MIT Subject Listing & Schedule
My Course Selections

5.12 Organic Chemistry I

(, )
Prereq: Chemistry (GIR)
Units: 5-0-7
Credit cannot also be received for CC.512
Lecture: MWF12 (32-123) Recitation: TR9 (56-169) or TR10 (56-169) or TR12 (13-1143, 24-112, 56-169) or TR1 (13-1143) or TR2 (4-257) or MW2 (26-142) +final

Introduction to organic chemistry. Development of basic principles to understand the structure and reactivity of organic molecules. Emphasis on substitution and elimination reactions and chemistry of the carbonyl group. Introduction to the chemistry of aromatic compounds.
Fall: J. Johnson, A. Wendlandt
Spring: R. Danheiser
No textbook information available

5.13 Organic Chemistry II

()
Prereq: 5.12
Units: 5-0-7

Focuses on synthesis, structure determination, mechanism, and the relationships between structure and reactivity. Selected topics illustrate the role of organic chemistry in biological systems and in the chemical industry.
M. Elkin, S. Buchwald
Textbooks (Fall 2024)

18.600 Probability and Random Variables

(, )
Prereq: Calculus II (GIR)
Units: 4-0-8
Credit cannot also be received for 6.3700, 6.3702
Lecture: MW11-12.30 (34-101) Recitation: F10 (4-163) or F11 (32-141) or F12 (2-190) or F1 (1-190) +final

Probability spaces, random variables, distribution functions. Binomial, geometric, hypergeometric, Poisson distributions. Uniform, exponential, normal, gamma and beta distributions. Conditional probability, Bayes theorem, joint distributions. Chebyshev inequality, law of large numbers, and central limit theorem. Credit cannot also be received for 6.041A or 6.041B.
E. Mossel
Textbooks (Fall 2024)

16.6621[J] Introduction to Design Thinking and Innovation in Engineering

(, ); first half of term
(Same subject as 2.7231[J], 6.9101[J])
Prereq: None
Units: 2-0-1 [P/D/F]
Ends Oct 25. Lecture: M EVE (7-9 PM) (32-141) Recitation: M EVE (9 PM) (32-123)

Introduces students to concepts of design thinking and innovation that can be applied to any engineering discipline. Focuses on introducing an iterative design process, a systems-thinking approach for stakeholder analysis, methods for articulating design concepts, methods for concept selection, and techniques for testing with users. Provides an opportunity for first-year students to explore product or system design and development, and to build their understanding of what it means to lead and coordinate projects in engineering design. Subject can count toward the 6-unit discovery-focused credit limit for first-year students. Enrollment limited to 25; priority to first-year students.
C. Kotelly
No textbook information available

16.650 Engineering Leadership Lab

(, )
Engineering School-Wide Elective Subject.
(Offered under: 6.9110, 16.650)
(Subject meets with 6.9130[J], 16.667[J])
Prereq: None. Coreq: 6.9120; or permission of instructor
Units: 0-2-1
Lab: F9-11 (32-124) or F1-3 (32-124) or F3-5 (32-124)

Develops leadership, teamwork and communication skills by exposing students to leadership frameworks, models, and cases within an engineering context in an interactive, practice-based environment. Students are members of and lead teams, participate in guided reflections on individual and team successes, and discover opportunities for improvement in controlled settings. Experiential learning includes design-implement activities, role-play simulations, small group discussions, and performance and peer assessments by and of other students. Includes frequent engineering industry-guest participation. Content is frequently student-driven. First year Gordon Engineering Leadership Program (GEL) students register for 6.9110. Second year GEL Program students register for 6.9130. Preference to students enrolled in the Bernard M. Gordon-MIT Engineering Leadership Program.
L. McGonagle, J. Feiler
No required or recommended textbooks

1.723 Computational Methods for Flow in Porous Media

()
Prereq: Permission of instructor
Units: 3-0-9
Lecture: MW1-2.30 (1-379)

Covers physical, mathematical and simulation aspects of fluid flow and transport through porous media. Conservation equations for multiphase, multicomponent flow. Upscaling of parameters in heterogeneous fields. Modeling of viscous fingering and channeling. Numerical methods for elliptic equations: finite volume methods, multipoint flux approximations, mixed finite element methods, variational multiscale methods. Numerical methods for hyperbolic equations: low-order and high-order finite volume methods, streamline/front-tracking methods. Applications to groundwater contamination, oil and gas reservoir simulation, and geological CO2 sequestration, among others. Limited to graduate students.
R. Juanes
No textbook information available

6.UR Undergraduate Research in Electrical Engineering and Computer Science

(, , , )
Prereq: None
Units arranged [P/D/F]
TBA.

Individual research project arranged with appropriate faculty member or approved advisor. Forms and instructions for the final report are available in the EECS Undergraduate Office.
K. Lacurts
No required or recommended textbooks

1.589 Studies in Structural Design and Analysis

(, , )
Prereq: Permission of instructor
Units arranged
TBA.

Individual study of advanced subjects under staff supervision. Content arranged to suit the particular requirements of the student and interested members of the staff.
Staff
No required or recommended textbooks (Summer 2024); No textbook information available (Fall 2024)

7.32 Systems Biology

()
(Subject meets with 7.81[J], 8.591[J])
Prereq: (18.03 and 18.05) or permission of instructor
Units: 3-0-9
Lecture: TR1-2.30 (4-159) Recitation: W EVE (4.30-6 PM) (2-147) +final

Introduction to cellular and population-level systems biology with an emphasis on synthetic biology, modeling of genetic networks, cell-cell interactions, and evolutionary dynamics. Cellular systems include genetic switches and oscillators, network motifs, genetic network evolution, and cellular decision-making. Population-level systems include models of pattern formation, cell-cell communications, and evolutionary systems biology. Students taking graduate version explore the subject in more depth.
J. Gore
Textbooks (Fall 2024)

Total units: 54+

You may remove a subject from your selection by clicking on the button in the description.
Or, you may delete your entire selection by pushing the following button:

Examine your course selections. When ready, click the pre-registration button below to submit them to pre-registration. (Certificates are required.)

---

You have a scheduling conflict

A note on the schedule: Lecture options are shown, not labs or recitations.

A text chart may show up better for printing.

TIME Mon Tue Wed Thu Fri KEY  5.12  18.600  16.6621  16.650  1.723  6.UR  1.589  7.32 7 am 8 am 9 am 10 am 11 am 12 pm 1 pm 2 pm 3 pm 4 pm 5 pm 6 pm 7 pm 8 pm 9 pm