A Handbook of Quantum Formula
N.B. Singh
This audiobook is narrated by a digital voice.
"A Handbook of Quantum Formula" is a comprehensive yet accessible guide tailored for absolute beginners with no mathematical background. Designed to demystify the complex concepts of quantum mechanics, this book offers a clear and concise explanation of fundamental principles, supplemented with intuitive explanations and real-world examples. From the basics of wave-particle duality to the intricacies of quantum entanglement, readers will embark on a captivating journey through the fascinating world of quantum physics, gaining a deeper understanding of the principles that govern the behavior of matter and energy at the smallest scales. Whether you're a curious novice or an enthusiast eager to expand your knowledge, this handbook serves as an invaluable companion on your quest to unravel the mysteries of the quantum realm.
Duration - 1h 49m.
Author - N.B. Singh.
Narrator - Digital Voice Mary G.
Published Date - Monday, 20 January 2025.
Copyright - © 2024 N.B. Singh ©.
Location:
United States
Description:
This audiobook is narrated by a digital voice. "A Handbook of Quantum Formula" is a comprehensive yet accessible guide tailored for absolute beginners with no mathematical background. Designed to demystify the complex concepts of quantum mechanics, this book offers a clear and concise explanation of fundamental principles, supplemented with intuitive explanations and real-world examples. From the basics of wave-particle duality to the intricacies of quantum entanglement, readers will embark on a captivating journey through the fascinating world of quantum physics, gaining a deeper understanding of the principles that govern the behavior of matter and energy at the smallest scales. Whether you're a curious novice or an enthusiast eager to expand your knowledge, this handbook serves as an invaluable companion on your quest to unravel the mysteries of the quantum realm. Duration - 1h 49m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:01:27
Introduction
Duration:00:00:03
Purpose and Scope
Duration:00:01:09
Background on Quantum Mechanics
Duration:00:02:13
Mathematical Foundations
Duration:00:00:04
Complex Numbers and Vector Spaces
Duration:00:04:50
Linear Operators and Matrices
Duration:00:03:42
Dirac Notation
Duration:00:02:21
Quantum State and Measurement
Duration:00:00:03
Wavefunction and State Vector
Duration:00:03:24
Measurement and Observables
Duration:00:02:57
Uncertainty Principle
Duration:00:03:51
Quantum Dynamics
Duration:00:00:03
Time Evolution and Schrödinger Equation
Duration:00:02:58
Hamiltonian Operator
Duration:00:02:52
Quantum Harmonic Oscillator
Duration:00:02:55
Conclusion
Duration:00:01:26
Quantum Formalism
Duration:00:02:10
Quantum Superposition and Entanglement
Duration:00:02:38
Quantum Gates and Quantum Circuits
Duration:00:02:08
Quantum Measurements
Duration:00:00:21
Measurement Operators and Postulates
Duration:00:01:48
Quantum Measurement Formalism
Duration:00:04:08
Quantum Systems
Duration:00:00:21
Spin and Angular Momentum
Duration:00:02:14
Identical Particles and Symmetry
Duration:00:02:27
Quantum Statistics (Bosons and Fermions)
Duration:00:03:30
Quantum Interaction
Duration:00:00:26
Quantum Interaction with Electromagnetic Fields
Duration:00:01:58
Quantum Electrodynamics (QED)
Duration:00:00:59
Quantum Information and Quantum Computing
Duration:00:01:10
Quantum Time-Independent Perturbation Theory
Duration:00:00:05
Perturbation Theory Basics
Duration:00:00:57
First-Order Perturbation Theory
Duration:00:01:42
Higher-Order Perturbation Theory
Duration:00:01:29
Quantum Scattering Theory
Duration:00:00:03
Scattering Basics and Cross-Section
Duration:00:02:29
Partial Wave Analysis
Duration:00:01:35
Advanced Topics in Quantum Mechanics
Duration:00:00:04
Quantum Entanglement and Bell’s Theorem
Duration:00:02:18
Quantum Field Theory Basics
Duration:00:02:24
Quantum Cosmology
Duration:00:02:09
Conclusion and Future Perspectives
Duration:00:00:04
Summary of Essential Equations
Duration:00:02:39
Emerging Trends and Open Questions
Duration:00:02:51
Appendix A: Glossary of Key Terms
Duration:00:05:09
Appendix B: Frequently Used Symbols and Notations
Duration:00:04:19
Appendix C: Derivations and Proofs
Duration:00:00:21
Derivation 1: Time-Dependent Schrödinger Equation
Duration:00:01:48
Proof 1: Orthogonality of Eigenfunctions
Duration:00:01:56
Appendix D: Recommended Further Reading
Duration:00:00:32
Introductory Texts
Duration:00:00:29
Advanced Texts
Duration:00:00:28
Specialized Topics
Duration:00:00:28
Historical Perspectives
Duration:00:02:07