Lecture Notes

1) Introduction

2) Units, Special Relativity, 4-Vectors, Decay Formulae

3) Scattering and Feynman Diagrams

4) Anti-Particles

5) Accelerators

6) Angular Momentum and Spin

7) Magnetic Moments

8) Particle Classification & Lepton Number

9)  Decays in Quantum Mechanics

10)  Hadronic Structure & Cross Sections

11) Born  Approximation, Form Factors, Nuclear Size & Shape

12)  Nuclear Systematics

13)  Liquid Drop Model

14)  Fermi Gas Model

15)  Shell Model

16)   Leptons as Point Particles

17)   The Size and Shape of the Proton

18)   Inelastic ep Scattering

19)   Deep Inelastic Scattering and Partons

20)  Symmetries, Invariance, and Conservation Laws

21)  Continuous Symmetry Transformations & Gauge Invariance

22)  Additive Quantum Nos, and the Hierarchy of Gauge Forces

23)  Discrete Symmetry Transformations & Parity

24)  Time Reversal and Charge Conjugation

25)  CP Violation in the Neutral K System

26)  Strangeness Oscillations

27)  Weak Interaction - (V-A) Space Time Structure

28)  Flavour Mixing - The Cabbibo Angle

29)   3 Generation Mixing - Cabibbo-Kobayashi-Maskawa  Matrix

30)   Summary & Study Guide