Quantum Mechanics
-15%
portes grátis
Quantum Mechanics
Concepts and Applications
Zettili, Nouredine
John Wiley & Sons Inc
09/2022
1024
Mole
Inglês
9781118307892
15 a 20 dias
1938
Descrição não disponível.
Preface Chapter 1 Origins of Quantum Physics
Chapter 2 Mathematical Tools of Quantum Mechanics
Chapter 3 Postulates of Quantum Mechanics
Chapter 4 One-Dimensional Problems
Chapter 5 Angular Momentum
Chapter 6 Three-Dimensional Problems
Chapter 7 Rotations and Addition of Angular Momenta
Chapter 8 Identical Particles
Chapter 9 Approximation Methods for Stationary States
Chapter 10 Time-Dependent Perturbation Theory
Chapter 11 Scattering Theory
Chapter 12 Relativistic Quantum Mechanics
Chapter 13 Beyond Relativistic Quantum Mechanics
Appendice A: The Delta Function
Appendice B: Angular Momentum in Spherical Coordinates
Appendice C: C++ Code for Solving the Schrodinger Equation
Appendice D: Index Notation for 4-Vectors
Appendice E: The Relativistic Notation and Four Vectors
Appendice F: Lagrangian Formulation of Classical Mechanics
Index
Chapter 2 Mathematical Tools of Quantum Mechanics
Chapter 3 Postulates of Quantum Mechanics
Chapter 4 One-Dimensional Problems
Chapter 5 Angular Momentum
Chapter 6 Three-Dimensional Problems
Chapter 7 Rotations and Addition of Angular Momenta
Chapter 8 Identical Particles
Chapter 9 Approximation Methods for Stationary States
Chapter 10 Time-Dependent Perturbation Theory
Chapter 11 Scattering Theory
Chapter 12 Relativistic Quantum Mechanics
Chapter 13 Beyond Relativistic Quantum Mechanics
Appendice A: The Delta Function
Appendice B: Angular Momentum in Spherical Coordinates
Appendice C: C++ Code for Solving the Schrodinger Equation
Appendice D: Index Notation for 4-Vectors
Appendice E: The Relativistic Notation and Four Vectors
Appendice F: Lagrangian Formulation of Classical Mechanics
Index
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Quantum physics; mathematical tools of quantum mechanics; postulates of quantum mechanics; one-dimensional problem; angular momentum; three-dimensional problem; rotations and addition of angular momenta; identical particles; time-independent approximation methods; time-dependent perturbation theory; scattering theory; relativistic quantum mechanics; Lagrangian derivations of the Klein-Gordon and Dirac equations; delta function; spherical coordinate; C++ code for solving the Schrodinger equation; Index notation of vectors; four-vector notations and Minkowski metric; Lagrangian and Hamiltonian formulations of classical mechanics.
Preface Chapter 1 Origins of Quantum Physics
Chapter 2 Mathematical Tools of Quantum Mechanics
Chapter 3 Postulates of Quantum Mechanics
Chapter 4 One-Dimensional Problems
Chapter 5 Angular Momentum
Chapter 6 Three-Dimensional Problems
Chapter 7 Rotations and Addition of Angular Momenta
Chapter 8 Identical Particles
Chapter 9 Approximation Methods for Stationary States
Chapter 10 Time-Dependent Perturbation Theory
Chapter 11 Scattering Theory
Chapter 12 Relativistic Quantum Mechanics
Chapter 13 Beyond Relativistic Quantum Mechanics
Appendice A: The Delta Function
Appendice B: Angular Momentum in Spherical Coordinates
Appendice C: C++ Code for Solving the Schrodinger Equation
Appendice D: Index Notation for 4-Vectors
Appendice E: The Relativistic Notation and Four Vectors
Appendice F: Lagrangian Formulation of Classical Mechanics
Index
Chapter 2 Mathematical Tools of Quantum Mechanics
Chapter 3 Postulates of Quantum Mechanics
Chapter 4 One-Dimensional Problems
Chapter 5 Angular Momentum
Chapter 6 Three-Dimensional Problems
Chapter 7 Rotations and Addition of Angular Momenta
Chapter 8 Identical Particles
Chapter 9 Approximation Methods for Stationary States
Chapter 10 Time-Dependent Perturbation Theory
Chapter 11 Scattering Theory
Chapter 12 Relativistic Quantum Mechanics
Chapter 13 Beyond Relativistic Quantum Mechanics
Appendice A: The Delta Function
Appendice B: Angular Momentum in Spherical Coordinates
Appendice C: C++ Code for Solving the Schrodinger Equation
Appendice D: Index Notation for 4-Vectors
Appendice E: The Relativistic Notation and Four Vectors
Appendice F: Lagrangian Formulation of Classical Mechanics
Index
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Quantum physics; mathematical tools of quantum mechanics; postulates of quantum mechanics; one-dimensional problem; angular momentum; three-dimensional problem; rotations and addition of angular momenta; identical particles; time-independent approximation methods; time-dependent perturbation theory; scattering theory; relativistic quantum mechanics; Lagrangian derivations of the Klein-Gordon and Dirac equations; delta function; spherical coordinate; C++ code for solving the Schrodinger equation; Index notation of vectors; four-vector notations and Minkowski metric; Lagrangian and Hamiltonian formulations of classical mechanics.
