16.00, 16.002 and 16.003 have conflicting lecture times!
16.002, 16.100 and 16.122 have conflicting lecture times!
16.001 and 16.100 have conflicting lecture times!
16.001 and 16.003 have conflicting lecture times!
16.00, 16.001, 16.002 and 16.003 have conflicting lecture times!
16.002 and 16.100 have conflicting lecture times!
16.06, 16.09, 16.110 and 16.13 have conflicting lecture times!
16.09 and 16.13 have conflicting lecture times!
16.06, 16.09 and 16.110 have conflicting lecture times!
16.001, 16.003 and 16.122 have conflicting lecture times!
16.00, 16.001 and 16.002 have conflicting lecture times!
16.00 and 16.001 have conflicting lecture times!
16.100 and 16.122 have conflicting lecture times!
16.00 and 16.002 have conflicting lecture times!
16.06 and 16.09 have conflicting lecture times!
16.002 and 16.003 have conflicting lecture times!

15 Classes (150 Units)

16.00 (9), 16.00AJ (9), 16.001 (12), 16.002 (12), 16.003 (12), 16.06 (12), 16.07 (12), 16.09 (12), 16.100 (12), 16.101 (0), 16.110 (12), 16.120 (6), 16.122 (6), 16.13 (12), 16.412J (12)

Pre-Register


16.00 Introduction to Aerospace and Design

Class Info

The fundamental concepts and approaches of aerospace engineering are highlighted through lectures on aeronautics, astronautics, and design. Active learning aerospace modules make use of information technology. Student teams are immersed in a hands-on, lighter-than-air (LTA) vehicle design project where they design, build, and fly radio-controlled LTA vehicles. The connections between theory and practice are realized in the design exercises. Required design reviews precede the LTA race competition. The performance, weight, and principle characteristics of the LTA vehicles are estimated and illustrated using physics, mathematics, and chemistry known to freshmen, the emphasis being on the application of this knowledge to aerospace engineering and design rather than on exposure to new science and mathematics. Includes exercises in written and oral communication and team building.

This class has no prerequisites.

16.00 will not be offered this semester. It will be available in the Spring semester, and will be instructed by R. J. Hansman, D. W. Miller and J. A. Hoffman.

Lecture occurs 9:30 AM to 11:00 AM on Tuesdays and Thursdays in 32-144.

This class counts for a total of 9 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.00&btnG=Google+Search&inurl=https site or on the 16.00 Stellar site.

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16.00AJ Fundamentals of Engineering Design: Explore Space, Sea and Earth

Class Info

Student teams formulate and complete space/earth/ocean exploration-based design projects with weekly milestones. Introduces core engineering themes, principles, and modes of thinking. Specialized learning modules enable teams to focus on the knowledge required to complete their projects, such as machine elements, electronics, design process, visualization and communication. Includes exercises in written and oral communication and team building. Examples of projects include surveying a lake for millfoil, from a remote controlled aircraft, and then sending out robotic harvesters to clear the invasive growth; and exploration to search for the evidence of life on a moon of Jupiter, with scientists participating through teleoperation and supervisory control of robots. Enrollment limited; preference to freshmen.

This class has no prerequisites.

16.00AJ will not be offered this semester. It will be available in the Spring semester, and will be instructed by D. Newman and A. H. Techet.

This class counts for a total of 9 credits.

You can find more information on MIT OpenCourseWare at the 16.00A Class Site site.

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16.001 Unified Engineering: Materials and Structures

Class Info

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.

This class has 18.02, 8.01, and 18.03 as prerequisites.

16.001 will be offered this semester (Fall 2017). It is instructed by R. Radovitzky and D. L. Darmofal.

Lecture occurs 9:00 AM to 10:00 AM on Mondays in 35-225.

This class counts for a total of 12 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.001&btnG=Google+Search&inurl=https site.

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16.002 Unified Engineering: Signals and Systems

Class Info

Presents fundamental principles and methods of signals and systems for aerospace engineering, and engineering analysis and design concepts applied to aerospace systems. Topics include linear and time invariant systems; convolution; transform analysis; and modulation, filtering, and sampling. Experiential lab and aerospace system projects provide additional aerospace context.

This class has 18.02, 8.02, 18.03, and 18.032 as prerequisites.

16.002 will be offered this semester (Fall 2017). It is instructed by K. E. Willcox and D. L. Darmofal.

Lecture occurs 10:00 AM to 11:00 AM on Mondays and Tuesdays in 35-225.

This class counts for a total of 12 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.002&btnG=Google+Search&inurl=https site.

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16.003 Unified Engineering: Fluid Dynamics

Class Info

Presents fundamental principles and methods of fluid dynamics for aerospace engineering, and engineering analysis and design concepts applied to aerospace systems. Topics include aircraft and aerodynamic performance, conservation laws for fluid flows, quasi-one-dimensional compressible flows, shock and expansion waves, streamline curvature, potential flow modeling, an introduction to three-dimensional wings and induced drag. Experiential lab and aerospace system projects provide additional aerospace context.

This class has 18.02, 8.02, 18.03, and 18.034 as prerequisites. This class has 16.004 as a corequisite.

16.003 will not be offered this semester. It will be available in the Spring semester, and will be instructed by D. L. Darmofal.

Lecture occurs 9:00 AM to 10:00 AM on Mondays, Fridays and Thursdays in 32-141.

This class counts for a total of 12 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.003&btnG=Google+Search&inurl=https site or on the 16.003 Stellar site.

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16.06 Principles of Automatic Control

Class Info

Introduction to design of feedback control systems. Properties and advantages of feedback systems. Time-domain and frequency-domain performance measures. Stability and degree of stability. Root locus method, Nyquist criterion, frequency-domain design, and some state space methods. Strong emphasis on the synthesis of classical controllers. Application to a variety of aerospace systems. Hands-on experiments using simple robotic systems.

This class has 16.002, 16.003, and 16.004 as prerequisites.

16.06 will be offered this semester (Fall 2017). It is instructed by J. P. How.

Lecture occurs 1:00 PM to 2:00 PM on Mondays and Wednesdays in 35-225.

This class counts for a total of 12 credits.

You can find more information at the MIT + 16.06 - Google Search site or on the 16.06 Stellar site.

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16.07 Dynamics

Class Info

Fundamentals of Newtonian mechanics. Kinematics, particle dynamics, motion relative to accelerated reference frames, work and energy, impulse and momentum, systems of particles and rigid body dynamics. Applications to aerospace engineering including introductory topics in orbital mechanics, flight dynamics, inertial navigation and attitude dynamics.

This class has 16.001, 16.002, 16.003, and 16.004 as prerequisites.

16.07 will be offered this semester (Fall 2017). It is instructed by D. W. Miller and S. E. Widnall.

Lecture occurs 11:00 AM to 12:00 PM on Mondays, Wednesdays and Fridays in 35-225.

This class counts for a total of 12 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.07&btnG=Google+Search&inurl=https site or on the 16.07 Stellar site.

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16.09 Statistics and Probability

Class Info

Introduction to statistics and probability with applications to aerospace engineering. Covers essential topics, such as sample space, discrete and continuous random variables, probability distributions, joint and conditional distributions, expectation, transformation of random variables, limit theorems, estimation theory, hypothesis testing, confidence intervals, statistical tests, and regression.

This class has 18.02 as a prerequisite.

16.09 will not be offered this semester. It will be available in the Spring semester, and will be instructed by L. A. Stirling.

Lecture occurs 1:00 PM to 2:30 PM on Mondays and Wednesdays in 37-212.

This class counts for a total of 12 credits.

You can find more information at the MIT + 16.09 - Google Search site or on the 16.09 Stellar site.

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16.100 Aerodynamics

Class Info

Extends fluid mechanic concepts from Unified Engineering to aerodynamic performance of wings and bodies in sub/supersonic regimes. Addresses themes such as subsonic potential flows, including source/vortex panel methods; viscous flows, including laminar and turbulent boundary layers; aerodynamics of airfoils and wings, including thin airfoil theory, lifting line theory, and panel method/interacting boundary layer methods; and supersonic and hypersonic airfoil theory. Material may vary from year to year depending upon focus of design problem.

This class has 16.003, and 16.004 as prerequisites.

16.100 will be offered this semester (Fall 2017). It is instructed by D. L. Darmofal.

Lecture occurs 10:00 AM to 11:00 AM on Mondays, Wednesdays and Fridays in 33-419.

This class counts for a total of 12 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.100&btnG=Google+Search&inurl=https site.

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16.101 Topics in Fluids and Propulsion

Class Info

Provides credit for work on material in fluids or propulsion outside of regularly scheduled subjects. Intended for study abroad under either the department's Year Abroad Program or the Cambridge-MIT Exchange Program. Credit may be used to satisfy specific SB degree requirements. Requires prior approval. Consult department.

This class has no prerequisites.

16.101 will be offered this semester (Fall 2017). It is instructed by N. Roy.

This class counts for a total of 0 credits.

You can find more information at the MIT + 16.101 - Google Search site.

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16.110 Flight Vehicle Aerodynamics

Class Info

Aerodynamic analysis of flight vehicles using analytical, numerical, and experimental techniques separately and in combination. Matched asymptotic expansions. Farfield behavior. Finite wing theory. Trefftz-plane analysis. Laminar and turbulent boundary layers. Slender body theory. Calculation and measurement of drag components. Aerodynamic stability derivatives.

This class has 16.100 as a prerequisite.

16.110 will be offered this semester (Fall 2017). It is instructed by M. Drela.

Lecture occurs 1:00 PM to 2:00 PM on Mondays, Wednesdays and Fridays in 33-418.

This class counts for a total of 12 credits.

You can find more information at the MIT + 16.110 - Google Search site.

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16.120 Compressible Internal Flow

Class Info

Internal compressible flow with applications in propulsion and fluid systems. Control volume analysis of compressible flow devices. Compressible channel flow and extensions, including effects of shock waves, momentum, energy and mass addition, swirl, and flow non-uniformity on Mach numbers, flow regimes, and choking.

This class has 2.25 as a prerequisite.

16.120 will not be offered this semester. It will be available in the Spring semester, and will be instructed by E. M. Greitzer.

This class counts for a total of 6 credits. This is a graduate-level class.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.120&btnG=Google+Search&inurl=https site.

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16.122 Analytical High Speed Aerodynamics

Class Info

Analysis of external inviscid, transonic, supersonic, and hypersonic flows over thin airfoils and lifting bodies of revolution. Analyses formulated using singular perturbation and multiple scale methods and parametric differentiation. Non-linear, unsteady transonic flow. Prandtl-Meyer flow. Body of minimum wave drag. Sonic boom. Hypersonic equivalence principle. Hypersonic similarity rule (matched asymptotic expansions).

This class has 2.25, and 18.085 as prerequisites.

16.122 will not be offered this semester. It will be available in the Spring semester, and will be instructed by W. L. Harris.

Lecture occurs 9:30 AM to 11:00 AM on Mondays and Wednesdays in 33-422.

This class counts for a total of 6 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.122&btnG=Google+Search&inurl=https site or on the 16.122 Stellar site.

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16.13 Aerodynamics of Viscous Fluids

Class Info

Boundary layers as rational approximations to the solutions of exact equations of fluid motion. Physical parameters influencing laminar and turbulent aerodynamic flows and transition. Effects of compressibility, heat conduction, and frame rotation. Influence of boundary layers on outer potential flow and associated stall and drag mechanisms. Numerical solution techniques and exercises.

This class has 16.100, and 16.110 as prerequisites.

16.13 will not be offered this semester. It will be available in the Spring semester, and will be instructed by Q. Wang.

Lecture occurs 1:00 PM to 2:30 PM on Mondays and Wednesdays in 33-419.

This class counts for a total of 12 credits.

You can find more information at the http://www.google.com/search?&q=MIT+%2B+16.13&btnG=Google+Search&inurl=https site or on the 16.13 Stellar site.

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16.412J Cognitive Robotics

Class Info

Algorithms and paradigms for creating a wide range of robotic systems that act intelligently and robustly, by reasoning extensively from models of themselves and their world. Examples range from autonomous Mars explorers and cooperative air vehicles, to everyday embedded devices. Topics include deduction and search in real-time; temporal, decision-theoretic and contingency planning; dynamic execution and re-planning; reasoning about hidden state and failures; reasoning under uncertainty, path planning, mapping and localization, and cooperative and distributed robotics. 8 Engineering Design Points.

This class has 6.041, 6.042, 16.09, 16.410, 16.413, 6.034, and 6.825 as prerequisites.

16.412J will not be offered this semester. It will be available in the Spring semester, and will be instructed by B. C. Williams.

This class counts for a total of 12 credits. This is a graduate-level class.

In the Spring 2013 Subject Evaluations, 16.412J was rated 6.0 out of 7.0. You can find more information on MIT OpenCourseWare at the Cognitive Robotics site.

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