17. X-Ray Emission & Absorption
17. X-Ray Emission & Absorption
This page contains materials for the session on x-ray emission and absorption. It features a 1-hour lecture video, and also presents the prerequisites, learning objectives, reading assignment, lecture slides, homework with solutions, and resources for further study.
17: Carbon and Energy Metabolism
17: Carbon and Energy Metabolism
Topics covered: Carbon and Energy Metabolism Instructor: Prof. Penny Chisholm
17: Computational Models: Random Walk Simulation
17: Computational Models: Random Walk Simulation
Topics covered: Computational models: random walk simulation Instructor: Prof. Eric Grimson, Prof. John Guttag
17: Momentum of Individual Objects
17: Momentum of Individual Objects
Topics covered: The momentum of individual objects can change in a variety of ways. Demonstration of impulse and impact time courtesy of Dr. Peter Dourmashkin, MIT. Instructor/speaker: Prof. Walter Lewin Date recorded: October 20, 1999
17: Nested Variance Components
17: Nested Variance Components
Topics covered: Nested variance components Instructor: Duane Boning
17: The Raw Experience
17: The Raw Experience
Topics covered: The Raw experience Instructor: Rodric Rabbah, IBM Subtitles are provided through the generous assistance of Rohan Pai.
18. Collision Theory
18. Collision Theory
This section contains readings from the course notes, an optional textbook reading, lecture video excerpts, class slides with checkpoint questions, self-assessment questions, problem solving video, and related resources. Solutions for checkpoint and self-assessment questions are also included.
18. Collision Theory
18. Collision Theory
This section contains readings from the course notes, an optional textbook reading, lecture video excerpts, class slides with checkpoint questions, self-assessment questions, problem solving video, and related resources. Solutions for checkpoint and self-assessment questions are also included.
18. Magnetic Dipoles
18. Magnetic Dipoles
This section contains readings from the course notes, lecture slides, self-assessment questions with solutions, problem solving video, and related visualizations.
18. X-Ray Diffraction Techniques
18. X-Ray Diffraction Techniques
This page contains materials for the session on x-ray diffraction techniques. It features a 1-hour lecture video, and also presents the prerequisites, learning objectives, reading assignment, lecture slides, homework with solutions, and resources for further study.
18: Presenting Simulation Results, Pylab, Plotting
18: Presenting Simulation Results, Pylab, Plotting
Topics covered: Presenting simulation results, Pylab, plotting Instructor: Prof. Eric Grimson, Prof. John Gutta
18: Productivity and Food Webs
18: Productivity and Food Webs
Topics covered: Productivity and Food Webs Instructor: Prof. Penny Chisholm
18: Review of Lectures 6 through 15
18: Review of Lectures 6 through 15
Topics covered: This lecture reviews selected concepts previously covered in lectures 6 through 15. Instructor/speaker: Prof. Walter Lewin Date recorded: October 22, 1999
18: Sequential Experimentation
18: Sequential Experimentation
Topics covered: Sequential experimentation: "Experimentation and Robust Design and Engineering Systems." Instructor: Dan Frey
19. Biot-Savart Law
19. Biot-Savart Law
This section contains readings from the course notes, lecture video excerpts, lecture slides, self-assessment questions with solutions, problem solving video, and related visualizations.
19. Biot-Savart Law
19. Biot-Savart Law
This section contains readings from the course notes, lecture video excerpts, lecture slides, self-assessment questions with solutions, problem solving video, and related visualizations.
19. Continuous Mass Flow
19. Continuous Mass Flow
This section contains readings from the course notes, an optional textbook reading, lecture video excerpts, class slides with checkpoint questions, self-assessment questions, problem solving video, and related resources. Solutions for checkpoint and self-assessment questions are also included.
19. Point & Line Defects
19. Point & Line Defects
This page contains materials for the session on point and line defects in crystals. It features a 1-hour lecture video, and also presents the prerequisites, learning objectives, reading assignment, lecture slides, homework with solutions, and resources for further study.
19: Biased Random Walks, Distributions
19: Biased Random Walks, Distributions
Topics covered: Biased random walks, distributions Instructor: Prof. Eric Grimson, Prof. John Guttag
19: Case Study 1: Tungsten CVD DOE/RSM
19: Case Study 1: Tungsten CVD DOE/RSM
Topics covered: Case study 1: tungsten CVD DOE/RSM Instructor: Duane Boning