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Learn about the latest discoveries in physics with MODERN PHYSICS, 4E, International Edition. This book offers a contemporary and comprehensive approach to physics with a strong emphasis on applications to help you see how concepts in the book relate to the real world. Discussions on the experiments that led to certain key discoveries illustrate the process behind scientific advances and give you a historical perspective. The book also provides a solid foundation in quantum theory to help you understand more advanced physics concepts.

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1. THE BIRTH OF MODERN PHYSICS. Classical Physics of the 1890s. The Kinetic Theory of Gases. Waves and Particles. Conservation Laws and Fundamental Forces. The Atomic Theory of Matter. Unresolved Questions of 1895 and New Horizons. Summary. 2. SPECIAL THEORY OF RELATIVITY. The Apparent Need for Ether. The Michelson-Morley Experiment. Einstein''s Postulates. The Lorentz Transformation. Time Dilation and Length Contraction. Addition of Velocities. Experimental Verification. Twin Paradox. Spacetime. Doppler Effect. Special Topic: Applications of the Doppler Effect. Relativistic Momentum. Relativistic Energy. Computations in Modern Physics. Electromagnetism and Relativity. Summary. 3. THE EXPERIMENTAL BASIS OF QUANTUM PHYSICS. Discovery of the X-Ray and the Electron. Determination of Electron Charge. Line Spectra. Special Topic: The Discovery of Helium. Quantization. Blackbody Radiation. Photoelectric Effect. X-Ray Production. Compton Effect. Pair Production and Annihilation. Summary. 4. STRUCTURE OF THE ATOM. The Atomic Models of Thomson and Rutherford. Rutherford Scattering. Special Topic: Lord Rutherford of Nelson. The Classical Atomic Model. The Bohr Model of the Hydrogen Atom. Successes and Failures of the Bohr Model. Characteristic X-Ray Spectra and Atomic Number. Atomic Excitation by Electrons. Summary. 5. WAVE PROPERTIES OF MATTER AND QUANTUM MECHANICS I. X-Ray Scattering. De Broglie Waves. Special Topic: Cavendish Laboratory. Electron Scattering. Wave Motion. Waves or Particles? Uncertainty Principle. Probability, Wave Functions, and the Copenhagen Interpretation. Particle in a Box. Summary. 6. QUANTUM MECHANICS II. The Schroedinger Wave Equation. Expectation Values. Infinite Square-Well Potential. Finite Square-Well Potential. Three-Dimensional Infinite-Potential Well. Simple Harmonic Oscillator. Barriers and Tunneling. Special Topic: Scanning Probe Microscopes. Summary. 7. THE HYDROGEN ATOM. Application of the Schroedinger Equation to the Hydrogen Atom. Solution of the Schroedinger Equation for Hydrogen. Quantum Numbers. Magnetic Effects on Atomic Spectra--The Normal Zeeman Effect. Intrinsic Spin. Special Topic: Hydrogen and the 21-cm Line Transition. Energy Levels and Electron Probabilities. Summary. 8. ATOMIC PHYSICS. Atomic Structure and the Periodic Table. Special Topic: Rydberg Atoms. Total Angular Momentum. Anomalous Zeeman Effect. Summary. 9. STATISTICAL PHYSICS. Historical Overview. Maxwell Velocity Distribution. Equipartition Theorem. Maxwell Speed Special Topic: Superfluid 3^He. Summary. 10. MOLECULES, LASERS, AND SOLIDS. Molecular Bonding and Spectra. Stimulated Emission and Lasers. Structural Properties of Solids. Thermal and Magnetic Properties of Solids. Superconductivity. Special Topic: Low-Temperature Methods. Applications of Superconductivity. Summary. 11. SEMICONDUCTOR THEORY AND DEVICES. Band Theory of Solids. Semiconductor Theory. Special Topic: The Quantum Hall Effect. Semiconductor Devices. Nanotechnology. Summary. 12. THE ATOMIC NUCLEUS. Discovery of the Neutron. Nuclear Properties. The Deuteron. Nuclear Forces. Nuclear Stability. Radioactive Decay. Alpha, Beta, and Gamma Decay. Special Topic: Neutrino Detection. Radioactive Nuclides. Special Topic: The Formation and Age of the Earth. Summary. 13. NUCLEAR INTERACTIONS AND APPLICATIONS. Nuclear Reactions. Reaction Kinematics. Reaction Mechanisms. Fission. Fission Reactors. Fusion. Special Applications. Special Topic: The Search for New Elements. Summary. 14. PARTICLE PHYSICS. Early Discoveries. The Fundamental Interactions. Classification of Particles. Conservation Laws and Symmetries. Quarks. The Families of Matter. Beyond the Standard Model. Accelerators. Special Topic: Experimental Ingenuity. Summary. 15. GENERAL RELATIVITY. Tenets of General Relativity. Tests of General Relativity. Gravitational Waves. Special Topic: Gravitational Wave Detection. Black Holes. Frame Dragging. Summary. 16. COSMOLOGY AND MODERN ASTROPHYSICS--THE BEGINNING AND THE END. Evidence of the Big Bang. The Big Bang. Stellar Evolution. Special Topic: Planck''s Time, Length, and Mass. Astronomical Objects. Problems with the Big Bang. The Age of the Universe. The Standard Model of Cosmology. The Future. Special Topic: Future of Space Telescopes. Summary. Appendix 1: Fundamental Constants. Appendix 2: Conversion Factors. Appendix 3: Mathematical Relations. Appendix 4: Periodic Table of Elements. Appendix 5: Mean Values and Distributions. Appendix 6: Probability Integrals. Appendix 7: Integrals of the Type. Appendix 8: Atomic Mass Table. Appendix 9: Nobel Laureates in Physics. Answers to Selected Odd- Numbered Problems. Index.

Andrew Rex has been Professor of Physics at the University of Puget Sound since 1982. He frequently teaches the Modern Physics course, so he has a deep sense of student and instructor challenges. He is the author of several textbooks, including "Modern Physics," "Essential College Physics," and "Integrated Physics and Calculus." In addition to textbook writing, he studies foundations of the second law of thermodynamics, which has led to the publication of several papers and the widely acclaimed book, "Maxwell's Demon: Entropy, Information, Computing." Stephen Thornton is Professor of Physics at the University of Virginia. He has over 130 research publications in experimental nuclear physics and has done research at several accelerator facilities in the United States and Europe. He has directed the research for 25 graduate students. He has held two U.S. Senior Fulbright-Hays Fellowships and a Max-Planck Fellowship to do research at the Max Planck Institute for Nuclear Physics in Heidelberg, Germany on two occasions. He was the founding Director of the University of Virginia Institute of Nuclear and Particle Physics. He has published three college textbooks for physics: "Classical Dynamics" and "Modern Physics" (both published with Brooks Cole, a part of Cengage Learning), and "Physics for Scientists and Engineers." He is currently Director of the Master of Arts in Physics Education program at the University of Virginia, which has graduated more than 70 high school physics teachers. He is a Fellow of the American Physical Society and a member of several organizations including American Association of Physics Teachers, American Association for the Advancement of Science, National Science Teachers Association, Virginia Association of Science Teachers (past President), and the Virginia Math and Science Coalition. He has developed multiple courses for undergraduate students and high school physics teachers.

1. THE BIRTH OF MODERN PHYSICS. Classical Physics of the 1890s. The Kinetic Theory of Gases. Waves and Particles. Conservation Laws and Fundamental Forces. The Atomic Theory of Matter. Unresolved Questions of 1895 and New Horizons. Summary. 2. SPECIAL THEORY OF RELATIVITY. The Apparent Need for Ether. The Michelson-Morley Experiment. Einstein's Postulates. The Lorentz Transformation. Time Dilation and Length Contraction. Addition of Velocities. Experimental Verification. Twin Paradox. Spacetime. Doppler Effect. Special Topic: Applications of the Doppler Effect. Relativistic Momentum. Relativistic Energy. Computations in Modern Physics. Electromagnetism and Relativity. Summary. 3. THE EXPERIMENTAL BASIS OF QUANTUM PHYSICS. Discovery of the X-Ray and the Electron. Determination of Electron Charge. Line Spectra. Special Topic: The Discovery of Helium. Quantization. Blackbody Radiation. Photoelectric Effect. X-Ray Production. Compton Effect. Pair Production and Annihilation. Summary. 4. STRUCTURE OF THE ATOM. The Atomic Models of Thomson and Rutherford. Rutherford Scattering. Special Topic: Lord Rutherford of Nelson. The Classical Atomic Model. The Bohr Model of the Hydrogen Atom. Successes and Failures of the Bohr Model. Characteristic X-Ray Spectra and Atomic Number. Atomic Excitation by Electrons. Summary. 5. WAVE PROPERTIES OF MATTER AND QUANTUM MECHANICS I. X-Ray Scattering. De Broglie Waves. Special Topic: Cavendish Laboratory. Electron Scattering. Wave Motion. Waves or Particles? Uncertainty Principle. Probability, Wave Functions, and the Copenhagen Interpretation. Particle in a Box. Summary. 6. QUANTUM MECHANICS II. The Schrodinger Wave Equation. Expectation Values. Infinite Square-Well Potential. Finite Square-Well Potential. Three-Dimensional Infinite-Potential Well. Simple Harmonic Oscillator. Barriers and Tunneling. Special Topic: Scanning Probe Microscopes. Summary. 7. THE HYDROGEN ATOM. Application of the Schrodinger Equation to the Hydrogen Atom. Solution of the Schrodinger Equation for Hydrogen. Quantum Numbers. Magnetic Effects on Atomic Spectra--The Normal Zeeman Effect. Intrinsic Spin. Special Topic: Hydrogen and the 21-cm Line Transition. Energy Levels and Electron Probabilities. Summary. 8. ATOMIC PHYSICS. Atomic Structure and the Periodic Table. Special Topic: Rydberg Atoms. Total Angular Momentum. Anomalous Zeeman Effect. Summary. 9. STATISTICAL PHYSICS. Historical Overview. Maxwell Velocity Distribution. Equipartition Theorem. Maxwell Speed Special Topic: Superfluid 3^He. Summary. 10. MOLECULES, LASERS, AND SOLIDS. Molecular Bonding and Spectra. Stimulated Emission and Lasers. Structural Properties of Solids. Thermal and Magnetic Properties of Solids. Superconductivity. Special Topic: Low-Temperature Methods. Applications of Superconductivity. Summary. 11. SEMICONDUCTOR THEORY AND DEVICES. Band Theory of Solids. Semiconductor Theory. Special Topic: The Quantum Hall Effect. Semiconductor Devices. Nanotechnology. Summary. 12. THE ATOMIC NUCLEUS. Discovery of the Neutron. Nuclear Properties. The Deuteron. Nuclear Forces. Nuclear Stability. Radioactive Decay. Alpha, Beta, and Gamma Decay. Special Topic: Neutrino Detection. Radioactive Nuclides. Special Topic: The Formation and Age of the Earth. Summary. 13. NUCLEAR INTERACTIONS AND APPLICATIONS. Nuclear Reactions. Reaction Kinematics. Reaction Mechanisms. Fission. Fission Reactors. Fusion. Special Applications. Special Topic: The Search for New Elements. Summary. 14. PARTICLE PHYSICS. Early Discoveries. The Fundamental Interactions. Classification of Particles. Conservation Laws and Symmetries. Quarks. The Families of Matter. Beyond the Standard Model. Accelerators. Special Topic: Experimental Ingenuity. Summary. 15. GENERAL RELATIVITY. Tenets of General Relativity. Tests of General Relativity. Gravitational Waves. Special Topic: Gravitational Wave Detection. Black Holes. Frame Dragging. Summary. 16. COSMOLOGY AND MODERN ASTROPHYSICS--THE BEGINNING AND THE END. Evidence of the Big Bang. The Big Bang. Stellar Evolution. Special Topic: Planck's Time, Length, and Mass. Astronomical Objects. Problems with the Big Bang. The Age of the Universe. The Standard Model of Cosmology. The Future. Special Topic: Future of Space Telescopes. Summary. Appendix 1: Fundamental Constants. Appendix 2: Conversion Factors. Appendix 3: Mathematical Relations. Appendix 4: Periodic Table of Elements. Appendix 5: Mean Values and Distributions. Appendix 6: Probability Integrals. Appendix 7: Integrals of the Type. Appendix 8: Atomic Mass Table. Appendix 9: Nobel Laureates in Physics. Answers to Selected Odd- Numbered Problems. Index.

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