MIT OpenCourseWare: New Courses with Video and Audio Content

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Kate James — 2008-08-25T11:59:59-04:00

You look to OCW for great courses with audio or video like:

2.003J Dynamics and Control I
3.A27 Case Studies in Forensic Metallury
21F.027J Visualing Cultures

We look to you for the support we need to continue publishing MITs course content openly. Please support OCW—it's good for you and good for your world.

2.003J Dynamics and Control I (MIT)

Sarma, Sanjay — 2008-06-09T12:36:30-04:00

Includes audio/video content: AV sample lectures. This class is an introduction to the dynamics and vibrations of lumped-parameter models of mechanical systems. Topics include kinematics; force-momentum formulation for systems of particles and rigid bodies in planar motion; work-energy concepts; virtual displacements and virtual work; Lagrange's equations for systems of particles and rigid bodies in planar motion; linearization of equations of motion; linear stability analysis of mechanical systems; free and forced vibration of linear multi-degree of freedom models of mechanical systems; and matrix eigenvalue problems. The class includes an introduction to numerical methods and using MATLAB® to solve dynamics and vibrations problems.

3.A27 Case Studies in Forensic Metallurgy (MIT)

Russell, Kenneth — 2008-05-06T02:41:31-04:00

Includes audio/video content: Image galleries. TV programs such as "Law and Order" show how forensic experts are called upon to give testimony that often determines the outcome of court cases. Engineers are one class of expert who can help display evidence in a new light to solve cases. In this seminar you will be part of the problem-solving process, working through both previously solved and unsolved cases. Each week we will investigate cases, from the facts that make up each side to the potential evidence we can use as engineers to expose culprits. The cases range from disintegrating airplane engines to gas main explosions to Mafia murders. This seminar will be full of discussions about the cases and creative approaches to reaching the solutions. The approach is hands-on so you will have a chance to participate in the process, not simply study it. Some background reading and oral presentation are required.

21F.027J Visualizing Cultures (MIT)

Professor John Dower — 2008-05-06T11:24:26-04:00

Includes audio/video content: Image galleries. Extensive reading and discussion of how visual images impose a variety of identities on individuals and societies. Case studies drawn primarily from the Pacific region, and include: identities of individuals in a society; identities of a country through history; us/them in times of war; and identities of an entire geographic region of the world (Orient/Occident). All types of visual images from both popular and high cultures are discussed. Students develop a course project. Taught in English. From the course home page: Course Description In this new course, students will study how images have been used to shape the identity of peoples and cultures. A prototype digital project looking at American and Japanese graphics depicting the opening of Japan to the outside world in the 1850s will be used as a case study to introduce the conceptual and practical issues involved in “visualizing cultures.” The major course requirement will be creation and presentation of a project involving visualized cultures.

18.085 Computational Science and Engineering I (MIT)

Strang, Gilbert — 2008-03-28T01:12:49-04:00

Includes audio/video content: AV complete lectures. This course provides a review of linear algebra, including applications to networks, structures, and estimation, Lagrange multipliers. Also covered are: differential equations of equilibrium; Laplace's equation and potential flow; boundary-value problems; minimum principles and calculus of variations; Fourier series; discrete Fourier transform; convolution; and applications. Note: This course was previously called "Mathematical Methods for Engineers I".

12.742 Marine Chemistry (MIT)

Doney, Scott — 2008-03-28T01:11:37-04:00

Includes audio/video content: AV sample lectures. An introduction to chemical oceanography. Reservoir models and residence time. Major ion composition of seawater. Inputs to and outputs from the ocean via rivers, the atmosphere, and the sea floor. Biogeochemical cycling within the oceanic water column and sediments, emphasizing the roles played by the formation, transport, and alteration of oceanic particles and the effects that these processes have on seawater composition. Cycles of carbon, nitrogen, phosphorus, oxygen, and sulfur. Uptake of anthropogenic carbon dioxide by the ocean. Material presented through lectures and student-led presentation and discussion of recent papers.