Quantum Mechanics

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Become a Quantum Mechanics Expert

What will you Learn.

Historical Development of Quantum Theory

Understand the historical development of quantum theory and why classical physics could not explain certain phenomena.

Fundamental Concepts

Learn about fundamental concepts such as wave–particle duality, quantization of energy, and the uncertainty principle.

Atomic Structure

Explore the structure of the atom, including electron orbitals and quantum numbers.

Key Experiments

Study key experiments (e.g., double-slit experiment, photoelectric effect) that shaped modern physics.

Schrödinger’s Equation

Understand Schrödinger’s equation and its role in describing quantum systems (at an introductory level).

Superposition and Quantum States

Explore the concept of superposition and quantum states.

Wavefunction and Probability

Learn about probability distributions and the interpretation of the wavefunction.

Applications in Technology

Discover applications of quantum mechanics in technology, such as semiconductors, lasers, and quantum computing.

Problem-Solving with Quantum Models

Develop problem-solving skills using simplified quantum models (particle in a box, hydrogen atom).

Quantum Principles in Real-World Science

Connect quantum principles to real-world scientific and technological advancements.

About This Course

Core Principles of Quantum Theory

Historical development, wave–particle duality, quantization of energy, uncertainty principle, and Schrödinger’s equation.

Atomic Structure & Key Experiments

Atom models (orbitals, quantum numbers), double-slit experiment, photoelectric effect, and concepts like superposition and wavefunction probability.

Applications & Real-World Impact

Problem-solving with quantum models, and modern applications in semiconductors, lasers, quantum computing, and scientific advancements.

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Homework & Special classes
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