Presents a straightforward approach to the basic principles, theories and applications of biomechanics, and provides numerous techniques and examples for approaching biomechanical situations. LeVeau uses clearly defined, concise terms and real-life applications rather than advanced mathematics to make teaching and learning biomechanics easier.
Presents a straightforward approach to the basic principles, theories and applications of biomechanics, and provides numerous techniques and examples for approaching biomechanical situations. LeVeau uses clearly defined, concise terms and real-life applications rather than advanced mathematics to make teaching and learning biomechanics easier.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. LeVeau earned his BS degree in Education with emphasis in mathematics, physics, and physical education at the University of Colorado in Boulder, CO; his Certificate in Physical Therapy from the Mayo Clinic in Rochester, MN; his MS in Physical Education from the University of Colorado; and his PhD in Biomechanics from Pennsylvania State University in University Park, PA. He has taught mathematics and science at Horace Mann Jr. High School in Colorado Springs, CO, and served as faculty in physical education and physical therapy departments at West Chester State College in West Chester, PA; University of North Carolina at Chapel Hill, NC; University of Texas Southwestern Medical Center at Dallas, TX; Georgia State University in Atlanta, GA; and Alabama State University in Montgomery, AL. He has published several research articles, book chapters, and 2 textbook editions related to biomechanics content. His texts have been translated in Spanish, French, and Italian. He has lectured nationally and internationally on topics covering biomechanics.
Inhaltsangabe
Introduction Chapter 1: Force Definition, Description, and Scope Force Types of Force Gravitational Contact Frictional Muscular Inertial Elastic Buoyant Electromagnetic (Eddy Currents) Related Terms Torque Strength Load Pressure Fluids in an Open Container Fluids in a Closed Container Mass Moment of Inertia Work Efficiency Energy Power NewtonÆs Laws of Motion Chapter 2: Strength of Materials Loading Three Principle Stresses and Strains Axial Loads Bending Loads Torsion Loads Rheological Properties Elasticity Viscosity Plasticity Stress-Strain Relationship Effects of Loading Biological Tissue Chapter 3: Composition and Resolution of Forces Introduction Composition Graphic Method (Triangular) Graphic Method (Parallelogram) Mathematical Method Linear Force System Concurrent Force System Resolution
Introduction Chapter 1: Force Definition, Description, and Scope Force Types of Force Gravitational Contact Frictional Muscular Inertial Elastic Buoyant Electromagnetic (Eddy Currents) Related Terms Torque Strength Load Pressure Fluids in an Open Container Fluids in a Closed Container Mass Moment of Inertia Work Efficiency Energy Power NewtonÆs Laws of Motion Chapter 2: Strength of Materials Loading Three Principle Stresses and Strains Axial Loads Bending Loads Torsion Loads Rheological Properties Elasticity Viscosity Plasticity Stress-Strain Relationship Effects of Loading Biological Tissue Chapter 3: Composition and Resolution of Forces Introduction Composition Graphic Method (Triangular) Graphic Method (Parallelogram) Mathematical Method Linear Force System Concurrent Force System Resolution
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