Verfügbarkeit: Fundamentals of biomechanics

Fundamentals of biomechanics:

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1. Verfasser:	Knudson, Duane V. 1961- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York, NY Springer 2007
Ausgabe:	2. ed.
Schlagworte:	Biomechanics Biomechanik Patentschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XI, 319, 31 S. Ill., graph. Darst. 1 CD-ROM (12 cm)
ISBN:	9781441964977 9780387493114

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MARC


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Datensatz im Suchindex

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adam_text	Preface ix Acknowledgments xi PART I Introduction CHAPTER I Introduction to Biomechanics of Human Movement What Is Biomechanics? 3 Why Study Biomechanics? 5 Improving Performance 5 Preventing and Treating Injury 9 Qualitative and Quantitative Analysis 11 Where Can I Find out about Biomechanics? 12 Scholarly Societies 13 Computer Searches 14 Biomechanics Textbooks 15 blomechanical knowledge versus Information 16 Kinds of Sources 16 Evaluating Sources 18 A Word About Right and Wrong Answers 19 Summary 20 Review Questions 21 Key Terms 21 Suggested Reading 21 Web Links 22 CHAPTER 1 Fundamentals of Biomechanics and Qualitative Analysis Key Mechanical Concepts 23 Mechanics 23 Basic Units 25 Contents Nine Fundamentals of Biomechanics 29 Principles and Laws 29 Nine Principles for Application of Biomechanics 30 Qualitative Analysis 35 Summary 36 Review Questions 36 Key Terms 37 Suggested Reading 37 Web Links 37 PART II Biological/Structural Bases CHAPTER 3 Anatomical Description and Its Limitations Review of Key Anatomical Concepts 41 Directional Terms 42 Joint Motions 43 Review of Muscle Structure 46 Muscle Actions 49 Active and Passive Tension of Muscle 51 Hill Muscle Model 51 The Limitations of Functional Anatomical Analysis 53 Mechanical Method of Muscle Action Analysis 53 The Need for Biomechanics to Understand Muscle Actions 56 Sports Medicine and Rehabilitation Applications 60 Range of Motion Principle 60 Force Motion Principle 63 Summary 65 Review Questions 66 Key Terms 66 Suggested Reading 66 Web Links 67 CHAPTER 4 Mechanics of the musculoskeletal system Tissue Loads 69 Response of Tissues to Forces 69 Stress 70 Strain 70 Stiffness and Mechanical Strength 71 Viscoelasticity 72 BlOMECHANICS OF THE PASSIVE Muscle Tendon Unit (MTU) 75 blomechanics of bone 76 blomechanics of ligaments 77 Three Mechanical Characteristics of Muscle 79 Force Velocity Relationship 79 Force Length Relationship 84 Force Time Relationship 86 Stretch Shortening Cycle (SSC) 88 Force Time Principle 92 Neuromuscular Control 94 The Functional Unit of Control: Motor Units 94 Regulation of Muscle Force 95 Proprioception of Muscle Action and Movement 99 Summary 100 Review Questions 101 Key Terms 101 Suggested Reading 102 Web Links 103 PART III Mechanical Bases CHAPTER 5 Linear and Angular Kinematics Linear Motion 107 Speed and Velocity 109 Acceleration 113 Uniformly Accelerated Motion 115 Optimal Projection Principle 117 Angular Motion 121 Angular Velocity 122 Angular Acceleration 123 Coordination Continuum Principle 128 Summary 130 Review Questions 130 Key Terms 131 Suggested Reading 131 Web Links 132 CHAPTER 6 Linear Kinetics Laws of Kinetics 133 Newton s Laws of Motion 133 Newton s First Law and First Impressions 133 Newton s Second Law 136 Newton s Third Law 137 Inertia Principle 139 Muscle Angle of Pull: Qualitative and Quantitative Analysis of Vectors 141 Qualitative Vector Analysis of Muscle Angle of Pull 141 Quantitative Vector Analysis of Muscle Angle of Pull 143 Contact Forces 145 Impulse Momentum Relationship 147 Force Time Principle 149 Work Energy Relationship 151 Mechanical Energy 151 Mechanical Work 155 Mechanical Power 157 Segmental Interaction Principle 160 Summary 164 Review Questions 165 Key Terms 166 Suggested Reading 166 Web Links 167 CHAPTER 7 Angular Kinetics Torque 169 Summing Torques 173 Angular Inertia (Moment of Inertia) 174 Newton s Angular Analogues 178 Equilibrium 179 Center of Gravity 180 Principle of Balance 183 Summary 189 Review Questions 190 Key Terms 190 Suggested Reading 191 Web Links 191 CHAPTER 8 Fluid Mechanics Fluids 193 Fluid Forces 193 Buoyancy 193 Drag 195 Lift 200 The Magnus Effect 203 Principle of Spin 208 Summary 210 Key Terms 210 Review Questions 210 Suggested Reading 210 Web Links 211 PART IV Applications of Biomechanics in Qualitative Analysis CHAPTER 9 Applying Biomechanics in Physical Education Qualitative Analysis of Kicking Technique 215 Qualitative Analysis of Batting 218 Qualitative Analysis of the Basketball Free Throw 219 Exercise /Activity Prescription 220 Qualitative Analysis of Catching 222 Summary 224 Discussion Questions 224 Suggested Reading 224 Web Links 225 CHAPTER 10 Applying Biomechanics in Coaching Qualitative Analysis of Throwing Technique 227 Qualitative Analysis of Dribbling Technique 228 Qualitative Analysis of Conditioning 230 Recruitment 231 Qualitative Analysis of Catching 233 Summary 234 Discussion Questions 234 Suggested Reading 234 Web Links 235 chapter i i Applying Biomechanics in Strength and Conditioning Qualitative Analysis of Squat Technique 237 Qualitative Analysis of Drop Jumps 239 Exercise Specificity 240 Injury Risk 242 Equipment 244 Summary 244 Discussion Questions 245 Suggested Reading 246 Web Links 246 CHAPTER 12 Applying Biomechanics in Sports Medicine and Rehabilitation Injury Mechanisms 247 Exercise Specificity 248 Equipment 250 Readiness 251 Injury Prevention 252 Summary 253 Discussion Questions 254 Suggested Reading 254 Web Links 255 References 257 appendix a Glossary 283 appendix b Conversion Factors 297 appendix c Suggested Answers to Selected Review Questions 299 appendix d Right Angle Trigonometry Review 305 appendix e Qualitative Analysis of blomechanical principles 307 Index 309 LAB ACTIVITIES 1 Finding Biomechanical Sources L 2 2 Qualitative and Quantitative Analysis of Range of Motion L 4 3 Functional Anatomy? L 6 4 Muscle Actions and the Stretch Shortening Cycle (SSC) L 8 5A Velocity in Sprinting L 10 5B Accuracy of Throwing Speed Measurements L 12 6A Top Gun Kinetics: Force Motion Principle L 14 6B Impulse Momentum: Force Time Principle L 16 7 A Angular Kinetics of Exercise L 18 7B Calculating Center of Gravity Using Angular Kinetics L 20 8 Magnus Effect in Baseball Pitching L 22 9 Qualitative Analysis of Lead Up Activities L 24 10 Comparison of Skilled and Novice Performance L 26 11 Comparison of Training Modes L 28 12 Qualitative Analysis of Walking Gait L 30
adam_txt	Preface ix Acknowledgments xi PART I Introduction CHAPTER I Introduction to Biomechanics of Human Movement What Is Biomechanics? 3 Why Study Biomechanics? 5 Improving Performance 5 Preventing and Treating Injury 9 Qualitative and Quantitative Analysis 11 Where Can I Find out about Biomechanics? 12 Scholarly Societies 13 Computer Searches 14 Biomechanics Textbooks 15 blomechanical knowledge versus Information 16 Kinds of Sources 16 Evaluating Sources 18 A Word About Right and Wrong Answers 19 Summary 20 Review Questions 21 Key Terms 21 Suggested Reading 21 Web Links 22 CHAPTER 1 Fundamentals of Biomechanics and Qualitative Analysis Key Mechanical Concepts 23 Mechanics 23 Basic Units 25 \ Contents Nine Fundamentals of Biomechanics 29 Principles and Laws 29 Nine Principles for Application of Biomechanics 30 Qualitative Analysis 35 Summary 36 Review Questions 36 Key Terms 37 Suggested Reading 37 Web Links 37 PART II Biological/Structural Bases CHAPTER 3 Anatomical Description and Its Limitations Review of Key Anatomical Concepts 41 Directional Terms 42 Joint Motions 43 Review of Muscle Structure 46 Muscle Actions 49 Active and Passive Tension of Muscle 51 Hill Muscle Model 51 The Limitations of Functional Anatomical Analysis 53 Mechanical Method of Muscle Action Analysis 53 The Need for Biomechanics to Understand Muscle Actions 56 Sports Medicine and Rehabilitation Applications 60 Range of Motion Principle 60 Force Motion Principle 63 Summary 65 Review Questions 66 Key Terms 66 Suggested Reading 66 Web Links 67 CHAPTER 4 Mechanics of the musculoskeletal system Tissue Loads 69 Response of Tissues to Forces 69 Stress 70 Strain 70 Stiffness and Mechanical Strength 71 Viscoelasticity 72 BlOMECHANICS OF THE PASSIVE Muscle Tendon Unit (MTU) 75 blomechanics of bone 76 blomechanics of ligaments 77 Three Mechanical Characteristics of Muscle 79 Force Velocity Relationship 79 Force Length Relationship 84 Force Time Relationship 86 Stretch Shortening Cycle (SSC) 88 Force Time Principle 92 Neuromuscular Control 94 The Functional Unit of Control: Motor Units 94 Regulation of Muscle Force 95 Proprioception of Muscle Action and Movement 99 Summary 100 Review Questions 101 Key Terms 101 Suggested Reading 102 Web Links 103 PART III Mechanical Bases CHAPTER 5 Linear and Angular Kinematics Linear Motion 107 Speed and Velocity 109 Acceleration 113 Uniformly Accelerated Motion 115 Optimal Projection Principle 117 Angular Motion 121 Angular Velocity 122 Angular Acceleration 123 Coordination Continuum Principle 128 Summary 130 Review Questions 130 Key Terms 131 Suggested Reading 131 Web Links 132 CHAPTER 6 Linear Kinetics Laws of Kinetics 133 Newton's Laws of Motion 133 Newton's First Law and First Impressions 133 Newton's Second Law 136 Newton's Third Law 137 Inertia Principle 139 Muscle Angle of Pull: Qualitative and Quantitative Analysis of Vectors 141 Qualitative Vector Analysis of Muscle Angle of Pull 141 Quantitative Vector Analysis of Muscle Angle of Pull 143 Contact Forces 145 Impulse Momentum Relationship 147 Force Time Principle 149 Work Energy Relationship 151 Mechanical Energy 151 Mechanical Work 155 Mechanical Power 157 Segmental Interaction Principle 160 Summary 164 Review Questions 165 Key Terms 166 Suggested Reading 166 Web Links 167 CHAPTER 7 Angular Kinetics Torque 169 Summing Torques 173 Angular Inertia (Moment of Inertia) 174 Newton's Angular Analogues 178 Equilibrium 179 Center of Gravity 180 Principle of Balance 183 Summary 189 Review Questions 190 Key Terms 190 Suggested Reading 191 Web Links 191 CHAPTER 8 Fluid Mechanics Fluids 193 Fluid Forces 193 Buoyancy 193 Drag 195 Lift 200 The Magnus Effect 203 Principle of Spin 208 Summary 210 Key Terms 210 Review Questions 210 Suggested Reading 210 Web Links 211 PART IV Applications of Biomechanics in Qualitative Analysis CHAPTER 9 Applying Biomechanics in Physical Education Qualitative Analysis of Kicking Technique 215 Qualitative Analysis of Batting 218 Qualitative Analysis of the Basketball Free Throw 219 Exercise /Activity Prescription 220 Qualitative Analysis of Catching 222 Summary 224 Discussion Questions 224 Suggested Reading 224 Web Links 225 CHAPTER 10 Applying Biomechanics in Coaching Qualitative Analysis of Throwing Technique 227 Qualitative Analysis of Dribbling Technique 228 Qualitative Analysis of Conditioning 230 Recruitment 231 Qualitative Analysis of Catching 233 Summary 234 Discussion Questions 234 Suggested Reading 234 Web Links 235 chapter i i Applying Biomechanics in Strength and Conditioning Qualitative Analysis of Squat Technique 237 Qualitative Analysis of Drop Jumps 239 Exercise Specificity 240 Injury Risk 242 Equipment 244 Summary 244 Discussion Questions 245 Suggested Reading 246 Web Links 246 CHAPTER 12 Applying Biomechanics in Sports Medicine and Rehabilitation Injury Mechanisms 247 Exercise Specificity 248 Equipment 250 Readiness 251 Injury Prevention 252 Summary 253 Discussion Questions 254 Suggested Reading 254 Web Links 255 References 257 appendix a Glossary 283 appendix b Conversion Factors 297 appendix c Suggested Answers to Selected Review Questions 299 appendix d Right Angle Trigonometry Review 305 appendix e Qualitative Analysis of blomechanical principles 307 Index 309 LAB ACTIVITIES 1 Finding Biomechanical Sources L 2 2 Qualitative and Quantitative Analysis of Range of Motion L 4 3 Functional Anatomy? L 6 4 Muscle Actions and the Stretch Shortening Cycle (SSC) L 8 5A Velocity in Sprinting L 10 5B Accuracy of Throwing Speed Measurements L 12 6A Top Gun Kinetics: Force Motion Principle L 14 6B Impulse Momentum: Force Time Principle L 16 7 A Angular Kinetics of Exercise L 18 7B Calculating Center of Gravity Using Angular Kinetics L 20 8 Magnus Effect in Baseball Pitching L 22 9 Qualitative Analysis of Lead Up Activities L 24 10 Comparison of Skilled and Novice Performance L 26 11 Comparison of Training Modes L 28 12 Qualitative Analysis of Walking Gait L 30
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title	Fundamentals of biomechanics
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title_full	Fundamentals of biomechanics Duane Knudson
title_fullStr	Fundamentals of biomechanics Duane Knudson
title_full_unstemmed	Fundamentals of biomechanics Duane Knudson
title_short	Fundamentals of biomechanics
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