MIT 8.286 The Early Universe, Fall 2013
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What you'll learn
This course includes
- 28.5 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 23 lessons • 28.5 hours of video
MIT 8.286 The Early Universe, Fall 2013
23 lessons
• 28.5 hours
MIT 8.286 The Early Universe, Fall 2013
23 lessons
• 28.5 hours
- 1. Inflationary Cosmology: Is Our Universe Part of a Multiverse? Part I01:10:23
- 2. Inflationary Cosmology: Is Our Universe Part of a Multiverse, Part II01:17:15
- 3. The Doppler Effect and Special Relativity01:16:08
- 4. The Kinematics of the Homogeneous Expanding Universe01:18:13
- 5. Cosmological Redshift and the Dynamics of Homogeneous Expansion, Part I01:18:24
- 6. The Dynamics of Homogeneous Expansion, Part II01:19:04
- 7. The Dynamics of Homogeneous Expansion, Part III01:11:57
- 8. The Dynamics of Homogeneous Expansion, Part IV01:15:46
- 9. The Dynamics of Homogeneous Expansion, Part V01:08:49
- 10. Introduction to Non-Euclidean Spaces01:12:30
- 11. Non-Euclidean Spaces: Closed Universes01:16:43
- 12. Non-Euclidean Spaces: Open Universes and the Spacetime Metric01:14:21
- 13. Non-Euclidean Spaces: Spacetime Metric and Geodesic Equation01:15:45
- 14. The Geodesic Equation01:16:43
- 15. Black-Body Radiation and the Early History of the Universe, Part I01:21:07
- 16. Black-Body Radiation and the Early History of the Universe, Part II01:17:48
- 17. Black-Body Radiation and the Early History of the Universe, Part III01:08:50
- 18. Cosmic Microwave Background Spectrum and the Cosmological Constant, Part I01:16:20
- 19. The Cosmological Constant, Part II01:07:21
- 20. Supernovae Ia and Vacuum Energy Density01:17:40
- 21. Problems of the Conventional (Non-inflationary) Hot Big Bang Model01:11:04
- 22. The Higgs Field and the Cosmological Magnetic Monopole Problem01:24:14
- 23. Inflation01:16:24
