Online courses directory (2511)
Life as an emergent property of networks of chemical reactions involving proteins and nucleic acids. Mathematical theories of metabolism, gene regulation, signal transduction, chemotaxis, excitability, motility, mitosis, development, and immunity. Applications to directed molecular evolution, DNA computing, and metabolic and genetic engineering.
Students will be exposed to all aspects of a cutting-edge technique in modern electrophysiology, in a highly structured, team oriented environment. The research projects will probe the neural mechanisms of learning and memory through tetrode array recordings coupled with patterned microstimulation. Due to the broad nature of tasks to be completed, coupled with the team oriented approach we will be employing, we are interested in students with a wide variety of laboratory experience and skill levels.
This course is designed for students particularly concerned with the practical problems of operating in large formal organizations, either from an operational or a research perspective. It will focus, as the title suggests, upon different forms of economic organizations and institutions in advanced and developing industrial societies and the theories (and theoretical perspectives) which might help us to understand them.
Discrete stochastic processes are essentially probabilistic systems that evolve in time via random changes occurring at discrete fixed or random intervals. This course aims to help students acquire both the mathematical principles and the intuition necessary to create, analyze, and understand insightful models for a broad range of these processes. The range of areas for which discrete stochastic-process models are useful is constantly expanding, and includes many applications in engineering, physics, biology, operations research and finance.
This course presents the main concepts of decision analysis, artificial intelligence, and predictive model construction and evaluation in the specific context of medical applications. The advantages and disadvantages of using these methods in real-world systems are emphasized, while students gain hands-on experience with application specific methods. The technical focus of the course includes decision analysis, knowledge-based systems (qualitative and quantitative), learning systems (including logistic regression, classification trees, neural networks), and techniques to evaluate the performance of such systems.
This course is broad, covering a wide range of topics that have to do with the post-pc era of computing. It is a hands-on project course that also includes some foundational subjects. Students will program iPAQ handheld computers, cell phones (series 60 phones), speech processing, vision, Cricket location systems, GPS, and more. Most of the programming will be using Python®, but Python® can be learned and mastered during the course.
This course was also taught as part of the Singapore-MIT Alliance (SMA) programme as course number SMA 5508 (Pervasive Computing).
This course is an invitation to German film-making since the end of the Second World War. We investigate how German cinema captured the atmosphere of the immediate post-war years and discuss extensively major works of the "New German Cinema" of the Sixties and Seventies. We also look at examples of East Germany's film production and finally observe the very different roads German cinema has been taking from the 1990's into the present.
This subject is the second semester of two that form an introduction to modern standard Chinese, commonly called Mandarin. Though not everyone taking this course will be an absolute beginner, the course presupposes only 21F.101/151, the beginning course in the sequence. The purpose of this course is to develop: (a) basic conversational abilities (pronunciation, fundamental grammatical patterns, common vocabulary, and standard usage); (b) basic reading skills (in both the traditional character set and the simplified); (c) an understanding of the way the Chinese writing system is structured, and the ability to copy and write characters; and (d) a sense of what learning a language like Chinese entails, and the sort of learning processes that it involves, so students are able to continue studying effectively on their own.
The main text is J. K. Wheatley's Learning Chinese: A Foundation Course in Mandarin, part II (unpublished, but available online). (Part I of the book forms the basis of 21F.101/151, which is also published on OpenCourseWare.)
Chinese Sequence on OCW
OpenCourseWare now offers a complete sequence of four Chinese language courses, covering beginning to intermediate levels of instruction at MIT. They can be used not just as the basis for taught courses, but also for self-instruction and elementary-to-intermediate review.
The four Chinese subjects provide the following materials: an online textbook in four parts, J. K. Wheatley's Learning Chinese: A Foundation Course in Mandarin; audio files of the main conversational and narrative material in this book; and syllabi and day-by-day schedules for each term.
| CHINESE COURSES | COURSE SITES |
|---|---|
| Chinese I (Spring 2006) | 21F.101/151 |
| Chinese II (Spring 2006) | 21F.102/152 |
| Chinese III (Fall 2005) | 21F.103 |
| Chinese IV (Spring 2006) | 21F.104 |
This course studies representative twentieth and twenty-first-century texts and films from Hispanic America and Spain. Emphasis is on developing strategies for analyzing the genres of the novel, the short story, the poem, the fictional film, and the theatrical script. The novels read this semester are Magali García Ramis's Felices días, Tío Sergio (1986, Puerto Rico) and Javier Cercas's Soldados de Salamina (2001, Spain). We will study Lorca's play "La casa de Bernarda Alba" (1936, Spain), films from Spain, México, and Cuba, poems by Darío (Nicaragua), Machado (Spain), Lorca (Spain), Hernández (Spain), Vallejo (Perú), Cernuda (Spain), and Luis Palés Matos (Puerto Rico), and short stories from México (by an exiled Spanish writer), Chile, Argentina, and Cuba. Thematic emphasis is on the Spanish Civil War, changing attitudes toward gender, the Spanish-speaking Caribbean, and the history of race in the Americas.
This course analyzes major modern plays featuring works by Shaw, Pirandello, Beckett, Brecht, Williams, Soyinka, Hwang, Churchill, Wilson, Frayn, Stoppard, Deveare Smith, and Kushner. The class particularly considers performance, sociopolitical and aesthetic contexts, and the role of theater in the world of modern multimedia.
Are you interested in investigating how nature engineers itself? How engineers copy the shapes found in nature ("biomimetics")? This Freshman Seminar investigates why similar shapes occur in so many natural things and how physics changes the shape of nature. Why are things in nature shaped the way they are? How do birds fly? Why do bird nests look the way they do? How do woodpeckers peck? Why can't trees grow taller than they are? Why is grass skinny and hollow? What is the wood science behind musical instruments? Questions such as these are the subject of biomimetic research and they have been the focus of investigation in this course for the past three years.
This course offers an advanced introduction to numerical linear algebra. Topics include direct and iterative methods for linear systems, eigenvalue decompositions and QR/SVD factorizations, stability and accuracy of numerical algorithms, the IEEE floating point standard, sparse and structured matrices, preconditioning, linear algebra software. Problem sets require some knowledge of MATLAB®.
This course addresses the design of tribological systems: the interfaces between two or more bodies in relative motion. Fundamental topics include: geometric, chemical, and physical characterization of surfaces; friction and wear mechanisms for metals, polymers, and ceramics, including abrasive wear, delamination theory, tool wear, erosive wear, wear of polymers and composites; and boundary lubrication and solid-film lubrication. The course also considers the relationship between nano-tribology and macro-tribology, rolling contacts, tribological problems in magnetic recording and electrical contacts, and monitoring and diagnosis of friction and wear. Case studies are used to illustrate key points.
This seminar explores changes in the international economy and their effects on domestic politics, economy, and society. Is globalization really a new phenomenon? Is it irreversible? What are effects on wages and inequality, on social safety nets, on production, and innovation? How does it affect relations between developed countries and developing countries? How globalization affects democracy? These are some of the key issues that will be examined.
The course aims at providing a fundamental understanding of the physics related to buildings and to propose an overview of the various issues that have to be adequately combined to offer the occupants a physical, functional and psychological well-being. Students will be guided through the different components, constraints and systems of a work of architecture. These will be examined both independently and in the manner in which they interact and affect one another.
This course is an introduction to basic ideas of geophysical wave motion in rotating, stratified, and rotating-stratified fluids. Subject begins with general wave concepts of phase and group velocity. It also covers the dynamics and kinematics of gravity waves with a focus on dispersion, energy flux, initial value problems, etc.
This course uses computer-aided design methodologies for synthesis of multivariable feedback control systems. Topics covered include: performance and robustness trade-offs; model-based compensators; Q-parameterization; ill-posed optimization problems; dynamic augmentation; linear-quadratic optimization of controllers; H-infinity controller design; Mu-synthesis; model and compensator simplification; and nonlinear effects. The assignments for the course comprise of computer-aided (MATLAB®) design problems.
In 16.540 we address fluid dynamic phenomena of interest in internal flow situations. The emphasis tends to be on problems that arise in air breathing propulsion, but the application of the concepts covered is more general, and the course is wider in scope, than turbomachines (in spite of the title). Stated more directly, the focus is on the fluid mechanic principles that determine the behavior of a broad class of industrial devices. The material can therefore be characterized, only partly tongue in cheek, as "industrial strength fluid mechanics done in a rigorous manner".
This studio discusses in great detail the design of urban environments, specifically in Providence, RI. It will propose strategies for change in large areas of cities, to be developed over time, involving different actors. Fitting forms into natural, man-made, historical, and cultural contexts; enabling desirable activity patterns; conceptualizing built form; providing infrastructure and service systems; guiding the sensory character of development: all are topics covered in the studio. The course integrates architecture and planning students in joint work and requires individual designs and planning guidelines as a final product.
Bioengineering at MIT is represented by the diverse curricula offered by most Departments in the School of Engineering. This course samples the wide variety of bioengineering options for students who plan to major in one of the undergraduate Engineering degree programs. The beginning lectures describe the science basis for bioengineering with particular emphasis on molecular cell biology and systems biology. Bioengineering faculty will then describe the bioengineering options in a particular engineering course as well as the type of research conducted by faculty in the department.
