목차정보
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Introduction Engineering and Mechanics Learning Mechanics Fundamental Concepts Units Motion of a Point Position,Velkocity,and Acceleation Straight-Line Motion Curvilinear Motion Orbital Mechanics Relative Motion Force,Mass,and Acceleration Newton's Second Law Inertial Reference Frames Equation of Motiton for the Center of Mass Applications Energy Methods Work and Kinetic Energy Principle of Work and Energy Work and Power Potential Energy Conservationof Energy Conservative Forces Momentum Methods Principle of Impulse and Momentum Conservation of Linear Momentum Impacts Angular Momentum Mass Flows Planar Kinematics of Rigid Bodies Rigid Bodies and Types of Motion Rotation About a Fixed Axis General Motions: Velocities General Motions:Accelerations Siding Contacts Rotating Coordinate Systems Two-Dimensinal Dyamics of Rigid Bodies Preview of the Equations of Motion Momentum Principles for a System of Particles Derivation of the Equationsof Motion Applications D'Alembert's Principle Appendix:Moments of Inertia Energy and Momentum in Planar Rigid-Body Dynamics Principle of Work and Energy Work and Potential Energy Power Principles of Impulse and Monentum Impacts Three-Dimensional Kinematics and Dynamics of Rigid Bodies Kinematics Angular Momentum Moments and Produxts of Inertia Euler's Equations Eulerian Angles Vibrations LConservative Systems Damped Vibrations Forced Vibrations Appendices/Reiew of Mathematics Properties of Areas and Lines Properties of volumes and Homogeneous Objects Spherical Coordinates Answers to Even-Numbered Problems |