Harlow, England : , : Pearson, , [2014]

©2014

1-292-03508-0

1 online resource (996 pages) : color illustrations, photographs

Always Learning

530

Physics

Inglese

Includes index.

Cover -- Table of Contents -- Preface -- 1. Units, Physical Quantities, and Vectors -- 1. The Nature of Physics -- 2. Solving Physics Problems -- 3. Standards and Units -- 4. Unit Consistency and Conversion -- 5. Uncertainty and Significant Figures -- 6. Estimates and Orders of Magnitude -- 7. Vectors and Vector Addition -- 8. Components of Vectors -- 9. Unit Vectors -- 10. Products of Vectors -- Chapter Summary -- Problem Set (13/e): Units, Physical Quantities, and Vectors -- 2. Motion Along a Straight Line -- 1. Displacement, Time, and Average Velocity -- 2. Instantaneous Velocity -- 3. Average and Instantaneous Acceleration -- 4. Motion with Constant Acceleration -- 5. Freely Falling Bodies -- 6. Velocity and Position by Integration -- Chapter Summary -- Problem Set (13/e): Motion Along a Straight Line -- 3. Motion in Two or Three Dimensions -- 1. Position and Velocity Vectors -- 2. The Acceleration Vector -- 3. Projectile Motion -- 4. Motion in a Circle -- 5. Relative Velocity -- Chapter Summary -- Problem Set (13/e): Motion in Two or Three Dimensions -- 4. Newton's Laws of Motion -- 1. Force and Interactions -- 2. Newton's First Law -- 3. Newton's Second Law -- 4. Mass and Weight -- 5. Newton's Third Law -- 6. Free-Body Diagram -- Chapter Summary -- Problem Set (13/e): Newton's Laws of Motion -- 5. Applying Newton's Laws -- 1. Using Newton's First Law: Particles in Equilibrium -- 2. Using Newton's Second Law: Dynamics of Particles -- 3. Frictional Forces -- 4. Dynamics of Circular Motion -- 5. The Fundamental Forces of Nature

-- Chapter Summary -- Problem Set (13/e): Applying Newton's Laws -- 6. Work and Kinetic Energy -- 1. Work -- 2. Kinetic Energy and the Work-Energy Theorem -- 3. Work and Energy with Varying Forces -- 4. Power -- Chapter Summary -- Problem Set (13/e): Work and Kinetic Energy -- 7. Potential Energy and Energy Conservation.

1. Gravitational Potential Energy -- 2. Elastic Potential Energy -- 3. Conservative and Nonconservative Forces -- 4. Force and Potential Energy -- 5. Energy Diagrams -- Chapter Summary -- Problem Set (13/e): Potential Energy and Energy Conservation -- 8. Momentum, Impulse, and Collisions -- 1. Momentum and Impulse -- 2. Conservation of Momentum -- 3. Momentum Conservation and Collisions -- 4. Elastic Collisions -- 5. Center of Mass -- 6. Rocket Propulsion -- Chapter Summary -- Problem Set (13/e): Momentum, Impulse, and Collisions -- 9. Rotation of Rigid Bodies -- 1. Angular Velocity and Acceleration -- 2. Rotation with Constant Angular Acceleration -- 3. Relating Linear and Angular Kinematics -- 4. Energy in Rotational Motion -- 5. Parallel-Axis Theorem -- 6. Moment-of-Inertia Calculations -- Chapter Summary -- Problem Set (13/e): Rotation of Rigid Bodies -- 10. Dynamics of Rotational Motion -- 1. Torque -- 2. Torque and Angular Acceleration for a Rigid Body -- 3. Rigid-Body Rotation About a Moving Axis -- 4. Work and Power in Rotational Motion -- 5. Angular Momentum -- 6. Conservation of Angular Momentum -- 7. Gyroscopes and Precession -- Chapter Summary -- Problem Set (13/e): Dynamics of Rotational Motion -- 11. Equilibrium and Elasticity -- 1. Conditions for Equilibrium -- 2. Center of Gravity -- 3. Solving Rigid-Body Equilibrium Problems -- 4. Stress, Strain, and Elastic Moduli -- 5. Elasticity and Plasticity -- Chapter Summary -- Problem Set (13/e): Equilibrium and Elasticity -- 12. Fluid Mechanics -- 1. Density -- 2. Pressure in a Fluid -- 3. Buoyancy -- 4. Fluid Flow -- 5. Bernoulli's Equation -- 6. Viscosity and Turbulence -- Chapter Summary -- Problem Set (13/e): Fluid Mechanics -- 13. Gravitation -- 1. Newton's Law of Gravitation -- 2. Weight -- 3. Gravitational Potential Energy -- 4. The Motion of Satellites.

5. Kepler's Laws and the Motion of Planets -- 6. Spherical Mass Distributions -- 7. Apparent Weight and the Earth's Rotation -- 8. Black Holes -- Chapter Summary -- Problem Set (13/e): Gravitation -- 14. Periodic Motion -- 1. Describing Oscillation -- 2. Simple Harmonic Motion -- 3. Energy in Simple Harmonic Motion -- 4. Applications of Simple Harmonic Motion -- 5. The Simple Pendulum -- 6. The Physical Pendulum -- 7. Damped Oscillations -- 8. Forced Oscillations and Resonance -- Chapter Summary -- Problem Set (13/e): Periodic Motion -- 15. Mechanical Waves -- 1. Types of Mechanical Waves -- 2. Periodic Waves -- 3. Mathematical Description of a Wave -- 4. Speed of a Transverse Wave -- 5. Energy in Wave Motion -- 6. Wave Interference, Boundary Conditions, and Superposition -- 7. Standing Waves on a String -- 8. Normal Modes of a String -- Chapter Summary -- Problem Set (13/e): Mechanical Waves -- 16. Sound and Hearing -- 1. Sound Waves -- 2. Speed of Sound Waves -- 3. Sound Intensity -- 4. Standing Sound Waves and Normal Modes -- 5. Resonance and Sound -- 6. Interference of Waves -- 7. Beats -- 8. The Doppler Effect -- 9. Shock Waves -- Chapter Summary -- Problem Set (13/e): Sound and Hearing -- 17. Temperature and Heat -- 1. Temperature and Thermal Equilibrium -- 2. Thermometers and Temperature Scales -- 3. Gas Thermometers and the Kelvin Scale -- 4. Thermal Expansion -- 5. Quantity of Heat -- 6. Calorimetry and Phase Changes -- 7. Mechanisms of Heat Transfer -- Chapter Summary -- Problem Set (13/e): Temperature and Heat -- 18. Thermal Properties of Matter -- 1. Equations of State -- 2. Molecular Properties of Matter -- 3. Kinetic-

Molecular Model of an Ideal Gas -- 4. Heat Capacities -- 5. Molecular Speeds -- 6. Phases of Matter -- Chapter Summary -- Problem Set (13/e): Thermal Properties of Matter -- 19. The First Law of Thermodynamics.

1. Thermodynamic Systems -- 2. Work Done During Volume Changes -- 3. Paths Between Thermodynamic States -- 4. Internal Energy and the First Law of Thermodynamics -- 5. Kinds of Thermodynamic Processes -- 6. Internal Energy of an Ideal Gas -- 7. Heat Capacities of an Ideal Gas -- 8. Adiabatic Processes for an Ideal Gas -- Chapter Summary -- Problem Set (13/e): The First Law of Thermodynamics -- 20. The Second Law of Thermodynamics -- 1. Directions of Thermodynamic Processes -- 2. Heat Engines -- 3. Internal-Combustion Engines -- 4. Refrigerators -- 5. The Second Law of Thermodynamics -- 6. The Carnot Cycle -- 7. Entropy -- 8. Microscopic Interpretation of Entropy -- Chapter Summary -- Problem Set (13/e): The Second Law of Thermodynamics -- Appendix: The International System of Units -- Appendix: Periodic Table of the Elements -- Appendix: Unit Conversion Factors -- Problem Set (13/e): Units, Physical Quantities, and Vectors -- Problem Set (13/e): Motion Along a Straight Line -- Problem Set (13/e): Motion in Two or Three Dimensions -- Problem Set (13/e): Newton's Laws of Motion -- Problem Set (13/e): Applying Newton's Laws -- Problem Set (13/e): Work and Kinetic Energy -- Problem Set (13/e): Potential Energy and Energy Conservation -- Problem Set (13/e): Momentum, Impulse, and Collisions -- Problem Set (13/e): Rotation of Rigid Bodies -- Problem Set (13/e): Dynamics of Rotational Motion -- Problem Set (13/e): Equilibrium and Elasticity -- Problem Set (13/e): Fluid Mechanics -- Problem Set (13/e): Gravitation -- Problem Set (13/e): Periodic Motion -- Problem Set (13/e): Mechanical Waves -- Problem Set (13/e): Sound and Hearing -- Problem Set (13/e): Temperature and Heat -- Problem Set (13/e): Thermal Properties of Matter -- Problem Set (13/e): The First Law of Thermodynamics -- Problem Set (13/e): The Second Law of Thermodynamics -- Index -- A -- B -- C.

D -- E -- F -- G -- H -- I -- J -- K -- L -- M -- N -- O -- P -- Q -- R -- S -- T -- U -- V -- W -- X -- Y -- Z.

University Physics with Modern Physics, Technology Update, Thirteenth Edition continues to set the benchmark for clarity and rigor combined with effective teaching and research-based innovation.       The Thirteenth Edition Technology Update contains QR codes throughout the textbook, enabling students to use their smartphone or tablet to instantly watch interactive videos about relevant demonstrations or problem-solving strategies.   University Physics is known for its uniquely broad, deep, and thoughtful set of worked examples-key tools for developing both physical understanding and problem-solving skills. The Thirteenth Edition revises all the Examples and Problem-solving Strategies to be more concise and direct while maintaining the Twelfth Edition's consistent, structured approach and strong focus on modeling as well as math. To help students tackle challenging as well as routine problems, the Thirteenth Edition adds Bridging Problems to each chapter, which pose a difficult, multiconcept problem and provide a skeleton solution guide in the form of questions and hints.      The text's rich problem sets-developed and refined over six decades-are upgraded to include larger numbers of problems that are biomedically oriented or require calculus. The problem-set revision is driven by detailed student-performance data gathered nationally through MasteringPhysics®, making it possible to fine-tune the reliability, effectiveness, and difficulty of individual problems.      Complementing the clear and accessible text, the figures use a simple

graphic style that focuses on the physics. They also incorporate explanatory annotations-a technique demonstrated to enhance learning.      This package consists of:  University Physics with Modern Physics Technology Update, Volume 1 (Chapters 1-20), Thirteenth Edition.