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What you'll learn

Understand the quantum mechanical meaning of wave-particle duality

Calculate probabilities and expectation values for physical observables

Use both Schrödinger and Heisenberg picture to solve for time evolution of quantum states

Describe fermions and bosons using multiparticle basis functions.

Skills you'll gain

Mathematical Theory & Analysis

Physical Science

Differential Equations

Linear Algebra

Mathematical Modeling

Advanced Mathematics

Probability

Mechanics

Physics

Engineering Analysis

There are 6 modules in this course

This course covers the fundamental concepts and topics of quantum mechanics which include basic concepts, 1D potential problems, time evolution of quantum states, and essential linear algebra. It provides undergraduate level foundational knowledge and build on them more advanced topics. At the end of this course learners will be able to: 1. demonstrate full grasp of basic concepts in quantum mechanics including wave-particle duality, operators and wavefunctions, and evolution of quantum states, 2. achieve mastery of the mathematical apparatus needed for quantum mechanics and 3. attain foundational knowledge required to learn more advanced quantum mechanics and applications.

One-dimensional Potential Problems

Operators and Measurements 1

Operators and Measurements 2

Time Evolution of Quantum States

Ensembles and Identical Particles