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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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22.106 Neutron Interactions and Applications (MIT) 22.106 Neutron Interactions and Applications (MIT)

Description

This course is intended to introduce the student to the concepts and methods of transport theory needed in neutron science applications. This course is a foundational study of the effects of multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department. Stochastic and deterministic simulation techniques will be introduced to the students. This course is intended to introduce the student to the concepts and methods of transport theory needed in neutron science applications. This course is a foundational study of the effects of multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department. Stochastic and deterministic simulation techniques will be introduced to the students.

Subjects

Neutron Interaction | Neutron Interaction | Neutron Elastic Scattering: Thermal Motion | Neutron Elastic Scattering: Thermal Motion | Chemical Binding Effects | Chemical Binding Effects | Particle Simulations I | Particle Simulations I | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | The Neutron Transport Equation | The Neutron Transport Equation | Neutron Slowing Down | Neutron Slowing Down | Neutron Diffusion | Neutron Diffusion | Particle Simulation Methods | Particle Simulation Methods | Basic Molecular Dynamics | Basic Molecular Dynamics | Direct Simulation of Melting | Direct Simulation of Melting | Multiscale Materials Modeling | Multiscale Materials Modeling | Thermal Neutron Scattering | Thermal Neutron Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering

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 Engineering (2008) Transport Engineering (2008)

Description

Trasnport introduction, Industrial handling, Belt conveyors, Screw conveyors, Bucket elevators, Powered industrial trucks, Cranes, Passenger train operations and Traffic engineering Trasnport introduction, Industrial handling, Belt conveyors, Screw conveyors, Bucket elevators, Powered industrial trucks, Cranes, Passenger train operations and Traffic engineering

Subjects

Transport engineering | Transport engineering | ía | ía | 2008 | 2008 | ía e Infraestructura de los Transportes | ía e Infraestructura de los Transportes | ía Industrial | ía Industrial

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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22.106 Neutron Interactions and Applications (MIT) 22.106 Neutron Interactions and Applications (MIT)

Description

This course is a foundational study of the effects of single and multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department - fission, fusion, and RST. Particle simulation methods are introduced to deal with complex processes that cannot be studied only experimentally or by numerical solutions of equations. Treatment will emphasize basic concepts and understanding, as well as showing the underlying scientific connections with current research areas. This course is a foundational study of the effects of single and multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department - fission, fusion, and RST. Particle simulation methods are introduced to deal with complex processes that cannot be studied only experimentally or by numerical solutions of equations. Treatment will emphasize basic concepts and understanding, as well as showing the underlying scientific connections with current research areas.

Subjects

Neutron Interaction | Neutron Interaction | Neutron Elastic Scattering: Thermal Motion | Neutron Elastic Scattering: Thermal Motion | Chemical Binding Effects | Chemical Binding Effects | Particle Simulations I | Particle Simulations I | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | The Neutron Transport Equation | The Neutron Transport Equation | Neutron Slowing Down | Neutron Slowing Down | Neutron Diffusion | Neutron Diffusion | Particle Simulation Methods | Particle Simulation Methods | Basic Molecular Dynamics | Basic Molecular Dynamics | Direct Simulation of Melting | Direct Simulation of Melting | Multiscale Materials Modeling | Multiscale Materials Modeling | Thermal Neutron Scattering | Thermal Neutron Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering

License

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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.

Subjects

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

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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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.

Subjects

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

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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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.

Subjects

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

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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12.110 Sedimentary Geology (MIT) 12.110 Sedimentary Geology (MIT)

Description

This course covers sediments in the rock cycle, production of sediments at the Earth's surface, physics and chemistry of sedimentary materials, and scale and geometry of near-surface sedimentary bodies, including aquifers. We will also explore topics like sediment transport and deposition in modern sedimentary environments, burial and lithification, survey of major sedimentary rock types, stratigraphic relationships of sedimentary basins, and evolution of sedimentary processes through geologic time. This course covers sediments in the rock cycle, production of sediments at the Earth's surface, physics and chemistry of sedimentary materials, and scale and geometry of near-surface sedimentary bodies, including aquifers. We will also explore topics like sediment transport and deposition in modern sedimentary environments, burial and lithification, survey of major sedimentary rock types, stratigraphic relationships of sedimentary basins, and evolution of sedimentary processes through geologic time.

Subjects

Sediment Transport | Sediment Transport | Sediment Production | Sediment Production | Bedforms | Bedforms | Alluvial Fans | Alluvial Fans | Alluvial Rivers | Alluvial Rivers | Deltas | Deltas | Eolian Systems | Eolian Systems | Shorelines | Shorelines | Nearshore | Nearshore | Continental Shelf | Continental Shelf | Continental Slope | Continental Slope

License

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ías IV ías IV

Description

El Objetivo se la asignatura es aportar al alumno conocimientos en tecnologías que no se han podido desarrollar durante la carrera y que son importantes para el desarrollo de su vida profesional. En concreto, la materia se centrará en las actividades relacionadas con las Reformas de Importancia en Vehículos Automóviles en toda su extensión, con objeto de que el alumno tenga los conocimientos y la experiencia suficiente para desarrollarse profesionalmente en esta actividad. El Objetivo se la asignatura es aportar al alumno conocimientos en tecnologías que no se han podido desarrollar durante la carrera y que son importantes para el desarrollo de su vida profesional. En concreto, la materia se centrará en las actividades relacionadas con las Reformas de Importancia en Vehículos Automóviles en toda su extensión, con objeto de que el alumno tenga los conocimientos y la experiencia suficiente para desarrollarse profesionalmente en esta actividad.

Subjects

ículos | ículos | ía | ía | Ingenieria Mecanica | Ingenieria Mecanica | Rodamientos | Rodamientos | Reformas de Importancia | Reformas de Importancia | ículo | ículo | Ingenieria e Infraestructura de los Transportes | Ingenieria e Infraestructura de los Transportes | áticos | áticos | óvil | óvil | 2007 | 2007 | ías | ías | ía Técnica Industrial: Mecánica | ía Técnica Industrial: Mecánica

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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Aerodinámica Civil y Energía Eólica Aerodinámica Civil y Energía Eólica

Description

La finalidad de este curso es establecer las bases que permitan comprender las acciones del viento atmosférico sobre los distintos tipos de edificaciones y estructuras que se pueden encontrar sobre la superficie terrestre, a fin de facilitar su correcto diseño, y evitar en lo posible los desperfectos, por no hablar de fallos totales, que el viento ocasiona a veces en tales cuerpos. La finalidad de este curso es establecer las bases que permitan comprender las acciones del viento atmosférico sobre los distintos tipos de edificaciones y estructuras que se pueden encontrar sobre la superficie terrestre, a fin de facilitar su correcto diseño, y evitar en lo posible los desperfectos, por no hablar de fallos totales, que el viento ocasiona a veces en tales cuerpos.

Subjects

Ingeniería Mecánica | Ingeniería Mecánica | galope | galope | túnel de viento | túnel de viento | Ingeniería Hidráulica | Ingeniería Hidráulica | ahorro energético | ahorro energético | cargas de viento | cargas de viento | edificaciones | edificaciones | torbellinos cónicos | torbellinos cónicos | Mecánica de Fluídos | Mecánica de Fluídos | aerogeneradores | aerogeneradores | puentes | puentes | aerodinámica | aerodinámica | vehículos | vehículos | Ingeniería de la Construcción | Ingeniería de la Construcción | Ingeniería e Infraestructura de los Transportes | Ingeniería e Infraestructura de los Transportes | energía eólica | energía eólica | Ingeniería Aeroespacial | Ingeniería Aeroespacial | aeroelasticidad | aeroelasticidad

License

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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

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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22.106 Neutron Interactions and Applications (MIT)

Description

This course is a foundational study of the effects of single and multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department - fission, fusion, and RST. Particle simulation methods are introduced to deal with complex processes that cannot be studied only experimentally or by numerical solutions of equations. Treatment will emphasize basic concepts and understanding, as well as showing the underlying scientific connections with current research areas.

Subjects

Neutron Interaction | Neutron Elastic Scattering: Thermal Motion | Chemical Binding Effects | Particle Simulations I | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | The Neutron Transport Equation | Neutron Slowing Down | Neutron Diffusion | Particle Simulation Methods | Basic Molecular Dynamics | Direct Simulation of Melting | Multiscale Materials Modeling | Thermal Neutron Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering

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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Dibujo (Preparación para la Universidad) Dibujo (Preparación para la Universidad)

Description

Se presenta a continuación materiales educativos paar el aprendizaje del Dibujo Técnico. El Dibujo Técnico es imprescindible para ejercer el trabajo de ingeniería y por lo tanto debe formar parte de las materias básicas que debe preparar un estudiante que desee su incorporación en un Grado relacionado con la ingeniería de la UPM. Se presenta a continuación materiales educativos paar el aprendizaje del Dibujo Técnico. El Dibujo Técnico es imprescindible para ejercer el trabajo de ingeniería y por lo tanto debe formar parte de las materias básicas que debe preparar un estudiante que desee su incorporación en un Grado relacionado con la ingeniería de la UPM.

Subjects

Dibujo Técnico | Dibujo Técnico | Ingeniería Mecánica | Ingeniería Mecánica | Ingeniería Agroforestal | Ingeniería Agroforestal | Geometría y Topología | Geometría y Topología | Dibujo para Ingeniería | Dibujo para Ingeniería | Dibujo Industrial | Dibujo Industrial | Proyectos de Ingeniería | Proyectos de Ingeniería | Ingeniería Aeroespacial | Ingeniería Aeroespacial | Bachillerato | Bachillerato | Ingeniería del Terreno | Ingeniería del Terreno | Sistemas de representación | Sistemas de representación | Didáctica de la Expresión Plástica | Didáctica de la Expresión Plástica | Ingeniería de los Procesos de Fabricación | Ingeniería de los Procesos de Fabricación | geometria | geometria | Ingeniería de la Construcción | Ingeniería de la Construcción | Ingeniería e Infraestructura de los Transportes | Ingeniería e Infraestructura de los Transportes | Dibujo | Dibujo | Ingeniería Cartográfica | Geodésica y Fotogrametría | Ingeniería Cartográfica | Geodésica y Fotogrametría | Visión Espacial | Visión Espacial

License

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11.943J Urban Transportation, Land Use, and the Environment (MIT) 11.943J Urban Transportation, Land Use, and the Environment (MIT)

Description

This course is aimed at the aspiring planning practitioner, policy-maker, or industry decision-maker with an interest in urban transportation and environmental issues in Latin America. The course will focus on current transport-related themes confronting many cities in the region, including: rapid motorization and suburbanization and subsequent impacts on transportation infrastructure and quality of life; public sector management and improvement of privately-owned and operated transit systems; and, transportation air pollution problems and potential solutions. The course will be geared towards interactive problem-solving, taking advantage of students' skills and experiences in: institutional analysis, policy analysis, and project and program evaluation and implementation. Detailed knowled This course is aimed at the aspiring planning practitioner, policy-maker, or industry decision-maker with an interest in urban transportation and environmental issues in Latin America. The course will focus on current transport-related themes confronting many cities in the region, including: rapid motorization and suburbanization and subsequent impacts on transportation infrastructure and quality of life; public sector management and improvement of privately-owned and operated transit systems; and, transportation air pollution problems and potential solutions. The course will be geared towards interactive problem-solving, taking advantage of students' skills and experiences in: institutional analysis, policy analysis, and project and program evaluation and implementation. Detailed knowled

Subjects

urban transportation | urban transportation | Environmental issues | Environmental issues | Rapid motorization | Rapid motorization | suburbanization | suburbanization | impacts on transportation infrastructure | impacts on transportation infrastructure | Latin America | Latin America | Public sector management | and improvement | Public sector management | and improvement | Transit systems | Transit systems | Air pollution | Air pollution | Transportation | Transportation | Solutions | Solutions | 11.943 | 11.943

License

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Transport Strategy for London 2012

Description

Concerns have been expressed about the capacity of the London Transport infrastructure to cope with the 2012 Games and the likelihood of major disruption to residents and businesses. This case study documents the improvements made to the infrastructure and the plans to move athletes and spectators through the Olympic Route Network (ORN) and the Paralympic Route Network (PRN).

Subjects

UKOER OER Transport strategy Olympic Route Network Paralympic Route Network Olympic Family Transport

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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ía de transportes ía de transportes

Description

La asignatura abarca los siguientes aspectos: introducción al transporte, manutención industrial, bandas transportadoras, tornillos sin fin, elevadores de cangilones, carretillas industriales, grúas, pperaciones de trenes de viajeros, e ingeniería del tráfico. La asignatura abarca los siguientes aspectos: introducción al transporte, manutención industrial, bandas transportadoras, tornillos sin fin, elevadores de cangilones, carretillas industriales, grúas, pperaciones de trenes de viajeros, e ingeniería del tráfico.

Subjects

ía Mecánica | ía Mecánica | ía | ía | 2008 | 2008 | ía e Infraestructura de los Transportes | ía e Infraestructura de los Transportes | ía Industrial | ía Industrial

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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22.106 Neutron Interactions and Applications (MIT)

Description

This course is intended to introduce the student to the concepts and methods of transport theory needed in neutron science applications. This course is a foundational study of the effects of multiple interactions on neutron distributions and their applications to problems across the Nuclear Engineering department. Stochastic and deterministic simulation techniques will be introduced to the students.

Subjects

Neutron Interaction | Neutron Elastic Scattering: Thermal Motion | Chemical Binding Effects | Particle Simulations I | Monte Carlo Basics Monte Carlo in Statistical Physics and Radiation Transport | The Neutron Transport Equation | Neutron Slowing Down | Neutron Diffusion | Particle Simulation Methods | Basic Molecular Dynamics | Direct Simulation of Melting | Multiscale Materials Modeling | Thermal Neutron Scattering | Dynamic Structure Factor in Neutron Inelastic Scattering

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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7th CSS: The Effective Use of Social Capital in Cycling Scheme Development

Description

Brian Deegan, London Borough of Camden, talks on 'The Effective Use of Social Capital in Cycling Scheme Development' as part of the 7th Cycling and Society Symposium at the Transport Studies Unit, University of Oxford in 2010. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

7th | Transport Studies Unit | cycling and society symposium | Brian Deegan | 7th | Transport Studies Unit | cycling and society symposium | Brian Deegan

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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Heuristic: Implications for Active Travel

Description

James Macmillen, University of Oxford, talks on 'Understanding 'Best Practice' Heuristic: Implications for Active Travel' as part of the 7th Cycling and Society Symposium at the Transport Studies Unit, University of Oxford in 2010. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

7th | James Macmillen | cycling and society symposium | Transport Studies Unit | 7th | James Macmillen | cycling and society symposium | Transport Studies Unit

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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7th CSS: Bicycling as a Way of Life: A Comparative Case Study of Urban Bike Culture in Amsterdam and Portland, OR.

Description

Peter Pelzer, Univ. of Amsterdam, talks on 'Bicycling as a Way of Life' as part of the 7th Cycling and Society Symposium at the Transport Studies Unit, University of Oxford in 2010. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

7th | Transport Studies Unit | cycling and society symposium | Peter Pelzer | 7th | Transport Studies Unit | cycling and society symposium | Peter Pelzer

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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7th CSS: Geographies of Urban Cycling: Investigating the Relations between Body, Technology and Space

Description

Samuel Johns, University of Oxford, talks on 'Geographies of Urban Cycling: Investigating the Relations between Body, Technology and Space' as part of the 7th Cycling and Society Symposium at the Transport Studies Unit, University of Oxford in 2010. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

7th | cycling and society symposium | Samuel Johns | Transport Studies Unit | 7th | cycling and society symposium | Samuel Johns | Transport Studies Unit

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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7th CSS: Cycling Circles: Gender and Social Influences in UK Cycling

Description

Anja Dalton, UWE, talks on 'Cycling Circles: Gender and Social Influences in UK Cycling' as part of the 7th Cycling and Society Symposium at the Transport Studies Unit, University of Oxford in 2010. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

7th | cycling and society symposium | Anja Dalton | Transport Studies Unit | 7th | cycling and society symposium | Anja Dalton | Transport Studies Unit

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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7th CSS: Women Returning to Cycling/Bike Riding

Description

Jennifer Bonham, University of Adelaide, talks on 'Women Returning to Cycling/Bike Riding' as part of the 7th Cycling and Society Symposium at the Transport Studies Unit, University of Oxford in 2010. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

7th | Transport Studies Unit | cycling and society symposium | Jennifer Bonham | 7th | Transport Studies Unit | cycling and society symposium | Jennifer Bonham

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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7th CSS: Applying the Life Course Approach to Walking and Cycling

Description

Heather Jones, UWE, talks on 'Applying the Life Course Approach to Walking and Cycling' as part of the 7th Cycling and Society Symposium at the Transport Studies Unit, University of Oxford in 2010. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

7th | Transport Studies Unit | cycling and society symposium | Heather Jones | 7th | Transport Studies Unit | cycling and society symposium | Heather Jones

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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