# automatic playing for the 11 videos (click the up-left corner for the list)
source: MIT OpenCourseWare Last updated on 2014年6月28日
MIT 3.021J Introduction to Modeling and Simulation, Spring 2012
View the complete course: http://ocw.mit.edu/3-021JS12
The second half of the course, taught by Prof Jeff Grossman, covers
atomistic quantum modeling of materials, and explores some areas of
application based on computational models.
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
0. Introduction to Part II: Quantum mechanical methods 31:33
1. It's a quantum world: The theory of quantum mechanics 1:15:46
2. Practice makes perfect 1:13:34
3. From many-body to single-particle: Quantum modeling of molecules 1:06:22
4. Application of QM modeling: Solar thermal fuels (I) 1:20:07
5. Application of QM modeling: Solar thermal fuels (II) 1:19:26
6. Hydrogen storage, and atoms to molecules 1:16:30
7. Quantum modeling of solids: Basic properties 1:22:09
8. Advance properties of materials: What else can we do? 1:21:27
9. Some review and introduction to solar photovoltaics 1:20:48
10. Solar photovoltaics 1:15:01
source: MIT OpenCourseWare Last updated on 2014年6月28日
MIT 3.021J Introduction to Modeling and Simulation, Spring 2012
View the complete course: http://ocw.mit.edu/3-021JS12
The second half of the course, taught by Prof Jeff Grossman, covers
atomistic quantum modeling of materials, and explores some areas of
application based on computational models.
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu
0. Introduction to Part II: Quantum mechanical methods 31:33
1. It's a quantum world: The theory of quantum mechanics 1:15:46
2. Practice makes perfect 1:13:34
3. From many-body to single-particle: Quantum modeling of molecules 1:06:22
4. Application of QM modeling: Solar thermal fuels (I) 1:20:07
5. Application of QM modeling: Solar thermal fuels (II) 1:19:26
6. Hydrogen storage, and atoms to molecules 1:16:30
7. Quantum modeling of solids: Basic properties 1:22:09
8. Advance properties of materials: What else can we do? 1:21:27
9. Some review and introduction to solar photovoltaics 1:20:48
10. Solar photovoltaics 1:15:01
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