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Introduction And Mathematical Concept | |
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The Nature of Physics | |
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Units | |
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The role of Units in Problem Solving | |
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Trigonometry | |
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Scalars and Vectors | |
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Vector Addition and Subtraction | |
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The Components of a Vector | |
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Addition of Vectors by Means of Components | |
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Concepts & Calculations | |
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Concept Summary | |
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Kinematics In One Dimension | |
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Displacement | |
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Speed and Velocity | |
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Acceleration | |
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Equations of Kinematics for Constant Acceleration | |
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Applications of the Equations of Kinematics | |
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Freely Falling Bodies | |
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Graphical Analysis of Velocity and Acceleration | |
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Concepts & Calculations | |
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Concept Summary | |
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Kinematics In Two Dimension | |
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Displacement, Velocity, and Acceleration | |
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Equations of Kinematics in Two Dimensions | |
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Projectile Motion | |
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Relative Velocity | |
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Concepts & Calculations | |
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Concept Summary | |
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Forces And Newton'S Laws Of Motion | |
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The Concepts of Force and Mass | |
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Newton's First Law of Motion | |
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Newton's Second Law of Motion | |
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The Vector's Nature of Newton's Second Law of Motion | |
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Newton's Third Law of Motion | |
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Types of Forces: An Overview | |
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The Gravitational Force | |
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The Normal Force | |
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Static and Kinetic Frictional Forces | |
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The Tension Force | |
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Equilibrium Applications of Newton's Laws of Motion | |
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Nonequilibrium Applications of Newton's Laws of Motion | |
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Concepts & Calculations | |
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Concept Summary | |
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Dynamics Of Uniform Circular Motion | |
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Uniform Circular Motion | |
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Centripetal Acceleration | |
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Centripetal Force | |
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Banked Curves | |
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Satellites in Circular Orbits | |
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Apparent Weightlessness and Artificial Gravity | |
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Vertical Circular Motion | |
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Concepts & Calculations | |
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Concept Summary | |
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Work And Energy | |
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Work Done by a Constant Force | |
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The Work-Energy Theorem and Kinetic Energy | |
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Gravitational Potential Energy | |
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Conservative Versus Nonconservative Forces | |
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The Conservation of Mechanical Energy | |
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Nonconservative Forces and the Work-Energy Theorem | |
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Power | |
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Other Forms of Energy and the Conservation of Energy | |
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Work Done by a Variable Force | |
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Concepts & Calculations | |
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Concept Summary | |
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Impulse And Momentum | |
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The Impulse-Momentum Theorem | |
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The Principle of Conservation of Linear Momentum | |
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Collisions in One Dimension | |
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Collisions in Two Dimension | |
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Center of Mass | |
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Concepts & Calculations | |
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Concept Summary | |
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Rotational Kinematics | |
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Rotational Motion and Angular Displacement | |
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Angular Velocity and Angular Acceleration | |
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The Equations of Rotational Kinematics | |
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Angular Variables and Tangential Variables | |
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Centripetal Acceleration and Tangential Acceleration | |
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Rolling Motion | |
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The Vector Nature of Angular Variables | |
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Concepts & Calculations | |
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Concept Summary | |
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Rotational Dynamics | |
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The Action of Forces and Torques on Rigid Objects | |
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Rigid Objects in Equilibrium | |
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Center of Gravity | |
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Newton's Second Law | |
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Rotational Work and Energy | |
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Angular Momentum | |
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Concepts & Calculations | |
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Concept Summary | |
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Simple Harmonic Motion And Elasticity | |
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The Ideal Spring and Simple Harmonic Motion | |
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Simple harmonic Motion | |
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Energy and Simple Harmonic Motion | |
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The Pendulum | |
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Damped Harmonic Motion | |
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Driven Harmonic Motion and Resonance | |
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Elastic Deformation | |
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Stress, Strain, and Hooke's Law | |
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Concepts & Calculations | |
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Concept Summary | |
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Fluids | |
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Mass Density | |
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Pressure | |
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Pressure and Depth in a Static Fluid | |
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Pressure gauges | |
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Pascal's Principle | |
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Archimedes' Principle | |
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Fluids in Motion | |
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The Equation of Continuity | |
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Bernoulli's Equation | |
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Applications of Bernoulli's Equation | |
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Viscous Flow | |
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Concepts & Calculations | |
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Concept Summary | |
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Temperature And Heat | |
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Common Temperature Scales | |
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The Kelvin Temperature Scale | |
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Thermometers | |
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Linear Thermal Expansion | |
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Volume Thermal Expansion | |
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Heat and Internal Energy | |
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Heat and Temperature Change: Specific Heat Capacity | |
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Heat and Phase Change: Latent Heat | |
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Equilibrium Between Phases of Matter | |
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Humidity | |
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Concepts & Calculations | |
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Concept Summary | |
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The Transfer Of Heat | |
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Convection | |
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Conduction | |
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Radiation | |
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Applications | |
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Concepts & Calculations | |
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Concept Summary | |
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The Ideal Gas Law And Kinetic Theory | |
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Molecular Mass, The Mole, and Avogadro's Number | |
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The Ideal Gas Law | |
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Kinetic Theory of Gases | |
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Diffusion | |
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Concepts & Calculations | |
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Concept Summary | |
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Thermodynamic Systems and Their Surroundings | |
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The Zeroth Law of Thermodynamics | |
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The First Law of Thermodynamics | |
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Thermal Processes | |
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Thermal Processes Using an Ideal Gas | |
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Specific Heat Capacities | |
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The Second Law of Thermodynamics | |
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Heat Engines | |
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Carnot's Principle and the Carnot Engine | |
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Refrigerators, Air Conditioners, and Heat Pumps | |
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Entropy | |
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The Third Law of Thermodynamics | |
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Concepts & Calculations | |
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Concept Summary | |
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Waves And Sound | |
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The Nature of Waves | |
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Periodic Waves | |
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The Speed of a Wave on a String | |
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The Mathematical Description of a Wave | |
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The Nature of Sound | |
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The Speed of Sound | |
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Sound Intensity | |
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Decibels | |
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The Doppler Effect | |
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pplications of Sound in Medicine | |
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he Sensitivity of the Human Ear | |
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oncepts & Calculations | |
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Concept Summary | |
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The Principle Of Linear Superposition And Interference Phenomena | |
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The Principle of Linear Superposition | |
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Constructive and Destructive Interference of Sound Waves | |
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Diffraction | |
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Beats | |
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Transverse Standing Waves | |
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Longitudinal Standing Waves | |
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Complex Sound Waves | |
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Concepts & Calculations | |
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