Description

This course explores the theory of self-assembly in surfactant-water (micellar) and surfactant-water-oil (micro-emulsion) systems. It also introduces the theory of polymer solutions, as well as scattering techniques, light, x-ray, and neutron scattering applied to studies of the structure and dynamics of complex liquids, and modern theory of the liquid state relevant to structured (supramolecular) liquids. This course explores the theory of self-assembly in surfactant-water (micellar) and surfactant-water-oil (micro-emulsion) systems. It also introduces the theory of polymer solutions, as well as scattering techniques, light, x-ray, and neutron scattering applied to studies of the structure and dynamics of complex liquids, and modern theory of the liquid state relevant to structured (supramolecular) liquids.

Subjects

self-assembly in surfactant-water (micellar) and surfactant-water-oil (micro-emulsion) systems | self-assembly in surfactant-water (micellar) and surfactant-water-oil (micro-emulsion) systems | theory of polymer solutions | theory of polymer solutions | scattering techniques | scattering techniques | light | light | x-ray | x-ray | and neutron scattering | and neutron scattering | complex liquids | complex liquids | modern theory of liquid state relevant to structured (supramolecular) liquids | modern theory of liquid state relevant to structured (supramolecular) liquids | 22.52 | 22.52 | 8.575 | 8.575 | 10.44 | 10.44

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This course focuses on the fundamentals of structure, energetics, and bonding that underpin materials science. It is the introductory lecture class for sophomore students in Materials Science and Engineering, taken with 3.014 and 3.016 to create a unified introduction to the subject. Topics include: an introduction to thermodynamic functions and laws governing equilibrium properties, relating macroscopic behavior to atomistic and molecular models of materials; the role of electronic bonding in determining the energy, structure, and stability of materials; quantum mechanical descriptions of interacting electrons and atoms; materials phenomena, such as heat capacities, phase transformations, and multiphase equilibria to chemical reactions and magnetism; symmetry properties of molecules and s This course focuses on the fundamentals of structure, energetics, and bonding that underpin materials science. It is the introductory lecture class for sophomore students in Materials Science and Engineering, taken with 3.014 and 3.016 to create a unified introduction to the subject. Topics include: an introduction to thermodynamic functions and laws governing equilibrium properties, relating macroscopic behavior to atomistic and molecular models of materials; the role of electronic bonding in determining the energy, structure, and stability of materials; quantum mechanical descriptions of interacting electrons and atoms; materials phenomena, such as heat capacities, phase transformations, and multiphase equilibria to chemical reactions and magnetism; symmetry properties of molecules and s

Subjects

bonding | bonding | energetics | energetics | structure | structure | antibonding | antibonding | hydrogen | hydrogen | Quantum mechanics | Quantum mechanics | electron | electron | atom | atom | molecule | molecule | molecular dynamics | molecular dynamics | MD | MD | Symmetry properties | Symmetry properties | solid | solid | gas | gas | liquid | liquid | phase | phase | matter; molecular geometry | matter; molecular geometry | complex and disordered materials | complex and disordered materials | thermodynamics | thermodynamics | equilibrium property | equilibrium property | macroscopic behavior | macroscopic behavior | molecular model | molecular model | heat capacity | heat capacity | phase transformation | phase transformation | multiphase equilibria | multiphase equilibria | chemical reaction | chemical reaction | magnetism | magnetism | engineered alloy | engineered alloy | electronic and magnetic material | electronic and magnetic material | ionic solid | ionic solid | network solid | network solid | polymer | polymer | biomaterial | biomaterial | glass | glass | liquid crystal | liquid crystal | LCD | LCD | matter | matter | molecular geometry | molecular geometry

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Laboratory Chemistry (5.310) introduces experimental chemistry for students requiring a chemistry laboratory who are not majoring in chemistry. Students must have completed general chemistry (5.111) and have completed or be concurrently enrolled in the first semester of organic chemistry (5.12). The course covers principles and applications of chemical laboratory techniques, including preparation and analysis of chemical materials, measurement of pH, gas and liquid chromatography, visible-ultraviolet spectrophotometry, infrared spectroscopy, kinetics, data analysis, and elementary synthesis. NOTE: The Staff for this course would like to acknowledge that the experiments include contributions from past instructors, course textbooks, and others affiliated with course #5.310. Since the Laboratory Chemistry (5.310) introduces experimental chemistry for students requiring a chemistry laboratory who are not majoring in chemistry. Students must have completed general chemistry (5.111) and have completed or be concurrently enrolled in the first semester of organic chemistry (5.12). The course covers principles and applications of chemical laboratory techniques, including preparation and analysis of chemical materials, measurement of pH, gas and liquid chromatography, visible-ultraviolet spectrophotometry, infrared spectroscopy, kinetics, data analysis, and elementary synthesis. NOTE: The Staff for this course would like to acknowledge that the experiments include contributions from past instructors, course textbooks, and others affiliated with course #5.310. Since the

Subjects

lab | lab | chemistry | chemistry | laboratory | laboratory | experiment | experiment | pH | pH | gas chromatography | gas chromatography | liquid chromatography | liquid chromatography | visible-ultraviolet spectrophotometry | visible-ultraviolet spectrophotometry | infrared spectroscopy | infrared spectroscopy | kinetics | kinetics | data analysis | data analysis | elementary synthesis | elementary synthesis | amino acid | amino acid | ferrocene | ferrocene | essential oil | essential oil | potentiometric titration | potentiometric titration | techniques | techniques | measurement | measurement | materials | materials | data | data | analysis | analysis | elementary | elementary | synthesis | synthesis | amino | amino | acid | acid | essential | essential | oil | oil | gas | gas | chromatography | chromatography | infrared | infrared | spectroscopy | spectroscopy | liquid | liquid | potentiometric | potentiometric | titration | titration | visible | visible | ultraviolet | ultraviolet | spectrophotometry | spectrophotometry

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This class focuses on chemical rocket propulsion systems for launch, orbital, and interplanetary flight. It studies the modeling of solid, liquid-bipropellant, and hybrid rocket engines. Thermochemistry, prediction of specific impulse, and nozzle flows including real gas and kinetic effects will also be covered. Other topics to be covered include structural constraints, propellant feed systems, turbopumps, and combustion processes in solid, liquid, and hybrid rockets. This class focuses on chemical rocket propulsion systems for launch, orbital, and interplanetary flight. It studies the modeling of solid, liquid-bipropellant, and hybrid rocket engines. Thermochemistry, prediction of specific impulse, and nozzle flows including real gas and kinetic effects will also be covered. Other topics to be covered include structural constraints, propellant feed systems, turbopumps, and combustion processes in solid, liquid, and hybrid rockets.

Subjects

chemical rocket propulsion systems for launch | chemical rocket propulsion systems for launch | orbital | orbital | and interplanetary flight | and interplanetary flight | Modeling of solid propellant | Modeling of solid propellant | liquid-bipropellant | liquid-bipropellant | hybrid rocket engines | hybrid rocket engines | thermochemistry | thermochemistry | prediction of specific impulse | prediction of specific impulse | nozzle flows including real gas and kinetic effects | nozzle flows including real gas and kinetic effects | structural constraints | structural constraints | propellant feed systems | propellant feed systems | turbopumps | turbopumps | combustion processes in solid | combustion processes in solid | liquid | liquid | and hybrid rockets | and hybrid rockets | cooling | cooling | heat sink | heat sink | ablative | ablative

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This course explores the theory of self-assembly in surfactant-water (micellar) and surfactant-water-oil (micro-emulsion) systems. It also introduces the theory of polymer solutions, as well as scattering techniques, light, x-ray, and neutron scattering applied to studies of the structure and dynamics of complex liquids, and modern theory of the liquid state relevant to structured (supramolecular) liquids.

Subjects

self-assembly in surfactant-water (micellar) and surfactant-water-oil (micro-emulsion) systems | theory of polymer solutions | scattering techniques | light | x-ray | and neutron scattering | complex liquids | modern theory of liquid state relevant to structured (supramolecular) liquids | 22.52 | 8.575 | 10.44

License

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El análisis contable, también conocido como análisis fundamental, trata de determinar la situación económico financiera de una empresa a través de la información emitida por la misma. En esta asignatura aprenderemos a extraer de los estados financieros información acerca de la rentabilidad, solvencia, liquidez y eficiencia de la empresa y, con ello, se pretende ayudar a la toma de decisiones de inversores actuales o potenciales, acreedores, administraciones públicas y trabajadores. Asimismo, en el curso se utilizarán diversas técnicas estadísticas para utilizar esta información para el análisis de los distintos sectores de actividad y para la predicción de algunas variables fundamentales (como el beneficio o la quiebra). Para ello se utilizarán diversos programas informáti El análisis contable, también conocido como análisis fundamental, trata de determinar la situación económico financiera de una empresa a través de la información emitida por la misma. En esta asignatura aprenderemos a extraer de los estados financieros información acerca de la rentabilidad, solvencia, liquidez y eficiencia de la empresa y, con ello, se pretende ayudar a la toma de decisiones de inversores actuales o potenciales, acreedores, administraciones públicas y trabajadores. Asimismo, en el curso se utilizarán diversas técnicas estadísticas para utilizar esta información para el análisis de los distintos sectores de actividad y para la predicción de algunas variables fundamentales (como el beneficio o la quiebra). Para ello se utilizarán diversos programas informáti

Subjects

álisis de eficiencia y ratios de mercado | álisis de eficiencia y ratios de mercado | álisis de solvencia y liquidez | álisis de solvencia y liquidez | ón de empresas | ón de empresas | álisis vertical y horizontal | álisis vertical y horizontal | ón de quiebra | ón de quiebra | ón de beneficio | ón de beneficio | Economia Financiera y Contabilidad | Economia Financiera y Contabilidad | Estados contables | Estados contables | ón de beneficios | ón de beneficios | Ratio financiero | Ratio financiero | álisis de entidades financieras | álisis de entidades financieras | álisis financiero | álisis financiero | ón y Dirección de Empresas | ón y Dirección de Empresas | 2007 | 2007 | écnicas estadísticas | écnicas estadísticas | álisis de rentabilidad | álisis de rentabilidad

License

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

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This course introduces fundamental properties of the neutron. It covers reactions induced by neutrons, nuclear fission, slowing down of neutrons in infinite media, diffusion theory, the few-group approximation, point kinetics, and fission-product poisoning. We emphasize the nuclear physics basis of reactor design and its relationship to reactor engineering problems. This course introduces fundamental properties of the neutron. It covers reactions induced by neutrons, nuclear fission, slowing down of neutrons in infinite media, diffusion theory, the few-group approximation, point kinetics, and fission-product poisoning. We emphasize the nuclear physics basis of reactor design and its relationship to reactor engineering problems.

Subjects

reactor physics | reactor physics | reactor layout | reactor layout | binding energy | binding energy | fission | fission | neutron cross-sections | neutron cross-sections | liquid drop model | liquid drop model | neutron life cycle | neutron life cycle | criticality | criticality | accidents | accidents | neutron flux | neutron flux | neutron current | neutron current | neutron diffusion theory | neutron diffusion theory | elastic neutron scattering | elastic neutron scattering | group diffusion method | group diffusion method | subcritical multiplication | subcritical multiplication | point kinetics | point kinetics | dynamic period equation | dynamic period equation | inhour equation | inhour equation | shutdown margin | shutdown margin

License

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4.42J (or 2.66J or 1.044J), Fundamentals of Energy in Buildings, is an undergraduate class offered in the Department of Architecture, and jointly in the Department of Civil and Environmental Engineering and the Department of Mechanical Engineering. It provides a first course in thermo-sciences for students primarily interested in architecture and building technology. Throughout the course, the fundamentals important to energy, ventilation, air conditioning and comfort in buildings are introduced.  Two design projects play a major part in this class. They will require creative use of the principles and information given in the course to solve a particular problem, relating to energy consumption in buildings. The students will be asked to propose and assess innovativ 4.42J (or 2.66J or 1.044J), Fundamentals of Energy in Buildings, is an undergraduate class offered in the Department of Architecture, and jointly in the Department of Civil and Environmental Engineering and the Department of Mechanical Engineering. It provides a first course in thermo-sciences for students primarily interested in architecture and building technology. Throughout the course, the fundamentals important to energy, ventilation, air conditioning and comfort in buildings are introduced.  Two design projects play a major part in this class. They will require creative use of the principles and information given in the course to solve a particular problem, relating to energy consumption in buildings. The students will be asked to propose and assess innovativ

Subjects

energy in buildings | energy in buildings | thermo-sciences | thermo-sciences | energy | energy | ventilation | ventilation | air conditioning and comfort in buildings | air conditioning and comfort in buildings | thermodynamics | thermodynamics | electricity | electricity | architecture | architecture | building technology | building technology | civil engineering | civil engineering | buildings | buildings | conservation of energy | conservation of energy | air-water vapor mixtures | air-water vapor mixtures | thermal comfort | thermal comfort | heat pumps | heat pumps | refrigeration cycles | refrigeration cycles | thermodynamic performance | thermodynamic performance | heat transfer | heat transfer | creative design projects | creative design projects | air conditioning | air conditioning | energy consumption | energy consumption | building designs | building designs | building technologies | building technologies | operating schemes | operating schemes | properties of gases | properties of gases | properties of liquids | properties of liquids | power producing systems | power producing systems | energy losses | energy losses | building envelope | building envelope | 4.42 | 4.42 | 1.044 | 1.044 | 2.66 | 2.66

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Neoclassical analysis of the labor market and its institutions. A systematic development of the theory of labor supply, labor demand, and human capital. Topics discussed also include wage and employment determination, turnover, search, immigration, unemployment, equalizing differences, and institutions in the labor market. There is particular emphasis on the interaction of theoretical and empirical modeling and the development of independent research interests. Neoclassical analysis of the labor market and its institutions. A systematic development of the theory of labor supply, labor demand, and human capital. Topics discussed also include wage and employment determination, turnover, search, immigration, unemployment, equalizing differences, and institutions in the labor market. There is particular emphasis on the interaction of theoretical and empirical modeling and the development of independent research interests.

Subjects

labor economics | public policy | schooling | learning | matching | experience | wages | minimum wage | college | investment | training | firms | corporations | labor | unions | panel data | neoclassical model | turnover models | turnover | economics | labor economics | public policy | schooling | learning | matching | experience | wages | minimum wage | college | investment | training | firms | corporations | labor | unions | panel data | neoclassical model | turnover models | turnover | economics | labor | labor | market | market | statistics | statistics | theory | theory | neoclassical | neoclassical | supply | supply | model | model | life-cycle | life-cycle | demand | demand | wages | wages | immigration | immigration | human capital | human capital | econometrics | econometrics | liquidity | liquidity | constraints | constraints | mobility | mobility | incentives | incentives | organization | organization | moral hazard | moral hazard | insurance | insurance | investments | investments | efficiency | efficiency | unemployment | unemployment | search | search | jobs | jobs | training | training | capital | capital | firm | firm | technology | technology | skills | skills | risk | risk | signaling | signaling | discrimination | discrimination | self-selection | self-selection | learning | learning | natives | natives

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This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory. This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory.

Subjects

Linear response theory | Linear response theory | Fluctuation dissipation theorem | Fluctuation dissipation theorem | Scattering experiment | Scattering experiment | f-sum rule | f-sum rule | Physics of disorder | Physics of disorder | Kubo formula for conductivity | Kubo formula for conductivity | Conductance and sensitivity to boundary conditions | Conductance and sensitivity to boundary conditions | Scaling theory of localization | Scaling theory of localization | Mott variable range hopping | Mott variable range hopping | Superconductor | Superconductor | Transverse response | Transverse response | Landau diamagnetism | Landau diamagnetism | Microscopic derivation of London equation | Microscopic derivation of London equation | Effect of disorder | Effect of disorder | Quasiparticles and coherence factors | Quasiparticles and coherence factors | Tunneling and Josephson effect | Tunneling and Josephson effect | Magnetism | Magnetism | Local moment magnetism | Local moment magnetism | exchange interaction | exchange interaction | Ferro- and anti-ferro magnet and spin wave theory | Ferro- and anti-ferro magnet and spin wave theory | Band magnetism | Band magnetism | Stoner theory | Stoner theory | spin density wave | spin density wave | Local moment in metals | Local moment in metals | Friedel sum rule | Friedel sum rule | Friedel-Anderson model | Friedel-Anderson model | Kondo problem | Kondo problem | Fermi liquid theory | Fermi liquid theory | Electron Green?s function | Electron Green?s function

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Problems in nuclear engineering often involve applying knowledge from many disciplines simultaneously in achieving satisfactory solutions. The course will focus on understanding the complete nuclear reactor system including the balance of plant, support systems and resulting interdependencies affecting the overall safety of the plant and regulatory oversight. Both the Seabrook and Pilgrim nuclear plant simulators will be used as part of the educational experience to provide as realistic as possible understanding of nuclear power systems short of being at the reactor. Problems in nuclear engineering often involve applying knowledge from many disciplines simultaneously in achieving satisfactory solutions. The course will focus on understanding the complete nuclear reactor system including the balance of plant, support systems and resulting interdependencies affecting the overall safety of the plant and regulatory oversight. Both the Seabrook and Pilgrim nuclear plant simulators will be used as part of the educational experience to provide as realistic as possible understanding of nuclear power systems short of being at the reactor.

Subjects

nuclear | nuclear | reactor | reactor | safety | safety | dryout heat flux | dryout heat flux | preexisting hydrogen | preexisting hydrogen | blowdown gases | blowdown gases | downward propagation limit | downward propagation limit | debris dispersal | debris dispersal | direct containment heating | direct containment heating | gas blowthrough | gas blowthrough | seal table room | seal table room | subcompartment structures | subcompartment structures | compartmentalized geometries | compartmentalized geometries | overlying liquid layer | overlying liquid layer | preexisting atmosphere | preexisting atmosphere | blowdown time | blowdown time | melt generator | melt generator | detonation adiabatic | detonation adiabatic | thermohydraulic codes | thermohydraulic codes | hydrodynamic fragmentation | hydrodynamic fragmentation | vent clearing | vent clearing | combustion completeness | combustion completeness | containment pressurization | containment pressurization | melt retention | melt retention | containment loads | containment loads | melt ejection | melt ejection | containment geometry | containment geometry | hole ablation | hole ablation | Sandia National Laboratories | Sandia National Laboratories | Heat Transfer Conf | Heat Transfer Conf | Nuclear Regulatory Commission Report | Nuclear Regulatory Commission Report | Heat Mass Transfer | Heat Mass Transfer | The Combustion Institute | The Combustion Institute | Combustion Symposium International | Combustion Symposium International | New York | New York | Santa Barbara | Santa Barbara | Argonne National Laboratory | Argonne National Laboratory | Fluid Mech | Fluid Mech | Zion Probabilistic Safety Study | Zion Probabilistic Safety Study | Los Angeles | Los Angeles | Impact of Hydrogen | Impact of Hydrogen | Topical Meeting | Topical Meeting | Water Reactor Safety | Water Reactor Safety | Water Trans | Water Trans | Academic Press All | Academic Press All | American Society of Mechanical Engineers | American Society of Mechanical Engineers | Specialists Meeting | Specialists Meeting | University of California | University of California | Brookhaven National Laboratory | Brookhaven National Laboratory | Calvert Cliffs | Calvert Cliffs | Fourth Int | Fourth Int | International Conference | International Conference | New Trends. | New Trends.

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Includes audio/video content: AV special element audio. Many details of phonetic realization cannot be predicted from standard phonological representations on a language-independent basis, so phonetic realization must be specified in grammar. In this seminar we will investigate phonetic realization as a component of grammar. The basic questions that we will address are: What is the form of the phonetic realization component? What is its relationship to phonology? Includes audio/video content: AV special element audio. Many details of phonetic realization cannot be predicted from standard phonological representations on a language-independent basis, so phonetic realization must be specified in grammar. In this seminar we will investigate phonetic realization as a component of grammar. The basic questions that we will address are: What is the form of the phonetic realization component? What is its relationship to phonology?

Subjects

food | food | edible | edible | hands-on | hands-on | cooking | cooking | chemistry | chemistry | cook | cook | kitchen | kitchen | tofu | tofu | cake | cake | muffin | muffin | cheese | cheese | marinade | marinade | ice cream | ice cream | liquid nitrogen | liquid nitrogen | root beer | root beer | candy | candy | spice | spice | taste | taste | biochemistry | biochemistry

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This seminar is designed to be an experimental and hands-on approach to applied chemistry (as seen in cooking). Cooking may be the oldest and most widespread application of chemistry and recipes may be the oldest practical result of chemical research. We shall do some cooking experiments to illustrate some chemical principles, including extraction, denaturation, and phase changes. This seminar is designed to be an experimental and hands-on approach to applied chemistry (as seen in cooking). Cooking may be the oldest and most widespread application of chemistry and recipes may be the oldest practical result of chemical research. We shall do some cooking experiments to illustrate some chemical principles, including extraction, denaturation, and phase changes.

Subjects

cooking | cooking | food | food | chemistry | chemistry | experiment | experiment | extraction | extraction | denaturation | denaturation | phase change | phase change | capsicum | capsicum | biochemistry | biochemistry | chocolate | chocolate | cheese | cheese | yeast | yeast | recipe | recipe | jam | jam | pectin | pectin | enzyme | enzyme | dairy | dairy | molecular gastronomy | molecular gastronomy | salt | salt | colloid | colloid | stability | stability | liquid nitrogen | liquid nitrogen | ice cream | ice cream | biology | biology | microbiology | microbiology

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This seminar will be a scientific exploration of the food we eat and enjoy. Each week we shall have a scientific edible experiment that will explore a specific food topic. This will be a hands-on seminar with mandatory attendance of at least 85%. Topics include, but are not limited to, what makes a good experiment, cheese making, joys of tofu, food biochemistry, the science of spice, what is taste? This course is the second in a series of two courses in kitchen chemistry. The prerequisite to Advanced Kitchen Chemistry is ES.287 Kitchen Chemistry, which is also on OCW. This seminar will be a scientific exploration of the food we eat and enjoy. Each week we shall have a scientific edible experiment that will explore a specific food topic. This will be a hands-on seminar with mandatory attendance of at least 85%. Topics include, but are not limited to, what makes a good experiment, cheese making, joys of tofu, food biochemistry, the science of spice, what is taste? This course is the second in a series of two courses in kitchen chemistry. The prerequisite to Advanced Kitchen Chemistry is ES.287 Kitchen Chemistry, which is also on OCW.

Subjects

food | food | edible | edible | hands-on | hands-on | cooking | cooking | chemistry | chemistry | cook | cook | kitchen | kitchen | tofu | tofu | cake | cake | muffin | muffin | cheese | cheese | marinade | marinade | ice cream | ice cream | liquid nitrogen | liquid nitrogen

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This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory. This is the second term of a theoretical treatment of the physics of solids. Topics covered include linear response theory; the physics of disorder; superconductivity; the local moment and itinerant magnetism; the Kondo problem and Fermi liquid theory.

Subjects

Linear response theory | Linear response theory | Fluctuation dissipation theorem | Fluctuation dissipation theorem | Scattering experiment | Scattering experiment | f-sum rule | f-sum rule | Physics of disorder | Physics of disorder | Kubo formula for conductivity | Kubo formula for conductivity | Conductance and sensitivity to boundary conditions | Conductance and sensitivity to boundary conditions | Scaling theory of localization | Scaling theory of localization | Mott variable range hopping | Mott variable range hopping | Superconductor | Superconductor | Transverse response | Transverse response | Landau diamagnetism | Landau diamagnetism | Microscopic derivation of London equation | Microscopic derivation of London equation | Effect of disorder | Effect of disorder | Quasiparticles and coherence factors | Quasiparticles and coherence factors | Tunneling and Josephson effect | Tunneling and Josephson effect | Magnetism | Magnetism | Local moment magnetism | Local moment magnetism | exchange interaction | exchange interaction | Ferro- and anti-ferro magnet and spin wave theory | Ferro- and anti-ferro magnet and spin wave theory | Band magnetism | Band magnetism | Stoner theory | Stoner theory | spin density wave | spin density wave | Local moment in metals | Local moment in metals | Friedel sum rule | Friedel sum rule | Friedel-Anderson model | Friedel-Anderson model | Kondo problem | Kondo problem | Fermi liquid theory | Fermi liquid theory | Electron Green?s function | Electron Green?s function

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This course covers the concepts and physical pictures behind various phenomena that appear in interacting many-body systems. Visualization occurs through concentration on path integral, mean-field theories and semi-classical picture of fluctuations around mean-field state. This course covers the concepts and physical pictures behind various phenomena that appear in interacting many-body systems. Visualization occurs through concentration on path integral, mean-field theories and semi-classical picture of fluctuations around mean-field state.

Subjects

second quantization | second quantization | path-integrals | path-integrals | condensed matter | condensed matter | Goldstone modes | Goldstone modes | rigidity | rigidity | topological defects | topological defects | Mean field theory | Mean field theory | Landau Fermi Liquid Theory | Landau Fermi Liquid Theory | BCS superconductivity | BCS superconductivity | Quantum Phase Transitions | Quantum Phase Transitions | Renormalization group | Renormalization group | Duality transformations | Duality transformations | Luttinger Liquid Theory | Luttinger Liquid Theory | bosonization | bosonization | broken symmetry | broken symmetry | fractionalization | fractionalization | Fractional quantum Hall effect | Fractional quantum Hall effect | spin liquids | spin liquids | gauge theories in condensed matter | gauge theories in condensed matter

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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14.454 is an introduction to current macroeconomic concerns with particular emphasis on medium-run economic fluctuations, economic crises, and the role of asset markets. Topics include the explanation of high chronic unemployment in some nations, the source of modern liquidity crises, the origin and end of speculative bubbles, and the factors that lead to substantial periods of economic stagnation. 14.454 is an introduction to current macroeconomic concerns with particular emphasis on medium-run economic fluctuations, economic crises, and the role of asset markets. Topics include the explanation of high chronic unemployment in some nations, the source of modern liquidity crises, the origin and end of speculative bubbles, and the factors that lead to substantial periods of economic stagnation.

Subjects

economic equilibrium | economic equilibrium | economic crisis | economic crisis | bubbles | bubbles | ex-post trading | ex-post trading | social optimum | social optimum | trading restrictions | trading restrictions | bank runs | bank runs | market contagion | market contagion | liquidity | liquidity

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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The aim of this course is to acquaint students with traditional topics in labor economics and to encourage the development of independent research interests. This course is taught in two parts: Fall term and then in the subsequent Fall term. The aim of this course is to acquaint students with traditional topics in labor economics and to encourage the development of independent research interests. This course is taught in two parts: Fall term and then in the subsequent Fall term.

Subjects

Economics | Economics | labor | labor | market | market | statistics | statistics | theory | theory | neoclassical | neoclassical | supply | supply | model | model | life-cycle | life-cycle | demand | demand | wages | wages | immigration | immigration | human capital | human capital | econometrics | econometrics | liquidity | liquidity | constraints | constraints | mobility | mobility | incentives | incentives | organization | organization | moral hazard | moral hazard | insurance | insurance | investments | investments | efficiency | efficiency | unemployment | unemployment | search | search | jobs | jobs | training | training | capital | capital | firm | firm | technology | technology | skills | skills | risk | risk | signaling | signaling | discrimination | discrimination | self-selection | self-selection | learning | learning | natives | natives

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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This course introduces fundamental properties of the neutron. It covers reactions induced by neutrons, nuclear fission, slowing down of neutrons in infinite media, diffusion theory, the few-group approximation, point kinetics, and fission-product poisoning. It emphasizes the nuclear physics bases of reactor design and its relationship to reactor engineering problems. This course introduces fundamental properties of the neutron. It covers reactions induced by neutrons, nuclear fission, slowing down of neutrons in infinite media, diffusion theory, the few-group approximation, point kinetics, and fission-product poisoning. It emphasizes the nuclear physics bases of reactor design and its relationship to reactor engineering problems.

Subjects

reactor physics | reactor physics | neutron | neutron | reactor layout | reactor layout | binding energy | binding energy | fission | fission | neutron cross-sections | neutron cross-sections | liquid drop model | liquid drop model | neutron life cycle | neutron life cycle | criticality | criticality | accidents | accidents | neutron flux | neutron flux | neutron current | neutron current | neutron diffusion theory | neutron diffusion theory | elastic neutron scattering | elastic neutron scattering | group diffusion method | group diffusion method | subcritical multiplication | subcritical multiplication | point kinetics | point kinetics | dynamic period equation | dynamic period equation | inhour equation | inhour equation | shutdown margin | shutdown margin

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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Laboratory Chemistry (5.310) introduces experimental chemistry for students requiring a chemistry laboratory who are not majoring in chemistry. Students must have completed general chemistry (5.111) and have completed or be concurrently enrolled in the first semester of organic chemistry (5.12). The course covers principles and applications of chemical laboratory techniques, including preparation and analysis of chemical materials, measurement of pH, gas and liquid chromatography, visible-ultraviolet spectrophotometry, infrared spectroscopy, kinetics, data analysis, and elementary synthesis. NOTE: The Staff for this course would like to acknowledge that the experiments include contributions from past instructors, course textbooks, and others affiliated with course #5.310. Since the

Subjects

lab | chemistry | laboratory | experiment | pH | gas chromatography | liquid chromatography | visible-ultraviolet spectrophotometry | infrared spectroscopy | kinetics | data analysis | elementary synthesis | amino acid | ferrocene | essential oil | potentiometric titration | techniques | measurement | materials | data | analysis | elementary | synthesis | amino | acid | essential | oil | gas | chromatography | infrared | spectroscopy | liquid | potentiometric | titration | visible | ultraviolet | spectrophotometry

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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Join Dr Malcolm Stewart and Dr Fabrice Birembaut to find out just how much fun chemistry can be. Young, or not so young, you'll be entertained and educated by the sort of chemistry you never get to see at school: baffling, tantalising and LOUD! Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

science | chemical | liquid nitrogen | change | chemistry | hydrogen | explosions | balloons | science | chemical | liquid nitrogen | change | chemistry | hydrogen | explosions | balloons | 2011-12-15

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Get up close and personal with the exciting world of particle and accelerator physics. Learn how particle accelerators can do everything from recreating conditions just after the Big Bang to finding new ways to treat cancer. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

kids | explosion | particle | Physics | balloon | liquid nitrogen | atomic | atom | levitate | Hadron Collider | hydrogen | kids | explosion | particle | Physics | balloon | liquid nitrogen | atomic | atom | levitate | Hadron Collider | hydrogen | 2011-12-13

License

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

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Join Dr Malcolm Stewart and Dr Fabrice Birembaut to find out just how much fun chemistry can be. Young, or not so young, you'll be entertained and educated by the sort of chemistry you never get to see at school: baffling, tantalising and LOUD! Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

science | chemical | liquid nitrogen | change | chemistry | hydrogen | explosions | balloons | science | chemical | liquid nitrogen | change | chemistry | hydrogen | explosions | balloons | 2011-12-15

License

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

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Get up close and personal with the exciting world of particle and accelerator physics. Learn how particle accelerators can do everything from recreating conditions just after the Big Bang to finding new ways to treat cancer. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

kids | explosion | particle | Physics | balloon | liquid nitrogen | atomic | atom | levitate | Hadron Collider | hydrogen | kids | explosion | particle | Physics | balloon | liquid nitrogen | atomic | atom | levitate | Hadron Collider | hydrogen | 2011-12-13

License

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

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Wales undergraduate level and as a CPD training resource

Subjects

ukoer | sfsoer | oer | open educational resources | metadata | analytical science | cpd training resource | analytical chemistry | measurement science | analytical process model | skills for analytical science | skills for analytical chemistry | analytical sample preparation | separation and concentration of analytes | units of measurement | volumetric techniques | gravimetric techniques | calibration methods | standard-addition | method of internal-standards | statistical analysis of data | measurement uncertainty | chromatographic methods | thin layer chromatography | gc | gas chromatography | hplc | high-performance liquid chromatography | capillary electrophoresis | potentiometry | ion-selective electrodes | amperometry | coulometry | plated film thickness | electromagnetic spectrum | electronic transitions | vibrational energy | comparison of spectroscopic techniques | fluorescence spectroscopy | mid infra-red spectroscopy | near infra-red spectroscopy | aas | atomic absorption spectroscopy | atomic emission spectroscopy | inductively coupled plasme emission spectroscopy | icpms | icpes | atomic fluorescence spectroscopy | comparison of elemental analysis techniques | principles of mass spectroscopy | electron impact mass spectroscopy | chemical ionisation mass spectroscopy | quadrupole mass spectroscopy | time-of-flight mass analysers | ion-trap mass analysers | off-line sampling systems | at-line sampling systems | on-line sampling systems | in-line sampling systems | performance characteristics of analytical techniques | flow injection analysis | fia | process gc | process ir | process ms | process uv/visible | quality management | quality assurance | qa | vam principles | quality control | qc | analytical method validation | analytical method performance characteristics | sampling of solids | liquids and gases | measurement of ph | karl fischer titration | uv/visible spectroscopy | beer's law | beer-lambert law | deviations from beer's law | mid ir spectroscopy | near ir spectroscopy | raman spectroscopy | fourier transform spectroscopies | x-ray methods | x-ray fluorescence spectroscopy | gc-ms | lc-ms | Physical sciences | F000

License

Attribution-Noncommercial-No Derivative Works 2.0 UK: England & Wales Attribution-Noncommercial-No Derivative Works 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-nd/2.0/uk/ http://creativecommons.org/licenses/by-nc-nd/2.0/uk/

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