MIT Subject Listing & Schedule
Reading the Selections Chart

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Sample Selections Chart

The description of what's going on is below the actual chart. Each subject is a different color.

15.094J Systems Optimization: Models and Computation

()
(Same subject as 1.142J)
Prereq: 15.093 or 15.081J/6.251J
Units: 4-0-8
You must pre-register and participate in Sloan's Prioritization process to take this subject.
Lecture: TR2.30-4 (33-419) Recitation: F3 (1-115)

A computational and application-oriented introduction to the modeling of large-scale systems in a wide variety of decision-making domains and the optimization of such systems using state-of-the-art optimization software. Application domains include transportation and logistics, pattern classification, structural design, financial engineering, and telecommunications system planning. Modeling tools and techniques covered include linear, network, discrete, and nonlinear programming, heuristic methods, sensitivity and postoptimality analysis, decomposition methods for large-scale systems, and stochastic programming.
R. M. Freund

21M.026 Jazz

(, )
Prereq: None
Units: 3-0-9
You must enter the HASS-D lottery to take this subject.
Lecture: TR11-12.30 (4-156) +final

Historical survey from roots in African and American contexts, including spirituals, blues, and ragtime, through early jazz, Swing, bebop, and post-bop movements, with attention to recent developments. Key jazz styles, the relation of music and society, and major figures such as Armstrong, Ellington, Basie, Goodman, Parker, Monk, Mingus, Coltrane, and others are considered. Some investigation of cross-influences with popular, classical, folk, and rock musics. Enrollment may be limited.
more information...
M. Harvey

6.01 Introduction to EECS I

(, )
Prereq: None. Coreq: Physics II (GIR)
Units: 2-4-6
URL: http://mit.edu/6.01/index.html
No prerequisite required. Lecture: T10-11.30 (26-100) Lab: T11.30-1,R10-1 (34-501) or T2-3.30,R2-5 (34-501) or W11.30-1,F10-1 (34-501) or W2-3.30,F2-5 (34-501) +final

An integrated introduction to electrical engineering and computer science, taught using substantial laboratory experiments with mobile robots. Key issues in the design of engineered artifacts operating in the natural world: measuring and modeling system behaviors; assessing errors in sensors and effectors; specifying tasks; designing solutions based on analytical and computational models; planning, executing, and evaluating experimental tests of performance; refining models and designs. Issues addressed in the context of computer programs, control systems, probabilistic inference problems, circuits and transducers, which all play important roles in achieving robust operation of a large variety of engineered systems. 6 Engineering Design Points.
H. Abelson, L. P. Kaelbling, J. K. White

Total units: 36

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You have a scheduling conflict

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

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TIME Mon Tue Wed Thu Fri KEY  15.094  21M.026  6.01 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

 

What's going on

We'll start with green. This class is 15.094, and has lectures Tuesdays and Thursdays from 2:30 to 4:00.

Next, look at yellow. 21M.026 has lectures Tuesdays and Thursdays from 11 to 12:30.

Finally, we come to the confusing subject, in orange. This class, 6.01, has its lecture on Tuesday from 10 to 11:30. This time overlaps with one of the lectures for 21M.026 so a conflict is shown.