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Quantum Mechanics: Foundations and Applications
Overview of attention for book
Table of Contents
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Book Overview
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Chapter 1
Mathematical Preliminaries
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Chapter 2
Foundations of Quantum Mechanics—The Harmonic Oscillator
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Chapter 3
Energy Spectra of Some Molecules
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Chapter 4
Complete Systems of Commuting Observables
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Chapter 5
Addition of Angular Momenta—The Wigner-Eckart Theorem
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Chapter 6
Hydrogen Atom—The Quantum-Mechanical Kepler Problem
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Chapter 7
Alkali Atoms and the Schrödinger Equation of One-Electron Atoms
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Chapter 8
Perturbation Theory
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Chapter 9
Electron Spin
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Chapter 10
Indistinguishable Particles
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Chapter 11
Two-Electron Systems—The Helium Atom
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Chapter 12
Time Evolution
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Chapter 13
Some Fundamental Properties of Quantum Mechanics
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Chapter 14
Transitions in Quantum Physical Systems—Cross Section
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Chapter 15
Formal Scattering Theory and Other Theoretical Considerations
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Chapter 16
Elastic and Inelastic Scattering for Spherically Symmetric Interactions
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Chapter 17
Free and Exact Radial Wave Functions
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Chapter 18
Resonance Phenomena
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Chapter 19
Time Reversal
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Chapter 20
Resonances in Multichannel Systems
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Chapter 21
The Decay of Unstable Physical Systems
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Chapter 22
Epilogue
Overall attention for this book and its chapters
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Mentioned by
syllabi
3
institutions with syllabi
Citations
dimensions_citation
138
Dimensions
Readers on
mendeley
14
Mendeley
Book overview
1. Mathematical Preliminaries
2. Foundations of Quantum Mechanics—The Harmonic Oscillator
3. Energy Spectra of Some Molecules
4. Complete Systems of Commuting Observables
5. Addition of Angular Momenta—The Wigner-Eckart Theorem
6. Hydrogen Atom—The Quantum-Mechanical Kepler Problem
7. Alkali Atoms and the Schrödinger Equation of One-Electron Atoms
8. Perturbation Theory
9. Electron Spin
10. Indistinguishable Particles
11. Two-Electron Systems—The Helium Atom
12. Time Evolution
13. Some Fundamental Properties of Quantum Mechanics
14. Transitions in Quantum Physical Systems—Cross Section
15. Formal Scattering Theory and Other Theoretical Considerations
16. Elastic and Inelastic Scattering for Spherically Symmetric Interactions
17. Free and Exact Radial Wave Functions
18. Resonance Phenomena
19. Time Reversal
20. Resonances in Multichannel Systems
21. The Decay of Unstable Physical Systems
22. Epilogue
Summary
Syllabi
Dimensions citations
This data is correct as of December 2015 - for more up to date information, please visit
https://opensyllabus.org/
So far, Altmetric has seen this research output assigned in
6
syllabi from
3
institutions on Open Syllabus Project.
Institution
Syllabi count
Course subject areas covered
University of New Hampshire-Main Campus
3
Unknown
Lehigh University
2
Unknown
University of Rhode Island
1
Unknown