Online courses directory (2511)

The course will focus primarily on contemporary discourses concerning gender inequality. Most of the readings assigned will be recent articles published in U.S. and British media capturing the latest thinking and research on gender inequality in the workplace. The class will be highly interactive combining case studies, videos, debates, guest speakers, and in-class simulations.

This course will provide students with an analytic framework to understand the roles that gender, race, and class play in defining and determining access to leadership and power in the U.S., especially in the context of the workplace. We will explore women and men in leadership positions within the corporate, political and non-profit sectors, with attention to the roles of women of color and immigrant women within this context. We will also look at specific policies such as affirmative action, parental leave, child-care policy, and working-time policies and the role they play–or could play–in achieving parity. We will further investigate ways in which these policies address gender, racial, and class inequities, and think critically about mechanisms for change. The course will be highly interactive, and will combine texts, theater, videos and visual arts.

What can we learn about science and technology–and what can we do with that knowledge? Who are "we" in these questions?–whose knowledge and expertise gets made into public policy, new medicines, topics of cultural and political discourse, science education, and so on? How can expertise and lay knowledge about science and technology be reconciled in a democratic society? How can we make sense of the interactions of living and non-living, humans and non-humans, individual and collectivities in the production of scientific knowledge and technologies?

The course takes these questions as entry points into an ever-growing body of work to which feminist, anti-racist, and other critical analysts and activists have made significant contributions. The course also takes these questions as an invitation to practice challenging the barriers of expertise, gender, race, class, and place that restrict wider access to and understanding of the production of scientific knowledge and technologies. In that spirit, students participate in an innovative, problem-based learning (PBL) approach that allows them to shape their own directions of inquiry and develop their skills as investigators and prospective teachers. At the same time the PBL cases engage students' critical faculties as they learn about existing analyses of gender, race, and the complexities of science and technology, guided by individualized bibliographies co-constructed with the instructors and by the projects of the other students. Students from all fields and levels of preparation are encouraged to join the course.

What can we learn about science and technology–and what can we do with that knowledge? Who are "we" in these questions?–whose knowledge and expertise gets made into public policy, new medicines, topics of cultural and political discourse, science education, and so on? How can expertise and lay knowledge about science and technology be reconciled in a democratic society? How can we make sense of the interactions of living and non-living, humans and non-humans, individual and collectivities in the production of scientific knowledge and technologies?

The course takes these questions as entry points into an ever-growing body of work to which feminist, anti-racist, and other critical analysts and activists have made significant contributions. The course also takes these questions as an invitation to practice challenging the barriers of expertise, gender, race, class, and place that restrict wider access to and understanding of the production of scientific knowledge and technologies. In that spirit, students participate in an innovative, problem-based learning (PBL) approach that allows them to shape their own directions of inquiry and develop their skills as investigators and prospective teachers. At the same time the PBL cases engage students' critical faculties as they learn about existing analyses of gender, race, and the complexities of science and technology, guided by individualized bibliographies co-constructed with the instructors and by the projects of the other students. Students from all fields and levels of preparation are encouraged to join the course.

This course explores how gender shaped the historical experiences and cultural productions in the North American West during the time it was being explored, settled, and imagined. The North American West of the late nineteenth and early twentieth centuries provides a fascinating case study of the shifting meanings of gender, race, citizenship, and power in border societies. As the site of migration, settlement, and displacement, it spawned contests over land, labor disputes, inter-ethnic conflicts and peaceful relations, and many kinds of cultural productions.

The Graduate Consortium in Women's Studies (GCWS)

This course is part of the Graduate Consortium in Women's Studies. The GCWS at MIT brings together scholars and teachers at nine degree-granting institutions in the Boston area who are devoted to graduate teaching and research in Women's Studies and to advancing interdisciplinary Women's Studies scholarship. Learn more about the GCWS.

This course seeks to examine how people experience gender - what it means to be a man or a woman - and sexuality in a variety of historical and cultural contexts. We will explore how gender and sexuality relate to other categories of social identity and difference, such as race and ethnicity, economic and social standing, urban or rural life, etc. One goal of the class is to learn how to critically assess media and other popular representations of gender roles and stereotypes. Another is to gain a greater sense of the diversity of human social practices and beliefs in the United States and around the world.

This course examines diagnostic studies of the Earth's atmosphere and discusses their implications for the theory of the structure and general circulation of the Earth's atmosphere. It includes some discussion of the validation and use of general circulation models as atmospheric analogs.

8.962 is MIT's graduate course in general relativity, which covers the basic principles of Einstein's general theory of relativity, differential geometry, experimental tests of general relativity, black holes, and cosmology.

This course provides concepts and frameworks for understanding the potential impact of information technology (IT) on business strategy and performance. We will examine how some firms make IT a strategic asset while other firms struggle to realize value from IT investments. The course focuses on the implications of increased digitization for defining business strategies and operating models, and explores the roles of both general managers and IT executives in using IT to achieve operational excellence and business agility. Topics include business operating models, IT investment and prioritization, business strategy and IT alignment, the design and governance of digitized processes, and the role of the IT unit. Draws heavily on research and case studies from MIT Sloan Center for Information Systems Research. Restricted to graduate students.

This course deals with the specific functions of neurons, the interactions of neurons in development, and the organization of neuronal ensembles to produce behavior. Topics covered include the analysis of mutations, and molecular analysis of the genes required for nervous system function. In particular, this course focuses on research work done with nematodes, fruit flies, mice, and humans.

This course discusses the principles of genetics with application to the study of biological function at the level of molecules, cells, and multicellular organisms, including humans. The topics include: structure and function of genes, chromosomes and genomes, biological variation resulting from recombination, mutation, and selection, population genetics, use of genetic methods to analyze protein function, gene regulation and inherited disease.

This course reviews the key genomic technologies and computational approaches that are driving advances in prognostics, diagnostics, and treatment. Throughout the semester, emphasis will return to issues surrounding the context of genomics in medicine including: what does a physician need to know? what sorts of questions will s/he likely encounter from patients? how should s/he respond? Lecturers will guide the student through real world patient-doctor interactions. Outcome considerations and socioeconomic implications of personalized medicine are also discussed. The first part of the course introduces key basic concepts of molecular biology, computational biology, and genomics. Continuing in the informatics applications portion of the course, lecturers begin each lecture block with a scenario, in order to set the stage and engage the student by showing: why is this important to know? how will the information presented be brought to bear on medical practice? The final section presents the ethical, legal, and social issues surrounding genomic medicine. A vision of how genomic medicine relates to preventative care and public health is presented in a discussion forum with the students where the following questions are explored: what is your level of preparedness now? what challenges must be met by the healthcare industry to get to where it needs to be?

Lecturers