Chapter 1. Introduction Section I. Relativity: Chapter 2. Special Relativity; Chapter 3. Index Notation Section II. Classical Fields: Chapter 4. A Classical Scalar Field; Chapter 5. The Klein-Gordon Equation; Chapter 6.

Noether's Theorem Section III. Quantum Mechanics: Chapter 7. Basic Quantum Mechanics; Chapter 8. Operators and Time Evolution; Chapter 9. Angular Momentum; Chapter 10. Feynman Diagram Quick Start Section IV. Quantum Field Theory: Chapter 11. Creation and Annihilation Operators; Chapter 12.

The Quantized Scalar Field; Chapter 13. Interactions and Feynman Diagrams Section V. Connection to Experiment: Chapter 14. Fermi's Golden Rule; Chapter 15. Toy Universe Predictions Section VI. Spin - ½ Particles: Chapter 16. The Dirac Equation; Chapter 17. Transforming Dirac Spinors; Chapter 18.

Quantizing the Dirac Field Section VII. The Electroweak Theory: Chapter 19. Electromagnetism from U(1); Chapter 20. Quantum Electrodynamics; Chapter 21. Renormalization; Chapter 22. Applications of QED; Chapter 23. The Weak Interaction from SU(2); Chapter 24. The Weak Interaction's Leftist Bias; Chapter 25.

The Unified Electroweak Theory Section VIII. Particle Masses: Chapter 26. The Higgs Mechanism; Chapter 27. Fermion Masses and Mixing; Chapter 28. Neutrino Masses and Mixing; Chapter 29. Applications of the Electroweak Theory Section IX. Chromodynamics: Chapter 30. Chromodynamics from SU(3); Chapter 31.

Applications of QCD Section X. And Beyond!: Chapter 32. Beyond the Standard Model Appendix A. Potentials From Interactions; Index.