Verfügbarkeit: Fundamentals of biomechanics

Fundamentals of biomechanics: equilibrium, motion, and deformation

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Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Springer 2012
Ausgabe:	3. ed.
Schlagworte:	Biomécanique Biyomekanik Biomechanics Biomechanik Einführung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII, 273 S.
ISBN:	9781461411499 9781461411505

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Datensatz im Suchindex

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adam_text	Titel: Fundamentals of biomechanics Autor: Özkaya, Nihat Jahr: 2012 Contents 1 Introduction............................................................................................................1 1.1 Mechanics......................................................................................................1 1.2 Biomechanics..................................................................................................2 1.3 Basic Concepts................................................................................................3 1.4 Newton s Laws..............................................................................................3 1.5 Dimensional Analysis....................................................................................3 1.6 Systems of Units............................................................................................4 1.7 Conversion of Units........................................................................................5 1.8 Mathematics....................................................................................................5 1.9 Scalars and Vectors........................................................................................6 1.10 Modeling and Approximations........................................................................6 1.11 Generalized Procedure....................................................................................6 1.12 Scope of the Text............................................................................................6 1.13 Notation..........................................................................................................7 Suggested Reading..........................................................................................7 2 Force Vector............................................................................................................9 2.1 Definition of Force..........................................................................................9 2.2 Properties of Force as a Vector Quantity........................................................9 2.3 Dimension and Units of Force........................................................................10 2.4 Force Systems................................................................................................10 2.5 External and Internal Forces............................................................................10 2.6 Normal and Tangential Forces........................................................................10 2.7 Tensile and Compressive Forces....................................................................11 2.8 Coplanar Forces..............................................................................................11 2.9 Collinear Forces..............................................................................................11 2.10 Concurrent Forces..........................................................................................11 2.11 Parallel Force...............................................................11 2.12 Gravitational Force or Weight........................................................................11 2.13 Distributed Force Systems and Pressure..........................................................12 2.14 Frictional Forces............................................................................................13 2.15 Exercise Problems..........................................................................................15 3 Moment and Torque Vectors..................................................................................19 3.1 Definitions of Moment and Torque Vectors....................................................19 3.2 Magnitude of Moment....................................................................................19 3.3 Direction of Moment......................................................................................20 3.4 Dimension and Units of Moment....................................................................20 xiii xiv Contents 3.5 Some Fine Points About the Moment Vector..................................................21 3.6 The Net or Resultant Moment........................................................................22 3.7 The Couple and Couple-Moment....................................................................26 3.8 Translation of Forces......................................................................................26 3.9 Moment as a Vector Product..........................................................................27 3.10 Exercise Problems..........................................................................................30 4 Statics: Systems in Equilibrium..............................................................................35 4.1 Overview........................................................................................................35 4.2 Newton s Laws of Mechanics..........................................................................35 4.3 Conditions for Equilibrium..............................................................................36 4.4 Free-Body Diagrams......................................................................................38 4.5 Procedure to Analyze Systems in Equilibrium................................................38 4.6 Notes Concerning the Equilibrium Equations..................................................39 4.7 Constraints and Reactions..............................................................................40 4.8 Simply Supported Structures..........................................................................40 4.9 Cable-Pulley Systems and Traction Devices....................................................45 4.10 Built-in Structures..........................................................................................47 4.11 Systems Involving Friction..............................................................................51 4.12 Center of Gravity Determination....................................................................52 4.13 Exercise Problems..........................................................................................56 5 Applications of Statics to Biomechanics................................................................61 5.1 Skeletal Joints................................................................................................61 5.2 Skeletal Muscles............................................................................................62 5.3 Basic Considerations......................................................................................62 5.4 Basic Assumptions and Limitations................................................................62 5.5 Mechanics of the Elbow..................................................................................63 5.6 Mechanics of the Shoulder..............................................................................67 5.7 Mechanics of the Spinal Column....................................................................70 5.8 Mechanics of the Hip......................................................................................74 5.9 Mechanics of the Knee....................................................................................80 5.10 Mechanics of the Ankle..................................................................................84 6 Introduction to Dynamics......................................................................................87 6.1 Dynamics........................................................................................................87 6.2 Kinematics and Kinetics..................................................................................87 6.3 Linear, Angular, and General Motions............................................................87 6.4 Distance and Displacement............................................................................88 6.5 Speed and Velocity........................................................................................89 6.6 Acceleration....................................................................................................89 6.7 Inertia and Momentum....................................................................................89 6.8 Degree of Freedom........................................................................................89 6.9 Particle Concept..............................................................................................89 6.10 Reference Frames and Coordinate Systems....................................................89 6.11 Prerequisites for Dynamic Analysis................................................................90 6.12 Topics to Be Covered......................................................................................90 7 Linear Kinematics..................................................................................................91 7.1 Uniaxial Motion..............................................................................................91 7.2 Position, Displacement, Velocity, and Acceleration........................................91 7.3 Dimensions and Units....................................................................................92 7.4 Measured and Derived Quantities....................................................................93 Contents xv 7.5 Uniaxial Motion with Constant Acceleration..............................................93 7.6 Examples of Uniaxial Motion......................................................................94 7.7 Biaxial Motion............................................................................................99 7.8 Position, Velocity, and Acceleration Vectors..............................................99 7.9 Biaxial Motion with Constant Acceleration................................................101 7.10 Projectile Motion........................................................................................101 7.11 Applications to Athletics............................................................................104 7.12 Exercise Problems......................................................................................107 8 Linear Kinetics....................................................................................................109 8.1 Overview....................................................................................................109 8.2 Equations of Motion....................................................................................109 8.3 Special Cases of Translational Motion........................................................110 8.3.1 Force is Constant..........................................................................110 8.3.2 Force Is a Function of Time..........................................................Ill 8.3.3 Force Is a Function of Displacement..............................................Ill 8.4 Procedure for Problem Solving in Kinetics..................................................Ill 8.5 Work and Energy Methods..........................................................................113 8.6 Mechanical Work........................................................................................113 8.6.1 Work Done by a Constant Force....................................................113 8.6.2 Work Done by a Varying Force......................................................114 8.6.3 Work as a Scalar Product..............................................................114 8.7 Mechanical Energy....................................................................................115 8.7.1 Potential Energy............................................................................115 8.7.2 Kinetic Energy..............................................................................115 8.8 Work-Energy Theorem..............................................................................115 8.9 Conservation of Energy Principle................................................................115 8.10 Dimension and Units of Work and Energy..................................................115 8.11 Power........................................................................................................116 8.12 Applications of Energy Methods................................................................116 8.13 Exercise Problems......................................................................................119 9 Angular Kinematics............................................................................................121 9.1 Polar Coordinates........................................................121 9.2 Angular Position and Displacement............................................................121 9.3 Angular Velocity........................................................................................122 9.4 Angular Acceleration..................................................................................122 9.5 Dimensions and Units................................................................................123 9.6 Definitions of Basic Concepts....................................................................123 9.7 Rotational Motion About a Fixed Axis........................................................129 9.8 Relationships Between Linear and Angular Quantities................................130 9.9 Uniform Circular Motion............................................................................131 9.10 Rotational Motion with Constant Acceleration............................................131 9.11 Relative Motion..........................................................................................131 9.12 Linkage Systems........................................................................................133 9.13 Exercise Problems......................................................................................136 10 Angular Kinetics..................................................................................................139 10.1 Kinetics of Angular Motion........................................................................139 10.2 Torque and Angular Acceleration................................................................143 10.3 Mass Moment of Inertia..............................................................................144 10.4 Parallel-Axis Theorem................................................................................144 10.5 Radius of Gyration......................................................................................145 Contents xvii 14.4 Principal Stresses......................................................................................194 14.5 Mohr s Circle............................................................................................195 14.6 Failure Theories........................................................................................198 14.7 Allowable Stress and Factor of Safety......................................................199 14.8 Factors Affecting the Strength of Materials..............................................199 14.9 Fatigue and Endurance..............................................................................200 14.10 Stress Concentration..................................................................................201 14.11 Torsion....................................................................................................202 14.12 Bending....................................................................................................207 14.13 Combined Loading....................................................................................215 14.14 Exercise Problems....................................................................................217 15 Mechanical Properties of Biological Tissues......................................................221 15.1 Viscoelasticity..........................................................................................221 15.2 Analogies Based on Springs and Dashpots................................................222 15.3 Empirical Models of Viscoelasticity..........................................................223 15.3.1 Kelvin-Voight Model..................................................................223 15.3.2 Maxwell Model............................................................................224 15.3.3 Standard Solid Model..................................................................224 15.4 Time-Dependent Material Response..........................................................225 15.5 Comparison of Elasticity and Viscoelasticity............................................225 15.6 Common Characteristics of Biological Tissues..........................................228 15.7 Biomechanics of Bone..............................................................................228 15.7.1 Composition of Bone..................................................................229 15.7.2 Mechanical Properties of Bone....................................................229 15.7.3 Structural Integrity of Bone..........................................................231 15.7.4 Bone Fractures............................................................................231 15.8 Tendons and Ligaments............................................................................232 15.9 Skeletal Muscles......................................................................................233 15.10 Articular Cartilage....................................................................................234 15.11 Discussion................................................................................................235 15.12 Exercise Problem......................................................................................235 Appendix A: Plane Geometry..................................................................................237 Appendix B: Vector Algebra....................................................................................241 Appendix C: Calculus..............................................................................................255 Index ........................................................................................................................269
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title	Fundamentals of biomechanics equilibrium, motion, and deformation
title_auth	Fundamentals of biomechanics equilibrium, motion, and deformation
title_exact_search	Fundamentals of biomechanics equilibrium, motion, and deformation
title_full	Fundamentals of biomechanics equilibrium, motion, and deformation Nihat Özkaya ; Margareta Nordin ...
title_fullStr	Fundamentals of biomechanics equilibrium, motion, and deformation Nihat Özkaya ; Margareta Nordin ...
title_full_unstemmed	Fundamentals of biomechanics equilibrium, motion, and deformation Nihat Özkaya ; Margareta Nordin ...
title_short	Fundamentals of biomechanics
title_sort	fundamentals of biomechanics equilibrium motion and deformation
title_sub	equilibrium, motion, and deformation
topic	Biomécanique Biyomekanik Biomechanics Biomechanik (DE-588)4006880-8 gnd
topic_facet	Biomécanique Biyomekanik Biomechanics Biomechanik Einführung
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