2.001 and 2.002 have conflicting lecture times!
2.004 and 2.005 have conflicting lecture times!
2.004, 2.005 and 2.006 have conflicting lecture times!
2.001 and 2.004 have conflicting lecture times!

6 Classes (72 Units)

2.001 (12), 2.002 (12), 2.003 (12), 2.004 (12), 2.005 (12), 2.006 (12)

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2.001 Mechanics and Materials I

Class Info

Introduction to statics and the mechanics of deformable solids. Emphasis on the three basic principles of equilibrium, geometric compatibility, and material behavior. Stress and its relation to force and moment; strain and its relation to displacement; linear elasticity with thermal expansion. Failure modes. Application to simple engineering structures such as rods, shafts, beams, and trusses. Application to biomechanics of natural materials and structures.

This class has 8.01, and 18.03 as prerequisites.

2.001 will be offered this semester (Spring 2019). It is instructed by S. Socrate, M. Culpepper, D. Parks and K. Kamrin.

Lecture occurs 11:00 AM to 12:00 PM on Mondays, Wednesdays and Fridays in 1-190.

This class counts for a total of 12 credits.

You can find more information at the MIT + 2.001 - Google Search site or on the 2.001 Stellar site.

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2.002 Mechanics and Materials II

Class Info

Introduces mechanical behavior of engineering materials, and the use of materials in mechanical design. Emphasizes the fundamentals of mechanical behavior of materials, as well as design with materials. Major topics: elasticity, plasticity, limit analysis, fatigue, fracture, and creep. Materials selection. Laboratory experiments involving projects related to materials in mechanical design. Enrollment may be limited due to laboratory capacity; preference to Course 2 majors and minors.

This class has 3.091, 5.111, and 2.001 as prerequisites.

2.002 will be offered this semester (Spring 2019). It is instructed by L. Anand, K. Kamrin and P. Reis.

Lecture occurs 11:00 AM to 12:30 PM on Mondays and Wednesdays in 3-270.

This class counts for a total of 12 credits.

You can find more information at the MIT + 2.002 - Google Search site.

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2.003 Dynamics and Control I

Class Info

Introduction to the dynamics and vibrations of lumped-parameter models of mechanical systems. Kinematics. Force-momentum formulation for systems of particles and rigid bodies in planar motion. Work-energy concepts. Virtual displacements and virtual work. Lagrange's equations for systems of particles and rigid bodies in planar motion. Linearization of equations of motion. Linear stability analysis of mechanical systems. Free and forced vibration of linear multi-degree of freedom models of mechanical systems; matrix eigenvalue problems.

This class has 8.02, and 18.03 as prerequisites.

2.003 will be offered this semester (Spring 2019). It is instructed by J. K. Vandiver, N. C. Makris, N. M. Patrikalakis, T. Peacock, D. Gossard and K. Turitsyn.

Lecture occurs 9:30 AM to 11:00 AM on Mondays and Wednesdays in 3-270.

This class counts for a total of 12 credits.

You can find more information at the MIT + 2.003 - Google Search site or on the 2.003 Stellar site.

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2.004 Dynamics and Control II

Class Info

Modeling, analysis, and control of dynamic systems. System modeling: lumped parameter models of mechanical, electrical, and electromechanical systems; interconnection laws; actuators and sensors. Linear systems theory: linear algebra; Laplace transform; transfer functions, time response and frequency response, poles and zeros; block diagrams; solutions via analytical and numerical techniques; stability. Introduction to feedback control: closed-loop response; PID compensation; steady-state characteristics, root-locus design concepts, frequency-domain design concepts. Laboratory experiments and control design projects. Enrollment may be limited due to laboratory capacity; preference to Course 2 majors and minors.

This class has 8.02, and 2.003 as prerequisites.

2.004 will be offered this semester (Spring 2019). It is instructed by G. Barbastathis, D. Del Vecchio, D. C. Gossard, D. E. Hardt and S. Lloyd.

Lecture occurs 9:30 AM to 11:00 AM on Tuesdays and Thursdays in 3-270.

This class counts for a total of 12 credits.

You can find more information at the MIT + 2.004 - Google Search site or on the 2.004 Stellar site.

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2.005 Thermal-Fluids Engineering I

Class Info

Integrated development of the fundamental principles of thermodynamics, fluid mechanics, and heat transfer, with applications. Focuses on the first and second laws of thermodynamics, mass conservation, and momentum conservation, for both closed and open systems. Entropy generation and its influence on the performance of engineering systems. Introduction to dimensionless numbers. Introduction to heat transfer: conduction, convection, and radiation. Steady-state and transient conduction. Finned surfaces. The heat equation and the lumped capacitance model. Coupled and uncoupled fluid models. Hydrostatics. Inviscid flow analysis and Bernoulli equation. Navier-Stokes equation and its solutions. Viscous internal flows, head losses, and turbulence. Introduction to pipe flows and Moody chart.

This class has 18.02, 8.02, 2.086, 6.0002, and 18.06 as prerequisites.

2.005 will be offered this semester (Spring 2019). It is instructed by  J. Buongiorno and P. F. J. Lermusiaux.

Lecture occurs 9:00 AM to 11:00 AM on Tuesdays and Thursdays in 1-190.

This class counts for a total of 12 credits.

You can find more information at the MIT + 2.005 - Google Search site or on the 2.005 Stellar site.

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2.006 Thermal-Fluids Engineering II

Class Info

Focuses on the application of the principles of thermodynamics, heat transfer, and fluid mechanics to the design and analysis of engineering systems. Dimensional analysis, similarity, and modeling. Pipe systems: major and minor losses. Laminar and turbulent boundary layers. Boundary layer separation, lift and drag on objects. Heat transfer associated with laminar and turbulent flow of fluids in free and forced convection in channels and over surfaces. Pure substance model. Heat transfer in boiling and condensation. Thermodynamics and fluid mechanics of steady flow components of thermodynamic plants. Heat exchanger design. Power cycles and refrigeration plants. Design of thermodynamic plants. Analyses for alternative energy systems. Multi-mode heat transfer and fluid flow in thermodynamic plants.

This class has 2.005, 2.051, and 2.06 as prerequisites.

2.006 will be offered this semester (Spring 2019). It is instructed by  R. Karnik, B. Gallant and C. Buie.

Lecture occurs 9:30 AM to 11:00 AM on Tuesdays and Thursdays in 3-270.

This class counts for a total of 12 credits.

You can find more information at the MIT + 2.006 - Google Search site or on the 2.006 Stellar site.

MIT 2.006 Thermal-Fluids Engineering II Related Textbooks
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