Courses tagged with "Information control" (1404)
This graduate and advanced undergraduate level lecture and literature discussion course covers the current understanding of the molecular mechanisms that regulate animal development. Evolutionary mechanisms are emphasized as well as the discussion of relevant diseases. Vertebrate (mouse, chick, frog, fish) and invertebrate (fly, worm) models are covered. Specific topics include formation of early body plan, cell type determination, organogenesis, morphogenesis, stem cells, cloning, and issues in human development.
This graduate and advanced undergraduate level lecture and literature discussion course covers the current understanding of the molecular mechanisms that regulate animal development. Evolutionary mechanisms are emphasized as well as the discussion of relevant diseases. Vertebrate (mouse, chick, frog, fish) and invertebrate (fly, worm) models are covered. Specific topics include formation of early body plan, cell type determination, organogenesis, morphogenesis, stem cells, cloning, and issues in human development.
This course considers molecular control of neural specification, formation of neuronal connections, construction of neural systems, and the contributions of experience to shaping brain structure and function. Topics include: neural induction and pattern formation, cell lineage and fate determination, neuronal migration, axon guidance, synapse formation and stabilization, activity-dependent development and critical periods, development of behavior.
The laws of nature are expressed as differential equations. Scientists and engineers must know how to model the world in terms of differential equations, and how to solve those equations and interpret the solutions. This course focuses on the equations and techniques most useful in science and engineering.
Course Format
This course has been designed for independent study. It provides everything you will need to understand the concepts covered in the course. The materials include:
- Lecture Videos by Professor Arthur Mattuck.
- Course Notes on every topic.
- Practice Problems with Solutions.
- Problem Solving Videos taught by experienced MIT Recitation Instructors.
- Problem Sets to do on your own with Solutions to check your answers against when you're done.
- A selection of Interactive Java® Demonstrations called Mathlets to illustrate key concepts.
- A full set of Exams with Solutions, including practice exams to help you prepare.
Content Development
Haynes Miller
Jeremy Orloff
Dr. John Lewis
Arthur Mattuck
Other Versions
Other OCW Versions
OCW has published multiple versions of this subject. 
Related Content
Course Collections
See related courses in the following collections:
Find Courses by Topic
MIT Crosslinks
Explore the topics covered in this course with MIT Crosslinks, a website that highlights connections among select MIT undergraduate STEM 
courses and recommends specific study materials from OCW and others. Learn more.
Differential Equations are the language in which the laws of nature are expressed. Understanding properties of solutions of differential equations is fundamental to much of contemporary science and engineering. Ordinary differential equations (ODE's) deal with functions of one variable, which can often be thought of as time.
This course is an introduction to differential geometry. The course itself is mathematically rigorous, but still emphasizes concrete aspects of geometry, centered on the notion of curvature.
This course examines the theory and practice of using computational methods in the emerging field of digital humanities. It develops an understanding of key digital humanities concepts, such as data representation, digital archives, information visualization, and user interaction through the study of contemporary research, in conjunction with working on real-world projects for scholarly, educational, and public needs. Students create prototypes, write design papers, and conduct user studies.
This class investigates theory and practice of digital or new media poetry with emphasis on workshop review of digital poetry created by students. Each week students examine published examples of digital poetry in a variety of forms including but not limited to soundscapes, hypertext poetry, animation, code poems, interactive games, location-based poems using handheld devices, digital video and wikis.
This course is an introduction to the cross-cultural study of bio-medical ethics. It examines moral foundations of the science and practice of western bio-medicine through case studies of abortion, contraception, cloning, organ transplantation, and other issues. It also evaluates challenges that new medical technologies pose to the practice and availability of medical services around the globe, and to cross-cultural ideas of kinship and personhood. It discusses critiques of the bio-medical tradition from anthropological, feminist, legal, religious, and cross-cultural theorists.
This course is an introduction to the cross-cultural study of biomedical ethics, examining moral foundations of the science and practice of Western biomedicine through case studies of abortion, contraception, cloning, organ transplantation and other issues. It evaluates challenges that new medical technologies pose to the practice and availability of medical services around the globe, and to cross-cultural ideas of kinship and personhood. Also discussed are critiques of the biomedical tradition from anthropological, feminist, legal, religious, and cross-cultural theorists.
This course examines how medicine is practiced cross-culturally, with particular emphasis on Western biomedicine. Students analyze medical practice as a cultural system, focusing on the human, as opposed to the biological, side of things. Also considered is how people in different cultures think of disease, health, body, and mind.
This course examines the growing importance of medicine in culture, economics and politics. It uses an historical approach to examine the changing patterns of disease, the causes of morbidity and mortality, the evolution of medical theory and practice, the development of hospitals and the medical profession, the rise of the biomedical research industry, and the ethics of health care in America.
This experimental one-week course is a freshman-accessible hands-on introduction to Nuclear Science and Engineering at MIT. Students build and test their own Geiger Counter, and so doing, they explore different types and sources of radiation, how to detect them, how to shield them, how to accurately count / measure their activity, and explore cryptographical applications of radiation. This course is meant to be enjoyable and rigorous at the same time.
This course was offered during the Independent Activities Period (IAP), which is a special 4-week term at MIT that runs during January each year.
WARNING NOTICE:
An activity described in this course is potentially hazardous and requires a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedures and measures. MIT shall have no responsibility, liability, or risk for the content or implementation of any of the material presented. Legal Notice
In this course, you will be exposed to the work of many great documentary photographers and photojournalists, as well as to writing about the documentary tradition. Further, throughout the term, you will hone your photographic skills and 'eye,' and you will work on a photo documentary project of your own, attempting to reduce a tiny area of the moving world to a set of still images that convey what the viewer needs to know about what you saw—without hearing the sounds, smelling the odors, experiencing what was happening outside the viewfinder, and without seeing the motion.
In this course, you will be exposed to the work of many great documentary photographers and photojournalists, as well as to writing about the documentary tradition. Further, throughout the term, you will hone your photographic skills and 'eye,' and you will work on a photo documentary project of your own, attempting to reduce a tiny area of the moving world to a set of still images that convey what the viewer needs to know about what you saw—without hearing the sounds, smelling the odors, experiencing what was happening outside the viewfinder, and without seeing the motion.
How — and why — do people seek to capture everyday life on film? What can we learn from such films? This course challenges distinctions commonly made between documentary and ethnographic films to consider how human cultural life is portrayed in both. It considers the interests, which motivate such filmmakers ranging from curiosity about "exotic" people to a concern with capturing "real life" to a desire for advocacy. Students will view documentaries about people both in the U.S. and abroad and will consider such issues as the relationship between film images and "reality," the tensions between art and observation, and the ethical relationship between filmmakers and those they film.
This seminar focuses on downtowns in U.S. cities from the late nineteenth century to the late twentieth century. Emphasis will be placed on downtown as an idea, place, and cluster of interests; on the changing character of downtown; and on recent efforts to rebuild it. Subjects to be considered will include subways, skyscrapers, highways, urban renewal, and retail centers. The focus will be on readings, discussions, and individual research projects.
This seminar focuses on downtowns in U.S. cities from the late nineteenth century to the late twentieth century. Emphasis will be placed on downtown as an idea, place, and cluster of interests; on the changing character of downtown; and on recent efforts to rebuild it. Subjects to be considered will include subways, skyscrapers, highways, urban renewal, and retail centers. The focus will be on readings, discussions, and individual research projects.
This seminar facilitates the design and construction of installations and other community projects in conjunction with and beyond MIT's celebration of Dr. Martin Luther King, Jr.
During the first half of the class, MIT and Wellesley students develop in-depth understanding of the history of US racial issues as well as past and present domestic and international political struggles. In the second half, the students work as a group to complete the installations and projects which serve as models for connecting academics with real life problems and struggle.
This seminar 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 class is a multidisciplinary introduction to pharmacology, neurotransmitters, drug mechanisms, and brain diseases from addiction to schizophrenia.
From Abilify® to Zyrtec®, the world is full of fascinating drugs. If you are poisoned by sarin nerve gas, you may be able to save your life by huffing some BZ nerve gas. This class will explain that chemical curiosity, along with a host of other interesting tidbits of pharmacology. The structure of the class interleaves basic concepts with specific examples and entertaining tangents, so it is not loaded with boring abstract theory. In the first class you will learn what a neurotransmitter is, and you will immediately apply that knowledge when we discuss the mechanism of caffeine. The class is highly multidisciplinary, including topics such as patent law, medical ethics, history, and the physics of crack pipes.
Add to calendar
Trusted paper writing service WriteMyPaper.Today will write the papers of any difficulty.