Roadmap
Progress through the curriculum. Checked items are complete.
Phase 1: Foundations
- 1.1 The Principle of Least Action
- 1.2 Lagrangian Mechanics
- 1.3 Symmetries & Conservation
- 1.4 Hamiltonian Mechanics
- 1.5 Mathematical Foundations
Phase 2: Quantum Mechanics
- 2.1 Foundations
- 2.2 Exactly Solvable Problems
- 2.3 Approximation Methods
- 2.4 Entanglement & Measurement
- 2.5 Interpretations
- 2.6 Path Integrals
Phase 3: Electromagnetism
- 3.1 Maxwell's Equations
- 3.2 Electromagnetic Waves
- 3.3 Gauge Invariance
- 3.4 Relativistic Formulation
Phase 4: Special Relativity
- 4.1 Postulates & Lorentz Transformations
- 4.2 Spacetime Diagrams
- 4.3 4-Vectors & Invariants
- 4.4 Relativistic Mechanics
- 4.5 E = mc²
Phase 5: Statistical Physics
- 5.1 Entropy & the Second Law
- 5.2 Ensembles
- 5.3 Quantum Statistics
- 5.4 Phase Transitions
- 5.5 Information & Entropy
Phase 6: General Relativity
- 6.1 Differential Geometry
- 6.2 Einstein Field Equations
- 6.3 Schwarzschild Solution
- 6.4 Black Holes
- 6.5 Gravitational Waves
- 6.6 Cosmological Solutions
Phase 7: Quantum Field Theory
- 7.1 Free Fields
- 7.2 Interactions
- 7.3 Renormalization
- 7.4 Gauge Theories
Phase 8: The Standard Model
- 8.1 Particle Content
- 8.2 Electroweak Unification
- 8.3 QCD
- 8.4 Neutrino Physics
- 8.5 Beyond the Standard Model
Phase 9: Cosmology
- 9.1 The Big Bang
- 9.2 Inflation
- 9.3 CMB Physics
- 9.4 Dark Matter
- 9.5 Dark Energy
- 9.6 Structure Formation
Phase 10: Frontiers
- 10.1 Quantum Gravity
- 10.2 Foundational Questions
- 10.3 Information & Physics
- 10.4 Cross-Field Connections