22.002J Communicating About Technology: Colossal Failures in Engineering ( ) (Same subject as 1.588J , 3.070J , 21W.781J, ESD.032J ) Prereq: None Units: 3-0-9 Explores communication about technological subjects in the context of colossal engineering failures including Three Mile Island, Bhopal, the Columbia Shuttle, 9/11, and Katrina. Examines the basic engineering principles and the social context of several such failures in case studies from various engineering disciplines. Students see how problematic communications, sometimes subtly unrecognizable at the time, significantly contributed to the final failures. Students collaborate to produce a final written and oral research report that anticipates a potential failure and makes recommendations for avoiding it. Multiple sections, each limited to 18 students. T. Eagar, W. Haas, A. Kadak, P. Lagace, O. Buyukozturk
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22.01 Introduction to Ionizing Radiation ( ) Prereq: None Units: 5-0-7 Lecture: TR11-12.30 ( 24-121 ) Recitation: F1-3 ( 24-121 ) +final Introduction to basic properties of ionizing radiations and their uses in medicine, industry, science, and environmental studies. Discusses natural and man-made radiation sources, energy deposition and dose calculations, various physical, chemical, and biological processes and effects of radiation with examples of their uses, and principles of radiation protection. J. C. Yanch
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22.011 Seminar in Nuclear Science and Engineering ( ) Prereq: None Units: 2-0-4 Lecture: T3-5 ( 24-402 ) Surveys the range of diverse subjects in nuclear science and engineering covered by the department. Topics include quantum computing, energy and power, radiation effects-stem cells and DNA, BNCT, nuclear space applications, fusion, airport security, accelerators, magnetic resonance imaging, non-proliferation, risk assessment, safety, biology and medicine. A demonstration of the MIT Reactor as a research tool is given as well as a tour of the MIT Tokomak fusion machine and accelerators used in research. G. Apostolakis
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22.012 Seminar in Fusion and Plasma Physics ( ) Prereq: None Units: 2-0-4 URL: http://web.mit.edu/22.012/www/ Lectures and discussion introducing the range of topics relevant to plasma physics and fusion engineering. Introductory discussion of the economic and ecological motivation for the development of fusion power. Contemporary magnetic confinement schemes, theoretical questions, and engineering considerations are presented by expert guest lecturers. Tour of Plasma Science and Fusion Center experimental facilities. Staff
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22.013 Applications of Radiation Science and Technology in Biomedical Research ( ) Prereq: None Units: 2-0-4 Lecture: T3-5 ( 24-115 ) Seminar lectures, led by practicing clinicians and scientists in a case presentation format, on current research topics and specific projects in the biomedical field in which radiation science and radiological engineering play an important role. Emphasis on nuclear imaging techniques such as magnetic resonance and positron emission tomography, and on radiation therapy. Term paper required. Lectures shared with freshman advisor seminar 22.A09 Career Options for Biomedical Research. S. Yip, B. Rosen
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22.02 Introduction to Applied Nuclear Physics ( ) Prereq: Physics II (GIR) , Calculus II (GIR) Units: 5-0-7 Subject Cancelled Basic concepts of nuclear physics with emphasis on nuclear structure and interactions of radiation with matter. Elementary quantum theory; nuclear forces; shell structure of the nucleus; alpha, beta, and gamma, radioactive decays; interactions of nuclear radiations (charged particles, gammas and neutrons) with matter; nuclear reactions; fission and fusion. P. Cappellaro
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22.033 Nuclear Systems Design Project ( ) (Subject meets with 22.33 ) Prereq: 22.06 Units: 3-0-9 Lecture: MW11-12.30 ( 24-115 ) Group design project involving integration of nuclear physics, particle transport, control, heat transfer, safety, instrumentation, materials, environmental impact, and economic optimization. Provides opportunity to synthesize knowledge acquired in nuclear and non-nuclear subjects and apply this knowledge to practical problems of current interest in nuclear applications design. Past projects have included using a fusion reactor for transmutation of nuclear waste, design and implementation of an experiment to predict and measure pebble flow in a pebble bed reactor, and development of a mission plan for a manned Mars mission including the conceptual design of a nuclear powered space propulsion system and power plant for the Mars surface, a lunar/Martian nuclear power station and the use of nuclear plants to extract oil from tar sands. Meets with graduate subject 22.33, but assignments differ. A. C. Kadak
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22.05 Neutron Science and Reactor Physics ( ) Prereq: 22.02 , 18.03 Units: 5-0-7 Lecture: TR9-10.30 ( 24-115 ) Recitation: F3-5 ( 24-115 ) +final Introduces fundamental properties of the neutron. Covers reactions induced by neutrons, nuclear fission, slowing down of neutrons in infinite media, diffusion theory, the few-group approximation, point kinetics, and fission-product poisoning. Emphasizes the nuclear physics bases of reactor design and its relationship to reactor engineering problems. B. Forget
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22.055 Radiation Biophysics (New) ( ) (Subject meets with 22.55J , HST.560J ) Prereq: Permission of instructor Units: 3-0-9 Provides a background in sources of radiation with an emphasis on terrestrial and space environments and on industrial production. Discusses experimental approaches to evaluating biological effects resulting from irradiation regimes differing in radiation type, dose and dose-rate. Effects at the molecular, cellular, organism, and population level are examined. Literature is reviewed identifying gaps in our understanding of the health effects of radiation, and responses of regulatory bodies to these gaps is discussed. Students taking graduate version complete additional assignments. J. C. Yanch
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22.058 Radiation Systems Engineering and Tomographic Imaging ( ) Prereq: 18.03 , Physics II (GIR) Units: 3-3-6 Lecture: WF2-3.30 ( NW14-1112 ) Lab: WF3.30-5 ( NW14-1112 ) +final An introduction to radiation systems engineering with examples taken from tomographic imaging. Includes a series of lectures with a parallel set of recitations that provide demonstrations of basic principles. Both ionizing and non-ionizing radiation are covered, including x-ray, PET, MRI, and ultrasound. Emphasis is on the physics and engineering of image formation. D. Cory
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22.06 Engineering of Nuclear Systems ( ) Prereq: 2.005 , 22.05 Units: 3-0-9 Introduces engineering in nuclear energy plant design, accelerators and fusion machines. Using the basic principles of nuclear physics, reactor physics, plasma physics and magnetic confinement, heat transfer, safety, risk and reliability, the engineering design of nuclear power plants, accelerators and fusion systems are studied. The MIT reactor, department accelerators, and MIT's Alcator fusion facility are used. J. Buongiorno
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22.070 Materials for Nuclear Applications (New) ( ) (Subject meets with 22.70 ) Prereq: Permission of instructor Units: 3-0-9 Introductory subject for students who are not specializing in nuclear materials. Applications and selection of materials for use in nuclear applications. Radiation damage, radiation effects, and their effects on performance of materials in fission and fusion environments. Students taking graduate version complete additional assignments. Preference to juniors and seniors. B. Yildiz
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22.071J Electronics, Signals, and Measurement ( ) (Same subject as 6.071J ) Prereq: 18.03 Units: 3-3-6 Provides the knowledge necessary for reading schematics and designing, building, analyzing, and testing fundamental analog and digital circuits. Students construct interactive examples and explore the practical uses of electronics in engineering and experimental science, including signals and measurement fundamentals. Uses state-of-the-art hardware and software for data acquisition, analysis, and control. Suitable for students with little or no previous background in electronics. I. Hutchinson
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22.081J Introduction to Sustainable Energy (New) ( ) (Same subject as 2.650J , 10.291J ) (Subject meets with 1.818J , 2.65J , 10.391J , 11.371J , 22.811J , ESD.166J ) Prereq: Permission of instructor Units: 3-1-8 Lecture: TR3-5 ( 4-370 ) Recitation: TBA Assessment of current and potential future energy systems. Covers resources, extraction, conversion, and end-use technologies, with emphasis on meeting 21st-century regional and global energy needs in a sustainable manner. Examines various renewable and conventional energy production technologies, energy end-use practices and alternatives, and consumption practices in different countries. Investigates their attributes within a quantitative analytical framework for evaluation of energy technology system proposals. Emphasizes analysis of energy propositions within an engineering, economic and social context. Students taking graduate version complete additional assignments. Limited to juniors and seniors. M. W. Golay, J. P. Freidberg
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22.09 Principles of Nuclear Radiation Measurement and Protection ( ) (Subject meets with 22.90 ) Prereq: 22.02 Units: 2-6-4 Combines lectures, demonstrations, and experiments. Review of radiation protection procedures and regulations; theory and use of alpha, beta, gamma, and neutron detectors; applications in imaging and dosimetry; gamma-ray spectroscopy; design and operation of automated data acquisition experiments using virtual instruments. Meets with graduate subject 22.90, but homework assignments and examinations differ. Instruction and practice in written communication provided. J. C. Yanch, R. C. Lanza, L. Hobbs
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22.091 Special Topics in Nuclear Science and Engineering ( , , , ) Prereq: None Units arranged TBA. For undergraduates who wish to conduct a one-term project of theoretical or experimental nature in the field of nuclear engineering, in close cooperation with individual staff members. Topics and hours arranged to fit students' requirements. D. Whyte
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22.093 Special Topics in Nuclear Science and Engineering ( , , , ) Prereq: Permission of Course 22 undergraduate office Units arranged [P/D/F] This subject is graded on a P/D/F basis and is otherwise equivalent to subject 22.091. D. Whyte
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22.094 Special Topics in Nuclear Science and Engineering ( , , , ) Prereq: None Units arranged For undergraduates who wish to conduct a one-term project of theoretical or experimental nature in the field of nuclear engineering, in close cooperation with individual staff members. Topics and hours arranged to fit students' requirements. D. Whyte
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22.096 Quantum Mechanics for Nuclear Engineers ( ) (Subject meets with 22.96 ) Prereq: None Units: 1-0-2 Introduction to wave mechanics using optical analogies and examples from nuclear science to gain an intuitive understanding of quantum phenomena. Topics include wave optics and mechanics, the Schrodinger equation and its solution in one dimension, the tunnel effect and radioactive decay, the deuteron and neutron-proton scattering. Math skills introduced as required. Lectures and computer simulation demonstrations. Meets with graduate subject 22.96, but assignments differ. Graduate students are expected to explore the subject in greater depth. S. H. Chen
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22.EPE UPOP Summer Practice Experience ( , ) Engineering School-Wide Elective Subject. (Offered under: 1.EPE , 2.EPE , 3.EPE , 6.EPE , 10.EPE , 16.EPE , 22.EPE ) Prereq: 2.EPW or permission of instructor Units: 0-1-0 [P/D/F] TBA. Immerses engineering sophomores in the world of professional engineering experience by providing guided instruction in all aspects of the job acquisition process. Students complete a 10-12 week internship assignment during the summer, which includes maintaining a structured journal of observations and experiences, meeting with UPOP staff members, writing essays, and completing a self-evaluation. May be repeated twice for credit; spring term can be taken only in conjunction with fall term. S. Luperfoy
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22.EPR UPOP Reflective Learning Experience ( ) Engineering School-Wide Elective Subject. (Offered under: 1.EPR , 2.EPR , 3.EPR , 6.EPR , 10.EPR , 16.EPR , 22.EPR ) Prereq: 2.EPE or permission of instructor Units: 0-0-3 [P/D/F] TBA. Reflective learning experiences for engineering juniors that serve as the culmination of their sophomore year in the UPOP program. Students review their internship experiences through written and oral presentations and receive small-group and individualized coaching to reinforce the cognitive link between all aspects of the UPOP experience and their disciplinary field of study. S. Luperfoy
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22.EPW UPOP IAP Workshop ( ) Engineering School-Wide Elective Subject. (Offered under: 1.EPW , 2.EPW , 3.EPW , 6.EPW , 10.EPW , 16.EPW , 20.EPW , 22.EPW ) Prereq: None Units: 3-0-0 [P/D/F] Introduction to professional development skills for engineering practice. Experiential learning modules prepare sophomores for success in summer internship and beyond. Faculty and senior engineering professionals recruited from industry guide teams through learning activities, which include creative simulations, team competitions, oral presentations, and group problem-solving. Enrollment limited. S. Luperfoy
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22.ThT Undergraduate Thesis Tutorial ( ) Prereq: 22.09 Units: 1-0-2 [P/D/F] TBA. A series of lectures on prospectus and thesis writing. Students select a thesis topic and a thesis advisor who reviews and approves the prospectus for thesis work in the spring term. Staff
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22.ThU Undergraduate Thesis ( , , ) Prereq: 22.ThT Units arranged TBA. Program of research, leading to the writing of an SB thesis, to be arranged by the student and appropriate MIT faculty member. See department undergraduate headquarters. D. Whyte
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22.UR Undergraduate Research Opportunities Program ( , , , ) Prereq: None Units arranged [P/D/F] TBA. 22.URG Undergraduate Research Opportunities Program ( , , , ) Prereq: None Units arranged TBA. The Undergraduate Research Opportunities Program is an excellent way for undergraduate students to become familiar with the department of Nuclear Science and Engineering. Student research as a UROP project has been conducted in areas of fission reactor studies, utilization of fusion devices, applied radiation physics research, and biomedical applications. Projects include the study of engineering aspects for fusion and fission energy sources, and utilization of radiations. R. Ballinger
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