Online courses directory (2511)

This seminar-style class will focus on evaluating and recommending alternative commuter and business-related transportation policies for the MIT campus. Emphasis will be placed on reducing transportation-related energy usage in a sustainable manner in response to President Hockfield's "Walk the Talk" energy initiative. Students will explore the relative roles of MIT and the MBTA as transportation providers, as well as the efficiency and effectiveness of related subsidy policies currently in place for all modes of transportation.

This course examines classical and quantum models of electrons and lattice vibrations in solids, emphasizing physical models for elastic properties, electronic transport, and heat capacity. Topics covered include: crystal lattices, electronic energy band structures, phonon dispersion relatons, effective mass theorem, semiclassical equations of motion, and impurity states in semiconductors, band structure and transport properties of selected semiconductors, and connection of quantum theory of solids with quasifermi levels and Boltzmann transport used in device modeling.

"Environmental Politics & Policy" explores the workings of environmental policymaking in the United States.

• What are the big issues facing environmental policy?
• How did we end up with the policies we have today?
• Why does it take a crisis to move environmental policy forward?
• Why do political factors - economic interests, social and political values, bureaucratic styles, ideologies, elections, etc. - always seem to overwhelm sound scientific and engineering judgment in determining policy outcomes?

Case studies ranging from cleaning up toxic waste pollution to endangered species protection probe the clashes between science and politics at local, state, and federal levels.

William Butler Yeats occupies a dominant position in the lives and work of the Irish poets who followed him. We will explore some of that poetry, and consider how later poets, especially female poets, tried to come to grips with, or escape from, that dominance. As a seminar, the subject will place special emphasis on student involvement and control. I will ask you to submit one ten-twelve page essay, two shorter (five page) essays, and to accept the role of "leadoff person," perhaps more than once, That role will demand that you choose from among the assigned readings for that session the poem we should focus upon, and to offer either a provocative articulation of what the poem is about, or a provocative question which the poem confronts, and which we should grapple with, as well.

This class explores sound and what can be done with it. Sources are recorded from students' surroundings - sampled and electronically generated (both analog and digital). Assignments include composing with the sampled sounds, feedback, and noise, using digital signal processing (DSP), convolution, algorithms, and simple mixing. The class focuses on sonic and compositional aspects rather than technology, math, or acoustics, though these are examined in varying detail. Students complete weekly composition and listening assignments; material for the latter is drawn from sound art, experimental electronica, conventional and non-conventional classical electronic works, popular music, and previous students' compositions.

This class introduces the craft of writing for the theater. Through weekly assignments, in class writing exercises, and work on a sustained piece, students explore scene structure, action, events, voice, and dialogue. We examine produced playscripts and discuss student work. This class's emphasis is on process, risk-taking, and finding one's own voice and vision.

An old saying holds that "there are many more good ideas in the world than good ideas implemented." This is a case based introduction to the fundamentals of effective implementation. Developed with the needs and interests of planners—but also with broad potential application—in mind, this course is a fast paced, case driven introduction to developing strategy for organizations and projects, managing operations, recruiting and developing talent, taking calculated risks, measuring results (performance), and leading adaptive change, for example where new mental models and habits are required but also challenging to promote. Our cases are set in the U.S. and the developing world and in multiple work sectors (urban redevelopment, transportation, workforce development, housing, etc.). We will draw on public, private, and nonprofit implementation concepts and experience.

This course is offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs from the first week of January until the end of the month.

This course focuses on the following topics: basic theory of consumer behavior; production and costs; partial equilibrium analysis of pricing in competitive and monopolistic markets; general equilibrium; welfare; and externalities. It is recommended for students planning to apply to graduate school in economics, accounting, or finance.

This course introduces students to probability and random variables. Topics include distribution functions, binomial, geometric, hypergeometric, and Poisson distributions. The other topics covered are uniform, exponential, normal, gamma and beta distributions; conditional probability; Bayes theorem; joint distributions; Chebyshev inequality; law of large numbers; and central limit theorem.

Student teams formulate and complete space/earth/ocean exploration-based design projects with weekly milestones. This course introduces core engineering themes, principles, and modes of thinking, and includes exercises in written and oral communication and team building. Specialized learning modules enable teams to focus on the knowledge required to complete their projects, such as machine elements, electronics, design process, visualization and communication. Examples of projects include surveying a lake for millfoil from a remote controlled aircraft, then sending out robotic harvesters to clear the invasive growth; and exploration to search for the evidence of life on a moon of Jupiter, with scientists participating through teleoperation and supervisory control of robots.

This subject introduces skills needed to build within a landscape establishing continuities between the built and natural world. Students learn to build appropriately through analysis of landscape and climate for a chosen site, and to conceptualize design decisions through drawings and models.

This class was taught concurrently with 4.125B. Some of the assignments are the same, some are different, and the sites for the final project are different. But since they were taught in tandem, it would be useful to look at both together.

This 12 session course is designed for the beginning or novice weight lifter, or for those who have experience lifting but lack proper instruction. We will provide an understanding of the biomechanics involved, muscles used for a given exercise, and program development.

This course serves as a description and critical assessment of the major issues and stages of developing a pharmaceutical or biopharmaceutical. Topics covered include drug discovery, preclinical development, clinical investigation, manufacturing and regulatory issues considered for small and large molecules, and economic and financial considerations of the drug development process. A multidisciplinary perspective is provided by the faculty, who represent clinical, life, and management sciences. Various industry guests also participate.

This seminar will be a scientific exploration of the food we eat and enjoy. Each week we shall have a scientific edible experiment that will explore a specific food topic. This will be a hands-on seminar with mandatory attendance of at least 85%. Topics include, but are not limited to, what makes a good experiment, cheese making, joys of tofu, food biochemistry, the science of spice, what is taste?

This course is the second in a series of two courses in kitchen chemistry. The prerequisite to Advanced Kitchen Chemistry is ES.287 Kitchen Chemistry, which is also on OCW.

Physics I is a first-year physics course which introduces students to classical mechanics. This course has a hands-on focus, and approaches mechanics through take-home experiments. Topics include: kinematics, Newton's laws of motion, universal gravitation, statics, conservation laws, energy, work, momentum, and special relativity.

This course, along with 21F.107 / 21F.157 Chinese I (Streamlined) offered in the previous fall, form the elementary level of the streamlined sequence, which is intended for students who, when they began the sequence at beginning level, had basic conversational skills (gained, typically, from growing up in a Chinese speaking environment), but lacked a corresponding level of literacy. The focus of the course is on learning standard usage of expressions for everyday use, on reading in both traditional and simplified characters, and on writing.

"Tragedy" is a name originally applied to a particular kind of dramatic art and subsequently to other literary forms; it has also been applied to particular events, often implying thereby a particular view of life. Throughout the history of Western literature it has sustained this double reference. Uniquely and insistently, the realm of the tragic encompasses both literature and life.

Through careful, critical reading of literary texts, this subject will examine three aspects of the tragic experience:    

1. the scapegoat
2. the tragic hero
3. the ethical crisis

These aspects of the tragic will be pursued in readings that range in the reference of their materials from the warfare of the ancient world to the experience of the modern extermination camps.

This course covers a variety of topics concerning superconducting magnets, including thermodynamic and transport properties of aqueous and nonaqueous electrolytes, the electrode/electrolyte interface, and the kinetics of electrode processes. It also covers electrochemical characterization with regards to d.c. techniques (controlled potential, controlled current) and a.c. techniques (voltametry and impedance spectroscopy). Applications of the following will also be discussed: electrowinning, electrorefining, electroplating, and electrosynthesis, as well as electrochemical power sources (batteries and fuel cells).

This course focuses on an in-depth reading of Principia Mathematica Philosophiae Naturalis by Isaac Newton, as well as several related commentaries and historical philosophical texts.

Physical metallurgy encompasses the relationships between the composition, structure, processing history and properties of metallic materials. In this seminar you'll be introduced to metallurgy in a particularly "physical" way. We will do blacksmithing, metal casting, machining, and welding, using both traditional and modern methods. The seminar meets once per week for an evening laboratory session, and once per week for discussion of issues in materials science and engineering that tie in to the laboratory work. Students will begin by completing some specified projects and progress to designing and fabricating one forged and one cast piece.