2.96 Management in Engineering (MIT)
This course serves as an introduction to engineering management. Topics include financial principles, management of innovation, engineering project planning and control, human factors, career planning, patents, and technical strategy. The case study method of instruction in this course emphasizes student participation in class discussion.
This class was also offered in Course 13 (Department of Ocean Engineering) as 13.52. In 2005, ocean engineering subjects became part of Course 2 (Department
15.810 Introduction to Marketing (MIT)
This course is an introduction to the theory and application of marketing. Marketing topics covered include Customer needs, Company skills, Competition, Collaborators, and Context in marketing and product development (5C's). The course combines cases, discussions, and readings to provide a mix of integrating concepts and hands-on problem solving.
Fission process
This movie illustrates the fission process. As can be seen in the movie, the parent nucleus decays into two fission fragments of unequal mass and several neutrons. From TLP: Introduction to Nuclear Processes
Tensile test on work hardened copper: necking effect
Necking of work hardened copper during a tensile test at 5 times actual speed. From TLP: Introduction to mechanical testing, http://www.msm.cam.ac.uk/doitpoms/tlplib/mechanical-testing/results2.php
17.407 Chinese Foreign Policy (MIT)
This lecture course provides students with a comprehensive introduction to the international relations of the People’s Republic of China. China’s foreign relations during the Cold War as well as contemporary diplomatic, security and economic issues will be examined to identify and explain China’s foreign policy goals and their implementation since 1949. Throughout, this course will investigate the sources of conflict and cooperation in China’s behavior, assessing competin
2.29 Numerical Marine Hydrodynamics (13.024) (MIT)
This course is an introduction to numerical methods: interpolation, differentiation, integration, and systems of linear equations. It covers the solution of differential equations by numerical integration, as well as partial differential equations of inviscid hydrodynamics: finite difference methods, boundary integral equation panel methods. Also addressed are introductory numerical lifting surface computations, fast Fourier transforms, the numerical representation of deterministic and random se
2.080J Structural Mechanics (13.10J) (MIT)
Fundamental concepts of structural mechanics with applications to marine, civil, and mechanical structures. Residual stresses. Thermal effects. Analysis of beams, columns, tensioned beams, trusses, frames, cables, and shafts of general shape and material, including composites. Elastic buckling of columns. Exact and approximate methods, energy methods, principle of virtual work, introduction to computational structural mechanics. Examples from civil, mechanical, offshore, and ship structures.
Thi
2.701 Introduction to Naval Architecture (13.400) (MIT)
This course is an introduction to principles of naval architecture, ship geometry, hydrostatics, calculation and drawing of curves of form. It also explores concepts of intact and damaged stability, hull structure strength calculations and ship resistance. Projects include analysis of ship lines drawings and ship model testing.
This course was originally offered in Course 13 (Department of Ocean Engineering) as 13.400. In 2005, ocean engineering subjects became part of Course 2 (Department
2.003J Dynamics and Vibration (13.013J) (MIT)
Introduction to dynamics and vibration of lumped-parameter models of mechanical systems. Three-dimensional particle kinematics. Force-momentum formulation for systems of particles and for rigid bodies (direct method). Newton-Euler equations. Work-energy (variational) formulation for systems particles and for rigid bodies (indirect method). Virtual displacements and work. Lagrange's equations for systems of particles and for rigid bodies. Linearization of equations of motion. Linear stability ana
2.22 Design Principles for Ocean Vehicles (13.42) (MIT)
The course covers the basic techniques for evaluating the maximum forces and loads over the life of a marine structure or vehicle, so as to be able to design its basic configuration. Loads and motions of small and large structures and their short-term and long-term statistics are studied in detail and many applications are presented in class and studied in homework and laboratory sessions. Issues related to seakeeping of ships are studied in detail. The basic equations and issues of maneuvering
18.319 Geometric Combinatorics (MIT)
This course offers an introduction to discrete and computational geometry. Emphasis is placed on teaching methods in combinatorial geometry. Many results presented are recent, and include open (as yet unsolved) problems.
21F.084J Introduction to Latin American Studies (MIT)
This course is designed as an introduction to Latin American politics and society for undergraduates at MIT. No background on the region is required. Overall workload (reading, writing, class participation, and examinations) is similar to that of other HASS-D courses. Many of the themes raised here are covered in greater detail in other courses: 21F.020J (New World Literature), 21F.716 (Introduction to Contemporary Hispanic Literature), 21F.730 (Twentieth and Twentyfirst-Century Spanish American
22.921 Nuclear Power Plant Dynamics and Control (MIT)
This short course provides an introduction to reactor dynamics including subcritical multiplication, critical operation in absence of thermal feedback effects and effects of Xenon, fuel and moderator temperature, etc. Topics include the derivation of point kinetics and dynamic period equations; techniques for reactor control including signal validation, supervisory algorithms, model-based trajectory tracking, and rule-based control; and an overview of light-water reactor startup. Lectures and de
Lecture 30 - Summing Up
THE 101: Introduction to Theatre and Drama Arts - Lecture Videos - Lecture 30 - Summing Up - Missouri State University > COMPLETE COURSES > THE 101: Introduction to Theatre and Drama Arts > Lecture Videos > Lecture 30 - Summing Up
Lecture 23 - The Visual Designers
THE 101: Introduction to Theatre and Drama Arts - Lecture Videos - Lecture 23 - The Visual Designers - Missouri State University > COMPLETE COURSES > THE 101: Introduction to Theatre and Drama Arts > Lecture Videos > Lecture 23 - The Visual Designers
Lecture 18 - Interview with Roy Hamlin
THE 101: Introduction to Theatre and Drama Arts - Lecture Videos - Lecture 18 - Interview with Roy Hamlin - Missouri State University > COMPLETE COURSES > THE 101: Introduction to Theatre and Drama Arts > Lecture Videos > Lecture 18 - Interview with Roy Hamlin
Lecture 13 - Intreview with Sherri Kramer
THE 101: Introduction to Theatre and Drama Arts - Lecture Videos - Lecture 13 - Intreview with Sherri Kramer - Missouri State University > COMPLETE COURSES > THE 101: Introduction to Theatre and Drama Arts > Lecture Videos > Lecture 13 - Intreview with Sherri Kramer
Lecture 3 - The Audience
THE 101: Introduction to Theatre and Drama Arts - Lecture Videos - Lecture 3 - The Audience - Missouri State University > COMPLETE COURSES > THE 101: Introduction to Theatre and Drama Arts > Lecture Videos > Lecture 3 - The Audience
Interactive model of tetragonal perovskite structure
Interactive, rotatable model of tetragonal perovskite structure. From TLP: Introduction to Anisotropy, http://www.msm.cam.ac.uk/doitpoms/tlplib/anisotropy/dielectric.php
Model of cubic perovskite structure
Animation of the cubic perovskite structure rotating. From TLP: Introduction to Anisotropy, http://www.msm.cam.ac.uk/doitpoms/tlplib/anisotropy/dielectric.php
