Preliminaries. Atoms, nuclei and particles

Photons

Antiparticles

Mass and energy

Events

Electron-volts and other units

Particle names and the Greek alphabet

Scientific notation

Standard model. Conservation of energy and charge

Quantum numbers

Color

Electron-neutrino, electron number and crossing

First family

Families and forces

Spin 1/2 particles

Spin 1 and 2 particles

Forces and interactions

Classification of interactions

Electromagnetic, weak, strong, Higgs and gravitational interactions

Representing interactions

Origin of quantum numbers

Quantum mechanics. Mixing. Two-slit experiment

Amplitude and probability

Cabibbo and CKM mixing

Neutrino mixing

Particle mixing

Energy, momentum and mass-shell. Conservation laws

Relativity

Relativistic invariance

Relation E [equals] mc [squared]

Detection. Photoelectric effect

Bubble chambers

Spark chambers

Proportional wire chambers

Accelerators and storage rings. Energy bubbles

Accelerators

Secondary beams

Machine builders

CERN neutrino experiment. Experimental set-up

Neutrino physics

First neutrino experiments

Vector bosons

Missed opportunities

Particle zoo. Bound states

Structure of quark bound states

Spin of a bound state

Mesons

Baryons

Exotics

Discovering quarks

Triplets versus doublets and lepton-quark symmetry

Particle theory. Feynman rules - Infinites

Perturbation theory

Renormalizability

Weak interactions

Compton scattering

Neutral vector bosons

Charmed quarks

Higgs particle

General Higgs couplings

Speculations

[Rho]-parameter

Finding the Higgs. Quantum chromodynamics. Confinement

Asymptotic freedom

Scaling.