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.
14. Escape Velocities - Bound and Unbound Orbits - Circular ...
14. Escape Velocities - Bound and Unbound Orbits - Circular Orbits - ...
MIT 8.01 Physics I: Classical Mechanics, Fall 1999View the complete materials: http://ocw.mit.edu/high-school/physics/Instructor: Walter LewinLicense: Creative Commons BY-NC-SAMore information at http://ocw.mit.edu/termsMore courses at http://ocw.mit.edu
14. Gene Regulation II
14. Gene Regulation II
MIT 7.014 Introductory Biology, Spring 2005View the complete materials: http://ocw.mit.edu/high-school/biology/Instructor: Graham WalkerLicense: Creative Commons BY-NC-SAMore information at http://ocw.mit.edu/termsMore courses at http://ocw.mit.edu
14. Semiconductors
14. Semiconductors
This page contains materials for the session on semiconductors. 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.
14: Aliasing and Higher Order Models
14: Aliasing and Higher Order Models
Topics covered: Aliasing and higher order models Instructor: Duane Boning
14: Gene Regulation II
14: Gene Regulation II
Topics covered: Gene Regulation II Instructor: Prof. Graham Walker
14: Introduction to Object-oriented Programming
14: Introduction to Object-oriented Programming
Topics covered: Analysis of knapsack problem, introduction to object-oriented programming Instructor: Prof. Eric Grimson, Prof. John Guttag
14: Orbits and Escape Velocity
14: Orbits and Escape Velocity
Topics covered: Bound and unbound orbits; escape velocity. Various sources of energy, energy storage, energy conversion, and the world's energy consumption are discussed. Instructor/speaker: Prof. Walter Lewin Date recorded: October 13, 1999
15. Bacterial Genetics
15. Bacterial Genetics
MIT 7.014 Introductory Biology, Spring 2005View the complete materials: http://ocw.mit.edu/high-school/biology/Instructor: Graham WalkerLicense: Creative Commons BY-NC-SAMore information at http://ocw.mit.edu/termsMore courses at http://ocw.mit.edu
15. DC Circuits with Capacitors
15. DC Circuits with Capacitors
This section contains readings from the course notes, lecture video excerpts, lecture slides, self-assessment questions with solutions, and problem solving video.
15. Introduction to Crystallography
15. Introduction to Crystallography
This page contains materials for the session introducing crystalline materials. 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.
15. Mechanical Energy and the Simple Harmonic Oscillator
15. Mechanical Energy and the Simple Harmonic Oscillator
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 ...
15. Mechanical Energy and the Simple Harmonic Oscillator
15. Mechanical Energy and the Simple Harmonic Oscillator
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 ...