Lectures related to Quantum Mechanics: Fundamentals and Applications

Classical and Quantum Mechanics: Foundations and Applications

Explores classical and quantum mechanics, covering observables, momentum, Hamiltonian, and the Schrödinger equation, as well as quantum chemistry and the Schrödinger's cat experiment.

Quantum Science: The Electron and Its Wave-Particle Duality

Provides an overview of the electron's role in quantum science, focusing on its wave-particle duality and the mathematical framework of quantum mechanics.

Conservation Laws and Operator Evolution in Quantum Mechanics

Covers conservation laws and operator evolution in quantum mechanics, emphasizing the Ehrenfest theorem and its implications for classical and quantum systems.

Hydrogen-like Atom: Quantum Mechanics

Explores the theoretical aspects of the hydrogen-like atom in quantum mechanics.

Quantum Operators: Exponential and Position Measurement

Covers the mathematical foundations of quantum mechanics, focusing on operators and their applications in quantum states.

Quantum Information: Magnetic Moments and Spin

Explores quantum information on magnetic moments, spin, observable properties, and photon polarization, emphasizing matrices' role in quantum measurements.

Quantum Mechanics: Commutators and Ehrenfest Theorem

Covers the formalism of quantum mechanics, focusing on commutators, the Ehrenfest theorem, and their implications for measurements and uncertainties.

Angular Momentum: Generators and Operators

Covers angular momentum generators, operators, and finite rotations in quantum mechanics.

Quantum Mechanics: Electron Propagation and Measurement

Covers electron propagation, quantum operators, and the measurement process in quantum mechanics.

The Density Matrix Formalism

Explores the density matrix formalism in quantum mechanics, including entanglement and properties of the density matrix.

Quantum Mechanics Basics

Covers the basics of quantum mechanics, focusing on Hamiltonian operator and Schrödinger equations.

Quantum Entanglement: From Einstein to Bell

Delves into the journey from Einstein and Bell's debates to the practical applications of quantum entanglement, including quantum teleportation and key distribution.

Principles of Quantum Mechanics: Wave-Particle Dualism

Explores the wave-particle dualism in quantum mechanics and the quantification of energy levels in atoms.

Quantum Information: Spin and Magnetic Moments

Explores the concept of spin in quantum information and its relation to magnetic moments and particle spins.

Quantum Mechanics: Self-adjoint Operators and Quantum Information

Offers a crash course on quantum mechanics, emphasizing self-adjoint operators and quantum information.

Quantum Mechanics: Composite Systems and Angular Momentum

Explores quantum mechanics concepts applied to composite systems and angular momentum, emphasizing the importance of understanding the basics.

The Free Particle

Covers the concept of the free particle in quantum mechanics and explores momentum, eigenstates, and wave packets.

Spin Angular Momentum

Explores spin as angular momentum, its operators, commutation relations, and eigenstates in quantum mechanics.

Stability of Atoms

Explores the stability of atoms in quantum mechanics, emphasizing the Coulomb uncertainty principle and its impact on electron behavior within the nucleus.

Advanced General Chemistry I

Explores wave functions, electron density, quantum mechanics principles, operators, Schrödinger's equation, and key quantum terminologies.