Robert Resnick (1923–2014)

Indeholder "Preface to Part I", "Preface to 1960 Edition", "Preface to Part II, Second Edition", "1. Measurement", " 1-1 Measurement", " 1-2 Physical Quantities, Standards, and Units", " 1-3 Reference Frames", " 1-4 The Standard of Length", " 1-5 The Standard of Time", " 1-6 Systems of Units", "2. Vectors", " 2-1 Vectors and Scalars", " 2-2 Addition of Vectors, Geometric Method", " 2-3 Resolution and Addition of Vectors, Analytic Method", " 2-4 Multiplication of Vectors", " 2-5 Vectors and the Laws of Physics", "3. Motion in One Dimension", " 3-1 Mechanics", " 3-2 Particle Kinematics", " 3-3 Average Velocity", " 3-4 Instantaneous Velocity", " 3-5 One-Dimensional Motion - Variable Velocity", " 3-6 Acceleration", " 3-7 One-Dimensional Motion - Variable Acceleration", " 3-8 One-Dimensional Motion - Constant Acceleration", " 3-9 Consistency of Units and Dimensions", " 3-10 Freely Falling Bodies", " 3-11 Equations of Motion in Free Fall", "4. Motion in a Plane", " 4-1 Displacement, Velocity, and Acceleration", " 4-2 Motion in a Plane with Constant Acceleration", " 4-3 Projectile Motion", " 4-4 Uniform Circular Motion", " 4-5 Tangential Acceleration in Circular Motion", " 4-6 Relative Velocity and Acceleration", "5. Particle Dynamics - I", " 5-1 Classical Mechanics", " 5-2 Newton's First Law", " 5-3 Force", " 5-4 Mass; Newton's Second Law", " 5-5 Newton's Third Law of Motion", " 5-6 Systems of Mechanical Units", " 5-7 The Force Laws", " 5-8 Weight and Mass", " 5-9 A Static Procedure for Measuring Forces", " 5-10 Some Applications of Newton's Laws of Motion", "6. Particle Dynamics - II", " 6-1 Introduction", " 6-2 Frictional Forces", " 6-3 The Dynamics of Uniform Circular Motion", " 6-4 Forces and Pseudo-Forces", " 6-5 Classical Mechanics, Relativistic Mechanics and Quantum Mechanics", "7. Work and Energy", " 7-1 Introduction", " 7-2 Work Done by a Constant Force", " 7-3 Work Done by a Variable Force - One-Dimensional Case", " 7-4 Work Done by a Variable Force - Two-Dimensional Case", " 7-5 Kinetic Energy and the Work-Energy Theorem", " 7-6 Significance of the Work-Energy Theorem", " 7-7 Power", "8. The Conservation of Energy", " 8-1 Introduction", " 8-2 Conservative Forces", " 8-3 Potential Energy", " 8-4 One-Dimensional Conservative Systems", " 8-5 The Complete Solution of the Problem for One Dimensional Forces Depending on Position Only", " 8-6 Two and Three-Dimensional Conservation Systems", " 8-7 Nonconservative Forces", " 8-8 The Conservation of Energy", " 8-9 Mass and Energy", "9. Conservation of Linear Momentum", " 9-1 Center of Mass", " 9-2 Motion of the Center of Mass", " 9-3 Linear Momentum of a Particle", " 9-4 Linear Momentum of a System of Particles", " 9-5 Conservation of Linear Momentum", " 9-6 Some Applications of the Momentum Principle", " 9-7 Systems of Variable Mass", "10. Collisions", " 10-1 What is a Collision?", " 10-2 Impulse and Momentum", " 10-3 Conservation of Momentum during Collisions", " 10-4 Collisions in One Dimension", " 10-5 The "True" Measure of a Force", " 10-6 Collisions in Two and Three Dimensions", " 10-7 Cross Section", " 10-8 Reactions and Decay Processes", "11. Rotational Kinematics", " 11-1 Rotational Motion", " 11-2 Rotational Kinematics - the Variables", " 11-3 Rotation with Constant Angular Acceleration", " 11-4 Rotational Quantities as Vectors", " 11-5 Relation between Linear and Angular Kinematics for a Particle in Circular Motion - Scalar Form", " 11-6 Relation between Linear and Angular Kinematics for a Particle in Circular Motion - Vector Form", "12. Rotational Dynamics I", " 12-1 Introduction", " 12-2 Torque Acting on a Particle", " 12-3 Angular Momentum of a Particle", " 12-4 Systems of Particles", " 12-5 Kinetic Energy of Rotation and Rotational Inertia", " 12-6 Rotational Dynamics of a Rigid Body", " 12-7 The Combined Translational and Rotational Motion of a Rigid Body", "13. Rotational Dynamics II and the Conservation of Angular Momentum", " 13-1 Introduction", " 13-2 The Top", " 13-3 Angular Momentum and Angular Velocity", " 13-4 Conservation of Angular Momentum", " 13-5 Some Other Aspects of the Conservation of Angular Momentum", " 13-6 Rotational Dynamics - A Review", "14. Equilibrium of Rigid Bodies", " 14-1 Rigid Bodies", " 14-2 The Equilibrium of a Rigid Body", " 14-3 Center of Gravity", " 14-4 Examples of Equilibrium", " 14-5 Stable, Unstable, and Neutral Equilibrium of Rigid Bodies in a Gravitational Field", "15. Oscillations", " 15-1 Oscillations", " 15-2 The Simple Harmonic Oscillator", " 15-3 Simple Harmonic Motion", " 15-4 Energy Considerations in Simple Harmonic Motion", " 15-5 Applications of Simple Harmonic Motion", " 15-6 Relation between Simple Harmonic Motion and Uniform Circular Motion", " 15-7 Combinations of Harmonic Motions", " 15-8 Two-Body oscillations", " 15-9 Damped Harmonic Motion", " 15-10 Forced Oscillations and Resonance", "16. Gravitation", " 16-1 Historical Introduction", " 16-2 The Law of Universal Gravitation", " 16-3 The Constant of Universal Gravitation, G", " 16-4 Inertial and Gravitational Mass", " 16-5 Variations in Acceleration Due to Gravity", " 16-6 Gravitational Effect of a Spherical Distribution of Mass", " 16-7 The Motions of Planets and Satellites", " 16-8 The Gravitational Field", " 16-9 Gravitational Potential Energy", " 16-10 Potential Energy for Many-Particle Systems", " 16-11 Energy Considerations in the Motions of Planets and Satellites", " 16-12 The Earth as an Inertial Reference Frame", " 16-13 The Principle of Equivalence", "17. Fluid Statics", " 17-1 Fluids", " 17-2 Pressure and Density", " 17-3 The Variation of Pressure in a Fluid at Rest", " 17-4 Pascal's Principle and Archimedes' Principle", " 17-5 Measurement of Pressure", "18. Fluid Dynamics", " 18-1 General Concepts of Fluid Flow", " 18-2 Streamlines", " 18-3 The Equation of Continuity", " 18-4 Bernoulli's Equation", " 18-5 Applications of Bernoulli's Equation and the Equation of Continuity", " 18-6 Conservation of Momentum in Fluid Mechanics", " 18-7 Fields of Flow", "19. Waves in Elastic Media", " 19-1 Mechanical Waves", " 19-2 Types of Waves", " 19-3 Traveling Waves", " 19-4 The Superposition Principle", " 19-5 Wave Speed", " 19-6 Power and Intensity in Wave Motion", " 19-7 Interference of Waves", " 19-8 Complex Waves", " 19-9 Standing Waves", " 19-10 Resonance", "20. Sound Waves", " 20-1 Audible, Ultrasonic, and infrasonic Waves", " 20-2 Propagation and Speed of Longitudinal Waves", " 20-3 Traveling Longitudinal Waves", " 20-4 Standing Longitudinal Waves", " 20-S Vibrating Systems and Sources of Sound", " 20-6 Beats", " 20-7 The Doppler Effect", "21. Temperature", " 21-1 Macroscopic and Microscopic Descriptions", " 21-2 Thermal Equilibrium - The Zeroth Law of Thermodynamics", " 21-3 Measuring Temperature", " 21-4 The Constant Volume Gas Thermometer", " 21-5 Ideal Gas Temperature Scale", " 21-6 The Celsius and Fahrenheit Scales", " 21-7 The International Practical Temperature Scale", " 21-8 Temperature Expansion", "22. Heat and the First Law of Thermodynamics", " 22-1 Heat, a Form of Energy", " 22-2 Quantity of Heat and Specific Heat", " 22-3 Molar Heat Capacities of Solids", " 22-4 Heat Conduction", " 22-5 The Mechanical Equivalent of Heat", " 22-6 Heat and Work", " 22-7 The first Law of Thermodynamics", " 22-8 Some Applications of the First Law of Thermodynamics", "23. Kinetic Theory of Gases - I", " 23-i Introduction", " 23-2 Ideal Gas - A Macroscopic Description", " 23-3 An Ideal Gas - Microscopic Definition", " 23-4 Kinetic Calculation of the Pressure", " 23-5 Kinetic Interpretation of Temperature", " 23-6 Intermolecular Forces", " 23-7 Specific Heats of an Ideal Gas", " 23-8 Equipartition of Energy", "24. Kinetic Theory of Gases - II", " 24-1 Mean Free Path", " 24-2 Distribution of Molecular Speeds", " 24-3 Experimental Confirmation of the Maxwellian Distribution", " 24-4 Brownian Motion", " 24-5 The van der Waals Equation of State", "25. Entropy and the Second Law of Thermodynamics", " 25-1 Introduction", " 25-2 Reversible and Irreversible Processes", " 25-3 The Carnot Cycle", " 25-4 The Second Law of Thermodynamics", " 25-5 The Efficiency of Engines", " 25-6 The Thermodynamic Temperature Scale", " 25-7 Entropy - Reversible Processes", " 25-8 Entropy - Irreversible Processes", " 25-9 Entropy and the Second Law", " 25-10 Entropy and Disorder", "26. Charge and Matter", " 26-1 Electromagnetism - a Preview", " 26-2 Electric Charge", " 26-3 Conductors and Insulators", " 26-4 Coulomb's Law", " 26-5 Charge Is Quantized", " 26-6 Charge and Matter", " 26-7 Charge Is Conserved", "27. The Electric Field", " 27-1 The Electric Field", " 27-2 The Electric Field E", " 27-3 Lines of Force", " 27-4 Calculation of E", " 27-5 A Point Charge in An Electric Field", " 27-6 A Dipole in An Electric Field", "28. Gauss' Law", " 28-1 Introduction", " 28-2 Flux", " 28-3 Flux of the Electric Field", " 28-4 Gauss' Law", " 28-5 Gauss' Law and the Coulomb's Law", " 28-6 An Insulated Conductor", " 28-7 Experimental Proof of Gauss' Law and Coulomb's Laws", " 28-8 Gauss' Law - Somme Applications", " 28-9 The Nuclear Model of the Atom", "29. Electric Potential", " 29-1 Electric Potential", " 29-2 Potential and the Electric Field", " 29-3 Potential Due to a Point Charge", " 29-4 A Group of Point Charges", " 29-5 Potential Due to a Dipole", " 29-6 Electric Potential Energy", " 29-7 Calculation of E from V", " 29-8 An Insulated Conductor", " 29-9 The Electrostatic Generator", "30. Capacitors and Dielectrics", " 30-1 Capacitance", " 30-2 Calculating Capacitance", " 30-3 Energy Storage in an Electric Field", " 30-4 Parallel-Plate Capacitor with Dielectric", " 30-5 Dielectrics - An Atomic View", " 30-6 Dielectrics and Gauss' Law", " 30-7 Three Electric Vectors", "31. Current and Resistance", " 31-1 Current and Current Density", " 31-2 Resistance, Resistivity, and Conductivity", " 31-3 Ohm's Law", " 31-4 Ohm's Law - A Microscopic View", " 31-5 Energy Transfers in an Electric Circuit", "32. Electromotive Force and Circuits", " 32-1 Electromotive Force", " 32-2 Calculating the Current", " 32-3 Other Single Loop Circuits", " 32-4 Potential Differences", " 32-5 Multiloop Circuits", " 32-6 Measuring Currents and Potential Differences", " 32-7 The Potentiometer", " 32-8 RC Circuits", "33. The Magnetic Field", " 33-1 The Magnetic Field", " 33-2 The Definition of B", " 33-3 Magnetic Force on a Current", " 33-4 Torque on a Current Loop", " 33-5 The Hall Effect", " 33-6 Circulation Charges", " 33-7 The Cyclotron", " 33-8 Thomson's Experiment", "34. Ampère's Law", " 34-1 Ampère's Law", " 34-2 B Near a Long Wire", " 34-3 Magnetic Lines of Induction", " 34-4 Two Parallel Conductors", " 34-5 B for a Solenoid", " 34-6 The Biot-Savart Law", "35. Faraday's Law of Induction", " 35-1 Faraday's Experiments", " 35-2 Faraday's Law of Induction", " 35-3 Lenz' Law", " 35-4 Induction - A quantitative Study", " 35-5 Time-Varying Magnetic Fields", " 35-6 The Betatron", " 35-7 Induction and Relative Motion", "36. Inductance", " 36-1 Inductance", " 36-2 Calculation of Inductance", " 36-3 An LR Circuit", " 36-4 Energy and the Magnetic Field", " 36-5 Energy Density and the Magnetic Field", "37. Magnetic Properties of Matter", " 37-1 Poles and Dipoles", " 37-2 Gauss' Law for Magnetism", " 37-3 Paramagnetism", " 37-4 Diamagnetism", " 37-5 Ferromagnetism", " 37-6 Nuclear Magnetism", " 37-7 Three Magnetic Vectors", "38. Electromagnetic Oscillations", " 38-1 LC Oscillations", " 38-2 Analogy to Simple Harmonic Motion", " 38-3 Electromagnetic Oscillations - Quantitative", " 38-4 Forced Oscillations and Resonance", " 38-5 Lumped and Distributed Elements", " 38-6 Electromagnetic Resonant Cavity", " 38-7 Induced Magnetic Fields", " 38-8 Displacement Current", " 38-9 Maxwell's Equations", " 38-10 Maxwell's Equations and Cavity Oscillations", "39. Electromagnetic Waves", " 39-1 Transmission Lines", " 39-2 Coaxial Cable - Fields and Currents", " 39-3 Waveguide", " 39-4 Radiation", " 39-5 Traveling Waves and Maxwell's Equations", " 39-6 The Poynting Vector", "40. The Nature and Propagation of Light", " 40-1 Light and the Electromagnetic Spectrum", " 40-2 Energy and Momentum", " 40-3 The Speed of Light ", " 40-4 Moving Sources and Observers", " 40-5 Doppler Effect", "41. Reflection and Refraction - Plane Waves and Plane Surfaces", " 41-1 Reflection and Refraction", " 41-2 Huygens' Principle", " 41-3 Huygens' Principle and the Law of Reflection", " 41-4 Huygens' Principle and the Law of Refraction", " 41-5 Total Internal Reflection", " 41-6 Fermat's Principle", "42. Reflection and Refraction - Spherical Waves and Spherical Surfaces", " 42-1 Geometrical Optics and Wave Optics", " 42-2 Spherical Waves - Plane Mirror", " 42-3 Spherical Waves - Spherical Mirror", " 42-4 Spherical Refracting Surface", " 42-5 Thin Lenses", "43. Interference", " 43-1 Young's Experiment", " 43-2 Coherence", " 43-3 Intensity in Young's Experiment", " 43-4 Adding Wave Disturbances", " 43-5 Interference in Thin Films", " 43-6 Optical Reversibility and Phase Changes on Reflection", " 43-7 Michelson's Interferometer", " 43-8 Michelson's Interferometer and Light Propagation", "44. Diffraction", " 44-1 Introduction", " 44-2 Single Slit", " 44-3 Single Slit - Qualitative", " 44-4 Single Slit - Quantitative", " 44-5 Diffraction at a Single Aperture", " 44-6 Double Slit Interference and Diffraction Combined", "45. Gratings and Spectra", " 45-1 Introduction", " 45-2 Multiple Slits", " 45-3 Diffraction Gratings", " 45-4 Resolving Power of a Grating", " 45-5 X-Ray Diffraction", " 45-6 Bragg's Law", "46. Polarization", " 46-1 Polarization", " 46-2 Polarizing Sheets", " 46-3 Polarization by Reflection", " 46-4 Double Refraction", " 46-5 Circular Polarization", " 46-6 Angular Momentum of Light", " 46-7 Scattering of Light", " 46-8 Double Scattering", "47. Light and Quantum Physics", " 47-1 Sources of Light", " 47-2 Cavity Radiators", " 47-3 Planck's Radiation Formula", " 47-4 Photoelectric Effect", " 47-5 Einstein's Photon Theory", " 47-6 The Compton Effect", " 47-7 Line Spectra", " 47-8 The Hydrogen Atom", " 47-9 The Correspondence Principle", "48. Waves and Particles", " 48-1 Matter Waves", " 48-2 Atomic Structure and Standing Waves", " 48-3 Wave Mechanics", " 48-4 Meaning of Ψ (Psi)", " 48-5 The Uncertainty Principle", "Supplementary Topics", " I. Relation between Linear and Angular Kinematics for a Particle Moving in a Plane", " II. Polar Vectors and Axial Vectors", " III. The Wave Equation for a Stretched String", " IV. Derivation of Maxwell's Speed Distribution Law", " V. The Differential Form of Maxwell's Equations and the Electromagnetic Wave Equation", "Supplementary Problems", "Appendices", " A. Definition of Standards and Fundamental and Derived Physical Constants", " B. Miscellaneous Terrestrial Data", " C. The Solar System", " D. Periodic Table of the Elements", " E. The Particles of Physics", " F. Symbols, Dimensions, and Units for Physical Quantities", " G. Conversion Factors", " H. Mathematical Symbols and the Greek Alphabet", " I. Mathematical Formulas", " J. Values of Trigonometric Functions", " K. Nobel Prize Winners in Physics", " L. The Gaussian System of Units", "Answers to Problems", "Answers to Supplementary Problems", "Index".

Pænt stor og grundig fysiklærebog. Men den er kommet i mange udgaver siden. Den her har fx ikke synkrotroner med.… (plus d'informations)