Starting a new Lecture Notes Series on MIT 8.20 Introduction to Special Relativity, January IAP 2021
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MIT 8.20 Introduction to Special Relativity, January IAP 2021 By Lecture Notes together!
Lecture 2: 1.2. Prof. Klute’s Research
Lecture 3: 1.3 History of Special Relativity
Lecture 5: 1.5 Categories of Physics
Lecture 6: 2.1 Events
Lecture 7: 2.2 Galilean Transformationn
Lecture 8: 3.1 Light
Lecture 9: 3.2 Waves
Lecture 10: 3.3 Michelson-Morley Experiment
Lecture 11: 3.4 Stellar Aberration
Lecture 12: 4.1 Time Dilation
Lecture 13: 4.2 Muons
Lecture 14: 4.3 Length Contraction
Lecture 15: 4.4 Invariance
Lecture 16: 4.5 Lorentz Transformation
Lecture 17: 5.1 Voyager Program
Lecture 18: 5.2 Velocity Addition
Lecture 19: 5.3 Spacetime Diagrams
Lecture 20: 5.4 Regions in Spacetime Diagrams
Lecture 21: 5.5 Causality
Lecture 22: 6.1 Pole-in-the-Barn Paradox
Lecture 23: 6.2 Twin Paradox
Lecture 24: 6.3 Spacecraft-on-a-Rope Paradox
Lecture 25: 7.1 Introduction to the Doppler Effect
Lecture 26: 7.2 Relativistic Doppler Effect
Lecture 27: 7.3 Redshift
Lecture 28: 7.4 Galaxy Travel
Lecture 29: 8.1 Algebra of Lorentz transformations
Lecture 30: 8.2 Introduction to 4-Vector Notation
Lecture 31: 8.3 Proper Velocity
Lecture 32: 9.1 Momentum Conservation
Lecture 33: 9.2 Energy Conservation
Lecture 34: 9.4 Forces and Kinetic Energy
Lecture 35: 9.3 Collisions
Lecture 36: 10.1 Tests of Special Relativity
Lecture 37: 10.2 The Large Electron-Positron Collider
Lecture 38: 10.3 Deuteron Production
Lecture 39: 10.4 Absorption and Emission of Photons
Lecture 40: 10.5 Decay of a Pion
Lecture 41: 10.6 Creation of Particles
Lecture 42: 10.7 Compton Effect
Lecture 43: 10.8 Global Positioning System
Lecture 44: 11.1 Charge and Current
Lecture 45: 11.2 Electric and Magnetic Fields
Lecture 46: 12.1 Equivalence Principle
Lecture 47: 12.2 Time Dilation Effect on Earth
Lecture 48: 12.3 Bending of Light
Lecture 49: 12.4 Redshift Tests
Lecture 50: 12.5 General Relativity
Lecture 51: 12.6 Experimental Evidence
Lecture 52: 13.2 Course Review