Astrophysics Lectures
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This course includes
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Course content
1 modules • 230 lessons • 534.3 hours of video
Astrophysics Lectures
230 lessons
• 319.3 hours
Astrophysics Lectures
230 lessons
• 319.3 hours
- Lecture 1: Daily Motions of the Sky and The Celestial Sphere 13:48
- Lecture 2 - Yearly Motions of the Night Sky and the Ecliptic 28:42
- Lecture 3 - Earth's Tilt and the Seasons 21:09
- Lecture 4 - Lunar Phases and Eclipses 35:36
- Lecture 5 - Models of the Solar System 44:53
- Lecture 6 - Kepler's Laws 21:38
- Lecture 7 - Newton's Laws and Gravity 29:16
- Lecture 8 - Light Travel 50:07
- Lecture 9 - Light and Color 48:28
- Leture 10 - The Electromagnetic Spectrum 42:39
- Lecture 11 - Thermal Emission 36:12
- Lecture 12 - Light and Atoms 01:10:12
- Lecture 13 - Fusion and Heat Transfer 30:22
- Lecture 14 - The Nature of Stars 42:39
- Lecture 15 - Stellar Evolution 30:33
- Lecture 16 - Stellar End States 23:37
- Lecture 17 - Star Formation 45:48
- Lecture 18 - Multiple Star Systems 29:09
- Lecture 19 - The Milky Way 35:38
- Lecture 20 - The Milky Way Part 2 46:37
- Lecture 21 - The Expanding Universe 34:10
- Lecture 22 - The Big Bang 34:25
- Lecture 23 - Cosmic Evolution 54:32
- Lecture 24 - Dark Matter 49:22
- Lecture 25 - the Age, Shape, Size and Fate of the Universe 42:06
- 1. Inflationary Cosmology: Is Our Universe Part of a Multiverse? Part I 01:10:23
- 2. Inflationary Cosmology: Is Our Universe Part of a Multiverse, Part II 01:17:15
- 3. The Doppler Effect and Special Relativity 01:16:08
- 4. The Kinematics of the Homogeneous Expanding Universe 01:18:13
- 5. Cosmological Redshift and the Dynamics of Homogeneous Expansion, Part I 01:18:24
- 6. The Dynamics of Homogeneous Expansion, Part II 01:19:04
- 7. The Dynamics of Homogeneous Expansion, Part III 01:11:57
- 8. The Dynamics of Homogeneous Expansion, Part IV 01:15:46
- 9. The Dynamics of Homogeneous Expansion, Part V 01:08:49
- 10. Introduction to Non-Euclidean Spaces 01:12:30
- 11. Non-Euclidean Spaces: Closed Universes 01:16:43
- 12. Non-Euclidean Spaces: Open Universes and the Spacetime Metric 01:14:21
- 13. Non-Euclidean Spaces: Spacetime Metric and Geodesic Equation 01:15:45
- 14. The Geodesic Equation 01:16:43
- 15. Black-Body Radiation and the Early History of the Universe, Part I 01:21:07
- 16. Black-Body Radiation and the Early History of the Universe, Part II 01:17:48
- 17. Black-Body Radiation and the Early History of the Universe, Part III 01:08:50
- 18. Cosmic Microwave Background Spectrum and the Cosmological Constant, Part I 01:16:20
- 19. The Cosmological Constant, Part II 01:07:21
- 20. Supernovae Ia and Vacuum Energy Density 01:17:40
- 21. Problems of the Conventional (Non-inflationary) Hot Big Bang Model 01:11:04
- 22. The Higgs Field and the Cosmological Magnetic Monopole Problem 01:24:14
- 23. Inflation 01:16:24
- 1. Emergence of Gravity 01:31:11
- 2. Classical Black Hole Geometry 01:18:22
- 3. Causal Structure of a Black Hole and Black Hole Temperature 01:22:04
- 4. Physical Interpretation of Black Hole Temperature 01:28:43
- 5. Black Hole Thermodynamics 01:19:45
- 6. Holographic Principle 01:26:05
- 7. Structure of Large N Expansion 01:23:09
- 8. Large N Expansion as a String Theory, Part I 01:29:45
- 9. Large N Expansion as a String Theory, Part II 01:53:10
- 10. Basics of String Theory and Light-cone Gauge 01:42:25
- 11. String Theory in the Light-cone Gauge 01:22:18
- 12. String Spectrum and Graviton 01:44:57
- 13. Physics of D-branes, Part I 01:23:58
- 14. Physics of D-branes, Part II 01:52:27
- 15. Physics of D-branes, Part III 01:24:10
- 16. Geometry of D-branes and AdS / CFT Conjecture 01:49:03
- 17. More on AdS / CFT Duality 01:48:07
- 18. General Aspects of the Duality 01:24:58
- 19. Mass-dimension Relation 01:52:06
- 20. Euclidean Correlation Functions: Two-point Functions 01:22:43
- 21. Euclidean Correlation Functions: Higher-point Functions 01:20:30
- 22. Computation of the Wilson Loop 01:50:49
- 23. Duality at a Finite Temperature and Finite Chemical Potential 01:25:55
- 24. Holographic Entanglement Entropy 01:56:32
- 1. Introduction to the Class | MIT 8.224 Exploring Black Holes 51:01
- 5. Einstein's Field Equations | MIT 8.224 Exploring Black Holes 01:09:11
- 8. X-Ray Binaries and the Search for Black Holes | MIT 8.224 Exploring Black Holes 01:07:55
- 10. The Universe and Three Examples | MIT 8.224 Exploring Black Holes 01:12:56
- 13. Cosmic Structure Formation; From Inflation to Galaxies | MIT 8.224 Exploring Black Holes 56:20
- The Loneliest Galaxies in the Universe - Mia de los Reyes - 05/08/2020 01:57:32
- The Gas Around Galaxies - Yuguang Chen - 04/10/2020 02:04:10
- Real Images of Exoplanets - Jason Wang - 03/27/2020 01:56:39
- Observing Black Holes - Marianne Heida - 09/06/2019 01:44:44
- A Star is Born - Mike Grudic - 05/10/2019 39:53
- Astrophysics Panel Q&A - Black holes, supernovae, and more! 05/10/19 58:36
- Planet Nine from Outer Space - Mike Brown - 03/15/2019 01:49:44
- The Dawn of the Age of Gravitational-Wave Astronomy - Jameson Rollins - 01/20/2019 02:38:15
- Understanding the Formation and Evolution of Galaxies - Cameron Hummels - 12/14/2018 01:45:17
- Planets Big and Small - Eve Lee - 11/16/2018 01:51:18
- Simulating Black Holes - Maria Okounkova - 08/17/2018 01:49:13
- Mysterious Flashes of Radio Waves from Deep Space - Gregg Hallinan - 06/22/2018 01:43:06
- The Grand Tour: Exploring Planets Outside the Solar System - Heather Knutson - 05/25/2018 01:32:14
- The Truth About Black Holes - Leo Stein - 03/23/2018 01:45:53
- Galaxies Aren't Great at Making Stars - Matt Orr - 02/23/2018 01:47:04
- When Galaxies Collide: Snapshots of the Universe's Largest Battles - Anne Medling - 01/26/2018 01:50:25
- Cosmic Lenses: Bending Light with Gravity - Denise Schmitz - 11/17/2017 01:43:23
- Cosmic Fireworks - Mansi Kasliwal - 10/20/2017 01:46:51
- The Origin of the Universe and the Arrow of Time - Sean Carroll - 08/11/2017 01:32:56
- Understanding the Universe Using Gravitational Waves - Astrid Lamberts - 07/14/2017 01:54:04
- The Origin of the Elements - Ivanna Escala - 06/02/2017 01:47:13
- Simulating the Galaxies of our Universe - Andrew Wetzel - 05/05/2017 01:43:58
- Why Stars Shine - Robyn Sanderson - 03/31/2017 01:51:13
- The Elusive Origins of Hot Jupiters - Konstantin Batygin - 03/03/2017 01:55:52
- Simulating the Universe on a Supercomputer - Cameron Hummels - 07/08/2016 01:45:38
- Lecture 1 | Modern Physics: Quantum Mechanics (Stanford) 01:51:11
- Lecture 1 | Modern Physics: Classical Mechanics (Stanford) 47:50
- Lecture 2 | Modern Physics: Classical Mechanics (Stanford) 01:44:34
- Lecture 3 | Modern Physics: Classical Mechanics (Stanford) 01:35:42
- Lecture 4 | Modern Physics: Classical Mechanics (Stanford) 01:50:03
- Lecture 5 | Modern Physics: Classical Mechanics (Stanford) 01:47:50
- Lecture 6 | Modern Physics: Classical Mechanics (Stanford) 01:52:49
- Lecture 7 | Modern Physics: Classical Mechanics (Stanford) 02:00:22
- Lecture 8 | Modern Physics: Classical Mechanics (Stanford) 01:42:48
- Lecture 9 | Modern Physics: Classical Mechanics (Stanford) 01:21:25
- Lecture 2 | Modern Physics: Quantum Mechanics (Stanford) 01:51:04
- Lecture 3 | Modern Physics: Quantum Mechanics (Stanford) 01:56:50
- Lecture 4 | Modern Physics: Quantum Mechanics (Stanford) 01:59:34
- Lecture 5 | Modern Physics: Quantum Mechanics (Stanford) 01:55:48
- Lecture 6 | Modern Physics: Quantum Mechanics (Stanford) 01:47:28
- Lecture 7 | Modern Physics: Quantum Mechanics (Stanford) 01:38:17
- Lecture 8 | Modern Physics: Quantum Mechanics (Stanford) 01:38:47
- Lecture 9 | Modern Physics: Quantum Mechanics (Stanford) 01:47:52
- Lecture 10 | Modern Physics: Quantum Mechanics (Stanford) 01:46:51
- Lecture 1 | Modern Physics: Special Relativity (Stanford) 01:49:23
- Lecture 2 | Modern Physics: Special Relativity (Stanford) 01:38:44
- Lecture 3 | Modern Physics: Special Relativity (Stanford) 01:39:35
- Lecture 4 | Modern Physics: Special Relativity (Stanford) 01:40:32
- Lecture 5 | Modern Physics: Special Relativity (Stanford) 01:44:12
- Lecture 6 | Modern Physics: Special Relativity (Stanford) 01:40:51
- Lecture 7 | Modern Physics: Special Relativity (Stanford) 01:48:34
- Lecture 8 | Modern Physics: Special Relativity (Stanford) 01:54:37
- Einstein's General Theory of Relativity | Lecture 1 01:38:28
- Einstein's General Theory of Relativity | Lecture 2 01:47:37
- Einstein's General Theory of Relativity | Lecture 3 01:50:41
- Einstein's General Theory of Relativity | Lecture 4 01:39:12
- Einstein's General Theory of Relativity | Lecture 5 01:52:16
- Einstein's General Theory of Relativity | Lecture 6 01:52:51
- Einstein's General Theory of Relativity | Lecture 7 01:56:44
- Einstein's General Theory of Relativity | Lecture 8 01:46:13
- Einstein's General Theory of Relativity | Lecture 9 01:45:08
- Einstein's General Theory of Relativity | Lecture 10 01:59:32
- Einstein's General Theory of Relativity | Lecture 11 01:59:07
- Einstein's General Theory of Relativity | Lecture 12 02:20:46
- Cosmology | Lecture 1 01:43:03
- Cosmology | Lecture 2 01:57:11
- Cosmology | Lecture 3 02:00:27
- Cosmology | Lecture 4 02:12:39
- Cosmology | Lecture 5 01:44:16
- Cosmology | Lecture 6 01:44:43
- Cosmology | Lecture 7 01:49:38
- Cosmology | Lecture 8 01:58:42
- Lecture 1 | Modern Physics: Statistical Mechanics 02:00:52
- Lecture 2 | Modern Physics: Statistical Mechanics 46:49
- Lecture 3 | Modern Physics: Statistical Mechanics 01:55:50
- Lecture 4 | Modern Physics: Statistical Mechanics 01:35:47
- Lecture 5 | Modern Physics: Statistical Mechanics 01:47:44
- Lecture 6 | Modern Physics: Statistical Mechanics 01:12:58
- Lecture 7 | Modern Physics: Statistical Mechanics 01:39:55
- Lecture 8 | Modern Physics: Statistical Mechanics 01:37:32
- Lecture 9 | Modern Physics: Statistical Mechanics 01:32:32
- Lecture 10 | Modern Physics: Statistical Mechanics 01:40:45
- "A Walk on the Dark Side" - MN Institute for Astrophysics Public Lecture 01:23:40
- Planetary Systems Around Other Stars 01:26:28
- String theory - Brian Greene 19:10
- Complexity and Gravity - Leonard Susskind 01:27:26
- Complexity and Gravity II - Leonard Susskind 01:31:31
- Inside Black Holes | Leonard Susskind 01:10:33
- Why is Time a One-Way Street? 01:13:39
- The Quantum Origins of Gravity by Leonard Susskind 01:17:53
- Neil deGrasse Tyson Lecture @ UW 5/12/2011 FULL 02:23:07
- "Probing the Dark Universe" - A Lecture by Dr. Josh Frieman 01:45:22
- 2018 Reines Lecture: Exploring the Universe with Gravitational Waves by Kip Thorne 01:20:58
- A Science Odyssey: Mysteries of the Universe - Documentary 01:49:40
- Birth & Death of Stars at Northwestern - Part 1/4 22:39
- Birth & Death of Stars at Northwestern - Part 2/4 22:36
- Birth & Death of Stars at Northwestern - Part 3/4 22:32
- Birth & Death of Stars at Northwestern - Part 4/4 05:42
- Einstein for the Masses 01:02:31
- "Introduction to Plasma Astrophysics I" - Eliot Quataert 01:37:06
- "Introduction to Plasma Astrophysics II" - Eliot Quataert 01:34:42
- Entering an Era of Precision Stellar Astrophysics (or Fun with Stellar Radii) - Keivan Stassun 01:07:23
- Our Galactic Center: A Unique Laboratory for the Physics & Astrophysics of Black Holes 37:25
- Institute for Advanced Study/Princeton University Joint Astrophysics Colloquium - Eve C. Ostriker 53:53
- Modern Cosmology and the Origin of the Universe - Matias Zaldarriaga 01:02:17
- Forming Massive Galaxies - Pieter van Dokkum 53:03
- Alyssa Goodman - Teasing Out the True Milky Way 54:36
- The Surprisingly Dynamic...Massive Stars - Eliot Quataert 01:15:44
- The Continuing Search for Planet Nine - Matthew Holman 57:15
- The Galactic Center: A Laboratory for the Study of...Supermassive Black Holes - Tuan Do 01:01:50
- Cosmic Rays 1- Ellen Zweibel 01:26:44
- "Cosmic Rays 2" - Ellen Zweibel 01:21:04
- Surprising Impacts of Gravity Waves - Jim Fuller 55:32
- Dynamics of Black Holes and Gravitational Waves - Hyung Mok Lee 01:05:39
- Cosmic Collisions – Progress in Gravitational-Wave Astronomy - Patrick Brady 53:09
- Finding Gravitational Waves from the Early Universe - Eiichiro Komatsu 52:21
- "The Dark History of the Early Universe" - Tracy Slatyer 01:04:47
- Growing Black Holes in Growing Galaxies - Marta Volonteri 50:16
- The polarized microwave background: ACTPol and beyond - Jo Dunkley 57:14
- Signposts of Planetary Systems Around Evolved Stars - Roman Rafikov 59:21
- An Introduction to Stellar Astrophysics 01:38:49
- Models of Black Hole Accretion 01:29:38
- ESO: Extreme Environments of Supermassive Black Holes at Heart of Galaxies Trigger Star Fo 01:22:42
- Observations of Dual Supermassive Black Holes | Julie Comerford 01:29:42
- astrophysics 01:32:26
- Astrophysics Colloquium 2016 01:29:46
- Astrophysics 01:25:17
- Astrophysics Colloquium 2016 01:29:12
- Star Clusters: Crash Course Astronomy #35 01:37:34
- How to Weigh a Star Using Gravitational Lensing 01:31:57
- The Milky Way Lecture 01:22:52
- Mysteries of a Dark Universe 01:34:54
- How galaxies evolve | Dr. Sarah Sweet | TEDxBrisbane 01:17:47
- Blackhole Hunting with NuSTAR (live public talk) 01:33:46
- The Future of Gravitational Waves | Space Time | PBS Digital Studios 01:43:03
- Astrophysics Colloquium 2016 01:39:21
- Astrophysics Colloquium 2016 01:52:35
- Lifecycle of massive stars | Stars, black holes and galaxies | Cosmology & Astronomy | Kha 01:43:07
- Gravitational wave detection a step closer with Advanced LIGO 01:35:05
- The Event Horizon Telescope: Imaging and Time Resolving a Black Hole 01:23:57
- Studying the beginning of the universe from the bottom of the world 01:07:26
- The Deep Underground Neutrino Experiment – A lecture by Dr. Stefan Söldner-Rembold 53:46
- Dark Matter Day at Fermilab 40:59
- What is Dark Matter and Why Does it Matter? 01:04:31
- Mapping the Heavens to Understand Dark Matter and Black Holes 01:29:28
- Neutrinos: Messengers from a Violent Universe 01:01:08
- Einstein, Black Holes and Cosmic Chirps - A Lecture by Barry Barish 01:29:02
- Particles, Fields and The Future of Physics - A Lecture by Sean Carroll 01:37:55
- 2019 Reines Lecture: "The Discovery of Pulsars - A Graduate Student's Tale" Jocelyn Bell Burnell 01:10:59
- Exploring Space Lecture: Gamma Ray Bursts and the Birth of Black Holes 01:20:50
- Pluto, Eris, and the Dwarf Planets of the Outer Solar System 01:14:23
- Exploring Space Lecture: Big Bang for the Buck - Cosmology from WMAP 01:13:06
- Michio Kaku: The Universe in a Nutshell (Full Presentation) | Big Think 42:14
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