12: Debugging, Knapsack Problem, Introduction to Dynamic ...
12: Debugging, Knapsack Problem, Introduction to Dynamic Programming
Topics covered: More about debugging, knapsack problem, introduction to dynamic programming Instructor: Prof. Eric Grimson, Prof. John Guttag
12: Full Factorial Models
12: Full Factorial Models
Topics covered: Full factorial models Instructor: Duane Boning
12: Molecular Biology IV
12: Molecular Biology IV
Topics covered: Molecular Biology IV Instructor: Prof. Graham Walker
12: Resistive Forces
12: Resistive Forces
Topics covered: This lecture covers resistive forces such as air drag. It includes the viscous (linear in velocity) and pressure (quadratic in velocity) terms. Quantitative demonstrations with balloons and with ball bearings dropped in syrup are shown. Instructor/speaker: Prof. Walter Lewin ...
13. Band Theory of Solids
13. Band Theory of Solids
This page contains materials for the session on the band theory of solids. 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.
13. Batteries and Circuit Elements
13. Batteries and Circuit Elements
This section contains readings from the course notes, lecture video excerpts, lecture slides, self-assessment questions with solutions, and problem solving video.
13. Potential Energy
13. Potential Energy
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.
13. Potential Energy
13. Potential Energy
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.
13. Potential Energy
13. Potential Energy
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.
13: Molecular Biology IV (cont.) - Gene Regulation I
13: Molecular Biology IV (cont.) - Gene Regulation I
Topics covered: Molecular Biology IV (cont.) - Gene Regulation I Instructor: Prof. Graham Walker
13: Cosmic Structure Formation; From Inflation to Galaxies
13: Cosmic Structure Formation; From Inflation to Galaxies
13: Cosmic Structure Formation; From Inflation to Galaxies Lecturer: Edmund Bertschinge Slides (HTML)
13: Dynamic Programming: Overlapping Subproblems, Optimal ...
13: Dynamic Programming: Overlapping Subproblems, Optimal Substructure
Topics covered: Dynamic programming: overlapping subproblems, optimal substructure Instructor: Prof. Eric Grimson, Prof. John Guttag
13: Equation of Motion for Simple Harmonic Oscillators
13: Equation of Motion for Simple Harmonic Oscillators
Topics covered: The conservation of mechanical energy can be used to derive the equation of motion for simple harmonic oscillators (SHO). Instructor/speaker: Prof. Walter Lewin Date recorded: October 8, 1999
13: Modeling Testing and Fractional Factorial Models
13: Modeling Testing and Fractional Factorial Models
Topics covered: Modeling testing and fractional factorial models Instructor: Duane Boning
14. Application of Energy Conservation
14. Application of Energy Conservation
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.
14. Application of Energy Conservation
14. Application of Energy Conservation
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.
14. Application of Energy Conservation
14. Application of Energy Conservation
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.
14. Application of Energy Conservation
14. Application of Energy Conservation
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.
14. DC Circuits
14. DC Circuits
This section contains readings from the course notes, lecture video excerpts, lecture slides, self-assessment questions with solutions, and problem solving video.
14. DC Circuits
14. DC Circuits
This section contains readings from the course notes, lecture video excerpts, lecture slides, self-assessment questions with solutions, and problem solving video.