Massachusetts Institute of Technology 的课件信息 1.Nuclear Science and Engineering (一)Undergraduate Courses 22.002 Management in Engineering Fall 2004 22.00J Introduction to Modeling and Simulation Spring 2006 22.01 Introduction to Ionizing Radiation Fall 2006 22.012 Seminar: Fusion and Plasma Physics Spring 2006 22.02 Introduction to Applied Nuclear Physics Spring 2003 22.033 Nuclear Systems Design Project Fall 2002 22.05 Neutron Science and Reactor Physics Fall 2006 22.058 Principles of Medical Imaging Fall 2002 22.071J Introduction to Electronics, Signals, Spring 2006 and Measurement 22.101 Applied Nuclear Physics Fall 2003 22.101 Applied Nuclear Physics Fall 2006 22.103 Microscopic Theory of Transport Fall 2003 22.105 Electromagnetic Interactions Fall 2005 22.106 Neutron Interactions and Applications Spring 2005 22.251 Systems Analysis of the Nuclear Fuel Fall 2005 Cycle 22.312 Engineering of Nuclear Reactors Fall 2007 22.313J Thermal Hydraulics in Power Technology Spring 2007 22.314J Structural Mechanics in Nuclear Power Technology Fall 2006 22.33 Nuclear Systems Design Project Fall 2002 22.351 Systems Analysis of the Nuclear Fuel Fall 2005 Cycle 22.38 Probability And Its Applications To Fall 2005 Reliability, Quality Control, And Risk Assessment 22.39 Integration of Reactor Design, Fall 2006 Operations, and Safety 22.40J Fundamentals of Advanced Energy Spring 2004 Conversion 22.51 Interaction of Radiation with Matter Spring 2003 22.52J Statistical Thermodynamics of Complex Spring 2004 Liquids 22.55J Principles of Radiation Interactions 22.561J Magnetic Resonance Analytic, Fall 2004 Spring 2006 Biochemical, and Imaging Techniques 22.56J Noninvasive Imaging in Biology and Fall 2005 Medicine 22.611J Introduction to Plasma Physics I Fall 2003 22.611J Introduction to Plasma Physics I Fall 2006 22.615 MHD Theory of Fusion Systems Spring 2007 22.616 Plasma Transport Theory Fall 2003 22.68J Superconducting Magnets Spring 2003 22.71J Physical Metallurgy Spring 2003 22.71J Physical Metallurgy Spring 2004 22.811J Sustainable Energy Spring 2005 22.811J Sustainable Energy January (IAP) 2007 22.812J Managing Nuclear Technology Spring 2004 22.82 Engineering Risk-Benefit Analysis Spring 2007 22.903 Photon and Neutron Scattering Spring 2005 Spectroscopy and Its Applications in Condensed Matter 22.920 22.921 A Hands-On Introduction to Nuclear January Magnetic Resonance (IAP) 1997 Nuclear Power Plant Dynamics and Control January (IAP) 2006 22.A09 Career Options for Biomedical Research Fall 2006 22.S27 Seminar: Fusion and Plasma Physics Spring 2006 (二)Graduate Courses 22.033 Nuclear Systems Design Project Fall 2002 22.058 Principles of Medical Imaging Fall 2002 22.101 Applied Nuclear Physics Fall 2003 22.101 Applied Nuclear Physics Fall 2006 22.105 Electromagnetic Interactions Fall 2005 22.106 Neutron Interactions and Applications Spring 2005 22.251 Systems Analysis of the Nuclear Fuel Fall 2005 Cycle 22.312 Engineering of Nuclear Reactors Fall 2007 22.313J Thermal Hydraulics in Power Technology Spring 2007 22.314J Structural Mechanics in Nuclear Power Fall 2006 Technology 22.33 Nuclear Systems Design Project Fall 2002 22.351 Systems Analysis of the Nuclear Fuel Fall 2005 Cycle 22.38 Probability And Its Applications To Fall 2005 Reliability, Quality Control, And Risk Assessment 22.39 Integration of Reactor Design, Fall 2006 Operations, and Safety 22.40J Fundamentals of Advanced Energy Spring 2004 Conversion 22.51 Interaction of Radiation with Matter Spring 2003 22.52J Statistical Thermodynamics of Complex Spring 2004 Liquids 22.55J Principles of Radiation Interactions 22.561J Magnetic Resonance Analytic, Fall 2004 Spring 2006 Biochemical, and Imaging Techniques 22.56J Noninvasive Imaging in Biology and Fall 2005 Medicine 22.611J Introduction to Plasma Physics I Fall 2003 22.611J Introduction to Plasma Physics I Fall 2006 22.615 MHD Theory of Fusion Systems Spring 2007 22.616 Plasma Transport Theory Fall 2003 22.68J Superconducting Magnets Spring 2003 22.71J Physical Metallurgy Spring 2003 22.71J Physical Metallurgy Spring 2004 22.811J Sustainable Energy Spring 2005 22.811J Sustainable Energy January (IAP) 2007 22.812J Managing Nuclear Technology Spring 2004 22.82 Engineering Risk-Benefit Analysis Spring 2007 22.903 Photon and Neutron Scattering Spring 2005 Spectroscopy and Its Applications in Condensed Matter 22.920 22.921 A Hands-On Introduction to Nuclear January Magnetic Resonance (IAP) 1997 Nuclear Power Plant Dynamics and Control January (IAP) 2006 2.Physics http://ocw.mit.edu/OcwWeb/Physics/index.htm (一)Undergraduate Courses 8.01 Physics I: Classical Mechanics Fall 1999 8.01 Physics I Fall 2003 8.012 Physics I: Classical Mechanics Fall 2005 8.01L Physics I: Classical Mechanics Fall 2005 8.01T Physics I Fall 2004 8.01X Physics I: Classical Mechanics with an Fall 2002 Experimental Focus 8.02 Electricity and Magnetism Spring 2002 8.02 Physics II: Electricity and Magnetism Spring 2007 8.022 Physics II: Electricity and Magnetism Fall 2002 8.022 Physics II: Electricity and Magnetism Fall 2004 8.022 Physics II: Electricity and Magnetism Fall 2006 8.02T Electricity and Magnetism Spring 2005 8.02X Physics II: Electricity & Magnetism Spring 2005 with an Experimental Focus 8.03 Physics III Spring 2003 8.03 Physics III: Vibrations and Waves Fall 2004 8.033 Relativity Fall 2006 8.04 Quantum Physics I Spring 2006 8.044 Statistical Physics I Spring 2008 8.05 Quantum Physics II Fall 2004 8.06 Quantum Physics III Spring 2005 8.07 Electromagnetism II Fall 2005 8.08 Statistical Physics II Spring 2005 8.09 Classical Mechanics Fall 2006 8.13-14 Experimental Physics I & II "Junior Fall 2007 Lab" 8.20 Introduction to Special Relativity January (IAP) 2005 8.224 Exploring Black Holes: General Spring 2003 Relativity & Astrophysics 8.225J Einstein, Oppenheimer, Feynman: Spring 2006 Physics in the 20th Century 8.231 Physics of Solids I Fall 2006 8.251 String Theory for Undergraduates Spring 2007 8.261J Introduction to Computational Spring 2004 Neuroscience 8.282J Introduction to Astronomy Spring 2006 8.284 Modern Astrophysics Spring 2006 8.286 The Early Universe Spring 2004 8.811 Particle Physics II Fall 2005 8.901 Astrophysics I Spring 2006 (二)Graduate Courses 8.311 Electromagnetic Theory Spring 2004 8.321 Quantum Theory I Fall 2002 8.322 Quantum Theory II Spring 2003 8.323 Relativistic Quantum Field Theory I Spring 2003 8.324 Relativistic Quantum Field Theory II Fall 2005 8.325 Relativistic Quantum Field Theory III Spring 2003 8.325 Relativistic Quantum Field Theory III Spring 2007 8.333 8.334 Statistical Mechanics I: Statistical Fall Mechanics of Particles 2007 Statistical Mechanics II: Statistical Spring Physics of Fields 2008 8.351J Classical Mechanics: A Computational Approach 8.371J Quantum Information Science Fall 2002 Spring 2006 8.395J Teaching College-Level Science Spring 2006 8.422 Atomic and Optical Physics II Spring 2005 8.511 Theory of Solids I Fall 2004 8.512 Theory of Solids II Spring 2004 8.513 8.514 Many-Body Theory for Condensed Matter Fall Systems 2004 Strongly Correlated Systems in Condensed Fall Matter Physics 8.575J Statistical Thermodynamics of Complex 2003 Spring Liquids 2004 8.591J Systems Biology Fall 2004 8.592J Statistical Physics in Biology Spring 2005 8.594J Introduction to Neural Networks Spring 2005 8.613J Introduction to Plasma Physics I Fall 2003 8.613J Introduction to Plasma Physics I Fall 2006 8.701 8.851 8.871 Introduction to Nuclear and Particle Spring Physics 2004 Strong Interactions: Effective Field Spring Theories of QCD 2006 Selected Topics in Theoretical Particle Fall Physics: Branes and Gauge Theory Dynamics 2004 8.901 Astrophysics I Spring 2006 8.902 Astrophysics II Fall 2004 8.942 Cosmology Fall 2001 8.952 Particle Physics of the Early Universe Fall 2004 8.962 General Relativity Spring 2006