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Quantum mechanics : classical results, modern systems, and visualized examples / Richard W. Robinett.

By: Robinett, Richard W. (Richard Wallace).
Publisher: New York : Oxford University Press, 2006Edition: 2nd ed.Description: xvi, 703 p. : ill. ; 26 cm.ISBN: 9780198530978 (alk. paper); 0198530978 (alk. paper).Subject(s): Quantum theoryDDC classification: 530.12
Contents:
Part 1: The quantum paradigm. - 1. A First Look at Quantum Physics. - 2. Classical Waves. - 3. The Schrodinger Wave Equation. - 4. Interpreting the Schrodinger Equation. - 5. The Infinite Well: Physical Aspects. - 6. The Infinite Well: Formal Aspects. - 7. Many Particles in the Infinite Well: The Role of Spin and Indistinguishability. - 8. Other 1D Potentials. - 9. The Harmonic Oscillator. - 10. Alternative Methods of Solution and Approximation Methods. - 11. Scattering. - 12. More Formal Topics. - 13. Operator and Factorization Methods for the Schrodinger Equation. - 14. Multi-Particle Systems. - Part II: The quantum world. - 15. Two-Dimensional Quantum Mechanics. - 16. The Schrodinger Equation in Three-Dimensions. - 17. The Hydrogen Atom. - 18. Gravity and Electromagnetism in Quantum Mechanics. - 19. Scattering in Three Dimensions. - Appendices.
Item type Current location Shelf location Call number Copy number Status Notes Date due Barcode
Main Collection Taylor's Library-TU

Floor 4, Shelf 16 , Side 1, TierNo 2, BayNo 1

 530.12 ROB (Browse shelf) 1 Available SOExx,07017,03,GR 5000095252

Part 1: The quantum paradigm. - 1. A First Look at Quantum Physics. - 2. Classical Waves. - 3. The Schrodinger Wave Equation. - 4. Interpreting the Schrodinger Equation. - 5. The Infinite Well: Physical Aspects. - 6. The Infinite Well: Formal Aspects. - 7. Many Particles in the Infinite Well: The Role of Spin and Indistinguishability. - 8. Other 1D Potentials. - 9. The Harmonic Oscillator. - 10. Alternative Methods of Solution and Approximation Methods. - 11. Scattering. - 12. More Formal Topics. - 13. Operator and Factorization Methods for the Schrodinger Equation. - 14. Multi-Particle Systems. - Part II: The quantum world. - 15. Two-Dimensional Quantum Mechanics. - 16. The Schrodinger Equation in Three-Dimensions. - 17. The Hydrogen Atom. - 18. Gravity and Electromagnetism in Quantum Mechanics. - 19. Scattering in Three Dimensions. - Appendices.