MIT 8.701 Introduction to Nuclear and Particle Physics, Fall 2020
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44 learners
What you'll learn
This course includes
- 8 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 66 lessons • 8 hours of video
MIT 8.701 Introduction to Nuclear and Particle Physics, Fall 2020
66 lessons
• 8 hours
MIT 8.701 Introduction to Nuclear and Particle Physics, Fall 2020
66 lessons
• 8 hours
- L0.1 Introduction to Nuclear and Particle Physics: Course Overview05:58
- L0.2 Introduction to Nuclear and Particle Physics: Course Organization04:01
- L0.3 Introduction to Nuclear and Particle Physics: Teaching Staff04:24
- L0.4 Introduction to Nuclear and Particle Physics: Literature03:35
- L0.5 Introduction: Early History and People in Nuclear and Particle Physics16:01
- L0.6 Introduction to Nuclear and Particle Physics: Particles14:00
- L0.7 Introduction to Nuclear and Particle Physics: Units05:48
- L0.8 Introduction to Nuclear and Particle Physics: Relativistic Kinematics15:21
- L0.9 Introduction to Nuclear and Particle Physics: Spin05:05
- L1.1 Fermions, Bosons, and Fields: Quantum Field and Matter07:04
- L1.2 Fermions, Bosons, and Fields: Feynman Diagram05:54
- L1.3 Fermions, Bosons, and Fields: Ranges of Forces05:30
- L1.4 Fermions, Bosons, and Fields: Decays07:37
- L1.5 Fermions, Bosons, and Fields: Reactions03:54
- L2.1 Symmetries: Introduction07:15
- L2.2 Symmetries: Flavor Symmetry06:50
- L2.3 Symmetries: Parity04:29
- L2.4 Symmetries: Charge Conjugation02:30
- L2.5 Symmetries: CP11:17
- L3.1 Feynman Calculus: Introduction02:18
- L3.2 Feynman Calculus: Fermi's Golden Rule06:37
- L3.3 Feynman Calculus: Toy Theory05:42
- L3.4 Feynman Calculus: Higher-Order Diagrams03:30
- L3.5 Feynman Calculus: Divergency06:33
- L4.1 QED: Free Wave Equation05:38
- L4.2 QED: Dirac Equation Solutions06:04
- L4.3 QED: Antiparticles03:04
- L4.4 QED: Photon07:47
- L4.5 QED: Feynman Rules for QED05:51
- L4.6 QED: Examples04:22
- L4.7 QED: Casimir's Trick10:24
- L4.8 QED: Cross Sections06:50
- L4.9 QED: Renormalization and Higher-Order QED Diagrams04:43
- L4.10 QED: Noether's Theorem05:22
- L5.1 QCD: Hadron Production09:28
- L5.2 QCD: Elastic Electron-Positron Scattering06:50
- L5.3 QCD: Feynman Rules in QCD05:51
- L5.4 QCD: Deep Inelastic Scattering09:52
- L5.5 QCD: Asymptotic Freedom06:54
- L5.6 QCD: Hadron Collider03:56
- L6.1 Weak Interactions: Feynman Rules09:45
- L6.2 Weak Interactions: Electroweak Unification09:25
- L6.3 Weak Interactions: Pion Decay07:51
- L6.4 Weak Interactions: Quarks09:17
- L6.5 Weak Interactions: Neutral Current02:20
- L7.1 Higgs Physics: Higgs Mechanism13:24
- L7.2 Higgs Physics: Fermion Masses03:42
- L7.3 Higgs Physics: Production and Decay05:36
- L7.4 Higgs Physics: Current Status08:14
- L8.1 Neutrino Physics: In the Standard Model05:05
- L8.2 Neutrino Physics: Mass05:18
- L8.3 Neutrino Physics: Mixing05:38
- L8.4 Neutrino Physics: Experimental Study11:12
- L8.5 Neutrino Physics: Results of Neutrino Oscillation Experiments05:37
- L8.6 Neutrino Physics: Mass Scale and Nature07:22
- L9.1 Nuclear Physics: Introduction05:26
- L9.2 Nuclear Physics: Binding Energies09:31
- L9.4 Nuclear Physics: Nuclear Force09:18
- L9.5 Nuclear Physics: Shell Model06:32
- L9.6 Nuclear Physics: Gamma Decay04:43
- L9.7 Nuclear Physics: Fission05:27
- L9.8 Nuclear Physics: Fusion09:26
- L10.1 Instrumentation: Particle Interaction with Matter17:14
- L10.2 Instrumentation: Tracking Detectors09:27
- L10.3 Instrumentation: Calorimetry06:25
- L10.4 Instrumentation: Accelerators23:58
