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1.84J Atmospheric Chemistry (MIT) 1.84J Atmospheric Chemistry (MIT)

Description

This course provides a detailed overview of the chemical transformations that control the abundances of key trace species in the Earth's atmosphere. Emphasizes the effects of human activity on air quality and climate. Topics include photochemistry, kinetics, and thermodynamics important to the chemistry of the atmosphere; stratospheric ozone depletion; oxidation chemistry of the troposphere; photochemical smog; aerosol chemistry; and sources and sinks of greenhouse gases and other climate forcers. This course provides a detailed overview of the chemical transformations that control the abundances of key trace species in the Earth's atmosphere. Emphasizes the effects of human activity on air quality and climate. Topics include photochemistry, kinetics, and thermodynamics important to the chemistry of the atmosphere; stratospheric ozone depletion; oxidation chemistry of the troposphere; photochemical smog; aerosol chemistry; and sources and sinks of greenhouse gases and other climate forcers.

Subjects

Photochemistry | Photochemistry | specstrocopy | specstrocopy | chemical kinetics | chemical kinetics | stratospheric chemistry | stratospheric chemistry | tropospheric chemistry | tropospheric chemistry | reactive nitrogen chemistry | reactive nitrogen chemistry | oxidized chemistry | oxidized chemistry | aerosol chemistry | aerosol chemistry | atmospheric aqueous chemistry | atmospheric aqueous chemistry | climate change | climate change | acid rain | acid rain | ozone pollution | ozone pollution

License

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5.302 Introduction to Experimental Chemistry (MIT) 5.302 Introduction to Experimental Chemistry (MIT)

Description

5.302 is a 3-unit course intended to provide freshmen with a stimulating and enjoyable "hands-on" experience with chemical phenomena. The aim of this course is to provide freshmen with an opportunity to get "up close and personal" with the chemical phenomena introduced in 5.111, 5.112 and 3.091. Interesting and dramatic experiments have been selected to illustrate and reinforce the concepts and principles introduced in the chemistry core lecture courses.   WARNING NOTICE The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedur 5.302 is a 3-unit course intended to provide freshmen with a stimulating and enjoyable "hands-on" experience with chemical phenomena. The aim of this course is to provide freshmen with an opportunity to get "up close and personal" with the chemical phenomena introduced in 5.111, 5.112 and 3.091. Interesting and dramatic experiments have been selected to illustrate and reinforce the concepts and principles introduced in the chemistry core lecture courses.   WARNING NOTICE The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedur

Subjects

experimental chemistry | experimental chemistry | chemistry experiments | chemistry experiments | chemical equilibrium | chemical equilibrium | coordination chemistry | coordination chemistry | solubility equilibrium | solubility equilibrium | redox chemistry | redox chemistry | Tollen's test | Tollen's test | chemical kinetics | chemical kinetics | iodine clock | iodine clock | nylon 6-10 | nylon 6-10 | methyl orange | methyl orange

License

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5.05 Principles of Inorganic Chemistry III (MIT) 5.05 Principles of Inorganic Chemistry III (MIT)

Description

This course covers the principles of main group (s and p block) element chemistry with an emphasis on synthesis, structure, bonding, and reaction mechanisms. This course covers the principles of main group (s and p block) element chemistry with an emphasis on synthesis, structure, bonding, and reaction mechanisms.

Subjects

inorganic chemistry | inorganic chemistry | main group element chemistry | main group element chemistry | chemical synthesis | chemical synthesis | chemical structure | chemical structure | bonding | bonding | reaction mechanisms | reaction mechanisms | aluminum chemistry | aluminum chemistry | s block | s block | p block | p block | interatomic distance | interatomic distance | lewis structure | lewis structure | partitions space | partitions space | Density Functional Theory | Density Functional Theory | NMR spectroscopy | NMR spectroscopy | spin-orbit coupling | spin-orbit coupling | spin-spin coupling | spin-spin coupling | relativistic effects | relativistic effects | spin-orbit effects | spin-orbit effects | noble gas chemistry | noble gas chemistry | chemical reaction products | chemical reaction products

License

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1.84J Atmospheric Chemistry (MIT)

Description

This course provides a detailed overview of the chemical transformations that control the abundances of key trace species in the Earth's atmosphere. Emphasizes the effects of human activity on air quality and climate. Topics include photochemistry, kinetics, and thermodynamics important to the chemistry of the atmosphere; stratospheric ozone depletion; oxidation chemistry of the troposphere; photochemical smog; aerosol chemistry; and sources and sinks of greenhouse gases and other climate forcers.

Subjects

Photochemistry | specstrocopy | chemical kinetics | stratospheric chemistry | tropospheric chemistry | reactive nitrogen chemistry | oxidized chemistry | aerosol chemistry | atmospheric aqueous chemistry | climate change | acid rain | ozone pollution

License

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5.61 Physical Chemistry (MIT) 5.61 Physical Chemistry (MIT)

Description

This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems -- the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, spectroscopy.AcknowledgementsThe material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW was prepa This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems -- the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, spectroscopy.AcknowledgementsThe material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW was prepa

Subjects

physical chemistry | physical chemistry | quantum mechanics | quantum mechanics | quantum chemistry | quantum chemistry | particles and waves; wave mechanics | particles and waves; wave mechanics | atomic structure | atomic structure | valence orbital | valence orbital | molecular orbital theory | molecular orbital theory | molecular structure | molecular structure | photochemistry | photochemistry | particles and waves | wave mechanics | particles and waves | wave mechanics

License

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5.33 Advanced Chemical Experimentation and Instrumentation (MIT) 5.33 Advanced Chemical Experimentation and Instrumentation (MIT)

Description

5.33 focuses on advanced experimentation, with particular emphasis on chemical synthesis and the fundamentals of quantum chemistry, illustrated through molecular spectroscopy. The written and oral presentation of experimental results is also emphasized in the course.WARNING NOTICE:The experiments described in these materials are potentially hazardous andrequire a high level of safety training, special facilities and equipment, and supervision by appropriateindividuals. You bear the sole responsibility, liability, and risk for the implementation of such safetyprocedures and measures. MIT shall have no responsibility, liability, or risk for the content or implementationof any of the material presented.Legal Notice<br clear="all&gt;&lt;br clear=" all="all" /> 5.33 focuses on advanced experimentation, with particular emphasis on chemical synthesis and the fundamentals of quantum chemistry, illustrated through molecular spectroscopy. The written and oral presentation of experimental results is also emphasized in the course.WARNING NOTICE:The experiments described in these materials are potentially hazardous andrequire a high level of safety training, special facilities and equipment, and supervision by appropriateindividuals. You bear the sole responsibility, liability, and risk for the implementation of such safetyprocedures and measures. MIT shall have no responsibility, liability, or risk for the content or implementationof any of the material presented.Legal Notice<br clear="all&gt;&lt;br clear=" all="all" />

Subjects

advanced chemical experimentation | advanced chemical experimentation | Instrumentation | Instrumentation | experiment | experiment | chemistry | chemistry | laboratory | laboratory | integrated chemisty laboratory | integrated chemisty laboratory | chemical synthesis | chemical synthesis | quantum chemistry | quantum chemistry | molecular spectroscopy | molecular spectroscopy

License

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5.111 Principles of Chemical Science (MIT) 5.111 Principles of Chemical Science (MIT)

Description

This course provides an introduction to the chemistry of biological, inorganic, and organic molecules. The emphasis is on basic principles of atomic and molecular electronic structure, thermodynamics, acid-base and redox equilibria, chemical kinetics, and catalysis. In an effort to illuminate connections between chemistry and biology, a list of the biology-, medicine-, and MIT research-related examples used in 5.111 is provided in Biology-Related Examples. Acknowledgements Development and implementation of the biology-related materials in this course were funded through an HHMI Professors grant to Prof. Catherine L. Drennan. This course provides an introduction to the chemistry of biological, inorganic, and organic molecules. The emphasis is on basic principles of atomic and molecular electronic structure, thermodynamics, acid-base and redox equilibria, chemical kinetics, and catalysis. In an effort to illuminate connections between chemistry and biology, a list of the biology-, medicine-, and MIT research-related examples used in 5.111 is provided in Biology-Related Examples. Acknowledgements Development and implementation of the biology-related materials in this course were funded through an HHMI Professors grant to Prof. Catherine L. Drennan.

Subjects

introductory chemistry | introductory chemistry | atomic structure | atomic structure | molecular electronic structure | molecular electronic structure | thermodynamics | thermodynamics | acid-base equillibrium | acid-base equillibrium | titration | titration | redox | redox | chemical kinetics | chemical kinetics | catalysis | catalysis | lewis structures | lewis structures | VSEPR theory | VSEPR theory | wave-particle duality | wave-particle duality | biochemistry | biochemistry | orbitals | orbitals | periodic trends | periodic trends | general chemistry | general chemistry | valence bond theory | valence bond theory | hybridization | hybridization | free energy | free energy | reaction mechanism | reaction mechanism | Rutherford backscattering | Rutherford backscattering

License

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5.61 Physical Chemistry (MIT) 5.61 Physical Chemistry (MIT)

Description

This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems — the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, spectroscopy. Acknowledgements The material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW wa This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems — the particle in a box, the harmonic oscillator, the rigid rotor and the hydrogen atom. The lectures continue with a discussion of atomic structure and the Periodic Table. The final lectures cover applications to chemical bonding including valence bond and molecular orbital theory, molecular structure, spectroscopy. Acknowledgements The material for 5.61 has evolved over a period of many years, and, accordingly, several faculty members have contributed to the development of the course contents. The original version of the lecture notes that are available on OCW wa

Subjects

physical chemistry | physical chemistry | quantum mechanics | quantum mechanics | quantum chemistry | quantum chemistry | particles and waves | particles and waves | wave mechanics | wave mechanics | atomic structure | atomic structure | valence orbital | valence orbital | molecular orbital theory | molecular orbital theory | molecular structure | molecular structure | photochemistry | photochemistry | tunneling | tunneling | spherical harmonics | spherical harmonics | rigid rotor | rigid rotor | perturbation theory | perturbation theory | oscillators | oscillators | hartree-fock | hartree-fock | LCAO | LCAO

License

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5.311 Introductory Chemical Experimentation (MIT) 5.311 Introductory Chemical Experimentation (MIT)

Description

5.311 is the first of a three-term laboratory subject sequence for chemistry majors. Experimental work emphasizes development of fundamental laboratory skills and techniques: volumetric and colorimetric analysis; nuclear magnetic resonance; preparation, purification, and characterization of chemical substances; and data analysis. Acknowledgements The experiments for 5.311 have evolved over a period of many years and include contributions from past instructors, course textbooks, and others affiliated with the course. Thus for many of the lab documents, no single source can be attributed. WARNING NOTICE The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individual 5.311 is the first of a three-term laboratory subject sequence for chemistry majors. Experimental work emphasizes development of fundamental laboratory skills and techniques: volumetric and colorimetric analysis; nuclear magnetic resonance; preparation, purification, and characterization of chemical substances; and data analysis. Acknowledgements The experiments for 5.311 have evolved over a period of many years and include contributions from past instructors, course textbooks, and others affiliated with the course. Thus for many of the lab documents, no single source can be attributed. WARNING NOTICE The experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individual

Subjects

introductory chemistry lab | introductory chemistry lab | chemistry lab techniques | chemistry lab techniques | chemistry laboratory techniques | chemistry laboratory techniques | NMR | NMR | ferrocene | ferrocene | kinetics | kinetics | proton NMR | proton NMR | aromatic carboxylic acid | aromatic carboxylic acid | identifying unknown compounds | identifying unknown compounds | acetylferrocene | acetylferrocene | synthesis | synthesis | chromatography | chromatography | TLC | TLC | sublimation | sublimation

License

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Chemistry Chemistry

Description

The overall objective is that students acquire the basic knowledge of the main branches of Chemistry. This course provides an introduction to Chemistry and is mainly focused on the following topics: States of matter, Chemical Bonding, Thermochemistry, Chemical kinetics and Chemical equilibrium The overall objective is that students acquire the basic knowledge of the main branches of Chemistry. This course provides an introduction to Chemistry and is mainly focused on the following topics: States of matter, Chemical Bonding, Thermochemistry, Chemical kinetics and Chemical equilibrium

Subjects

mica Fsica | mica Fsica | a Industrial | a Industrial | General Chemistry | General Chemistry | Kinetics | Kinetics | Product | Product | Gases | Gases | Bonding | Bonding | Matter | Matter | Solids | Solids | Liquids | Liquids | Acid-Base | Acid-Base | Atom | Atom | 2010 | 2010 | pH | pH | Solubility | Solubility | Electrochemistry | Electrochemistry | Thermochemistry | Thermochemistry | Equilibrium | Equilibrium

License

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

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5.301 Chemistry Laboratory Techniques (MIT) 5.301 Chemistry Laboratory Techniques (MIT)

Description

This course is an intensive introduction to the techniques of experimental chemistry and gives first year students an opportunity to learn and master the basic chemistry lab techniques for carrying out experiments. Students who successfully complete the course and obtain a "Competent Chemist" (CC) or "Expert Experimentalist" (EE) rating are likely to secure opportunities for research work in a chemistry lab at MIT. Acknowledgements The laboratory manual and materials for this course were prepared by Dr. Katherine J. Franz and Dr. Kevin M. Shea with the assistance of Professors Rick L. Danheiser and Timothy M. Swager. Materials have been revised by Dr. J. Haseltine, Dr. Kevin M. Shea, and Dr. Sarah A. Tabacco. WARNING NOTICE The experiments described in these materials a This course is an intensive introduction to the techniques of experimental chemistry and gives first year students an opportunity to learn and master the basic chemistry lab techniques for carrying out experiments. Students who successfully complete the course and obtain a "Competent Chemist" (CC) or "Expert Experimentalist" (EE) rating are likely to secure opportunities for research work in a chemistry lab at MIT. Acknowledgements The laboratory manual and materials for this course were prepared by Dr. Katherine J. Franz and Dr. Kevin M. Shea with the assistance of Professors Rick L. Danheiser and Timothy M. Swager. Materials have been revised by Dr. J. Haseltine, Dr. Kevin M. Shea, and Dr. Sarah A. Tabacco. WARNING NOTICE The experiments described in these materials a

Subjects

chemistry | chemistry | experiment | experiment | laboratory techniques | laboratory techniques | purification | purification | transfer and extraction | transfer and extraction | column chromatography | column chromatography | protein assays | protein assays | error analysis | error analysis | NMR | NMR | IR | IR | gas chromatography | gas chromatography | spectroscopy | spectroscopy | UV-Vis | UV-Vis | experimental chemistry | experimental chemistry | original research projects | original research projects

License

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3.091 Introduction to Solid State Chemistry (MIT) 3.091 Introduction to Solid State Chemistry (MIT)

Description

This course explores the basic principles of chemistry and their application to engineering systems. It deals with the relationship between electronic structure, chemical bonding, and atomic order. It also investigates the characterization of atomic arrangements in crystalline and amorphous solids: metals, ceramics, semiconductors, and polymers (including proteins). Topics covered include organic chemistry, solution chemistry, acid-base equilibria, electrochemistry, biochemistry, chemical kinetics, diffusion, and phase diagrams. Examples are drawn from industrial practice (including the environmental impact of chemical processes), from energy generation and storage, e.g., batteries and fuel cells, and from emerging technologies, e.g., photonic and biomedical devices. This course explores the basic principles of chemistry and their application to engineering systems. It deals with the relationship between electronic structure, chemical bonding, and atomic order. It also investigates the characterization of atomic arrangements in crystalline and amorphous solids: metals, ceramics, semiconductors, and polymers (including proteins). Topics covered include organic chemistry, solution chemistry, acid-base equilibria, electrochemistry, biochemistry, chemical kinetics, diffusion, and phase diagrams. Examples are drawn from industrial practice (including the environmental impact of chemical processes), from energy generation and storage, e.g., batteries and fuel cells, and from emerging technologies, e.g., photonic and biomedical devices.

Subjects

solid state chemistry; electronic structure; chemical bonding; crystal structure; atomic and molecular arrangements; crystalline and amorphous solids | solid state chemistry; electronic structure; chemical bonding; crystal structure; atomic and molecular arrangements; crystalline and amorphous solids | solid state chemistry | solid state chemistry | electronic structure | electronic structure | chemical bonding | chemical bonding | crystal structure | crystal structure | atomic and molecular arrangements | atomic and molecular arrangements | crystalline and amorphous solids | crystalline and amorphous solids

License

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12.119 Analytical Techniques for Studying Environmental and Geologic Samples (MIT) 12.119 Analytical Techniques for Studying Environmental and Geologic Samples (MIT)

Description

This is a laboratory course supplemented by lectures that focus on selected analytical facilities that are commonly used to determine the mineralogy, elemental abundance and isotopic ratios of Sr and Pb in rocks, soils, sediments and water. This is a laboratory course supplemented by lectures that focus on selected analytical facilities that are commonly used to determine the mineralogy, elemental abundance and isotopic ratios of Sr and Pb in rocks, soils, sediments and water.

Subjects

Anthropogenic Geochemistry | Anthropogenic Geochemistry | Isotopic Geochemistry | Isotopic Geochemistry | Error Analysis | Error Analysis | Electron Microprobe | Electron Microprobe | Neutron Activation Analysis | Neutron Activation Analysis | Atomic Absorption | Atomic Absorption | Inductively Coupled Plasma Mass Spectrometry | Inductively Coupled Plasma Mass Spectrometry | Thermal Ionization Mass Spectrometry | Thermal Ionization Mass Spectrometry

License

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

Description

5.13 is an intermediate organic chemistry course that deals primarily with synthesis, structure determination, mechanism, and the relationships between structure and reactivity emphasized. Special topics in organic chemistry are included to illustrate the role of organic chemistry in biological systems, medicine, and in the chemical industry. 5.13 is an intermediate organic chemistry course that deals primarily with synthesis, structure determination, mechanism, and the relationships between structure and reactivity emphasized. Special topics in organic chemistry are included to illustrate the role of organic chemistry in biological systems, medicine, and in the chemical industry.

Subjects

intermediate organic chemistry | intermediate organic chemistry | organic | organic | 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 | structure | structure | reactivity | reactivity

License

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12.740 Paleoceanography (MIT) 12.740 Paleoceanography (MIT)

Description

This class examines tools, data, and ideas related to past climate changes as seen in marine, ice core, and continental records. The most recent climate changes (mainly the past 500,000 years, ranging up to about 2 million years ago) will be emphasized. Quantitative tools for the examination of paleoceanographic data will be introduced (statistics, factor analysis, time series analysis, simple climatology). This class examines tools, data, and ideas related to past climate changes as seen in marine, ice core, and continental records. The most recent climate changes (mainly the past 500,000 years, ranging up to about 2 million years ago) will be emphasized. Quantitative tools for the examination of paleoceanographic data will be introduced (statistics, factor analysis, time series analysis, simple climatology).

Subjects

history of the earth-surface environment | history of the earth-surface environment | deep-sea sediments | deep-sea sediments | ice cores | ice cores | corals | corals | Micropaleontological | Micropaleontological | isotopic | isotopic | geochemical | and mineralogical changes | geochemical | and mineralogical changes | seawater composition | seawater composition | atmospheric chemistry | atmospheric chemistry | climate | climate | ocean temperature | ocean temperature | circulation | circulation | chemistry | chemistry | glacial/interglacial cycles | glacial/interglacial cycles | orbital forcing | orbital forcing | climate change | climate change | marine records | marine records | ice core records | ice core records | continental records | continental records | paleoceanographic data | paleoceanographic data | statistics | statistics | factor analysis | factor analysis | time series analysis | time series analysis | simple climatology | simple climatology | geochemical changes | geochemical changes | mineralogical changes | mineralogical changes | glacial cycles | glacial cycles | intergalacial cycles | intergalacial cycles | earth-surface environment | earth-surface environment | environmental history | environmental history | Oxygen Isotope | Oxygen Isotope | Coral Reefs | Coral Reefs | Paleoceanography | Paleoceanography | Paleoclimatology | Paleoclimatology | Paleothermometry | Paleothermometry | Atmospheric Carbon Dioxide | Atmospheric Carbon Dioxide | Ocean Chemistry | Ocean Chemistry | Salinity | Salinity

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5.62 Physical Chemistry II (MIT) 5.62 Physical Chemistry II (MIT)

Description

This subject deals primarily with elementary statistical mechanics, transport properties, kinetic theory, solid state, reaction rate theory, and chemical reaction dynamics.AcknowledgementsThe lecture note materials for this course include contributions from Professor Sylvia T. Ceyer. The Staff for this course would like to acknowledge that these course materials include contributions from past instructors, textbooks, and other members of the MIT Chemistry Department affiliated with course #5.62. Since the following works have evolved over a period of many years, no single source can be attributed. This subject deals primarily with elementary statistical mechanics, transport properties, kinetic theory, solid state, reaction rate theory, and chemical reaction dynamics.AcknowledgementsThe lecture note materials for this course include contributions from Professor Sylvia T. Ceyer. The Staff for this course would like to acknowledge that these course materials include contributions from past instructors, textbooks, and other members of the MIT Chemistry Department affiliated with course #5.62. Since the following works have evolved over a period of many years, no single source can be attributed.

Subjects

physical chemistry | physical chemistry | partition functions | partition functions | atomic degrees of freedom | atomic degrees of freedom | molecular degrees of freedom | molecular degrees of freedom | chemical equilibrium | chemical equilibrium | thermodynamics | thermodynamics | intermolecular potentials | intermolecular potentials | equations of state | equations of state | solid state chemistry | solid state chemistry | einstein and debye solids | einstein and debye solids | kinetic theory | kinetic theory | rate theory | rate theory | chemical kinetics | chemical kinetics | transition state theory | transition state theory | RRKM theory | RRKM theory | collision theory | collision theory | equipartition | equipartition | fermi-dirac statistics | fermi-dirac statistics | boltzmann statistics | boltzmann statistics | bose-einstein statistics | bose-einstein statistics | statistical mechanics | statistical mechanics

License

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5.33 Advanced Chemical Experimentation and Instrumentation (MIT) 5.33 Advanced Chemical Experimentation and Instrumentation (MIT)

Description

5.33 focuses on advanced experimentation, with particular emphasis on chemical synthesis and the fundamentals of quantum chemistry, illustrated through molecular spectroscopy. The written and oral presentation of experimental results is also emphasized in the course.AcknowledgementsThe materials for 5.33 reflect the work of many faculty members associated with this course over the years.&nbsp;WARNING NOTICEThe experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedures and measures. MIT shall have no responsibility, liability, or risk for the content or imp 5.33 focuses on advanced experimentation, with particular emphasis on chemical synthesis and the fundamentals of quantum chemistry, illustrated through molecular spectroscopy. The written and oral presentation of experimental results is also emphasized in the course.AcknowledgementsThe materials for 5.33 reflect the work of many faculty members associated with this course over the years.&nbsp;WARNING NOTICEThe experiments described in these materials are potentially hazardous and require a high level of safety training, special facilities and equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedures and measures. MIT shall have no responsibility, liability, or risk for the content or imp

Subjects

advance chemical experimentation | advance chemical experimentation | chemistry laboratory | chemistry laboratory | chemistry lab | chemistry lab | molecular spectroscopy | molecular spectroscopy | acetylene | acetylene | magnetic resonance spectroscopy | magnetic resonance spectroscopy | ESR | ESR | time-resolved | time-resolved | electronic spectroscopy | electronic spectroscopy | nitrogen scission | nitrogen scission | molybdenum (III) xylidine | molybdenum (III) xylidine

License

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BE.440 Analysis of Biological Networks (MIT) BE.440 Analysis of Biological Networks (MIT)

Description

This class analyzes complex biological processes from the molecular, cellular, extracellular, and organ levels of hierarchy. Emphasis is placed on the basic biochemical and biophysical principles that govern these processes. Examples of processes to be studied include chemotaxis, the fixation of nitrogen into organic biological molecules, growth factor and hormone mediated signaling cascades, and signaling cascades leading to cell death in response to DNA damage. In each case, the availability of a resource, or the presence of a stimulus, results in some biochemical pathways being turned on while others are turned off. The course examines the dynamic aspects of these processes and details how biochemical mechanistic themes impinge on molecular/cellular/tissue/organ-level functions. Chemica This class analyzes complex biological processes from the molecular, cellular, extracellular, and organ levels of hierarchy. Emphasis is placed on the basic biochemical and biophysical principles that govern these processes. Examples of processes to be studied include chemotaxis, the fixation of nitrogen into organic biological molecules, growth factor and hormone mediated signaling cascades, and signaling cascades leading to cell death in response to DNA damage. In each case, the availability of a resource, or the presence of a stimulus, results in some biochemical pathways being turned on while others are turned off. The course examines the dynamic aspects of these processes and details how biochemical mechanistic themes impinge on molecular/cellular/tissue/organ-level functions. Chemica

Subjects

systems | systems | networks | networks | biochemistry | biochemistry | biology | biology | chemistry | chemistry | chemotaxis | chemotaxis | lactation | lactation | interferon | interferon | response | response | DNA | DNA | replication | replication | translation | translation | transcription | transcription | RNA | RNA | IFN | IFN | signals | signals | signaling | signaling | cellular | cellular | receptor | receptor

License

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12.740 Paleoceanography (MIT) 12.740 Paleoceanography (MIT)

Description

This class examines tools, data, and ideas related to past climate changes as seen in marine, ice core, and continental records. The most recent climate changes (mainly the past 500,000 years, ranging up to about 2 million years ago) will be emphasized. Quantitative tools for the examination of paleoceanographic data will be introduced (statistics, factor analysis, time series analysis, simple climatology).Technical RequirementsMicrosoft&reg; Excel software&nbsp;is recommended for viewing the .xls files found on this course site. Free&nbsp;Microsoft&reg; Excel viewer software&nbsp;can also be used to view the .xls files. This class examines tools, data, and ideas related to past climate changes as seen in marine, ice core, and continental records. The most recent climate changes (mainly the past 500,000 years, ranging up to about 2 million years ago) will be emphasized. Quantitative tools for the examination of paleoceanographic data will be introduced (statistics, factor analysis, time series analysis, simple climatology).Technical RequirementsMicrosoft&reg; Excel software&nbsp;is recommended for viewing the .xls files found on this course site. Free&nbsp;Microsoft&reg; Excel viewer software&nbsp;can also be used to view the .xls files.

Subjects

history of the earth-surface environment | history of the earth-surface environment | deep-sea sediments | deep-sea sediments | ice cores | ice cores | corals | corals | Micropaleontological | Micropaleontological | isotopic | isotopic | geochemical | geochemical | and mineralogical changes | and mineralogical changes | seawater composition | seawater composition | atmospheric chemistry | atmospheric chemistry | climate | climate | ocean temperature | ocean temperature | circulation | circulation | chemistry | chemistry | glacial/interglacial cycles | glacial/interglacial cycles | orbital forcing | orbital forcing | geochemical | and mineralogical changes | geochemical | and mineralogical changes | 5. Micropaleontological | isotopic | geochemical | and mineralogical changes | 5. Micropaleontological | isotopic | geochemical | and mineralogical changes | Micropaleontological | isotopic | geochemical | and mineralogical changes | Micropaleontological | isotopic | geochemical | and mineralogical changes

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12.740 Paleoceanography (MIT) 12.740 Paleoceanography (MIT)

Description

This class examines tools, data, and ideas related to past climate changes as seen in marine, ice core, and continental records. The most recent climate changes (mainly the past 500,000 years, ranging up to about 2 million years ago) will be emphasized. Quantitative tools for the examination of paleoceanographic data will be introduced (statistics, factor analysis, time series analysis, simple climatology). This class examines tools, data, and ideas related to past climate changes as seen in marine, ice core, and continental records. The most recent climate changes (mainly the past 500,000 years, ranging up to about 2 million years ago) will be emphasized. Quantitative tools for the examination of paleoceanographic data will be introduced (statistics, factor analysis, time series analysis, simple climatology).

Subjects

history of the earth-surface environment | history of the earth-surface environment | deep-sea sediments | deep-sea sediments | ice cores | ice cores | corals | corals | Micropaleontological | Micropaleontological | isotopic | isotopic | geochemical | and mineralogical changes | geochemical | and mineralogical changes | seawater composition | seawater composition | atmospheric chemistry | atmospheric chemistry | climate | climate | ocean temperature | ocean temperature | circulation | circulation | chemistry | chemistry | glacial/interglacial cycles | glacial/interglacial cycles | orbital forcing | orbital forcing | climate change | climate change | marine records | marine records | ice core records | ice core records | continental records | continental records | paleoceanographic data | paleoceanographic data | statistics | statistics | factor analysis | factor analysis | time series analysis | time series analysis | simple climatology | simple climatology | geochemical changes | geochemical changes | mineralogical changes | mineralogical changes | glacial cycles | glacial cycles | intergalacial cycles | intergalacial cycles | earth-surface environment | earth-surface environment | environmental history | environmental history

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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3.051J Materials for Biomedical Applications (MIT) 3.051J Materials for Biomedical Applications (MIT)

Description

This course gives an introduction to the interactions between proteins, cells and surfaces of biomaterials.&#160;It includes surface chemistry and physics of selected metals, polymers and ceramics, modification of biomaterials surfaces, and surface characterization methodology; quantitative assays of cell behavior in culture and methods of statistical analysis; organ replacement therapies and acute and chronic response to implanted biomaterials. The course includes topics in biosensors, drug delivery and tissue engineering. This course gives an introduction to the interactions between proteins, cells and surfaces of biomaterials.&#160;It includes surface chemistry and physics of selected metals, polymers and ceramics, modification of biomaterials surfaces, and surface characterization methodology; quantitative assays of cell behavior in culture and methods of statistical analysis; organ replacement therapies and acute and chronic response to implanted biomaterials. The course includes topics in biosensors, drug delivery and tissue engineering.

Subjects

Interactions between proteins | Interactions between proteins | cells | cells | Surface chemistry and physics of metals | Surface chemistry and physics of metals | polymers and ceramics | polymers and ceramics | Surface characterization methodology | Surface characterization methodology | Quantitative assays of cell behavior | Quantitative assays of cell behavior | Organ replacement therapies | Organ replacement therapies | Acute and chronic response to implanted biomaterials | Acute and chronic response to implanted biomaterials | Biosensors | Biosensors | drug delivery and tissue engineering | drug delivery and tissue engineering | Interactions between proteins | cells | Interactions between proteins | cells | Surface chemistry and physics of metals | polymers and ceramics | Surface chemistry and physics of metals | polymers and ceramics | Biosensors | drug delivery and tissue engineering | Biosensors | drug delivery and tissue engineering | BE.340J | BE.340J | 3.051 | 3.051 | BE.340 | BE.340 | 20.340 | 20.340

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Plants in a chemical world

Description

Plants are able to metabolise a surprisingly diverse range of synthetic chemicals including pesticides and pollutants. These chemical reactions are important in global agriculture, as the ability of crops to metabolise herbicides rapidly is the primary determining factor in selective weed control in all our major cereals. In addition these chemical transformations are of general interest to consumers as they determine the fate, and toxicity, of residues entering the food chain. Join us to hear Rob Edwards (Food and Environment Agency Chief Scientist) talk about the mechanisms by which plants metabolise synthetic chemicals and recent progress in understanding the underpinning biology and biochemistry. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

Subjects

plants | botany | biology | biochemistry | botanic gardens | chemistry | plants | botany | biology | biochemistry | botanic gardens | chemistry | 2011-11-07

License

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

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24.964 Topics in Phonology: Phonetic Realization (MIT) 24.964 Topics in Phonology: Phonetic Realization (MIT)

Description

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

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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SP.287 Kitchen Chemistry (MIT) SP.287 Kitchen Chemistry (MIT)

Description

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

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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7.014 Introductory Biology (MIT) 7.014 Introductory Biology (MIT)

Description

The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.014 focuses on the application of these fundamental principles, toward an understanding of microorganisms as geochemical agents responsible for the evolution and renewal of the biosphere and of their role in human health The MIT Biology Department core courses, 7.012, 7.013, and 7.014, all cover the same core material, which includes the fundamental principles of biochemistry, genetics, molecular biology, and cell biology. Biological function at the molecular level is particularly emphasized and covers the structure and regulation of genes, as well as, the structure and synthesis of proteins, how these molecules are integrated into cells, and how these cells are integrated into multicellular systems and organisms. In addition, each version of the subject has its own distinctive material.7.014 focuses on the application of these fundamental principles, toward an understanding of microorganisms as geochemical agents responsible for the evolution and renewal of the biosphere and of their role in human health

Subjects

microorganisms | microorganisms | geochemistry | geochemistry | geochemical agents | geochemical agents | biosphere | biosphere | bacterial genetics | bacterial genetics | carbon metabolism | carbon metabolism | energy metabolism | energy metabolism | productivity | productivity | biogeochemical cycles | biogeochemical cycles | molecular evolution | molecular evolution | population genetics | population genetics | evolution | evolution | population growth | population growth | biology | biology | biochemistry | biochemistry | genetics | genetics | molecular biology | molecular biology | recombinant DNA | recombinant DNA | cell cycle | cell cycle | cell signaling | cell signaling | cloning | cloning | stem cells | stem cells | cancer | cancer | immunology | immunology | virology | virology | genomics | genomics | molecular medicine | molecular medicine | DNA | DNA | RNA | RNA | proteins | proteins | replication | replication | transcription | transcription | mRNA | mRNA | translation | translation | ribosome | ribosome | nervous system | nervous system | amino acids | amino acids | polypeptide chain | polypeptide chain | cell biology | cell biology | neurobiology | neurobiology | gene regulation | gene regulation | protein structure | protein structure | protein synthesis | protein synthesis | gene structure | gene structure | PCR | PCR | polymerase chain reaction | polymerase chain reaction | protein localization | protein localization | endoplasmic reticulum | endoplasmic reticulum | ecology | ecology | communities | communities

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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