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Modern Physics

Modern Physics

Autorzy
Wydawnictwo Wiley & Sons
Data wydania
Liczba stron 608
Forma publikacji książka w twardej oprawie
Język angielski
ISBN 9781118061145
Kategorie Fizyka
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Opis książki

This is a much awaited revision of a modern classic that covers all the major topics in modern physics, including relativity, quantum physics, and their applications. Krane provides a balanced presentation of both the historical development of all major modern physics concepts and the experimental evidence supporting the theory.

Modern Physics

Spis treści

Chapter 1. The Failures of Classical Physics
1.1 Review of Classical Physics
1.2 The Failure of Classical Concepts of Space and Time
1.3 The Failure of the Classical Theory of Particle Statistics
1.4 Theory, Experiment, Law
Summary
Questions
Problems
Chapter 2. The Special Theory of Relativity
2.1 Classical Relativity
2.2 The Michelson-Morley Experiment
2.3 Einstein s Postulates
2.4 Consequences of Einstein s Postulates
2.5 The Lorentz Transformation
2.6 The Twin Paradox
2.7 Relativistic Dynamics
2.8 Conservation Laws in Relativistic Decays and Collisions
2.9 Experimental Tests of Special Relativity
Summary
Questions
Problems

Chapter 3. The Particlelike Properties of Electromagnetic Radiation
3.1 Review of Electromagnetic Waves
3.2 The Photoelectric Effect
3.3 Thermal Radiation
3.4 The Compton Effect
3.5 Other Photon Processes
3.6 What Is a Photon?
Summary
Questions
Problems

Chapter 4. The Wavelike Properties of Particles
4.1 DeBroglie s Hypothesis
4.2 Experimental Evidence for DeBroglie Waves
4.3 Uncertainty Relationships for Classical Waves
4.4 Heisenberg Uncertainty Relationships
4.5 Wave Packets
4.6 The Motion of a Wave Packet
4.7 Probability and Randomness
Summary
Questions
Problems

Chapter 5. The Schrödinger Equation
5.1 Behavior of a Wave at a Boundary
5.2 Confining a Particle
5.3 The Schrödinger Equation
5.4 Applications of the Schrödinger Equation
5.5 The Simple Harmonic Oscillator
5.6 Steps and Barriers
Summary
Questions
Problems

Chapter 6. The Rutherford-Bohr Model of the Atom
6.1 Basic Properties of Atoms
6.2 Scattering Experiments and the Thomson Model
6.3 The Rutherford Nuclear Atom
6.4 Line Spectra
6.5 The Bohr Model
6.6 The Franck-Hertz Experiment
6.7 The Correspondence Principle
6.8 Deficiencies of the Bohr Model
Summary
Questions
Problems

Chapter 7. The Hydrogen Atom in Wave Mechanics
7.1 A One-Dimensional Atom
7.2 Angular Momentum in the Hydrogen Atom
7,3 The Hydrogen Atom Wave Functions
7.4 Radial Probability Densities
7.5 Angular Probability Densities
7.6 Intrinsic Spin
7.7 Energy Levels and Spectroscopic Notation
7.8 The Zeeman Effect
7.9 Fine Structure
Summary
Questions
Problems

Chapter 8. Many-Electron Atoms
8.1 The Pauli Exclusion Principle
8.2 Electronic States in Many-Electron Atoms
8.3 Outer Electrons: Screening and Optical Transitions
8.4 Properties of the Elements
8.5 Inner Electrons: Absorption Edges and X Rays
8.6 Addition of Angular Momenta
8.7 Lasers
Summary
Questions Problems

Chapter 9. Molecular Structure
9.1 The Hydrogen Molecule
9.2 Covalent Bonding in Molecules
9.3 Ionic Bonding
9.4 Molecular Vibrations
9.5 Molecular Rotations
9.6 Molecular Spectra
Summary
Questions
Problems

Chapter 10. Statistical Physics
10.1 Statistical Analysis
10.2 Classical and Quantum Statistics
10.3 The Density of States
10.4 The Maxwell-Boltzmann Distribution
10.5 Quantum Statistics
10.6 Application of Bose-Einstein Statistics
10.7 Application of Fermi-Dirac Statistics
Sumary
Questions
Problems

Chapter 11. Solid-State Physics
11.1 Crystal Structures
11.2 The Heat Capacity of Solids
11.3 Electrons in Metals
11.4 Band Theory of Solids
11.5 Superconductivity
11.6 Intrinsic and Impurity Semiconductors
11.7 Semiconductor Devices
11.8 Magnetic Materials
Questions
Problems

Chapter 12. Nuclear Structure and Radioactivity
12.1 Nuclear Constituents
12.2 Nuclear Sizes and Shapes
12.3 Nuclear Masses and Binding Energies
12.4 The Nuclear Force
12.5 Quantum States in Nuclei
12.6 Radioactive Decay
12.7 Alpha Decay
12.8 Beta Decay
12.9 Gamma Decay and Nuclear Excited States
12.10 Natural Radioactivity
Summary
Questions
Problems

Chapter 13. Nuclear Reactions and Applications
13.1 Types of Nuclear Reactions
13.2 Radioisotope Production in Nuclear Reactions
13.3 Low-Energy Reaction Kinematics
13.4 Fission
13.5 Fusion
13.6 Nucleosynthesis
13.7 Applications of Nuclear Phy

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