For the Love of Physics Courses

Degeneracy in Quantum Mechanics - Particle in a 3D Box Example

Explore degeneracy in quantum mechanics using the particle in a 3D box example. Understand how multiple quantum states can share the same energy level and its implications.

• YouTube
• 16 minutes
• On-Demand
• Free Video

Step Potential in Quantum Mechanics - Particle Penetration When E < V

Explore quantum particle behavior in step potential barriers, understanding wave functions, tunneling, and probability calculations for penetration into classically forbidden regions.

• YouTube
• 23 minutes
• On-Demand
• Free Video

Particle in a 3D Box - Quantum Mechanics Fundamentals

Explore quantum mechanics through the particle in a 3D box problem. Learn about wavefunctions, energy quantization, and their implications for understanding atomic and molecular systems.

• YouTube
• 32 minutes
• On-Demand
• Free Video

Step Potential: Reflection and Transmission Probability Derivation - Part I (E > V)

Explore quantum particle behavior at potential steps, deriving reflection and transmission probabilities. Gain insights into wave-like properties and partial reflection phenomena.

• YouTube
• 45 minutes
• On-Demand
• Free Video

Quantum Tunneling: Principles and Applications

Explore quantum tunneling, a counterintuitive phenomenon where particles pass through seemingly impenetrable barriers. Learn its derivation and applications in nuclear fusion, semiconductors, and radioactive decay.

• YouTube
• 47 minutes
• On-Demand
• Free Video

Stationary States, Energy Levels, Superposition and Wavefunction Collapse in Quantum Mechanics

Explore quantum mechanics concepts: stationary states, energy levels, superposition, and wavefunction collapse. Gain insights into fundamental principles shaping quantum systems.

• YouTube
• 42 minutes
• On-Demand
• Free Video

Problem Solving in Quantum Mechanics - Part II: Quick Revision for Competitive Exams

Intensive problem-solving session covering key quantum mechanics topics, including wavefunctions, normalization, probability, and Schrödinger's equation, ideal for exam preparation.

• YouTube
• 55 minutes
• On-Demand
• Free Video

Problem Solving in Quantum Mechanics - Part I: Quick Revision for Competitive Exams

Comprehensive problem-solving session covering key quantum mechanics topics, ideal for competitive exam preparation. Practice with 10 in-depth questions on foundational concepts.

• YouTube
• 1 hour 8 minutes
• On-Demand
• Free Video

Wave Function in Momentum Space - Representation and Probability Densities

Explore wave function representation in momentum space, including probability densities and expectation values. Learn Fourier transforms and problem-solving techniques.

• YouTube
• 39 minutes
• On-Demand
• Free Video

Probability Current and Continuity Equation in Quantum Mechanics

Explore probability current and its continuity equation in quantum mechanics, understanding particle behavior through wave functions and probability flow in space.

• YouTube
• 37 minutes
• On-Demand
• Free Video

Ehrenfest Theorem - The Bridge Between Quantum and Classical Physics

Explore the Ehrenfest Theorem, bridging quantum and classical physics. Understand how Schrödinger's equation relates to Newton's laws and the transition from microscopic to macroscopic behavior.

• YouTube
• 40 minutes
• On-Demand
• Free Video

Expectation Values and Operators in Quantum Mechanics - Basics of Probability Theory

Explore quantum mechanics operators, expectation values for position, momentum, and energy. Learn probability theory basics and their application in particle behavior analysis.

• YouTube
• 58 minutes
• On-Demand
• Free Video

Wavefunction and Normalization in Quantum Mechanics - Explained

Explore wavefunctions in quantum mechanics, their physical significance, and criteria for acceptability. Learn about normalization and its importance in quantum theory.

• YouTube
• 33 minutes
• On-Demand
• Free Video

Born's Statistical Interpretation of Quantum Mechanics

Explore Born's Statistical Interpretation in quantum mechanics, understanding wave functions, probability densities, and the shift from deterministic to probabilistic physics.

• YouTube
• 26 minutes
• On-Demand
• Free Video

Schrödinger's Equation - Derivation and Time-Independent Form

Explore Schrödinger's equation, its derivation, and role in quantum mechanics. Learn about plausibility arguments and time-independent solutions in this comprehensive physics lecture.

• YouTube
• 56 minutes
• On-Demand
• Free Video