MIT STEM Concept Videos (pivotal concepts in science or engineering)

# automatic playing for the 41 videos (click the up-left corner for the list)

source: MIT OpenCourseWare     Last updated on 2014年8月14日
View the complete course: http://ocw.mit.edu/RES-TLL-004F13
The STEM Concept Videos are a series of videos produced by the Teaching and Learning Lab (TLL) at MIT, for the Singapore University of Technology and Design (SUTD). Each video is designed to help students learn a pivotal concept in science or engineering.
License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu

Strategic Communication 18:42
Electric Potential 12:44
Flux and Gauss' Law 17:57
Gradient 17:34
Enzyme Kinetics 16:56
Entropy 13:33
Kinetic Theory 10:53
Unit Analysis 14:09
VSEPR 12:12
Models of Light 14:15
Torque 20:11
Vectors 15:35
Feedback Loops 10:32
Rotating Frames of Reference 15:18
An Ode to ODEs 18:02
Conditional Probability 12:29
What is Temperature? 12:08
Buffers 17:29
The Art of Approximation 12:54
Basic Programming Techniques 14:18
Equilibrium vs. Steady State 15:05
Chirality 13:48
Gear Trains 16:55
Polyelectrolyte Multilayers 10:55
Vector Fields 9:52
Diffusion and Fick's Law 11:56
Linear Approximations 14:31
Stability Analysis 14:32
Radio Receivers 12:07
Problem Solving Process 12:55
Contaminant Fate Modeling 12:59
Free Body Diagrams 13:51
Conservation of Mass 10:40
Rigid Body Kinematics 17:26
Motion 11:10
Dimensional Analysis 18:09
Genetics and Statistics 18:33
Moments of Distributions 15:04
Latent Heat 13:51
Gravity 13:14

Introduction to Modeling and Simulation, Spring 2012 (Jeffrey Grossman / MIT)

# 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