Quantum mechanics: a paradigms approach
Material type:
BookPublication details: New York Pearson 2023Description: xxi, 570 p.: ill. Includes bibliographical references and indexISBN: 9780321765796Subject(s): Quantum theory - textbook | Quantum theory - MechanicsDDC classification: 530.12 Summary: This popular undergraduate quantum mechanics textbook is now available in a more affordable printing from Cambridge University Press. Unlike many other books on quantum mechanics, this text begins by examining experimental quantum phenomena such as the Stern-Gerlach experiment and spin measurements, using them as the basis for developing the theoretical principles of quantum mechanics. Dirac notation is developed from the outset, offering an intuitive and powerful mathematical toolset for calculation, and familiarizing students with this important notational system. This non-traditional approach is designed to deepen students' conceptual understanding of the subject, and has been extensively class tested. Suitable for undergraduate physics students, worked examples are included throughout and end of chapter problems act to reinforce and extend important concepts. Additional activities for students are provided online, including interactive simulations of Stern-Gerlach experiments, and a fully worked solutions manual is available for instructors.
Focuses on modern experimental quantum mechanics, immersing the reader in current research trends and developing an intuitive understanding of the subject.
Develops understanding and fluency of Dirac and matrix notation, giving students access to a powerful mathematical toolset.
Fully worked examples, homework problems, and interactive simulations enhance the book's pedagogical value.
Table of Contents
1. 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 momenta
12. Perturbation of hydrogen
13. Identical particles
14. Time-dependent perturbation theory
15. Periodic systems
16. Modern applications of quantum mechanics
https://www.cambridge.org/in/universitypress/subjects/physics/quantum-physics-quantum-information-and-quantum-computation/quantum-mechanics-paradigms-approach?format=HB&isbn=9781009310611
| Item type | Current library | Item location | Collection | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|---|---|
| Books | Vikram Sarabhai Library On Display | Non-fiction | 530.12 M2Q8 (Browse shelf(Opens below)) | Checked out | 04/01/2024 | 206423 |
This popular undergraduate quantum mechanics textbook is now available in a more affordable printing from Cambridge University Press. Unlike many other books on quantum mechanics, this text begins by examining experimental quantum phenomena such as the Stern-Gerlach experiment and spin measurements, using them as the basis for developing the theoretical principles of quantum mechanics. Dirac notation is developed from the outset, offering an intuitive and powerful mathematical toolset for calculation, and familiarizing students with this important notational system. This non-traditional approach is designed to deepen students' conceptual understanding of the subject, and has been extensively class tested. Suitable for undergraduate physics students, worked examples are included throughout and end of chapter problems act to reinforce and extend important concepts. Additional activities for students are provided online, including interactive simulations of Stern-Gerlach experiments, and a fully worked solutions manual is available for instructors.
Focuses on modern experimental quantum mechanics, immersing the reader in current research trends and developing an intuitive understanding of the subject.
Develops understanding and fluency of Dirac and matrix notation, giving students access to a powerful mathematical toolset.
Fully worked examples, homework problems, and interactive simulations enhance the book's pedagogical value.
Table of Contents
1. 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 momenta
12. Perturbation of hydrogen
13. Identical particles
14. Time-dependent perturbation theory
15. Periodic systems
16. Modern applications of quantum mechanics
https://www.cambridge.org/in/universitypress/subjects/physics/quantum-physics-quantum-information-and-quantum-computation/quantum-mechanics-paradigms-approach?format=HB&isbn=9781009310611
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