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OverviewThis innovative new text presents quantum mechanics in a manner that directly reflects the methods used in modern physics research—making the material more approachable and preparing students more thoroughly for real research. Most texts in this area start with a bit of history and then move directly to wave-particle problems with accompanying heavy mathematical analysis; Quantum Mechanics provides a foundation in experimental phenomena and uses a more approachable, less intimidating, more powerful mathematical matrix model. Beginning with the Stern-Gerlach experiments and the discussion of spin measurements, and using bra-ket notation, the authors introduce an important notational system that is used throughout quantum mechanics. This non-traditional presentation is designed to enhance students’ understanding and strengthen their intuitive grasp of the subject. Full Product DetailsAuthor: David McIntyre , David McIntyre , Corinne Manogue , Janet TatePublisher: Pearson Education (US) Imprint: Pearson Edition: United States ed Dimensions: Width: 19.40cm , Height: 3.40cm , Length: 23.90cm Weight: 1.140kg ISBN: 9780321765796ISBN 10: 0321765796 Pages: 600 Publication Date: 23 February 2012 Audience: College/higher education , Undergraduate Replaced By: 9781292020839 Format: Hardback Publisher's Status: Active Availability: In Print  This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us. Table of Contents1. Stern-Gerlach Experiments 2. Operators And Measurement 3. Schrödinger Time Evolution 4. Quantum Spookiness 5. Quantized Energies: Particle in a Box 6. Unbound States 7. Angular Momentum 8. Hydrogen Atom 9. Harmonic Oscillator 10. Perturbation Theory 11. Hyperfine Structure and the Addition of Angular Momentum 12. Perturbation of Hydrogen 13. Identical Particles 14. Time dependent perturbation theory 15. Periodic Systems 16. Modern Applications AppendicesReviewsAuthor InformationDavid H. McIntyre received a B.S. degree in physics from the University of Arizona and M.S. and Ph.D. degrees in physics from Stanford University. He has been on the physics faculty at Oregon State University since 1989 and is one of the original developers of the Paradigms in Physics program. His other teaching interests include computational physics, computer interfacing, and optical physics. His laboratory research interests are in laser spectroscopy and optical physics. Corinne A. Manogue received an A.B. degree in mathematics and physics from Mount Holyoke Collegeand a Ph.D. degree in physics from the University of Texas at Austin. She has been on the physics faculty at Oregon State University since 1988 and is the Director and one of the original developers of the Paradigms in Physics program. She is a Fellow of the American Physical Society and was awarded the Excellence in Undergraduate Physics Teaching Award from the American Association of Physics Teachers in 2008. She is coauthoring a textbook on The Geometry of Vector Calculus. Her theoretical research interests use the octonions to parameterize higher dimensional theories of particle physics. Janet Tate received a B.Sc. degree in physics and chemistry from the University of Natal and M.S. and Ph.D. degrees in physics from Stanford University. She has been on the physics faculty at Oregon State University since 1989 and is one of the original developers of the Paradigms in Physics program. She is particularly interested in helping students to improve their critical thinking skills, especially through experimental work and writing. Her laboratory research interests are in experimental condensed matter physics. Tab Content 6Author Website:Countries AvailableAll regions |
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