• Week 1, Day A: Introduction, parable of the surveyors
• Week 1, Day B: A bit of history
• Week 1, Day C: Results of the Michelson-Morley experiment
• Week 2, Day A: Events: a good choice for units
• Week 2, Day B: Events: intelligent observers and synchronizing clocks
• Week 2, Day C: Events: making diagrams
• Week 3, Day A: Inertial frames
• Week 3, Day B: Time dilation
• Week 3, Day C: Length contraction
• Week 4, Day A: Galilean transformations
• Week 4, Day B: The Lorentz transformations
• Week 4, Day C: Consequences of the Lorentz transformations
• Week 5, Day A: Paradox: the ladder and the barn
• Week 5, Day B: Relativistic Doppler effect
• Week 5, Day C: Test
• Week 6, Day A: Astronomical Spectra
• Week 6, Day B: The expanding universe
• Week 6, Day C: Superluminal motions?
• Week 7, Day A: The Twin Paradox, Part I
• Week 7, Day B: The Twin Paradox, Part II
• Week 7, Day C: The Twin Paradox, Part III
• Week 8, Day A: Kinetic Energy in the non-relativistic regime
• Week 8, Day B: Kinetic Energy in the relativistic regime
• Week 8, Day C: Momentum in the non-relativistic regime
• Week 9, Day A: Momentum in the relativistic regime
• Week 9, Day B: Space-Time and Momentum-Energy
• Week 9, Day C: Supernova 1987A and the mass of the neutrino (Part I)
• Week 10, Day A: Supernova 1987A and the mass of the neutrino (Part II)
• Week 10, Day B: The Compton Effect
• Week 10, Day C: TBA