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5.310 Laboratory Chemistry (MIT) 5.310 Laboratory Chemistry (MIT)

Description

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

License

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5.46 Organic Structure Determination (MIT) 5.46 Organic Structure Determination (MIT)

Description

This course covers modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR (among others). The fundamental physical and chemical principles of each method will be discussed. The major emphasis of this course is on structure determination by way of interpreting the data (generally in the form of a spectrum or spectra) that each method provides. This course covers modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR (among others). The fundamental physical and chemical principles of each method will be discussed. The major emphasis of this course is on structure determination by way of interpreting the data (generally in the form of a spectrum or spectra) that each method provides.

Subjects

organic structure determination | organic structure determination | relative configuration | relative configuration | elemental analysis | elemental analysis | mass spectometry | mass spectometry | index of hydrogen deficiency | index of hydrogen deficiency | EA | EA | MS | MS | IHD | IHD | infrared spectroscopy | infrared spectroscopy | IR | IR | nuclear magnetic resonance spectroscopy | nuclear magnetic resonance spectroscopy | NMR | NMR | chemical equivalence | chemical equivalence | non-equivalence | non-equivalence | topicity | topicity | spin-spin splitting | spin-spin splitting | J coupling | J coupling | chemical shift | chemical shift

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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5.46 Organic Structure Determination (MIT) 5.46 Organic Structure Determination (MIT)

Description

This course covers modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR (among others). The fundamental physical and chemical principles of each method will be discussed. The major emphasis of this course is on structure determination by way of interpreting the data (generally in the form of a spectrum or spectra) that each method provides. This course covers modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR (among others). The fundamental physical and chemical principles of each method will be discussed. The major emphasis of this course is on structure determination by way of interpreting the data (generally in the form of a spectrum or spectra) that each method provides.

Subjects

organic structure determination | organic structure determination | relative configuration | relative configuration | elemental analysis | elemental analysis | mass spectometry | mass spectometry | index of hydrogen deficiency | index of hydrogen deficiency | EA | EA | MS | MS | IHD | IHD | infrared spectroscopy | infrared spectroscopy | IR | IR | nuclear magnetic resonance spectroscopy | nuclear magnetic resonance spectroscopy | NMR | NMR | chemical equivalence | chemical equivalence | non-equivalence | non-equivalence | topicity | topicity | spin-spin splitting | spin-spin splitting | J coupling | J coupling | chemical shift | chemical shift

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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5.13 Organic Chemistry II (MIT) 5.13 Organic Chemistry II (MIT)

Description

This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry. This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry.

Subjects

intermediate organic chemistry | intermediate organic chemistry | organic molecules | organic molecules | stereochemistry | stereochemistry | reaction mechanisms | reaction mechanisms | synthesis of organic compounds | synthesis of organic compounds | synthesis | synthesis | structure determination | structure determination | mechanism | mechanism | reactivity | reactivity | functional groups | functional groups | NMR | NMR | spectroscopy | spectroscopy | spectrometry | spectrometry | structure elucidation | structure elucidation | infrared spectroscopy | infrared spectroscopy | nuclear magnetic resonance spectroscopy | nuclear magnetic resonance spectroscopy | reactive intermediates | reactive intermediates | carbocations | carbocations | radicals | radicals | aromaticity | aromaticity | conjugated systems | conjugated systems | molecular orbital theory | molecular orbital theory | pericyclic reactions | pericyclic reactions

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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Galactic Get-Together has Impressive Light Display Galactic Get-Together has Impressive Light Display

Description

Subjects

optical | optical | nasa | nasa | galaxy | galaxy | xray | xray | infrared | infrared | astronomy | astronomy | chandra | chandra | hubble | hubble | spitzer | spitzer | ulx | ulx | ngc2207 | ngc2207 | chandraxrayobservatory | chandraxrayobservatory

License

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5.310 Laboratory Chemistry (MIT)

Description

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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NASA's Chandra Delivers New Insight into Formation of Star Clusters NASA's Chandra Delivers New Insight into Formation of Star Clusters

Description

Subjects

star | star | nasa | nasa | xray | xray | infrared | infrared | astronomy | astronomy | chandra | chandra | spitzer | spitzer | starcluster | starcluster | flamenebula | flamenebula | chandraxrayobservatory | chandraxrayobservatory

License

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5.310 Laboratory Chemistry (MIT)

Description

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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Canoe trip - Florida Canoe trip - Florida

Description

Subjects

florida | florida | couples | couples | canoes | canoes | canoeing | canoeing | paddling | paddling | infraredphotography | infraredphotography

License

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1.101 Introduction to Civil and Environmental Engineering Design I (MIT) 1.101 Introduction to Civil and Environmental Engineering Design I (MIT)

Description

This sophomore-level course is a project-oriented introduction to the principles and practice of engineering design. Design projects and exercises are chosen that relate to the built and natural environments. Emphasis is placed on achieving function and sustainability through choice of materials and processes, compatibility with natural cycles, and the use of active or adaptive systems. The course also encourages development of hands-on skills, teamwork, and communication; exercises and projects engage students in the building, implementation, and testing of their designs. This sophomore-level course is a project-oriented introduction to the principles and practice of engineering design. Design projects and exercises are chosen that relate to the built and natural environments. Emphasis is placed on achieving function and sustainability through choice of materials and processes, compatibility with natural cycles, and the use of active or adaptive systems. The course also encourages development of hands-on skills, teamwork, and communication; exercises and projects engage students in the building, implementation, and testing of their designs.

Subjects

Design | Design | water resources | water resources | water treatment | water treatment | structures | structures | structural design | structural design | fabrication | fabrication | testing | testing | hardware | hardware | laboratory experiments | laboratory experiments | pH | pH | neutralization | neutralization | hydraulic conductivity | hydraulic conductivity | porosity | porosity | truss | truss | tension | tension | beam bending | beam bending | beam buckling | beam buckling | thermal design | thermal design | heating | heating | cooling | cooling | thermal infrared camera | thermal infrared camera | thermal IR imaging | thermal IR imaging | heat loss | heat loss

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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TIROS, America's First Meteorological Satellite TIROS, America's First Meteorological Satellite

Description

Subjects

weather | weather | tiros | tiros | gsfc | gsfc | goddardspaceflightcenter | goddardspaceflightcenter | armysignalcorps | armysignalcorps | televisoninfraredobservationsatellite | televisoninfraredobservationsatellite

License

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Road lined with palm trees, Boca Grande, Florida

Description

Subjects

trees | palms | florida | roads | automobiles | bocagrande | infraredphotography | leecountyflorida | infraredphotographs

License

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Cypress trees in the water

Description

Subjects

florida | lakes | cypresstrees | infraredphotography | taxodium | infraredphotographs

License

No known copyright restrictions

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2.58J Radiative Transfer (MIT) 2.58J Radiative Transfer (MIT)

Description

This course investigates the principles of thermal radiation and their applications to engineering heat and photon transfer problems. Topics include quantum and classical models of radiative properties of materials, electromagnetic wave theory for thermal radiation, radiative transfer in absorbing, emitting, and scattering media, and coherent laser radiation. Applications cover laser-material interactions, imaging, infrared instrumentation, global warming, semiconductor manufacturing, combustion, furnaces, and high temperature processing. This course investigates the principles of thermal radiation and their applications to engineering heat and photon transfer problems. Topics include quantum and classical models of radiative properties of materials, electromagnetic wave theory for thermal radiation, radiative transfer in absorbing, emitting, and scattering media, and coherent laser radiation. Applications cover laser-material interactions, imaging, infrared instrumentation, global warming, semiconductor manufacturing, combustion, furnaces, and high temperature processing.

Subjects

thermal radiation | thermal radiation | heat transfer | heat transfer | photon transfer | photon transfer | quantum modeling | quantum modeling | materials | materials | electromagnetic | electromagnetic | absorption | absorption | emitting media | emitting media | scattering | scattering | laser | laser | imaging | imaging | infrared | infrared | global warming | global warming | semiconductor manufacturing | semiconductor manufacturing | combustion | combustion | furnace | furnace | high temperature processing | high temperature processing | Drude | Drude | Lorenz | Lorenz | gas | gas | dielectric | dielectric | Monte Carlo | Monte Carlo | simulation | simulation | solar energy | solar energy | solar power | solar power | solar cell | solar cell | 2.58 | 2.58 | 10.74 | 10.74

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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Hubble Unveils a Galaxy in Living Color

Description

Subjects

galaxy | infrared | visible | filters | ultraviolet | ngc1512

License

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Clouds over Brighton Reservation, Florida

Description

Subjects

trees | clouds | florida | bridges | fences | streams | infraredphotography | gladescounty | brightonreservation

License

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Bridge over Homosassa River - Homosass Springs, Florida

Description

Subjects

trees | clouds | florida | bridges | homosassasprings | infraredphotography | homosassariver

License

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Giant Twisters in the Lagoon Nebula

Description

Subjects

sagittarius | galaxy | hst | hubblespacetelescope | lagoonnebula | stis | wfpc | widefieldplanetarycamera2 | spacetelescopeimagingspectrograph | nicmos | oherschel36 | nearinfraredcameraandmultiobjectspectrometer

License

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2.58J Radiative Transfer (MIT)

Description

This course investigates the principles of thermal radiation and their applications to engineering heat and photon transfer problems. Topics include quantum and classical models of radiative properties of materials, electromagnetic wave theory for thermal radiation, radiative transfer in absorbing, emitting, and scattering media, and coherent laser radiation. Applications cover laser-material interactions, imaging, infrared instrumentation, global warming, semiconductor manufacturing, combustion, furnaces, and high temperature processing.

Subjects

thermal radiation | heat transfer | photon transfer | quantum modeling | materials | electromagnetic | absorption | emitting media | scattering | laser | imaging | infrared | global warming | semiconductor manufacturing | combustion | furnace | high temperature processing | Drude | Lorenz | gas | dielectric | Monte Carlo | simulation | solar energy | solar power | solar cell | 2.58 | 10.74

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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Automatic Picture Transmission

Description

Subjects

apt | nimbus | cloudphotographs | avcs | advancedvidiconcamerasubsystem | automaticpicturetransmission | hrir | highresolutioninfraredradiometer

License

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5.13 Organic Chemistry II (MIT)

Description

This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry.

Subjects

intermediate organic chemistry | organic molecules | stereochemistry | reaction mechanisms | synthesis of organic compounds | synthesis | structure determination | mechanism | reactivity | functional groups | NMR | spectroscopy | spectrometry | structure elucidation | infrared spectroscopy | nuclear magnetic resonance spectroscopy | reactive intermediates | carbocations | radicals | aromaticity | conjugated systems | molecular orbital theory | pericyclic reactions

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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5.13 Organic Chemistry II (MIT)

Description

This intermediate organic chemistry course focuses on the methods used to identify the structure of organic molecules, advanced principles of organic stereochemistry, organic reaction mechanisms, and methods used for the synthesis of organic compounds. Additional special topics include illustrating the role of organic chemistry in biology, medicine, and industry.

Subjects

intermediate organic chemistry | organic molecules | stereochemistry | reaction mechanisms | synthesis of organic compounds | synthesis | structure determination | mechanism | reactivity | functional groups | NMR | spectroscopy | spectrometry | structure elucidation | infrared spectroscopy | nuclear magnetic resonance spectroscopy | reactive intermediates | carbocations | radicals | aromaticity | conjugated systems | molecular orbital theory | pericyclic reactions

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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5.46 Organic Structure Determination (MIT)

Description

This course covers modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR (among others). The fundamental physical and chemical principles of each method will be discussed. The major emphasis of this course is on structure determination by way of interpreting the data (generally in the form of a spectrum or spectra) that each method provides.

Subjects

organic structure determination | relative configuration | elemental analysis | mass spectometry | index of hydrogen deficiency | EA | MS | IHD | infrared spectroscopy | IR | nuclear magnetic resonance spectroscopy | NMR | chemical equivalence | non-equivalence | topicity | spin-spin splitting | J coupling | chemical shift

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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Introduction to Molecular Spectroscopy

Description

This guide provides an introduction to the different types of molecular spectroscopic analysis, describing the basic principles of each technique and practical considerations including sample preparation. It is illustrated with simple diagrams, photographs of equipment and information to aid interpretation of spectra.

Subjects

ukoer | sfsoer | spectroscopy | molecular | absorption | infrared | fluorescence | mass spectrometry | analytical | uv-vis | ftir | ft-ir | ms | nmr | 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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5.46 Organic Structure Determination (MIT)

Description

This course covers modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR (among others). The fundamental physical and chemical principles of each method will be discussed. The major emphasis of this course is on structure determination by way of interpreting the data (generally in the form of a spectrum or spectra) that each method provides.

Subjects

organic structure determination | relative configuration | elemental analysis | mass spectometry | index of hydrogen deficiency | EA | MS | IHD | infrared spectroscopy | IR | nuclear magnetic resonance spectroscopy | NMR | chemical equivalence | non-equivalence | topicity | spin-spin splitting | J coupling | chemical shift

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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