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1.221J Transportation Systems (MIT) 1.221J Transportation Systems (MIT)

Description

This subject 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 traveler and freight transportation systems. Underlying principles governing transportation planning, investment, operations, and maintenance. System performance and level-of-service metrics and the determinants of transportation travel demand. Design of transportation services and facilities for various modes and intermodal operations. This subject 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 traveler and freight transportation systems. Underlying principles governing transportation planning, investment, operations, and maintenance. System performance and level-of-service metrics and the determinants of transportation travel demand. Design of transportation services and facilities for various modes and intermodal operations.

Subjects

transportation systems | transportation systems | large-scale integrated systems | large-scale integrated systems | passenger transportation systems | passenger transportation systems | freight transportation systems | freight transportation systems | transportation planning | transportation planning | transportation investment | transportation investment | transportation operations | transportation operations | transportation maintenance | transportation maintenance | system performance | system performance | level of service metrics | level of service metrics | level of service determinants | level of service determinants | design of transportation services | design of transportation services | intermodal transportation | intermodal transportation | 1.221 | 1.221 | 11.527 | 11.527 | ESD.201 | ESD.201

License

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1.221J Transportation Systems (MIT) 1.221J Transportation Systems (MIT)

Description

Approaching transportation as a complex, large-scale, integrated, open system (CLIOS), this course strives to be an interdisciplinary systems subject in the "open" sense. It introduces qualitative modeling ideas and various techniques and philosophies of modeling complex transportation enterprises. It also introduces conceptual frameworks for qualitative analysis, such as frameworks for regional strategic planning, institutional change analysis, and new technology development and deployment. And it covers 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 traveler and freight transportation systems are covered, along with underlying principles governin Approaching transportation as a complex, large-scale, integrated, open system (CLIOS), this course strives to be an interdisciplinary systems subject in the "open" sense. It introduces qualitative modeling ideas and various techniques and philosophies of modeling complex transportation enterprises. It also introduces conceptual frameworks for qualitative analysis, such as frameworks for regional strategic planning, institutional change analysis, and new technology development and deployment. And it covers 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 traveler and freight transportation systems are covered, along with underlying principles governin

Subjects

transportation systems | transportation systems | large-scale integrated systems | large-scale integrated systems | passenger transportation systems | passenger transportation systems | freight transportation systems | freight transportation systems | transportation planning | transportation planning | transportation investment | transportation investment | transportation operations | transportation operations | transportation maintenance | transportation maintenance | system performance | system performance | level of service metrics | level of service metrics | level of service determinants | level of service determinants | design of transportation services | design of transportation services | intermodal transportation | intermodal transportation | 1.221 | 1.221 | 11.527 | 11.527 | ESD.201 | ESD.201 | 11.527J11.527 | 11.527J11.527

License

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16.886 Air Transportation Systems Architecting (MIT) 16.886 Air Transportation Systems Architecting (MIT)

Description

This course addresses the architecting of air transportation systems. The focus is on the conceptual phase of product definition, including technical, economic, market, environmental, regulatory, legal, manufacturing, and societal factors. It centers on a realistic system case study and includes a number of lectures from industry and government. Past examples include: the Very Large Transport Aircraft, a Supersonic Business Jet, and a Next Generation Cargo System. The course identifies the critical system level issues and analyzes them in depth via student team projects and individual assignments. The overall goal of the semester is to produce a business plan and a system specifications document that can be used to assess candidate systems. This course addresses the architecting of air transportation systems. The focus is on the conceptual phase of product definition, including technical, economic, market, environmental, regulatory, legal, manufacturing, and societal factors. It centers on a realistic system case study and includes a number of lectures from industry and government. Past examples include: the Very Large Transport Aircraft, a Supersonic Business Jet, and a Next Generation Cargo System. The course identifies the critical system level issues and analyzes them in depth via student team projects and individual assignments. The overall goal of the semester is to produce a business plan and a system specifications document that can be used to assess candidate systems.

Subjects

Air transportation | Air transportation | air transport | air transport | air transportation systems | air transportation systems | product definition | product definition | air transportation industry | air transportation industry | system case study | system case study | very large transport aircraft | very large transport aircraft | supersonic business jet | supersonic business jet | next generation cargo system | next generation cargo system | business plan | business plan | system specifications document | system specifications document

License

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1.061 Transport Processes in the Environment (MIT) 1.061 Transport Processes in the Environment (MIT)

Description

Includes audio/video content: AV faculty introductions. This class serves as an introduction to mass transport in environmental flows, with emphasis given to river and lake systems. The class will cover the derivation and solutions to the differential form of mass conservation equations. Class topics to be covered will include: molecular and turbulent diffusion, boundary layers, dissolution, bed-water exchange, air-water exchange and particle transport. Includes audio/video content: AV faculty introductions. This class serves as an introduction to mass transport in environmental flows, with emphasis given to river and lake systems. The class will cover the derivation and solutions to the differential form of mass conservation equations. Class topics to be covered will include: molecular and turbulent diffusion, boundary layers, dissolution, bed-water exchange, air-water exchange and particle transport.

Subjects

river systems | river systems | lake systems | lake systems | scalar transport in environmental flows | scalar transport in environmental flows | momentum transport in environmental flows | momentum transport in environmental flows | stratification in lakes | stratification in lakes | buoyancy-driven flows | buoyancy-driven flows | settling and coagulation | settling and coagulation | air-water exchange | air-water exchange | bed-water exchange | bed-water exchange | phase partitioning | phase partitioning | dissolution | dissolution | boundary layers | boundary layers | molecular diffusion | molecular diffusion | turbulent diffusion | turbulent diffusion | water transportation | water transportation | advection | advection | aquatic systems | aquatic systems | conservation of mass | conservation of mass | derivation | derivation | Diffusion | Diffusion | dispersion | dispersion | environmental flows | environmental flows | instantaneous point source | instantaneous point source | lakes | lakes | mass | mass | transport | transport | particle transport | particle transport | rivers | rivers | scaling | scaling | turbulence | turbulence | water flow | water flow

License

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1.061 Transport Processes in the Environment (MIT) 1.061 Transport Processes in the Environment (MIT)

Description

This class serves as an introduction to mass transport in environmental flows, with emphasis given to river and lake systems. The class will cover the derivation and solutions to the differential form of mass conservation equations. Class topics to be covered will include: molecular and turbulent diffusion, boundary layers, dissolution, bed-water exchange, air-water exchange and particle transport. This class serves as an introduction to mass transport in environmental flows, with emphasis given to river and lake systems. The class will cover the derivation and solutions to the differential form of mass conservation equations. Class topics to be covered will include: molecular and turbulent diffusion, boundary layers, dissolution, bed-water exchange, air-water exchange and particle transport.

Subjects

river systems | river systems | lake systems | lake systems | scalar transport in environmental flows | scalar transport in environmental flows | momentum transport in environmental flows | momentum transport in environmental flows | stratification in lakes | stratification in lakes | buoyancy-driven flows | buoyancy-driven flows | settling and coagulation | settling and coagulation | air-water exchange | air-water exchange | bed-water exchange | bed-water exchange | phase partitioning | phase partitioning | dissolution | dissolution | boundary layers | boundary layers | molecular diffusion | molecular diffusion | turbulent diffusion | turbulent diffusion | water transportation | water transportation | advection | advection | aquatic systems | aquatic systems | conservation of mass | conservation of mass | derivation | derivation | Diffusion | Diffusion | dispersion | dispersion | environmental flows | environmental flows | instantaneous point source | instantaneous point source | lakes | lakes | mass | mass | transport | transport | particle transport | particle transport | rivers | rivers | scaling | scaling | turbulence | turbulence | water flow | water flow

License

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1.221J Transportation Systems (MIT)

Description

Approaching transportation as a complex, large-scale, integrated, open system (CLIOS), this course strives to be an interdisciplinary systems subject in the "open" sense. It introduces qualitative modeling ideas and various techniques and philosophies of modeling complex transportation enterprises. It also introduces conceptual frameworks for qualitative analysis, such as frameworks for regional strategic planning, institutional change analysis, and new technology development and deployment. And it covers 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 traveler and freight transportation systems are covered, along with underlying principles governin

Subjects

transportation systems | large-scale integrated systems | passenger transportation systems | freight transportation systems | transportation planning | transportation investment | transportation operations | transportation maintenance | system performance | level of service metrics | level of service determinants | design of transportation services | intermodal transportation | 1.221 | 11.527 | ESD.201 | 11.527J11.527

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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1.221J Transportation Systems (MIT)

Description

This subject 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 traveler and freight transportation systems. Underlying principles governing transportation planning, investment, operations, and maintenance. System performance and level-of-service metrics and the determinants of transportation travel demand. Design of transportation services and facilities for various modes and intermodal operations.

Subjects

transportation systems | large-scale integrated systems | passenger transportation systems | freight transportation systems | transportation planning | transportation investment | transportation operations | transportation maintenance | system performance | level of service metrics | level of service determinants | design of transportation services | intermodal transportation | 1.221 | 11.527 | ESD.201

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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1.221J Transportation Systems (MIT)

Description

Approaching transportation as a complex, large-scale, integrated, open system (CLIOS), this course strives to be an interdisciplinary systems subject in the "open" sense. It introduces qualitative modeling ideas and various techniques and philosophies of modeling complex transportation enterprises. It also introduces conceptual frameworks for qualitative analysis, such as frameworks for regional strategic planning, institutional change analysis, and new technology development and deployment. And it covers 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 traveler and freight transportation systems are covered, along with underlying principles governin

Subjects

transportation systems | large-scale integrated systems | passenger transportation systems | freight transportation systems | transportation planning | transportation investment | transportation operations | transportation maintenance | system performance | level of service metrics | level of service determinants | design of transportation services | intermodal transportation | 1.221 | 11.527 | ESD.201 | 11.527J11.527

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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1.221J Transportation Systems (MIT)

Description

Approaching transportation as a complex, large-scale, integrated, open system (CLIOS), this course strives to be an interdisciplinary systems subject in the "open" sense. It introduces qualitative modeling ideas and various techniques and philosophies of modeling complex transportation enterprises. It also introduces conceptual frameworks for qualitative analysis, such as frameworks for regional strategic planning, institutional change analysis, and new technology development and deployment. And it covers 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 traveler and freight transportation systems are covered, along with underlying principles governin

Subjects

transportation systems | large-scale integrated systems | passenger transportation systems | freight transportation systems | transportation planning | transportation investment | transportation operations | transportation maintenance | system performance | level of service metrics | level of service determinants | design of transportation services | intermodal transportation | 1.221 | 11.527 | ESD.201 | 11.527J11.527

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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22.103 Microscopic Theory of Transport (MIT) 22.103 Microscopic Theory of Transport (MIT)

Description

Transport is among the most fundamental and widely studied phenomena in science and engineering. This subject will lay out the essential concepts and current understanding, with emphasis on the molecular view, that cut across all disciplinary boundaries. (Suitable for all students in research.) Broad perspectives of transport phenomena From theory and models to computations and simulations Micro/macro coupling Current research insights Transport is among the most fundamental and widely studied phenomena in science and engineering. This subject will lay out the essential concepts and current understanding, with emphasis on the molecular view, that cut across all disciplinary boundaries. (Suitable for all students in research.) Broad perspectives of transport phenomena From theory and models to computations and simulations Micro/macro coupling Current research insights

Subjects

molecular view | molecular view | transport phenomena | transport phenomena | theory | theory | models | models | computations | computations | simulations | simulations | micro/macro coupling | micro/macro coupling | microscopic collisions | microscopic collisions | transport coefficients | transport coefficients | particle transport | particle transport | radiation transport | radiation transport | microscopic kinetic equation | microscopic kinetic equation | boltzmann equation | boltzmann equation | practical engineering fluid models | practical engineering fluid models | kinetic model | kinetic model | nuclear cross sections | nuclear cross sections

License

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1.223J Transportation Policy, Strategy, and Management (MIT) 1.223J Transportation Policy, Strategy, and Management (MIT)

Description

This class surveys the current concepts, theories, and issues in strategic management of transportation organizations. It provides transportation logistics and engineering systems students with an overview of the operating context, leadership challenges, strategies, and management tools that are used in today's public and private transportation organizations. The following concepts, tools, and issues are presented in both public and private sector cases: alternative models of decision-making, strategic planning (e.g., use of SWOT analysis and scenario development), stakeholder valuation and analysis, government-based regulation and cooperation within the transportation enterprise, disaster communications, systems safety, change management, and the impact of globalization. This class surveys the current concepts, theories, and issues in strategic management of transportation organizations. It provides transportation logistics and engineering systems students with an overview of the operating context, leadership challenges, strategies, and management tools that are used in today's public and private transportation organizations. The following concepts, tools, and issues are presented in both public and private sector cases: alternative models of decision-making, strategic planning (e.g., use of SWOT analysis and scenario development), stakeholder valuation and analysis, government-based regulation and cooperation within the transportation enterprise, disaster communications, systems safety, change management, and the impact of globalization.

Subjects

public transportation systems; pollution; infrastructure; government regulation; public policy; strategic planning management; labor relations; maintenance planning; administration; financing; marketing policy; fare policy; management information; decision support systems; transit industry; service provision; private sector; alternative models of decision-making; strategic planning; stakeholder valuation and analysis; government-based regulation and cooperation; transportation enterprise; disaster communications; systems safety; change management; and the impact of globalization; | public transportation systems; pollution; infrastructure; government regulation; public policy; strategic planning management; labor relations; maintenance planning; administration; financing; marketing policy; fare policy; management information; decision support systems; transit industry; service provision; private sector; alternative models of decision-making; strategic planning; stakeholder valuation and analysis; government-based regulation and cooperation; transportation enterprise; disaster communications; systems safety; change management; and the impact of globalization; | public transportation systems | public transportation systems | pollution | pollution | infrastructure | infrastructure | government regulation | government regulation | public policy | public policy | strategic planning management | strategic planning management | labor relations | labor relations | maintenance planning | maintenance planning | administration | administration | financing | financing | marketing policy | marketing policy | fare policy | fare policy | management information | management information | decision support systems | decision support systems | transit industry | transit industry | service provision | service provision | private sector | private sector | alternative models of decision-making | alternative models of decision-making | strategic planning | strategic planning | stakeholder valuation and analysis | stakeholder valuation and analysis | government-based regulation and cooperation | government-based regulation and cooperation | transportation enterprise | transportation enterprise | disaster communications | disaster communications | systems safety | systems safety | change management | change management | and the impact of globalization | and the impact of globalization | the impact of globalization | the impact of globalization | 1.223 | 1.223 | ESD.203 | ESD.203

License

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8.514 Strongly Correlated Systems in Condensed Matter Physics (MIT) 8.514 Strongly Correlated Systems in Condensed Matter Physics (MIT)

Description

In this course we shall develop theoretical methods suitable for the description of the many-body phenomena, such as Hamiltonian second-quantized operator formalism, Greens functions, path integral, functional integral, and the quantum kinetic equation. The concepts to be introduced include, but are not limited to, the random phase approximation, the mean field theory (aka saddle-point, or semiclassical approximation), the tunneling dynamics in imaginary time, instantons, Berry phase, coherent state path integral, renormalization group. In this course we shall develop theoretical methods suitable for the description of the many-body phenomena, such as Hamiltonian second-quantized operator formalism, Greens functions, path integral, functional integral, and the quantum kinetic equation. The concepts to be introduced include, but are not limited to, the random phase approximation, the mean field theory (aka saddle-point, or semiclassical approximation), the tunneling dynamics in imaginary time, instantons, Berry phase, coherent state path integral, renormalization group.

Subjects

condensed matter systems | condensed matter systems | low-dimension magnetic and electronic systems | low-dimension magnetic and electronic systems | disorder and quantum transport | disorder and quantum transport | magnetic impurities | magnetic impurities | the Kondo problem | the Kondo problem | quantum spin systems | quantum spin systems | the Hubbard model | the Hubbard model | high temperature superconductors | high temperature superconductors | Bose Condensates | Bose Condensates | Quasiparticles | Quasiparticles | Collective Modes | Collective Modes | Superfluidity | Superfluidity | Vortices | Vortices | Fermi Gases | Fermi Gases | Fermi Liquids | Fermi Liquids | Collective Excitations | Collective Excitations | Cooper Pairing | Cooper Pairing | BCS Theory | BCS Theory | Off-diagonal Long-range Order | Off-diagonal Long-range Order | Superconductivity | Superconductivity | Atom Interacting | Atom Interacting | Optical Fields | Optical Fields | Lamb Shift | Lamb Shift | Casimir Effect | Casimir Effect | Dicke Superradiance | Dicke Superradiance | Quantum Transport | Quantum Transport | Wave Scattering | Wave Scattering | Disordered Media | Disordered Media | Localization | Localization | Tunneling | Tunneling | Instantons | Instantons | Macroscopic Quantum Systems | Macroscopic Quantum Systems | Coupling | Coupling | Thermal Bath | Thermal Bath | Spin-boson Model | Spin-boson Model | Kondo Effect | Kondo Effect | Spin Dynamics | Spin Dynamics | Gases Transport | Gases Transport | Solids Transport | Solids Transport | Cold Atoms | Cold Atoms | Optical Lattices | Optical Lattices | Quantum Theory | Quantum Theory | Photodetection | Photodetection | Electric Noise | Electric Noise

License

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8.514 Strongly Correlated Systems in Condensed Matter Physics (MIT) 8.514 Strongly Correlated Systems in Condensed Matter Physics (MIT)

Description

In this course we shall develop theoretical methods suitable for the description of the many-body phenomena, such as Hamiltonian second-quantized operator formalism, Greens functions, path integral, functional integral, and the quantum kinetic equation. The concepts to be introduced include, but are not limited to, the random phase approximation, the mean field theory (aka saddle-point, or semiclassical approximation), the tunneling dynamics in imaginary time, instantons, Berry phase, coherent state path integral, renormalization group. In this course we shall develop theoretical methods suitable for the description of the many-body phenomena, such as Hamiltonian second-quantized operator formalism, Greens functions, path integral, functional integral, and the quantum kinetic equation. The concepts to be introduced include, but are not limited to, the random phase approximation, the mean field theory (aka saddle-point, or semiclassical approximation), the tunneling dynamics in imaginary time, instantons, Berry phase, coherent state path integral, renormalization group.

Subjects

condensed matter systems | condensed matter systems | low-dimension magnetic and electronic systems | low-dimension magnetic and electronic systems | disorder and quantum transport | disorder and quantum transport | magnetic impurities | magnetic impurities | the Kondo problem | the Kondo problem | quantum spin systems | quantum spin systems | the Hubbard model | the Hubbard model | high temperature superconductors | high temperature superconductors | Bose Condensates | Bose Condensates | Quasiparticles | Quasiparticles | Collective Modes | Collective Modes | Superfluidity | Superfluidity | Vortices | Vortices | Fermi Gases | Fermi Gases | Fermi Liquids | Fermi Liquids | Collective Excitations | Collective Excitations | Cooper Pairing | Cooper Pairing | BCS Theory | BCS Theory | Off-diagonal Long-range Order | Off-diagonal Long-range Order | Superconductivity | Superconductivity | Atom Interacting | Atom Interacting | Optical Fields | Optical Fields | Lamb Shift | Lamb Shift | Casimir Effect | Casimir Effect | Dicke Superradiance | Dicke Superradiance | Quantum Transport | Quantum Transport | Wave Scattering | Wave Scattering | Disordered Media | Disordered Media | Localization | Localization | Tunneling | Tunneling | Instantons | Instantons | Macroscopic Quantum Systems | Macroscopic Quantum Systems | Coupling | Coupling | Thermal Bath | Thermal Bath | Spin-boson Model | Spin-boson Model | Kondo Effect | Kondo Effect | Spin Dynamics | Spin Dynamics | Gases Transport | Gases Transport | Solids Transport | Solids Transport | Cold Atoms | Cold Atoms | Optical Lattices | Optical Lattices | Quantum Theory | Quantum Theory | Photodetection | Photodetection | Electric Noise | Electric Noise

License

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6.021J Quantitative Physiology: Cells and Tissues (MIT) 6.021J Quantitative Physiology: Cells and Tissues (MIT)

Description

This course is jointly offered through four departments, available to both undergraduates and graduates. This course introduces the principles of mass transport and electrical signal generation for biological membranes, cells, and tissues. Topics covered include: mass transport through membranes (diffusion, osmosis, chemically mediated, and active transport), electric properties of cells (ion transport), equilibrium, resting, and action potentials, kinetic and molecular properties of single voltage-gated ion channels. Laboratory and computer exercises illustrate the course concepts. Students engage in extensive written and oral communication exercises. This course is worth 4 Engineering Design Points.Technical RequirementsMATLAB® software is required to run the .m files f This course is jointly offered through four departments, available to both undergraduates and graduates. This course introduces the principles of mass transport and electrical signal generation for biological membranes, cells, and tissues. Topics covered include: mass transport through membranes (diffusion, osmosis, chemically mediated, and active transport), electric properties of cells (ion transport), equilibrium, resting, and action potentials, kinetic and molecular properties of single voltage-gated ion channels. Laboratory and computer exercises illustrate the course concepts. Students engage in extensive written and oral communication exercises. This course is worth 4 Engineering Design Points.Technical RequirementsMATLAB® software is required to run the .m files f

Subjects

quantitative physiology | quantitative physiology | cells | cells | tissues | tissues | mass transport | mass transport | electrical signal generation | electrical signal generation | biological membranes | biological membranes | membranes | membranes | diffusion | diffusion | osmosis | osmosis | chemically mediated transport | chemically mediated transport | active transport | active transport | ion transport | ion transport | 6.021 | 6.021 | 2.791 | 2.791 | 2.794 | 2.794 | 6.521 | 6.521 | BE.370 | BE.370 | BE.470 | BE.470 | HST.541 | HST.541

License

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6.021J Quantitative Physiology: Cells and Tissues (MIT) 6.021J Quantitative Physiology: Cells and Tissues (MIT)

Description

In this subject, we consider two basic topics in cellular biophysics, posed here as questions: Which molecules are transported across cellular membranes, and what are the mechanisms of transport? How do cells maintain their compositions, volume, and membrane potential? How are potentials generated across the membranes of cells? What do these potentials do? Although the questions posed are fundamentally biological questions, the methods for answering these questions are inherently multidisciplinary. As we will see throughout the course, the role of mathematical models is to express concepts precisely enough that precise conclusions can be drawn. In connection with all the topics covered, we will consider both theory and experiment. For the student, the educational value of examining the i In this subject, we consider two basic topics in cellular biophysics, posed here as questions: Which molecules are transported across cellular membranes, and what are the mechanisms of transport? How do cells maintain their compositions, volume, and membrane potential? How are potentials generated across the membranes of cells? What do these potentials do? Although the questions posed are fundamentally biological questions, the methods for answering these questions are inherently multidisciplinary. As we will see throughout the course, the role of mathematical models is to express concepts precisely enough that precise conclusions can be drawn. In connection with all the topics covered, we will consider both theory and experiment. For the student, the educational value of examining the i

Subjects

quantitative physiology | quantitative physiology | cells | cells | tissues | tissues | mass transport | mass transport | electrical signal generation | electrical signal generation | biological membranes | biological membranes | membranes | membranes | diffusion | diffusion | osmosis | osmosis | chemically mediated transport | chemically mediated transport | active transport | active transport | ion transport | ion transport | equilibrium potential | equilibrium potential | resting potential | resting potential | action potential | action potential | voltage-gated ion channels | voltage-gated ion channels | 6.021 | 6.021 | 2.791 | 2.791 | 2.794 | 2.794 | 6.521 | 6.521 | 20.370 | 20.370 | 20.470 | 20.470 | HST.541 | HST.541

License

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1.223J Transportation Policy, Strategy, and Management (MIT) 1.223J Transportation Policy, Strategy, and Management (MIT)

Description

This class surveys the current concepts, theories, and issues in strategic management of transportation organizations. It provides transportation logistics and engineering systems students with an overview of the operating context, leadership challenges, strategies, and management tools that are used in today's public and private transportation organizations. The following concepts, tools, and issues are presented in both public and private sector cases: alternative models of decision-making, strategic planning (e.g., use of SWOT analysis and scenario development), stakeholder valuation and analysis, government-based regulation and cooperation within the transportation enterprise, disaster communications, systems safety, change management, and the impact of globalization. This class surveys the current concepts, theories, and issues in strategic management of transportation organizations. It provides transportation logistics and engineering systems students with an overview of the operating context, leadership challenges, strategies, and management tools that are used in today's public and private transportation organizations. The following concepts, tools, and issues are presented in both public and private sector cases: alternative models of decision-making, strategic planning (e.g., use of SWOT analysis and scenario development), stakeholder valuation and analysis, government-based regulation and cooperation within the transportation enterprise, disaster communications, systems safety, change management, and the impact of globalization.

Subjects

public transportation systems; pollution; infrastructure; government regulation; public policy; strategic planning management; labor relations; maintenance planning; administration; financing; marketing policy; fare policy; management information; decision support systems; transit industry; service provision; private sector; alternative models of decision-making; strategic planning; stakeholder valuation and analysis; government-based regulation and cooperation; transportation enterprise; disaster communications; systems safety; change management; and the impact of globalization; | public transportation systems; pollution; infrastructure; government regulation; public policy; strategic planning management; labor relations; maintenance planning; administration; financing; marketing policy; fare policy; management information; decision support systems; transit industry; service provision; private sector; alternative models of decision-making; strategic planning; stakeholder valuation and analysis; government-based regulation and cooperation; transportation enterprise; disaster communications; systems safety; change management; and the impact of globalization; | public transportation systems | public transportation systems | pollution | pollution | infrastructure | infrastructure | government regulation | government regulation | public policy | public policy | strategic planning management | strategic planning management | labor relations | labor relations | maintenance planning | maintenance planning | administration | administration | financing | financing | marketing policy | marketing policy | fare policy | fare policy | management information | management information | decision support systems | decision support systems | transit industry | transit industry | service provision | service provision | private sector | private sector | alternative models of decision-making | alternative models of decision-making | strategic planning | strategic planning | stakeholder valuation and analysis | stakeholder valuation and analysis | government-based regulation and cooperation | government-based regulation and cooperation | transportation enterprise | transportation enterprise | disaster communications | disaster communications | systems safety | systems safety | change management | change management | and the impact of globalization | and the impact of globalization | the impact of globalization | the impact of globalization | 1.223 | 1.223 | ESD.203 | ESD.203

License

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Transport and the Olympic Games

Description

The most precarious aspect of the original London 2012 bid was a perceived inability of London to meet the transport demands of millions of sports tourists, athletes and officials that would be attending the Games.

Subjects

UKOER | HLST | ENGSCOER | OER | LL2012 | London 2012 | Olympics | Olympic Games | Paralympics | Paralympic Games | Learning Legacies | JISC | HEA | Oxford Brookes University | HLSTOER | cc-by | creative commons | IOC | LOCOG | athletics | competition | discussion starter | discuss | transport | transportation planning | underground | tube | routemaster buses | buses | public transport | transport vision | transport improvements | contingency | local disruption | Olympic Route network | ORN | Paralympic Route Network | PRN | Stratford regional station | Stratford International station | Docklands Light Railway | DLR | West Ham | Javelin | walking | cycling | oxb:060111:014dd | hospitality | leisure | sport | tourism | Team GB | The Olympics and Sustainability.

License

Creative Commons Licence
This work is licensed under a Creative Commons Attribution 2.0 UK: England & Wales License, except where otherwise noted within the resource. This work is licensed under a Creative Commons Attribution 2.0 UK: England & Wales License, except where otherwise noted within the resource.

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ESD.260J Logistics Systems (MIT) ESD.260J Logistics Systems (MIT)

Description

This course is a survey of analytic tools, approaches, and techniques which are useful in the design and operation of logistics systems and integrated supply chains. The material is taught from a managerial perspective, with an emphasis on where and how specific tools can be used to improve the overall performance and reduce the total cost of a supply chain. There is a strong emphasis on the development and use of fundamental models to illustrate the underlying concepts involved in both intra- and inter-company logistics operations. The following topics are covered: demand forecasting tools, inventory control algorithms, transportation operations and management, vehicle routing, scheduling, fleet dispatching algorithms and approaches, optimization of transportation carrier operations, supp This course is a survey of analytic tools, approaches, and techniques which are useful in the design and operation of logistics systems and integrated supply chains. The material is taught from a managerial perspective, with an emphasis on where and how specific tools can be used to improve the overall performance and reduce the total cost of a supply chain. There is a strong emphasis on the development and use of fundamental models to illustrate the underlying concepts involved in both intra- and inter-company logistics operations. The following topics are covered: demand forecasting tools, inventory control algorithms, transportation operations and management, vehicle routing, scheduling, fleet dispatching algorithms and approaches, optimization of transportation carrier operations, supp

Subjects

Logistics systems | Logistics systems | Supply chain management | Supply chain management | Demand planning | Demand planning | Procurement | Procurement | Inventory | Inventory | Transportation planning | Transportation planning | Reverse logistics | Reverse logistics | Flexible contracting | Flexible contracting | Postponement | Postponement | Portfolio management | Portfolio management | Dual sourcing | Dual sourcing | demand forecasting tools | demand forecasting tools | inventory control algorithms | inventory control algorithms | transportation operations | transportation operations | vehicle routing | vehicle routing | scheduling | scheduling | fleet dispatching algorithms | fleet dispatching algorithms | optimization | optimization | transportation carrier operations | transportation carrier operations | supply chain network design | supply chain network design | procurement | procurement | sourcing | sourcing | auctions | auctions | supply contracts | supply contracts | collaboration | collaboration | supply chain uncertainty | supply chain uncertainty | ESD.260 | ESD.260 | 1.260 | 1.260 | 15.770 | 15.770

License

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1.259J Transit Management (MIT) 1.259J Transit Management (MIT)

Description

1.259J discusses management methods of relevance to public transportation systems. Topics include: strategic planning management; labor relations; maintenance planning and administration; financing; marketing and fare policy; and management information and decision support systems. The course focuses on how these general management tasks are addressed in the transit industry and presents alternative strategies. It identifies alternative arrangements for service provision, including different ways of involving the private sector in public transportation. 1.259J discusses management methods of relevance to public transportation systems. Topics include: strategic planning management; labor relations; maintenance planning and administration; financing; marketing and fare policy; and management information and decision support systems. The course focuses on how these general management tasks are addressed in the transit industry and presents alternative strategies. It identifies alternative arrangements for service provision, including different ways of involving the private sector in public transportation.

Subjects

public transportation systems | public transportation systems | strategic planning management | strategic planning management | labor relations | labor relations | maintenance planning | maintenance planning | administration | administration | financing | financing | marketing policy | marketing policy | fare policy | fare policy | management information | management information | decision support systems | decision support systems | transit industry | transit industry | service provision | service provision | private sector | private sector | management methods | management methods | urban public transportation systems | urban public transportation systems | maintenance administration | maintenance administration | public transport service organizations | public transport service organizations | privatization | privatization | deregulation | deregulation | performance assessment | performance assessment | budgeting | budgeting | pricing | pricing | budgets | budgets | workforce planning | workforce planning | workforce management | workforce management | 1.259 | 1.259 | 11.542 | 11.542 | ESD.227 | ESD.227

License

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1.258J Public Transportation Service and Operations Planning (MIT) 1.258J Public Transportation Service and Operations Planning (MIT)

Description

This course describes the evolution and role of urban public transportation modes, systems, and services, focusing on bus and rail. Technological characteristics and their impacts on capacity, service quality, and cost are described. Current practice and new methods for data collection and analysis, performance monitoring, route design, frequency determination, and vehicle and crew scheduling are also discussed. In addition, the effect of pricing policy and service quality on ridership and methods for estimating costs associated with proposed service changes are presented, together with means to improve operations through real time intervention.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files found on this course site. Free&#16 This course describes the evolution and role of urban public transportation modes, systems, and services, focusing on bus and rail. Technological characteristics and their impacts on capacity, service quality, and cost are described. Current practice and new methods for data collection and analysis, performance monitoring, route design, frequency determination, and vehicle and crew scheduling are also discussed. In addition, the effect of pricing policy and service quality on ridership and methods for estimating costs associated with proposed service changes are presented, together with means to improve operations through real time intervention.Technical RequirementsMicrosoft® Excel software is recommended for viewing the .xls files found on this course site. Free&#16

Subjects

urban public transportation modes | urban public transportation modes | systems | systems | services | services | bus | bus | rail | rail | capacity | capacity | service quality | service quality | cost | cost | data collection | data collection | analysis | analysis | performance monitoring | performance monitoring | route design | route design | frequency determination | frequency determination | vehicle scheduling | vehicle scheduling | crew scheduling | crew scheduling | pricing policy | pricing policy | ridership | ridership | estimating costs | estimating costs | urban transportation | urban transportation | public transportation systems | public transportation systems | public services | public services | planning | planning | 1.258 | 1.258 | 11.541 | 11.541 | ESD.226 | ESD.226

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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Transport and the Olympic Games

Description

The most precarious aspect of the original London 2012 bid was a perceived inability of London to meet the transport demands of millions of sports tourists, athletes and officials that would be attending the Games.

Subjects

UKOER | HLST | ENGSCOER | OER | LL2012 | London 2012 | Olympics | Olympic Games | Paralympics | Paralympic Games | Learning Legacies | JISC | HEA | Oxford Brookes University | HLSTOER | cc-by | creative commons | IOC | LOCOG | athletics | competition | discussion starter | discuss | transport | transportation planning | underground | tube | routemaster buses | buses | public transport | transport vision | transport improvements | contingency | local disruption | Olympic Route network | ORN | Paralympic Route Network | PRN | Stratford regional station | Stratford International station | Docklands Light Railway | DLR | West Ham | Javelin | walking | cycling | oxb:060111:014dd | hospitality | leisure | sport | tourism | Team GB | The Olympics and Sustainability.

License

This work is licensed under a Creative Commons Attribution 2.0 UK: England and Wales License,except where otherwise noted within the resource. This work is licensed under a Creative Commons Attribution 2.0 UK: England and Wales License,except where otherwise noted within the resource.

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11.540J Urban Transportation Planning (MIT) 11.540J Urban Transportation Planning (MIT)

Description

The history, policy, and politics of urban transportation are discussed in this class. Also covered are the role of the federal government, the "highway revolt" and public transit in the auto era, using analytic tools for transportation planning and policy analysis. The class then explores the contribution of transportation to air pollution and climate change, land use and transportation interactions, together with issues with bicycles, pedestrians, and traffic calming. Examples used in the class are taken mainly from the Boston metropolitan area. The history, policy, and politics of urban transportation are discussed in this class. Also covered are the role of the federal government, the "highway revolt" and public transit in the auto era, using analytic tools for transportation planning and policy analysis. The class then explores the contribution of transportation to air pollution and climate change, land use and transportation interactions, together with issues with bicycles, pedestrians, and traffic calming. Examples used in the class are taken mainly from the Boston metropolitan area.

Subjects

11.540 | 11.540 | 1.252 | 1.252 | ESD.225 | ESD.225 | urban transportation planning | urban transportation planning | history | history | policy | policy | politics of urban transportation | politics of urban transportation | highway revolt | highway revolt | public transit | public transit | auto era | auto era | policy analysis | policy analysis | air pollution | air pollution | climate change | climate change | land use | land use | transportation interactions | transportation interactions | bicycles | bicycles | pedestrians | pedestrians | traffic calming | traffic calming | boston area examples | boston area examples | infrastructure | infrastructure | Big Dig | Big Dig | civil engineering | civil engineering | environmental engineering | environmental engineering | highway finance | highway finance | environmental and planning regulations | environmental and planning regulations | air quality | air quality | modal characteristics | modal characteristics | information technologies | information technologies

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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2.57 Nano-to-Macro Transport Processes (MIT) 2.57 Nano-to-Macro Transport Processes (MIT)

Description

This course provides parallel treatments of photons, electrons, phonons, and molecules as energy carriers, aiming at fundamental understanding and descriptive tools for energy and heat transport processes from nanoscale continuously to macroscale. Topics include the energy levels, the statistical behavior and internal energy, energy transport in the forms of waves and particles, scattering and heat generation processes, Boltzmann equation and derivation of classical laws, deviation from classical laws at nanoscale and their appropriate descriptions, with applications in nano- and microtechnology. This course provides parallel treatments of photons, electrons, phonons, and molecules as energy carriers, aiming at fundamental understanding and descriptive tools for energy and heat transport processes from nanoscale continuously to macroscale. Topics include the energy levels, the statistical behavior and internal energy, energy transport in the forms of waves and particles, scattering and heat generation processes, Boltzmann equation and derivation of classical laws, deviation from classical laws at nanoscale and their appropriate descriptions, with applications in nano- and microtechnology.

Subjects

nanotechnology | nanotechnology | nanoscale | nanoscale | transport phenomena | transport phenomena | photons | photons | electrons | electrons | phonons | phonons | energy carriers | energy carriers | energy transport | energy transport | heat transport | heat transport | energy levels | energy levels | statistical behavior | statistical behavior | internal energy | internal energy | waves and particles | waves and particles | scattering | scattering | heat generation | heat generation | Boltzmann equation | Boltzmann equation | classical laws | classical laws | microtechnology | microtechnology | crystal | crystal | lattice | lattice | quantum oscillator | quantum oscillator | laudaurer | laudaurer | nanotube | nanotube | Louiville equation | Louiville equation | X-ray | X-ray | blackbody | blackbody | quantum well | quantum well | Fourier | Fourier | Newton | Newton | Ohm | Ohm | thermoelectric effect | thermoelectric effect | Brownian motion | Brownian motion | surface tension | surface tension | van der Waals potential. | van der Waals potential. | van der Waals potential | van der Waals potential

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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1.061 Transport Processes in the Environment (MIT) 1.061 Transport Processes in the Environment (MIT)

Description

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 and turbulent diffusion, boundary layers, dissolution, phase partitioning, bed-water exchange, air-water exchange, settling and coagulation, buoyancy-driven flows, and stratification in lakes.Technical RequirementsRealOne™ Player software is required to run the .rm files found on this course site.RealOne™ is a trademark or a registered trademark of RealNetworks, Inc.  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 and turbulent diffusion, boundary layers, dissolution, phase partitioning, bed-water exchange, air-water exchange, settling and coagulation, buoyancy-driven flows, and stratification in lakes.Technical RequirementsRealOne™ Player software is required to run the .rm files found on this course site.RealOne™ is a trademark or a registered trademark of RealNetworks, Inc. 

Subjects

river systems | river systems | lake systems | lake systems | scalar transport in environmental flows | scalar transport in environmental flows | momentum transport in environmental flows | momentum transport in environmental flows | stratification in lakes | stratification in lakes | buoyancy-driven flows | buoyancy-driven flows | settling and coagulation | settling and coagulation | air-water exchange | air-water exchange | bed-water exchange | bed-water exchange | phase partitioning | phase partitioning | dissolution | dissolution | boundary layers | boundary layers | molecular diffusion | molecular diffusion | turbulent diffusion | turbulent diffusion | water transportation | water transportation

License

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1.201J Transportation Systems Analysis: Demand and Economics (MIT) 1.201J Transportation Systems Analysis: Demand and Economics (MIT)

Description

The main objective of this course is to give broad insight into the different facets of transportation systems, while providing a solid introduction to transportation demand and cost analyses. As part of the core in the Master of Science in Transportation program, the course will not focus on a specific transportation mode but will use the various modes to apply the theoretical and analytical concepts presented in the lectures and readings. Introduces transportation systems analysis, stressing demand and economic aspects. Covers the key principles governing transportation planning, investment, operations and maintenance. Introduces the microeconomic concepts central to transportation systems. Topics covered include economic theories of the firm, the consumer, and the market, demand models, The main objective of this course is to give broad insight into the different facets of transportation systems, while providing a solid introduction to transportation demand and cost analyses. As part of the core in the Master of Science in Transportation program, the course will not focus on a specific transportation mode but will use the various modes to apply the theoretical and analytical concepts presented in the lectures and readings. Introduces transportation systems analysis, stressing demand and economic aspects. Covers the key principles governing transportation planning, investment, operations and maintenance. Introduces the microeconomic concepts central to transportation systems. Topics covered include economic theories of the firm, the consumer, and the market, demand models,

Subjects

1.201 | 1.201 | 11.545 | 11.545 | ESD.210 | ESD.210 | transportation | transportation | travel demand | travel demand | organizational models | organizational models | consumer theory | consumer theory | project finance | project finance | intelligent transportation systems | intelligent transportation systems | project evaluation | project evaluation | demand modelling | demand modelling | technology | technology | environmental | environmental | energy | energy | economic development | economic development | sustainability | sustainability | urban structure | urban structure | land use | land use | equity | equity | transportation components | transportation components | intermodal combinations | intermodal combinations | quantitative modeling | quantitative modeling | strategic regional planning | strategic regional planning | institutional change analysis | institutional change analysis | large-scale systems | large-scale systems

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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