Lectures related to Stark Effect: Quantum Mechanics

Principles of Quantum Mechanics: Wave-Particle Dualism

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

Explores the quantization of energy levels, wave-particle duality, and uncertainty principle in advanced general chemistry.

Quantum Mechanics: Particle in a Box

Explores quantum mechanics, emphasizing the harmonic oscillator and particle confinement in a box.

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.

Perturbations: Independent Time Perturbations

Covers the theory of perturbations in quantum mechanics.

Basis of Nuclear Magnetization

Explores the classical and quantum-mechanical basis of nuclear magnetization and the quantization of angular momentum and energy levels.

Quantum Mechanics: Bound-State Problems

Analyzes bound-state problems, Bohr-Sommerfeld quantization, and tunneling through potential barriers in quantum mechanics.

Statistical Thermodynamics: Density of States

Explores density of states in statistical thermodynamics and the use of Heaviside functions for energy level probabilities.

Energy Levels in Quantum Mechanics

Explains energy levels in quantum mechanics, including calculations with Planck's constant and electron charge.

Quantum Mechanics: Atomic Spectra

Explores quantum mechanics principles, focusing on atomic spectra and the failures of classical mechanics to explain them.

Independent Time Perturbations

Explores independent time perturbations in quantum mechanics and the Brillouin-Wigner method.

Jarzynski Equation and Quantum Circuits

Explores the Jarzynski equation and the quantization of electrical circuits in quantum harmonic oscillators.

Time-Independent Perturbations 2

Explores time-independent perturbations in quantum mechanics and their effects on energy levels and eigenstates.

Time-Independent Perturbation Theory: Degenerate Case

Explores time-independent perturbation theory in the degenerate case within quantum physics.

Eigenstates in Non-Infinite Well Potential

Focuses on finding an eigenstate of energy E0 in a non-infinite well potential by considering the Schrodinger equation.

Quantum Chemistry: Fundamentals of Quantum Mechanics

Covers the fundamentals of quantum mechanics and the behavior of particles at the quantum level.

Quantum Mechanics: Particle in a Box

Covers the quantum mechanics of a particle in a confined box and its energy levels.

Quantum Well: Zero Point Energy Calculation

Explains how to calculate the zero point energy of a particle in a quantum well.

Quantum Physics: Wave Nature and Measurement Interpretation

Explores wave nature, Schrödinger's equation solutions, and quantum measurement interpretation.

The Particle in a Box

Covers the particle in a box, discussing wave functions and energy levels.