Home

Explore

Blog

Continue learning

Your started courses will show up here.

Y

You

Level 1

0

XP

Your stats

Lessons completed

0

Lessons completed

Quiz wins

0

Quiz wins

Quiz losses

0

Quiz losses

Quantum Mechanics

Explore the strange and powerful laws that govern the microscopic world.

Physics Courses

59 lessons / quizzes

Topics

Exam‑style questions with instant feedback.

Section 1: The Quantum Revolution

1: The Failure of Classical Physics

2: Wave-Particle Duality

3: The Double-Slit Experiment

4: The Wave Function and Probability Interpretation

5: The Uncertainty Principle

Section 2: The Schrödinger Equation

1: Derivation of the Schrödinger Equation

2: Stationary States and the Time-Independent Schrödinger Equation

3: Boundary Conditions and Normalization

4: The Infinite Square Well

5: The Finite Square Well

6: Quantum Tunneling and the Step Potential

Section 3: Mathematical Formalism

1: Operators and Observables

2: Eigenvalues and Eigenfunctions

3: Expectation Values and Commutators

4: Dirac Notation and Hilbert Space

5: Heisenberg Uncertainty Principle (Mathematical)

Section 4: One-Dimensional Systems

1: The Harmonic Oscillator (Analytic Solution)

2: Ladder Operators and the Algebraic Method

3: Free Particle and Wave Packets

4: Bound States in One Dimension

5: Scattering in One Dimension

Section 5: Three-Dimensional Quantum Mechanics

1: The Schrödinger Equation in Spherical Coordinates

2: Orbital Angular Momentum

3: The Hydrogen Atom: Radial Solutions

4: Energy Levels and Degeneracy

5: The Zeeman Effect and Stark Effect

Section 6: Spin and Angular Momentum

1: The Stern-Gerlach Experiment

2: Spin Operators and Pauli Matrices

3: Spin-1/2 Systems and Rotations

4: Addition of Angular Momentum

5: Systems of Two Spin-1/2 Particles

6: The Pauli Equation

Section 7: Approximation Methods

1: Nondegenerate Perturbation Theory

2: Degenerate Perturbation Theory

3: The Variational Method

4: WKB Approximation

5: Applications: Fine Structure and Hyperfine Splitting

Section 8: Identical Particles and Quantum Statistics

1: Identical Particles and Exchange Symmetry

2: Bosons and Fermions

3: The Pauli Exclusion Principle and Slater Determinants

4: Applications to Multi-Electron Atoms

5: The Quantum Statistics: Bose–Einstein and Fermi–Dirac

Section 9: Time-Dependent Quantum Mechanics

1: Time Evolution Operator

2: The Schrödinger and Heisenberg Pictures

3: Time-Dependent Perturbation Theory

4: Fermi's Golden Rule

5: Selection Rules and Transitions

What you’ll achieve

Understand the Schrödinger equation and its physical implications.

Explore quantum phenomena like tunnelling and discrete energy levels.

Apply quantum mechanics to atoms, molecules, and solid-state systems.

Learn mathematical tools such as operators, eigenvalues, and wavefunctions.

Build the foundation for advanced topics like quantum field theory and quantum computing.

Course illustration

Course overview

Everything you need to excel in Quantum Mechanics

Quantum Mechanics introduces students to the fundamental principles that describe the behaviour of matter and energy at atomic and subatomic scales. The course covers wave–particle duality, the Schrödinger equation, operators, eigenvalues, and the probabilistic interpretation of quantum states. Students will study potential wells, tunnelling, the hydrogen atom, and angular momentum, while also gaining an introduction to spin and quantum statistics. With applications ranging from semiconductors to lasers and quantum computing, this course provides the theoretical foundation for much of modern physics and technology.

Curated content aligned with your syllabus

Fast quizzes you can fit into any schedule

Instant feedback to reinforce learning

Track your progress with detailed analytics