Courses tagged with "Information environments" (1105)

This course is an introduction to computational biology emphasizing the fundamentals of nucleic acid and protein sequence and structural analysis; it also includes an introduction to the analysis of complex biological systems. Topics covered in the course include principles and methods used for sequence alignment, motif finding, structural modeling, structure prediction and network modeling, as well as currently emerging research areas.

This course is an introduction to computational biology emphasizing the fundamentals of nucleic acid and protein sequence and structural analysis; it also includes an introduction to the analysis of complex biological systems. Topics covered in the course include principles and methods used for sequence alignment, motif finding, structural modeling, structure prediction and network modeling, as well as currently emerging research areas.

This course continues from the fall semester. The course introduces students to the fundamental theories and methods of modern political science through the study of a small number of major books and articles that have been influential in the field. This semester, the course focuses on American and comparative politics.

This is a foundation subject in modern software development techniques for engineering and information technology. The design and development of component-based software (using C# and .NET) is covered; data structures and algorithms for modeling, analysis, and visualization; basic problem-solving techniques; web services; and the management and maintenance of software. Includes a treatment of topics such as sorting and searching algorithms; and numerical simulation techniques. Foundation for in-depth exploration of image processing, computational geometry, finite element methods, network methods and e-business applications. This course is a core requirement for the Information Technology M. Eng. program.

This class was also offered in Course 13 (Department of Ocean Engineering) as 13.470J. In 2005, ocean engineering subjects became part of Course 2 (Department of Mechanical Engineering), and the 13.470J designation was dropped in lieu of 2.159J.

Investigation of linear elastic and elastic-plastic fracture mechanics. Topics include microstructural effects on fracture in metals, ceramics, polymers, thin films, biological materials and composites, toughening mechanisms, crack growth resistance and creep fracture. Also covered: interface fracture mechanics, fatigue damage and dislocation substructures in single crystals, stress- and strain-life approach to fatigue, fatigue crack growth models and mechanisms, variable amplitude fatigue, corrosion fatigue and case studies of fracture and fatigue in structural, bioimplant, and microelectronic components.

Urban governance comprises the various forces, institutions, and movements that guide economic and physical development, the distribution of resources, social interactions, and other aspects of daily life in urban areas. This course examines governance from legal, political, social, and economic perspectives. In addition, we will discuss how these structures constrain collective decision making about particular urban issues (immigration, education…). Assignments will be nightly readings and a short paper relating an urban issue to the frameworks outlined in the class.

21G.301/351 offers an introduction to the French language and culture with an emphasis on the acquisition of vocabulary and grammatical concepts through active communication. The course is conducted entirely in French, and students interact in French with their classmates from the very beginning. They also receive exposure to the language via a variety of authentic sources such as the Internet, audio, video and printed materials which help them develop cultural awareness as well as linguistic proficiency. There is a coordinated language lab program.

This course is taught in rotation by the following instructors: Laura Ceia-Minjares, Cathy Culot, Gilberte Furstenberg, and Johann Sadock.

21G.302/352 is the second part of an introductory course to the French language and culture with an emphasis on the acquisition of vocabulary and grammatical concepts through active communication. The course is conducted entirely in French and students interact in French with their classmates from the very beginning. They also receive exposure to the language via a variety of authentic sources such as the Internet, audio, video and printed materials which help them develop cultural awareness as well as linguistic proficiency. There is a coordinated language lab program.

This course is taught in rotation by the following instructors: Laura Ceia-Minjares, Cathy Culot, Gilberte Furstenberg, and Johann Sadock.

The objective of this course is to introduce large-scale atomistic modeling techniques and highlight its importance for solving problems in modern engineering sciences. We demonstrate how atomistic modeling can be used to understand how materials fail under extreme loading, involving unfolding of proteins and propagation of cracks.

This course was featured in an MIT Tech Talk article.

There has been much discussion in recent years, on this campus and elsewhere, about the death of the book. Digitization and various forms of electronic media, some critics say, are rendering the printed text as obsolete as the writing quill. In this subject, we will examine the claims for and against the demise of the book, but we will also supplement these arguments with an historical perspective they lack: we will examine texts, printing technologies, and reading communities from roughly 1450 to the present. We will begin with the theoretical and historical overviews of Walter Ong and Elizabeth Eisenstein, after which we will study specific cases such as English chapbooks, Inkan knotted and dyed strings, late nineteenth-century recording devices, and newspapers online today. We will also visit a rare book library and make a poster on a hand-set printing press.

This team-taught multidisciplinary course provides information relevant to the conduct and interpretation of human brain mapping studies. It begins with in-depth coverage of the physics of image formation, mechanisms of image contrast, and the physiological basis for image signals. Parenchymal and cerebrovascular neuroanatomy and application of sophisticated structural analysis algorithms for segmentation and registration of functional data are discussed. Additional topics include: fMRI experimental design including block design, event related and exploratory data analysis methods, and building and applying statistical models for fMRI data; and human subject issues including informed consent, institutional review board requirements and safety in the high field environment.

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