 3.6 Bodies at Rest 3.7 Equilibrium Under the Action of Two Forces 3.8 The Centre of Mass of a Stationary Body 3.9 Equilibrium Under the Action of Three Forces 3.10 Hydrostatics and Flotation Chapter 4. Motion in a Straight Line (Dynamics I) 4.1 Inertia and Mass 4.2 Force 4.3 Newton's First Law 4.4 Gravitational Forces 4.5 Newton's Second Law 4.6 The Acceleration due to Gravity and Weight 4.7 Newton's Third Law 4.8 Friction 4.9 The Momentum of a Body 4.10 Projectile Motion Taking into Account The Drag Force Chapter 5. Dynamics 5.1 Work Done by a Constant Force 5.2 Work Done by a Variable Force 5.3 Kinetic Energy 5.4 Gravitational Potential Energy 5.5 Conservation of Energy 5.6 Power 5.7 Impulsive Forces 5.8 Collisions in One Dimension 5.9 Conservation of Momentum 5.10 Elastic and Inelastic Collisions 5.11 Springs and Hooke's Law 5.12 Oscillatory Motion Chapter 6. Motion in a Circle (Angular Kinetics) 6.1 Angular Displacement, Velocity, and Acceleration 6.2 Absolute Angles and Relative Angles 6.3 Calculation of Angular Information from (X, Y) Coordinate Data 6.4 Important Equations in Angular Kinematics Chapter 7. Angular Dynamics 7.1 Angular Motion Vectors 7.2 Torque 7.3 Rotational Inertia 7.4 Easy Ways to Find the Moment of Inertia 7.5 Angular Momentum 7.6 Angular Kinetic Energy Chapter 8. Calculations Using Text or ASCII Files 8.1 Text Files 8.2 Coordinate-Time Data 8.3 Obtaining Velocities and Accelerations 8.4 Noise and Smoothing Chapter 9. Mechanical Analyses 9.1 The Camera System 9.2 Force Plates and Additional Sensors 9.3 Standing Long Jump 9.4 High Jump 9.5 Running Chapter 10. Analysis of Specialized Movement Patterns Using Vicon 10.1 Golf 10.2 Gymnastics 10.3 Football

Additional information

GOR004978846
9780781752312
0781752310
Principles of Biomechanics and Motion Analysis by Iwan W. Griffiths
Iwan W. Griffiths
Used - Very Good
Paperback
Lippincott Williams and Wilkins
2005-10-01
339
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
This is a used book - there is no escaping the fact it has been read by someone else and it will show signs of wear and previous use. Overall we expect it to be in very good condition, but if you are not entirely satisfied please get in touch with us

Customer Reviews - Principles of Biomechanics and Motion Analysis