Now showing items 21-40 of 107504

    • 1.00 Introduction to Computers and Engineering Problem Solving, Fall 2002 

      Harward, Vernon Judson; Lerman, Steven R. (2002-12)
      This course presents fundamental software development and computational methods for engineering and scientific applications. Object-oriented software design and development is the focus of the course. Weekly programming ...
    • 1.00 Introduction to Computers and Engineering Problem Solving, Spring 2002 

      Kocur, George; Harward, Vernon Judson (2002-06)
      Fundamental software development and computational methods for engineering and scientific applications. Object-oriented software design and development. Weekly programming problems cover programming concepts, graphical ...
    • 1.00 Introduction to Computers and Engineering Problem Solving, Spring 2005 

      Kocur, George (2005-06)
      This course examines fundamental software development and computational methods for engineering, scientific and managerial applications. Emphasis is placed on object-oriented software design and development. Students engage ...
    • 1.010 Uncertainty in Engineering, Fall 2004 

      Veneziano, Daniele (2004-12)
      This undergraduate class serves as an introduction to probability and statistics, with emphasis on engineering applications. The first segment discusses events and their probability, Bayes' Theorem, discrete and continuous ...
    • 1.011 Project Evaluation, Spring 2003 

      Martland, Carl D. (Carl Douglas); Lu, Lexcie, 1979- (2003-06)
      Methodologies for evaluating civil engineering projects, which typically are large-scale, long-lived projects involving many economic, financial, social, and environmental factors. Basic techniques of engineering economics, ...
    • 1.011 Project Evaluation, Spring 2005 

      Martland, Carl D. (2005-06)
      1.011 examines methodologies for evaluating civil engineering projects, which typically are large-scale, long-lived projects involving many economic, financial, social, and environmental factors. Topics covered include: ...
    • 1.018J / 7.30J Fundamentals of Ecology, Fall 2003 

      Chisholm, Sallie W.; Schaider, Laurel (2003-12)
      Basic subject in ecology: understanding the flow of energy and materials through ecosystems, and what regulates the distribution and abundance of organisms. Productivity and biogeochemical cycles in ecosystems; trophic ...
    • 1.020 Ecology II: Engineering for Sustainability, Spring 2007 

      McLaughlin, Dennis B.; Entekhabi, Dara, 1961-; Marks, David H. (2007-06)
      This course covers the use of ecological and thermodynamic principles to examine interactions between humans and the natural environment.. Topics include conservation and constitutive laws, box models, feedback, thermodynamic ...
    • 1.040 / 1.401J / ESD.018J Project Management, Spring 2007 

      Moavenzadeh, Fred, 1935-; Labi, Samuel, 1962-; Lee, Sang Hyun, 1973- (2007-06)
      As technological integration and construction complexity increase, so does construction lead times. To stay competitive companies have sought to shorten the construction times of new infrastructure by managing construction ...
    • 1.050 Solid Mechanics, Fall 2002 

      Bucciarelli, Louis (2002-12)
      This course introduces students to the fundamental principles and methods of structural mechanics. Topics covered include: static equilibrium, force resultants, support conditions, analysis of determinate planar structures ...
    • 1.061 / 1.61 Transport Processes in the Environment, Fall 2004 

      Nepf, Heidi (2004-12)
      Introduction to momentum and scalar transport in environmental flows, with emphasis given to river and lake systems. Derivation and solutions to the differential form of mass conservation equations. Topics include: molecular ...
    • 1.061 Transport Processes in the Environment, Fall 2002 

      Nepf, Heidi (2002-12)
      Introduction to momentum and scalar transport in environmental flows, with emphasis given to river and lake systems. Derivation and solutions to the differential form of mass conservation equations. Topics include: molecular ...
    • A 1.1 nW Energy-Harvesting System with 544 pW Quiescent Power for Next-Generation Implants 

      Bandyopadhyay, Saurav; Mercier, Patrick Philip; Lysaght, Andrew Christopher; Stankovic, Konstantina M.; Chandrakasan, Anantha P. (Institute of Electrical and Electronics Engineers (IEEE), 2014-09)
      This paper presents a nW power management unit (PMU) for an autonomous wireless sensor that sustains itself by harvesting energy from the endocochlear potential (EP), the 70-100 mV electrochemical bio-potential inside the ...
    • 1.133 Masters of Engineering Concepts of Engineering Practice, Fall 2003 

      Adams, E. Eric (2003-12)
      Core requirement for the M.Eng. program designed to teach students about the roles of today's professional engineer and expose them to team-building skills through lectures, team workshops, and seminars. Topics include: ...
    • 1.138J / 2.062J / 18.376J Wave Propagation, Fall 2004 

      Akylas, Triantaphyllos R.; Li, Guangda; Mei, Chiang C.; Rosales, Rodolfo (2004-12)
      This course discusses the Linearized theory of wave phenomena in applied mechanics. Examples are chosen from elasticity, acoustics, geophysics, hydrodynamics and other subjects. The topics include: basic concepts, one ...
    • 1.138J / 2.062J Wave Propagation, Fall 2000 

      Mei, Chiang C.; Li, Guangda (2000-12)
      Linearized theory of wave phenomena in applied mechanics. Examples are chosen from elasticity, acoustics, geophysics, hydrodynamics and other subjects. Basic concepts. One dimensional examples. Characteristics, dispersion ...
    • 1.203J / 6.281J / 13.665J / 15.073J / 16.76J / ESD.216J Logistical and Transportation Planning Methods, Fall 2001 

      Barnett, Arnold; Larson, Richard C., 1943-; Odoni, Amedeo R. (2001-12)
      Quantitative techniques of operations research with emphasis on applications in transportation systems analysis (urban, air, ocean, highway, and pickup and delivery systems) and in the planning and design of logistically ...
    • 1.203J / 6.281J / 15.073J / 16.76J / ESD.216J Logistical and Transportation Planning Methods, Fall 2004 

      Larson, Richard C.; Odoni, Amedeo R.; Barnett, Arnold (2004-12)
      The class will cover quantitative techniques of Operations Research with emphasis on applications in transportation systems analysis (urban, air, ocean, highway, pick-up and delivery systems) and in the planning and design ...
    • 1.212J / ESD.221J An Introduction to Intelligent Transportation Systems, Spring 2003 

      Sussman, Joseph (2003-06)
      Basic elements of intelligent transportation systems. Technological, systems, and institutional aspects of ITS considered, including system architecture, congestion pricing, public/private partnerships, network models, ITS ...
    • 1.221J / 11.527J / ESD.201J Transportation Systems, Fall 2002 

      Sussman, Joseph (2002-12)
      Introduces transportation as a large-scale, integrated system that interacts directly with the social, political, and economic aspects of contemporary society. Fundamental elements and issues shaping passenger and freight ...