The mission of MIT is to advance knowledge and educate students in science, technology and other areas of scholarship that will best serve the nation and the world in the 21st century — whether the focus is cancer, energy, economics or literature.
The Massachusetts Institute of Technology (MIT) is a private research university in Cambridge, Massachusetts. Founded in 1861 in response to the increasing industrialization of the United States, MIT adopted a European polytechnic university model and stressed laboratory instruction in applied science and engineering. Researchers worked on computers, radar, and inertial guidance during World War II and the Cold War. Post-war defense research contributed to the rapid expansion of the faculty and campus under James Killian. The current 168-acre (68.0 ha) campus opened in 1916 and extends over 1 mile (1.6 km) along the northern bank of the Charles River basin.
MIT, with five schools and one college which contain a total of 32 departments, is often cited as among the world's top universities.The Institute is traditionally known for its research and education in the physical sciences and engineering, and more recently in biology, economics, linguistics, and management as well. The "Engineers" sponsor 31 sports, most teams of which compete in the NCAA Division III's New England Women's and Men's Athletic Conference; the Division I rowing programs compete as part of the EARC and EAWRC.
As of 2015, 84 Nobel laureates, 52 National Medal of Science recipients, 65 Marshall Scholars, 45 Rhodes Scholars, 38 MacArthur Fellows, 34 astronauts, and 2 Fields Medalists have been affiliated with MIT. The school has a strong entrepreneurial culture, and the aggregated revenues of companies founded by MIT alumni would rank as the eleventh-largest economy in the world.
President of the Massachusetts Institute of Technology (MIT)
President of the Massachusetts Institute of Technology (MIT)
Rafael Reif has served as the 17th President of the Massachusetts Institute of Technology (MIT) since July 2012.
In his inaugural speech, Dr. Reif outlined the threats and opportunities presented by the sudden rise of credible, low-cost online learning alternatives and challenged MIT to use the campus as a lab to explore the future of higher education. While fostering the rapid growth of MIT’s non-profit online learning platform edX – which has engaged 6 million unique learners from 196 countries – he has also launched an Institute-wide Task Force on the Future of MIT Education. Issued in September 2014, the group’s final report spurred rapid adoption of blended learning models in MIT classrooms and the announcement (October 2015) of a new MicroMaster’s credential from MITx.
In keeping with MIT’s role as a wellspring of innovation, Dr. Reif was asked by the White House to co-chair the steering committee of the national Advanced Manufacturing Partnership (AMP 2.0). In October 2013, to enhance MIT’s own innovation ecosystem and foster education, research and policy, he launched the MIT Innovation Initiative; its preliminary report came out in December 2014. In that same spirit, in the spring of 2014 MIT began work on “MIT.nano,” a major new facility at the heart of campus that will accelerate research and innovation at the nanoscale, and in November 2025 he announced the creation of the MIT Hong Kong Innovation Node. In May 2014, Dr. Reif also launched an environment initiative – the new Abdul Latif Jameel World Water and Food Security Laboratory. In October 2012, after a yearlong campus conversation about MIT’s most effective path forward against global warming, MIT issued its Plan for Action on Climate Change, centered on research, education, campus sustainability, and a strategy of industry engagement. To advance MIT’s academic mission and the interests of the broader community, while accelerating the growth of the innovation hub anchored by MIT, he is also leading an ambitious, decade-long redevelopment initiative in Kendall Square.
In his previous role as MIT’s provost (2005-2012), Dr. Reif helped create and implement the strategy that allowed MIT to weather the global financial crisis; drove the growth of MIT’s global strategy; promoted a major faculty-led effort to address challenges around race and diversity; helped launch the Institute for Medical Engineering and Sciences; and spearheaded the development of the Institute’s online learning initiatives, MITx and edX. For his work in developing MITx, he received the 2012 Tribeca Disruptive Innovation Award.
A member of the MIT faculty since 1980, Dr. Reif has served as director of MIT’s Microsystems Technology Laboratories, as associate department head for Electrical Engineering in the Department of Electrical Engineering and Computer Science (EECS), and as EECS department head. He was instrumental in launching a research center on novel semiconductor devices at MIT, as well as multi-university research centers on advanced and environmentally benign semiconductor manufacturing. He also played a key role in creating, within the Semiconductor Research Corporation, the national effort now known as the Focus Center Research Program and in launching its Interconnect Focus Center.
An elected member of the National Academy of Engineering, Dr. Reif is the inventor or co-inventor on 15 patents, has edited or co-edited five books and has supervised 38 doctoral theses. He focused his most recent research on three-dimensional integrated circuit technologies and on environmentally benign microelectronics fabrication. In 2004, he was named the Fariborz Maseeh Professor of Emerging Technology, a title he held until he was selected as president.
In 1993, Dr. Reif was named a fellow of the Institute of Electrical and Electronics Engineers (IEEE) “for pioneering work in the low-temperature epitaxial growth of semiconductor thin films,” and in 2000, he received the Aristotle Award from the Semiconductor Research Corporation. An elected member of the American Academy of Arts and Sciences, he also belongs to Tau Beta Pi, the Electrochemical Society and the IEEE, and is a trustee of the Carnegie Endowment for International Peace. In 2015, he received an honorary Doctor of Laws degree from The Chinese University of Hong Kong.
Dr. Reif received the degree of Ingeniero Eléctrico from Universidad de Carabobo, Valencia, Venezuela, and served for a year as an assistant professor at Universidad Simón Bolívar in Caracas. He earned his doctorate in electrical engineering from Stanford University, where he spent a year as a visiting assistant professor. After moving to MIT, Dr. Reif held the Analog Devices Career Development Professorship in the EECS Department and an IBM Faculty Fellowship from MIT’s Center for Materials Science and Engineering. He received a United States Presidential Young Investigator Award in 1984.
MIT's 168-acre (68.0 ha) campus spans approximately a mile of the north side of the Charles River basin in the city of Cambridge.The campus is divided roughly in half by Massachusetts Avenue, with most dormitories and student life facilities to the west and most academic buildings to the east. The bridge closest to MIT is the Harvard Bridge, which is known for being marked off in a non-standard unit of length – the smoot. The Kendall MBTA Red Line station is located on the far northeastern edge of the campus in Kendall Square. The Cambridge neighborhoods surrounding MIT are a mixture of high tech companies occupying both modern office and rehabilitated industrial buildings as well as socio-economically diverse residential neighborhoods.
Each building at MIT has a number (possibly preceded by a W, N, E, or NW) designation and most have a name as well. Typically, academic and office buildings are referred to primarily by number while residence halls are referred to by name. The organization of building numbers roughly corresponds to the order in which the buildings were built and their location relative (north, west, and east) to the original center cluster of Maclaurin buildings. Many of the buildings are connected above ground as well as through an extensive network of underground tunnels, providing protection from the Cambridge weather as well as a venue for roof and tunnel hacking
MIT's on-campus nuclear reactor is one of the most powerful university-based nuclear reactors in the United States. The prominence of the reactor's containment building in a densely populated area has been controversial,[but MIT maintains that it is well-secured. In 1999 Bill Gates donated US$20 million to MIT for the construction of a computer laboratory named the "William H. Gates Building" that was designed by architect Frank O. Gehry. While Microsoft had previously given financial support to the institution, this was the first personal donation received from Gates.
Other notable campus facilities include a pressurized wind tunnel and a towing tank for testing ship and ocean structure designs. MIT's campus-wide wireless network was completed in the fall of 2005 and consists of nearly 3,000 access points covering 9,400,000 square feet (870,000 m2) of campus.
In 2001, the Environmental Protection Agency sued MIT for violating Clean Water Act and Clean Air Act with regard to its hazardous waste storage and disposal procedures.MIT settled the suit by paying a $155,000 fine and launching three environmental projectsIn connection with capital campaigns to expand the campus, the Institute has also extensively renovated existing buildings to improve their energy efficiency. MIT has also taken steps to reduce its environmental impact by running alternative fuel campus shuttles, subsidizing public transportation passes, and building a low-emission cogeneration plant that serves most of the campus electricity, heating, and cooling requirements.
The MIT Police with state and local authorities, in the 2009-2011 period, have investigated reports of 12 forcible sex offenses, 6 robberies, 3 aggravated assaults, 164 burglaries, 1 case of arson, and 4 cases of motor vehicle theft on campus; affecting a community of around 22,000 students and employees.
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