Online courses directory (19947)

The embryology sequence provides an understanding of the organogenesis of the major structures of the body, including the cardiovascular and respiratory systems, reproductive, kidney, face and pharynx, endocrine development, defects of development (teratology), and changes in the fetus at birth. Each phase of normal development is also correlated with errors in that process. Level: First Year Medical Students Unless otherwise noted this Work, Embryology, by The Regents of The University of Michigan is licensed under a Creative Commons Attribution license.

The purpose of this sequence is to teach the aspects of basic science related to the respiratory system, building on the anatomy, physiology, and biochemistry taught in year 1. Clinical examples of applied basic science are based on common lung diseases including: pneumonia, emphysema, asthma, cancer, trauma, ARDS, and respiratory diseases of the newborn. Level: Second Year Medical Students Unless otherwise noted this Work, Respiratory, by The Regents of the University of Michigan is licensed under a Creative Commons Attribution license.

This sequence introduces students to clinical psychiatry. The sequence focuses on the clinical diagnosis and treatment of psychiatric disorders, with those elements of neurobiology, behavioral science, and pharmacology that are essential to the understanding of these disorders. Level: Second Year Medical Students Unless otherwise noted this Work, Psychiatry, by Michael D. Jibson is licensed under a Creative Commons Attribution-ShareAlike license.

Students of this course will develop a broad understanding of Lean/Six Sigma principles and practices, build capability to implement Lean/Six Sigma initiatives in manufacturing operations, and learn to operate with awareness of Lean/Six Sigma at the enterprise level. All course materials are organized around a common "single-point lesson" (SPL) format, with some of the SPLs provided by the instructor and guests and with some developed and delivered by student teams.

This seminar applies a systems perspective to understand health care delivery today, its stakeholders and problems as well as opportunities. Students are introduced to the 'systems perspective' that has been used successfully in other industries, and will address the introduction of new processes, technologies and strategies to improve overall health outcomes. Students are assigned to teams to work on a semester‐long group project, in collaboration with staff of a nearby Boston hospital.

This course is an introduction to the analytical tools that support design and decision-making in real estate and infrastructure development. There is a particular focus on identifying and valuing sources of flexibility using “real options”, Monte-Carlo simulation, and other techniques from the field of engineering systems. This course integrates economic and engineering perspectives, and is suitable for students with various backgrounds. It serves to provide useful preparation for thesis work in the area. The course applies the approach to the design and phasing of a mega infrastructure real estate project.

Note

This MIT OpenCourseWare site is based, in part, on materials on Design for Real Estate and Infrastructure Development from Professor de Neufville's and Professor Geltner's Web site.

This team-taught subject is for doctoral students working on emerging technologies at the interface of technology, policy and societal issues. It integrates concepts of research strategy and design from a variety of disciplines. The class addresses problem identification and formulation of research topics, the role of qualitative and quantitative research methods, and the use of various data collection techniques. Coursework focuses on students' thesis proposals, faculty-student study panels, critical evaluation of research design, and ethical issues in conducting research and gathering data.

This course introduces the theory and the practice of engineering ethics using a multi-disciplinary and cross-cultural approach. Theory includes ethics and philosophy of engineering. Historical cases are taken primarily from the scholarly literatures on engineering ethics, and hypothetical cases are written by students. Each student will write a story by selecting an ancestor or mythic hero as a substitute for a character in a historical case. Students will compare these cases and recommend action.

This course sequence teaches the pathophysiology of common diseases of the nervous system (including visual, auditory, and vestibular systems), and the general principles underlying diagnosis and management. The specific goals are: To review clinically relevant neuroanatomy and neurophysiology. To learn a systematic approach to the localization of neurologic lesions. To learn a systematic approach for determining the likely general category of disease process responsible for a patient

This sequence presents the basic principles of bone and joint structure and function and to review many of the disease entities related to this system and to the soft tissue as well. General clinical approaches to diagnosis and treatment will be discussed as well. Level: Second Year Medical Students Unless otherwise noted this Work, Musculoskeletal, by The Regents of the University of Michigan is licensed under a Creative Commons Attribution license.

In the hematology sequence, students learn to recognize and diagnose anemias, bleeding and clotting disorders, and abnormal white blood cell and lymphocyte disorders. Students learn the clinical approach to a patient with a red blood cell, hemostatic or thrombotic, and white blood cell disorder. Level: Second Year Medical Students Unless otherwise noted this Work, Hematology / Oncology, by The Regents of the University of Michigan is licensed under a Creative Commons Attribution license.

Technology Policy Negotiations and its prequel, ESD.932, Technology Policy Organizations, form a sequence on Organizational Processes in Technology Policy. This course provides a core framework for an interest-based approach to negotiations, along with a systems approach to dispute resolution in organizations. Core interactive skills are developed, including communication skills, negotiating over the "rules of game," and cross-cultural negotiations. Key assignments center on ethical debates in technology policy, regional economic development challenges, and assessment of organizational dispute resolution systems.

The course presents an in-depth interdisciplinary perspective of electric power systems, with regulation providing the link among the engineering, economic, legal and environmental viewpoints. Generation dispatch, demand response, optimal network flows, risk allocation, reliability of service, renewable energy sources, ancillary services, tariff design, distributed generation, rural electrification, environmental impacts and strategic sustainability issues will be among the topics addressed under both traditional and competitive regulatory frameworks.

This course is aimed at the aspiring planning practitioner, policy-maker, or industry decision-maker with an interest in urban transportation and environmental issues in Latin America. The course will focus on current transport-related themes confronting many cities in the region, including: rapid motorization and suburbanization and subsequent impacts on transportation infrastructure and quality of life; public sector management and improvement of privately-owned and operated transit systems; and, transportation air pollution problems and potential solutions.

The course will be geared towards interactive problem-solving, taking advantage of students' skills and experiences in: institutional analysis, policy analysis, and project and program evaluation and implementation. Detailed knowledge of transportation planning is not required; instead, the course will attempt to place the general practitioner into a specific transportation public policy situation and draw from her skills to devise real solutions. To fulfill this problem-solving orientation, the course will be divided into two parts. Part I of the course will consist of a series of lectures on the principal issues surrounding transportation in the developing world (including motorization, fiscal pressures, urban sprawl), concepts of  sustainability as they relate to urban transportation, regional strategic planning approaches, and transportation policy and technology options and examples of successful implementation.  After these lectures, Part II of the course will be dedicated to the two case studies, where students will apply the knowledge gained in Part I to develop strategic solutions to the transport-land use-environment challenges in two different cities.

This course introduces writing, graphics, meetings, oral presentation, collaboration, and design as tools for product development. The communication instruction is embedded in design projects that require students to work in teams to conceive, design, prototype and evaluate energy related products. The communication instruction focuses on the communication tasks that are integral to this design process, ranging, across design notebooks, email communications, informal oral presentations, meeting etiquette, literature searches, white papers reports, and formal presentations. In addition to the assignments specific to product development, a few assignments, especially reading and reflection, will address the cultural situation of engineers and engineering in the world at large.

Acknowledgment

The instructors would like to thank Prof. Alex Slocum and Mark Graham for their contributions to this course.

This sequence provides a comprehensive physiologic and pathologic overview of male and female reproduction, including normal human sexuality, normal human reproduction, abnormalities of sexual function, evaluation and management of infertility, parturition, and fertility control. Breast function and breast disease are also addressed. Level: Second Year Medical Students Unless otherwise noted this Work, Reproduction, by The Regents of the University of Michigan is licensed under a Creative Commons Attribution license.

This sequence's activities have been designed to correlate basic science with clinical dermatologic phenomena. Dermatology as a clinical specialty is very visual, and accordingly, students will be exposed to images of real skin diseases and findings. Level: Second Year Medical Students Unless otherwise noted this Work, Dermatology, by Regents of the University of Michigan is licensed under a Creative Commons Attribution license.

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 is an introduction to electromagnetism and electrostatics. Topics include: electric charge, Coulomb's law, electric structure of matter, conductors and dielectrics, concepts of electrostatic field and potential, electrostatic energy, electric currents, magnetic fields, Ampere's law, magnetic materials, time-varying fields, Faraday's law of induction, basic electric circuits, electromagnetic waves, and Maxwell's equations. The course has an experimental focus, and includes several experiments that are intended to illustrate the concepts being studied.

Acknowledgements

Prof. Roland wishes to acknowledge that the structure and content of this course owe much to the contributions of Prof. Ambrogio Fasoli.

From Abilify to Zyrtec, the world is full of interesting drugs. Such substances have cured diseases, started wars, and ended careers. This seminar will explain how drugs can elicit a range of medicinal and recreational effects. Planned topics include over-the-counter drugs and "dietary supplements," drugs of abuse, treatments for neurological disorders, psychiatric medications, and many more. Prior experience is neither expected nor required, but student participation is essential.