FIZ 311E - Quantum Mechanics I
Course Objectives
• Historical Progress,
• Matter and Wave,
• Uncertainty Principle,
• Postulates and Wave Function of Quantum
• Mechanics (Operators, Eigenvalue-Eigenfunction, Probability-Normalization, Expectation Value,
• Momentum Space, Commutator, Dirac Notation), Schrödinger Equation (Time dependent-independent,
• Relativistic),
• One Dimensional Systems (Applications),
• Harmonic Oscillator, Formalism (Vectors, Inner
• Product,
• Linear Transformation,
• Eigenvectors,
• Hermitian Transformation,
• Gram-Schmidt Procedure,
• Hilbert Space, Parity-Trace Operators),
• Three Dimensional Systems (Schrödinger Equation in Spherical
• Coordinates,
• Applications
Course Description
• Historical Progress,
• Matter and Wave,
• Uncertainty Principle,
• Postulates and Wave Function of Quantum
• Mechanics (Operators, Eigenvalue-Eigenfunction, Probability-Normalization, Expectation Value,
• Momentum Space, Commutator, Dirac Notation), Schrödinger Equation (Time dependent-independent,
• Relativistic),
• One Dimensional Systems (Applications),
• Harmonic Oscillator, Formalism (Vectors, Inner
• Product,
• Linear Transformation,
• Eigenvectors,
• Hermitian Transformation,
• Gram-Schmidt Procedure,
• Hilbert Space, Parity-Trace Operators),
• Three Dimensional Systems (Schrödinger Equation in Spherical
• Coordinates,
• Applications
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Course Coordinator
Gönül Eryürek
Gönül Eryürek
Course Language
English
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