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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.
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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.
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Publication
New York, Wiley [1966] 2 v. illus. 24 cm.
Description
This updated edition covers the fundamentals of physics with greater stress on unifying wave theme and quantum ideas. Attention is given to practical applications as well as historical and philosophical background. Figures and illustrations have been improved and expanded, and sections within chapters have been rearranged to provide more flexibility for the instructor. Expanded to include seven new chapters on such topics as atomic structure and physics, electrical conduction in solids, and nuclear physics. Greater emphasis is given to SI units in accordance with their increasing use.
Subjects
Language
Original language
English
Physical description
1214, 110 p.; 22.3 cm
Local notes
Omslag: Ikke angivet
Omslaget viser kraftlinier og ligner et udsnit af Fig 27-6 på side 669
Indskannet omslag - N650U - 150 dpi
Omslaget viser kraftlinier og ligner et udsnit af Fig 27-6 på side 669
Indskannet omslag - N650U - 150 dpi
Other editions
Physics. Parts 1 and 2, combined by David Halliday (Paper Book)
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Pages
1214; 110
DDC/MDS
| 530 |