Quantum Chemistry & Spectroscopy
Engel, Thomas
Quantum Chemistry & Spectroscopy - Noida Pearson Pub 2009
1. From Classical to Quantum Mechanics
2. The Schrödinger Equation
3. The Quantum Mechanical Postulates
4. Using Quantum Mechanics on Simple Systems
5. The Particle in the Box and the Real World
6. Commuting and Noncommuting Operators and the Surprising Consequences of Entanglement
7. A Quantum Mechanical Model for the Vibration and Rotation of Molecules
8. The Vibrational and Rotational Spectroscopy of Diatomic Molecules
9. The Hydrogen Atom
10. Many-Electron Atoms
11. Quantum States for Many- Electron Atoms and Atomic Spectroscopy
12. The Chemical Bond in Diatomic Molecules
13. Molecular Structure and Energy Levels for Polyatomic Molecules
14. Electronic Spectroscopy
15. Computational Chemistry
16. Molecular Symmetry
17. Nuclear Magnetic Resonance Spectroscopy
Salient Features
• Modern applications are drawn from biology, environmental science, and material science to help give Physical Chemistry immediate relevance to students.
• An emphasis on problem solving includes:
• Numerous Worked Examples and highlighted Key Equations throughout help students understand the math and develop their own problem-solving skills.
• Concept Questions, Quantitative Problems, and a unique set of problems related to the web-based simulations and animations at the end of each chapter offer students a variety of study and assessment resources.
• Additional math-development resources, available in an Appendix, that provide a quick reference.
• Current research is featured throughout along with new developments in the field, such as gap engineering, quantum dots, quantum wells, teleportation, and scanning tunneling microscopy to reflect the vibrancy of the field today.
• Coverage of Computational Chemistry, including a distinct chapter written by Warren Hehre, transforms the teaching of chemical bonding and molecular structure from qualitative to quantitative.
9789332544956
Physical chemistry
541.28 ENG-Q
Quantum Chemistry & Spectroscopy - Noida Pearson Pub 2009
1. From Classical to Quantum Mechanics
2. The Schrödinger Equation
3. The Quantum Mechanical Postulates
4. Using Quantum Mechanics on Simple Systems
5. The Particle in the Box and the Real World
6. Commuting and Noncommuting Operators and the Surprising Consequences of Entanglement
7. A Quantum Mechanical Model for the Vibration and Rotation of Molecules
8. The Vibrational and Rotational Spectroscopy of Diatomic Molecules
9. The Hydrogen Atom
10. Many-Electron Atoms
11. Quantum States for Many- Electron Atoms and Atomic Spectroscopy
12. The Chemical Bond in Diatomic Molecules
13. Molecular Structure and Energy Levels for Polyatomic Molecules
14. Electronic Spectroscopy
15. Computational Chemistry
16. Molecular Symmetry
17. Nuclear Magnetic Resonance Spectroscopy
Salient Features
• Modern applications are drawn from biology, environmental science, and material science to help give Physical Chemistry immediate relevance to students.
• An emphasis on problem solving includes:
• Numerous Worked Examples and highlighted Key Equations throughout help students understand the math and develop their own problem-solving skills.
• Concept Questions, Quantitative Problems, and a unique set of problems related to the web-based simulations and animations at the end of each chapter offer students a variety of study and assessment resources.
• Additional math-development resources, available in an Appendix, that provide a quick reference.
• Current research is featured throughout along with new developments in the field, such as gap engineering, quantum dots, quantum wells, teleportation, and scanning tunneling microscopy to reflect the vibrancy of the field today.
• Coverage of Computational Chemistry, including a distinct chapter written by Warren Hehre, transforms the teaching of chemical bonding and molecular structure from qualitative to quantitative.
9789332544956
Physical chemistry
541.28 ENG-Q