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2.678 Electronics for Mechanical Systems
(, )
Prereq: Physics II (GIR)
Units: 2-2-2
Lecture: MW11 (3-270) Lab: W12.30-2.30 (3-062B) or W3-5 (3-062B) or R12.30-2.30 (3-062B) or R3-5 (3-062B) or F11-1 (3-062B) or F2-4 (3-062B)
Practical introduction to the fundamentals of electronics in the context of electro-mechanical systems, with emphasis on experimentation and project work in basic electronics. Laboratory exercises include the design and construction of simple electronic devices, such as power supplies, amplifiers, op-amp circuits, switched mode dc-dc converters, and dc motor drivers. Surveys embedded microcontrollers as system elements. Laboratory sessions stress the understanding of electronic circuits at the component level, but also point out the modern approach of system integration using commercial modules and specialized integrated circuits. Enrollment may be limited due to laboratory capacity; preference to Course 2 majors and minors.
Fall: D. Frey, S. Banzaert
Spring: J. Leonard, S. Banzaert
No textbook information availableIDS.957 Practical Experience in Data Analysis
(, , , )
Prereq: None
Units arranged [P/D/F]
TBA.
For doctoral students in the Interdisciplinary Doctoral Program in Statistics participating in off-campus practical experiences in data analysis in programs where practical experience is accepted. Before registering for this subject students must have a training offer from a company or organization, must identify a research advisor, and must receive prior approval from the IDSS Academic Office. Upon completion of the experience, students must submit a letter from the company or organization describing the goals accomplished and a substantive final report to the MIT advisor discussing how data science and statistical tools were used during their experience and any interesting problems, applications, or results.
Fall: E. Milnes
IAP: E. Milnes
Spring: E. Milnes
Summer: E. Milnes
No textbook information available2.688 Principles of Oceanographic Instrument Systems -- Sensors and Measurements
()
Prereq: 2.671 and 18.075
Units: 3-3-6
Lecture: TR10.30-12 (54-827) Lab: T2.30-5.30 (54-827)
Introduces theoretical and practical principles of design of oceanographic sensor systems. Transducer characteristics for acoustic, current, temperature, pressure, electric, magnetic, gravity, salinity, velocity, heat flow, and optical devices. Limitations on these devices imposed by ocean environment. Signal conditioning and recording; noise, sensitivity, and sampling limitations; standards. Principles of state-of-the-art systems being used in physical oceanography, geophysics, submersibles, acoustics discussed in lectures by experts in these areas. Day cruises in local waters during which the students will prepare, deploy and analyze observations from standard oceanographic instruments constitute the lab work for this subject.
T. Maksym
No textbook information available21A.303[J] The Anthropology of Biology
()
(Same subject as STS.060[J])
Prereq: None
Units: 3-0-9
Lecture: F1-4 (66-156)
Applies the tools of anthropology to examine biology in the age of genomics, biotechnological enterprise, biodiversity conservation, pharmaceutical bioprospecting, and synthetic biology. Examines such social concerns such as bioterrorism, genetic modification, and cloning. Offers an anthropological inquiry into how the substances and explanations of biology — ecological, organismic, cellular, molecular, genetic, informatic — are changing. Examines such artifacts as cell lines, biodiversity databases, and artificial life models, and using primary sources in biology, social studies of the life sciences, and literary and cinematic materials, asks how we might answer Erwin Schrodinger's 1944 question, "What Is Life?", today.
S. Helmreich
No textbook information available7.435 Topics in Benthic Biology
(, )
Prereq: Permission of instructor
Units: 2-0-4
Subject Cancelled
Lectures and discussions on the biology of marine benthos. Topics vary from year to year.
Fall: WHOI Staff
Spring: WHOI Staff
22.UR Undergraduate Research Opportunities Program
(, , , )
Prereq: None
Units arranged [P/D/F]
TBA.
The Undergraduate Research Opportunities Program is an excellent way for undergraduate students to become familiar with the Department of Nuclear Engineering. Student research as a UROP project has been conducted in areas of fission reactor studies, utilization of fusion devices, applied radiation research, and biomedical applications. Projects include the study of engineering aspects for both fusion and fission energy sources.
B. Baker
No required or recommended textbooks (Summer 2024); Textbooks arranged individually (Fall 2024)1.S993 Special Undergraduate Subject in Civil and Environmental Engineering
(, )
Prereq: Permission of instructor
Units arranged
TBA.
Subjects taught experimentally; subjects offered by visiting faculty; and seminars on topics of current interest not included in the regular curriculum.
Consult Department Academic Programs Office
No textbook information available6.9840 Practical Experience in EECS
(, , , )
Prereq: None
Units: 0-1-0 [P/D/F]
TBA.
For Course 6 students in the MEng program who seek practical off-campus research experiences or internships in electrical engineering or computer science. Before enrolling, students must have an offer of employment from a company or organization and secure an advisor within EECS. Employers must document the work accomplished. Proposals subject to departmental approval. For students who begin the MEng program in the summer only, the experience or internship cannot exceed 20 hours per week and must begin no earlier than the first day of the Summer Session, but may end as late as the last business day before the Fall Term.
M. Bittrich
No textbook information available16.001 Unified Engineering: Materials and Structures
()
Prereq: Calculus II (GIR) and Physics I (GIR); Coreq: 16.002 and 18.03
Units: 5-1-6
Lecture: M9,T10,R9-11 (35-225) Lab: TBA Recitation: W9 (35-225) +final
Presents fundamental principles and methods of materials and structures for aerospace engineering, and engineering analysis and design concepts applied to aerospace systems. Topics include statics; analysis of trusses; analysis of statically determinate and indeterminate systems; stress-strain behavior of materials; analysis of beam bending, buckling, and torsion; material and structural failure, including plasticity, fracture, fatigue, and their physical causes. Experiential lab and aerospace system projects provide additional aerospace context.
R.A. Radovitzky
No textbook information availableTotal units: 49+
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