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Organic Chemistry 51C. Lecture 13. The Robinson Annulation and the Claisen Reaction.

Description

UCI Chem 51C Organic Chemistry (Spring 2012) Lec 13. Organic Chemistry -- The Robinson Annulation and the Claisen Reaction-- View the complete course: http://ocw.uci.edu/courses/chem_51c_organic_chemistry.html Instructor: James S. Nowick, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: This is the third quarter course in the organic chemistry series. Topics covered include: Fundamental concepts relating to carbon compounds with emphasis on structural theory and the nature of chemical bonding, stereochemistry, reaction mechanisms, and spectroscopic, physical, and chemical properties of the principal classes of carbon compounds. Organic Chemistry 51C is part of OpenChem. http://ocw.uci.edu/collections/open_chemistry.html Recorded on May 17, 2012 Index of Topics: 1:40-Michael Reaction 4:19-Aldol Reaction 5:54-Aldol Reaction with Dehydration 8:32-The Robinson Annulation 13:13-Reactions Involved in Robinson Annulation 26:15-Robinson Annulation Example 28:11-Retrosynthesis Example 33:55-Synthesizing Examples 39:55-Other Conditions 41:11-Acid-Catalyzed Michael Reaction 43:30-Acid-Catalyzed Aldol Reaction 45:18-Example Problem 50:00-Claisen Reaction 53:21-Claisen Reaction Mechanism 57:59-Synthesis Example 1:04:27-Crossed Claisen Reaction 1:08:46-Retro-Claisen Reaction Mechanism 1:11:04-Dieckmann Reaction 1:17:41-Synthesis Example Required attribution: Nowick, James S. Organic Chemistry 51C (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_51c_organic_chemistry.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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22.101 Applied Nuclear Physics (MIT) 22.101 Applied Nuclear Physics (MIT)

Description

The topics covered under this course include elements of nuclear physics for engineering students, basic properties of the nucleus and nuclear radiations, quantum mechanical calculations of deuteron bound-state wave function and energy, n-p scattering cross-section, transition probability per unit time and barrier transmission probability. Also explored are binding energy and nuclear stability, interactions of charged particles, neutrons, and gamma rays with matter, radioactive decays, energetics and general cross-section behavior in nuclear reactions. The topics covered under this course include elements of nuclear physics for engineering students, basic properties of the nucleus and nuclear radiations, quantum mechanical calculations of deuteron bound-state wave function and energy, n-p scattering cross-section, transition probability per unit time and barrier transmission probability. Also explored are binding energy and nuclear stability, interactions of charged particles, neutrons, and gamma rays with matter, radioactive decays, energetics and general cross-section behavior in nuclear reactions.

Subjects

Nuclear physics | Nuclear physics | Nuclear reaction | Nuclear reaction | Nucleus | Nucleus | Nuclear radiation | Nuclear radiation | Quantum mechanics | Quantum mechanics | Deuteron bound-state wave function and energy | Deuteron bound-state wave function and energy | n-p scattering cross-section | n-p scattering cross-section | Transition probability per unit time | Transition probability per unit time | Barrier transmission probability | Barrier transmission probability | Binding energy | Binding energy | Nuclear stability | Nuclear stability | Interactions of charged particles neutrons and gamma rays with matter | Interactions of charged particles neutrons and gamma rays with matter | Radioactive decay | Radioactive decay | Energetics | Energetics | nuclear physics | nuclear physics | nuclear reaction | nuclear reaction | nucleus | nucleus | nuclear radiation | nuclear radiation | quantum mechanics | quantum mechanics | deuteron bound-state wave function and energy | deuteron bound-state wave function and energy | transition probability per unit time | transition probability per unit time | barrier transmission probability | barrier transmission probability | nuclear stability | nuclear stability | Interactions of charged particles | Interactions of charged particles | neutrons | neutrons | and gamma rays with matter | and gamma rays with matter | energetics | energetics

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5.68J Kinetics of Chemical Reactions (MIT) 5.68J Kinetics of Chemical Reactions (MIT)

Description

This course deals with the experimental and theoretical aspects of chemical reaction kinetics, including transition-state theories, molecular beam scattering, classical techniques, quantum and statistical mechanical estimation of rate constants, pressure-dependence and chemical activation, modeling complex reacting mixtures, and uncertainty/sensitivity analyses. Reactions in the gas phase, liquid phase, and on surfaces are discussed with examples drawn from atmospheric, combustion, industrial, catalytic, and biological chemistry. This course deals with the experimental and theoretical aspects of chemical reaction kinetics, including transition-state theories, molecular beam scattering, classical techniques, quantum and statistical mechanical estimation of rate constants, pressure-dependence and chemical activation, modeling complex reacting mixtures, and uncertainty/sensitivity analyses. Reactions in the gas phase, liquid phase, and on surfaces are discussed with examples drawn from atmospheric, combustion, industrial, catalytic, and biological chemistry.

Subjects

quantum mechanics | quantum mechanics | statistical mechanics | statistical mechanics | chemical reaction kinetics | chemical reaction kinetics | transition-state theories | transition-state theories | molecular beam scattering | molecular beam scattering | classical techniques | classical techniques | rate constants | rate constants | pressure-dependence | pressure-dependence | chemical activation | chemical activation | atmosphere | atmosphere | combustion | combustion | catalytic | catalytic | biological chemistry | biological chemistry | elementary kinetics | elementary kinetics | experimental kinetics | experimental kinetics | reaction rate theory | reaction rate theory | thermodynamics | thermodynamics | practical prediction methods | practical prediction methods | handling large kinetic models | handling large kinetic models | reactions in solution | reactions in solution | catalysis | catalysis | 5.68 | 5.68 | 10.652 | 10.652

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Lecture 32: Live Action Games Lecture 32: Live Action Games

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Description: "Live action" describes a wide range of activities, from sports, to real-time roleplaying, to playground/party games. Careful choices about mechanics, abstraction, and communication help create an engaging experience without physical or emotional harm. Instructors/speakers: Philip Tan, Jason BegyKeywords: roleplaying, verisimilitude, storybuilding, persona, improvisation, sports, party games, live-action games, game mechanic, mimicry, acting, character, dissociation, abstraction, war games, game master, randomness, feasibility, information, competition, collaboration, storytelling, ethics, MIT Assassin's Guild, emergenceTranscript: PDFSubtitles: SRTAudio - download: Internet Archive (MP3)Audio - download: iTunes U (MP3)(CC BY-NC-SA) Description: "Live action" describes a wide range of activities, from sports, to real-time roleplaying, to playground/party games. Careful choices about mechanics, abstraction, and communication help create an engaging experience without physical or emotional harm. Instructors/speakers: Philip Tan, Jason BegyKeywords: roleplaying, verisimilitude, storybuilding, persona, improvisation, sports, party games, live-action games, game mechanic, mimicry, acting, character, dissociation, abstraction, war games, game master, randomness, feasibility, information, competition, collaboration, storytelling, ethics, MIT Assassin's Guild, emergenceTranscript: PDFSubtitles: SRTAudio - download: Internet Archive (MP3)Audio - download: iTunes U (MP3)(CC BY-NC-SA)

Subjects

roleplaying | roleplaying | verisimilitude | verisimilitude | storybuilding | storybuilding | persona | persona | improvisation | improvisation | sports | sports | party games | party games | live-action games | live-action games | game mechanic | game mechanic | mimicry | mimicry | acting | acting | character | character | dissociation | dissociation | abstraction | abstraction | war games | war games | game master | game master | randomness | randomness | feasibility | feasibility | information | information | competition | competition | collaboration | collaboration | storytelling | storytelling | ethics | ethics | MIT Assassin's Guild | MIT Assassin's Guild | emergence | emergence

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22.02 Introduction to Applied Nuclear Physics (MIT) 22.02 Introduction to Applied Nuclear Physics (MIT)

Description

This course concentrates on the basic concepts of nuclear physics with emphasis on nuclear structure and radiation interactions with matter. Included: elementary quantum theory; nuclear forces; shell structure of the nucleus; alpha, beta, and gamma radioactive decays; interactions of nuclear radiations (charged particles, gammas, and neutrons) with matter; nuclear reactions; and fission and fusion. The course is divided into three main sections: Quantum Mechanics Fundamentals Nuclear Structure and Nuclear Decays Interactions in Nuclear Matter and Nuclear Reactions This course concentrates on the basic concepts of nuclear physics with emphasis on nuclear structure and radiation interactions with matter. Included: elementary quantum theory; nuclear forces; shell structure of the nucleus; alpha, beta, and gamma radioactive decays; interactions of nuclear radiations (charged particles, gammas, and neutrons) with matter; nuclear reactions; and fission and fusion. The course is divided into three main sections: Quantum Mechanics Fundamentals Nuclear Structure and Nuclear Decays Interactions in Nuclear Matter and Nuclear Reactions

Subjects

Quantum Mechanics Fundamentals | | Quantum Mechanics Fundamentals | | Nuclear Structure | | Nuclear Structure | | Nuclear Decays | | Nuclear Decays | | Nuclear Matter | | Nuclear Matter | | Nuclear Reactions | Nuclear Reactions | Nuclear Decays | Nuclear Decays | Quantum Mechanics Fundamentals | Quantum Mechanics Fundamentals | Nuclear Structure | Nuclear Structure | Nuclear Matter | Nuclear Matter

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Organic Chemistry 51A. Lecture 19. Energy Diagrams, Transition States, and Reaction Rates.

Description

UCI Chem 51A Organic Chemistry (Fall 2009) Lec 19. Organic Chemistry -- Energy Diagrams, Transition States, and Reaction Rates View the complete course: http://ocw.uci.edu/courses/chem_51a_organic_chemistry.html Instructor: James Nowick, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: Fundamental concepts relating to carbon compounds with emphasis on structural theory and the nature of chemical bonding, stereochemistry, reaction mechanisms, and spectroscopic, physical, and chemical properties of the principal classes of carbon compounds. Organic Chemistry (Chem 51A) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html This video is part of a 27-lecture undergraduate-level course titled "Organic Chemistry" taught at UC Irvine by Professor James Nowick. Recorded on November 13, 2009. Index of Topics: -1:32 Single Step Substitution Reaction Example -3:26 Multi-step Substitution Reaction Example -11:11 Energy Diagram for Single Step Reaction -17:13 Transition State -26:06 Energy Diagram for Multi-Step Reaction -30:01 Reverse Reaction of Multi-Step Reaction -34:46 Steps in the Multi-Step Reaction -41:34 Rates of Reaction -47:15 Other Factors Affecting Rate Required attribution: Nowick, James Ph.D. Organic Chemistry 51A (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_51a_organic_chemistry.html. [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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Organic Chemistry 51C. Lecture 12. The Aldol Reaction and the Michael Reaction.

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UCI Chem 51C Organic Chemistry (Spring 2012) Lec 12. Organic Chemistry -- The Aldol Reaction and theMichael Reaction -- View the complete course: http://ocw.uci.edu/courses/chem_51c_organic_chemistry.html Instructor: James S. Nowick, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: This is the third quarter course in the organic chemistry series. Topics covered include: Fundamental concepts relating to carbon compounds with emphasis on structural theory and the nature of chemical bonding, stereochemistry, reaction mechanisms, and spectroscopic, physical, and chemical properties of the principal classes of carbon compounds. Organic Chemistry 51C is part of OpenChem. http://learn.uci.edu/openchem Recorded on May 15, 2012 Index of Topics: 1:28-Enolate Formation 3:56-Aldol Reaction 11:44-Retrosynthesis Example 18:40-Original Aldol 21:32-Aldol Mechanism 26:45-Features of Aldol Mechanism 35:25-Aldol Example 38:21-Synthesis Example 43:16-Stereochemistry 46:46-Crossed Aldol Reaction 52:48-Intramolecular Aldol Reaction 1:01:10-Retrosynthesis of Intramolecular Aldol Reaction 1:03:16-The Michael Reaction 1:05:34-Resonance Structures 1:08:27-Strongly Basic Nucleophiles 1:12:52-Michael Reaction Mechanism 1:16:35-Retrosynthesis Example Required attribution: Nowick, James S. Organic Chemistry 51C (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_51c_organic_chemistry.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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Teaching assistants: support in action (Chinese) Teaching assistants: support in action (Chinese)

Description

本免费课程是“助教:提供行动支持”课程的中文翻译版本,英文原版也在本网站中提供。 This free course is the Chinese version of Teaching assistants: support in action which is also available in English. First published on Tue, 16 Feb 2016 as Teaching assistants: support in action (Chinese). To find out more visit The Open University's Openlearn website. Creative-Commons 2016 本免费课程是“助教:提供行动支持”课程的中文翻译版本,英文原版也在本网站中提供。 This free course is the Chinese version of Teaching assistants: support in action which is also available in English. First published on Tue, 16 Feb 2016 as Teaching assistants: support in action (Chinese). To find out more visit The Open University's Openlearn website. Creative-Commons 2016 This free course is the Chinese version of Teaching assistants: support in action which is also available in English. First published on Tue, 16 Feb 2016 as Teaching assistants: support in action (Chinese). To find out more visit The Open University's Openlearn website. Creative-Commons 2016 This free course is the Chinese version of Teaching assistants: support in action which is also available in English. First published on Tue, 16 Feb 2016 as Teaching assistants: support in action (Chinese). To find out more visit The Open University's Openlearn website. Creative-Commons 2016

Subjects

Educational Practice | Educational Practice | E111_2 | E111_2 | teaching | teaching | teaching assistants | teaching assistants

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Except for third party materials and otherwise stated (see http://www.open.ac.uk/conditions terms and conditions), this content is made available under a http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ Creative Commons Attribution-NonCommercial-ShareAlike 2.0 Licence Licensed under a Creative Commons Attribution - NonCommercial-ShareAlike 2.0 Licence - see http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ - Original copyright The Open University

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22.55J Principles of Radiation Interactions (MIT) 22.55J Principles of Radiation Interactions (MIT)

Description

The central theme of this course is the interaction of radiation with biological material. The course is intended to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. Topics will include: the effects of radiation on biological systems including DNA damage; in vitro cell survival models; and in vivo mammalian systems. The course covers radiation therapy, radiation syndromes in humans and carcinogenesis. Environmental radiation sources on earth and in space, and aspects of radiation protection are also discussed. Examples from the current literature will be used to supplement lecture materi The central theme of this course is the interaction of radiation with biological material. The course is intended to provide a broad understanding of how different types of radiation deposit energy, including the creation and behavior of secondary radiations; of how radiation affects cells and why the different types of radiation have very different biological effects. Topics will include: the effects of radiation on biological systems including DNA damage; in vitro cell survival models; and in vivo mammalian systems. The course covers radiation therapy, radiation syndromes in humans and carcinogenesis. Environmental radiation sources on earth and in space, and aspects of radiation protection are also discussed. Examples from the current literature will be used to supplement lecture materi

Subjects

Interaction of radiation with biological material | Interaction of radiation with biological material | how different types of radiation deposit energy | how different types of radiation deposit energy | secondary radiations | secondary radiations | how radiation affects cells | how radiation affects cells | biological effects | biological effects | effects of radiation on biological systems | effects of radiation on biological systems | DNA damage | DNA damage | in vitro cell survival models | in vitro cell survival models | in vivo mammalian systems | in vivo mammalian systems | radiation therapy | radiation therapy | radiation syndromes in humans | radiation syndromes in humans | carcinogenesis | carcinogenesis | Environmental radiation sources | Environmental radiation sources | radiation protection | radiation protection | cells | cells | tissues | tissues | radiation interactions | radiation interactions | radiation chemistry | radiation chemistry | LET | LET | tracks | tracks | chromosome damags | chromosome damags | in vivo | in vivo | in vitro | in vitro | cell survival curves | cell survival curves | dose response | dose response | RBE | RBE | clustered damage | clustered damage | radiation response | radiation response | tumor kinetics | tumor kinetics | tumor radiobiology | tumor radiobiology | fractionation | fractionation | protons | protons | alpha particles | alpha particles | whole body exposure | whole body exposure | chronic exposure | chronic exposure | space | space | microbeams | microbeams | radon | radon | background radiation | background radiation | 22.55 | 22.55 | HST.560 | HST.560

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Chemistry 202. Organic Reaction Mechanisms II. Lecture 13. Electrocyclic Reactions

Description

UCI Chem 202 Organic Reaction Mechanisms II (Winter 2014) Lec 13. Organic Reaction Mechanism -- Electrocyclic Reactions View the complete course: http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html Instructor: David Van Vranken, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: Topics include more in-depth treatment of mechanistic concepts, kinetics, conformational analysis, computational methods, stereoelectronics, and both solution and enzymatic catalysis. Organic Reaction Mechanisms II (Chem 202) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html These videos are part of a 23-lecture graduate-level course titled "Organic Reaction Mechanisms II" taught at UC Irvine by Professor David Van Vranken. Recorded on February 14, 2014. Required attribution: Van Vranken, David Organic Reaction Mechanisms 202 (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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5.43 Advanced Organic Chemistry (MIT) 5.43 Advanced Organic Chemistry (MIT)

Description

This course deals with the application of structure and theory to the study of organic reaction mechanisms: Stereochemical features including conformation and stereoelectronic effects; reaction dynamics, isotope effects and molecular orbital theory applied to pericyclic and photochemical reactions; and special reactive intermediates including carbenes, carbanions, and free radicals. This course deals with the application of structure and theory to the study of organic reaction mechanisms: Stereochemical features including conformation and stereoelectronic effects; reaction dynamics, isotope effects and molecular orbital theory applied to pericyclic and photochemical reactions; and special reactive intermediates including carbenes, carbanions, and free radicals.

Subjects

organic reaction mechanism | organic reaction mechanism | organic | organic | stereochemistry | stereochemistry | conformation | conformation | stereoelectronic effects | stereoelectronic effects | reaction dynamics | reaction dynamics | isotope effects | isotope effects | molecular orbital theory | molecular orbital theory | pericyclic | pericyclic | photochemical | photochemical | carbenes | carbenes | carbanions | carbanions | free radical | free radical | organometallic | organometallic | heterocyclic | heterocyclic

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Chemistry 202. Organic Reaction Mechanisms II. Lecture 09. Pericyclic Reactions

Description

UCI Chem 202 Organic Reaction Mechanisms II (Winter 2014) Lec 09. Organic Reaction Mechanism -- Pericyclic Reactions View the complete course: http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html Instructor: David Van Vranken, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: Topics include more in-depth treatment of mechanistic concepts, kinetics, conformational analysis, computational methods, stereoelectronics, and both solution and enzymatic catalysis. Organic Reaction Mechanisms II (Chem 202) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html These videos are part of a 23-lecture graduate-level course titled "Organic Reaction Mechanisms II" taught at UC Irvine by Professor David Van Vranken. Recorded on February 3, 2014. Required attribution: Van Vranken, David Organic Reaction Mechanisms 202 (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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Chemistry 202. Organic Reaction Mechanisms II. Lecture 10. Pericyclic Reactions, Part 2

Description

UCI Chem 202 Organic Reaction Mechanisms II (Winter 2014) Lec 10. Organic Reaction Mechanism -- Pericyclic Reactions -- Part 2 View the complete course: http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html Instructor: David Van Vranken, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: Topics include more in-depth treatment of mechanistic concepts, kinetics, conformational analysis, computational methods, stereoelectronics, and both solution and enzymatic catalysis. Organic Reaction Mechanisms II (Chem 202) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html These videos are part of a 23-lecture graduate-level course titled "Organic Reaction Mechanisms II" taught at UC Irvine by Professor David Van Vranken. Recorded on February 5, 2014. Required attribution: Van Vranken, David Organic Reaction Mechanisms 202 (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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Chemistry 202. Organic Reaction Mechanisms II. Lecture 12. Ene Reactions

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UCI Chem 202 Organic Reaction Mechanisms II (Winter 2014) Lec 12. Organic Reaction Mechanism -- Ene Reactions View the complete course: http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html Instructor: David Van Vranken, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: Topics include more in-depth treatment of mechanistic concepts, kinetics, conformational analysis, computational methods, stereoelectronics, and both solution and enzymatic catalysis. Organic Reaction Mechanisms II (Chem 202) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html These videos are part of a 23-lecture graduate-level course titled "Organic Reaction Mechanisms II" taught at UC Irvine by Professor David Van Vranken. Recorded on February 12, 2014. Required attribution: Van Vranken, David Organic Reaction Mechanisms 202 (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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Chemistry 202. Organic Reaction Mechanisms II. Lecture 23. Radical Reactions

Description

UCI Chem 202 Organic Reaction Mechanisms II (Winter 2014) Lec 23. Organic Reaction Mechanism -- Radical Reactions View the complete course: http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html Instructor: David Van Vranken, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: Topics include more in-depth treatment of mechanistic concepts, kinetics, conformational analysis, computational methods, stereoelectronics, and both solution and enzymatic catalysis. Organic Reaction Mechanisms II (Chem 202) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html These videos are part of a 23-lecture graduate-level course titled "Organic Reaction Mechanisms II" taught at UC Irvine by Professor David Van Vranken. Recorded on March 14, 2014. Required attribution: Van Vranken, David Organic Reaction Mechanisms 202 (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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6.161 Modern Optics Project Laboratory (MIT) 6.161 Modern Optics Project Laboratory (MIT)

Description

6.161 explores modern optics through lectures, laboratory exercises, and projects. Topics covered include: polarization properties of light, reflection and refraction, coherence and interference, Fraunhofer and Fresnel diffraction, imaging and transforming properties of lenses, spatial filtering, coherent optical processors, holography, optical properties of materials, lasers, nonlinear optics, electro-optic and acousto-optic materials and devices, optical detectors, fiber optics, and optical communication. This course is worth 12 Engineering Design Points. 6.161 explores modern optics through lectures, laboratory exercises, and projects. Topics covered include: polarization properties of light, reflection and refraction, coherence and interference, Fraunhofer and Fresnel diffraction, imaging and transforming properties of lenses, spatial filtering, coherent optical processors, holography, optical properties of materials, lasers, nonlinear optics, electro-optic and acousto-optic materials and devices, optical detectors, fiber optics, and optical communication. This course is worth 12 Engineering Design Points.

Subjects

modern optics lab | modern optics lab | modern optics | modern optics | laboratory | laboratory | polarization | polarization | light | light | reflection | reflection | refraction | refraction | coherence | coherence | interference | interference | Fraunhofer diffraction | Fraunhofer diffraction | Fresnel diffraction | Fresnel diffraction | imaging | imaging | transforming | transforming | lenses | lenses | spatial filtering | spatial filtering | coherent optical processors | coherent optical processors | holography | holography | optical properties of materials | optical properties of materials | lasers | lasers | nonlinear optics | nonlinear optics | electro-optic | electro-optic | acousto-optic | acousto-optic | optical detectors | optical detectors | fiber optics | fiber optics | optical communication | optical communication

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Astrophysics (MIT) Astrophysics (MIT)

Description

Includes audio/video content: AV selected lectures. Study of physical effects in the vicinity of a black hole as a basis for understanding general relativity, astrophysics, and elements of cosmology. Extension to current developments in theory and observation. Energy and momentum in flat spacetime; the metric; curvature of spacetime near rotating and nonrotating centers of attraction; trajectories and orbits of particles and light; elementary models of the Cosmos. Weekly meetings include an evening seminar and recitation. The last third of the semester is reserved for collaborative research projects on topics such as the Global Positioning System, solar system tests of relativity, descending into a black hole, gravitational lensing, gravitational waves, Gravity Probe B, and more advanced Includes audio/video content: AV selected lectures. Study of physical effects in the vicinity of a black hole as a basis for understanding general relativity, astrophysics, and elements of cosmology. Extension to current developments in theory and observation. Energy and momentum in flat spacetime; the metric; curvature of spacetime near rotating and nonrotating centers of attraction; trajectories and orbits of particles and light; elementary models of the Cosmos. Weekly meetings include an evening seminar and recitation. The last third of the semester is reserved for collaborative research projects on topics such as the Global Positioning System, solar system tests of relativity, descending into a black hole, gravitational lensing, gravitational waves, Gravity Probe B, and more advanced

Subjects

black hole | black hole | general relativity | general relativity | astrophysics | astrophysics | cosmology | cosmology | Energy and momentum in flat spacetime | Energy and momentum in flat spacetime | the metric | the metric | curvature of spacetime near rotating and nonrotating centers of attraction | curvature of spacetime near rotating and nonrotating centers of attraction | trajectories and orbits of particles and light | trajectories and orbits of particles and light | elementary models of the Cosmos | elementary models of the Cosmos | Global Positioning System | Global Positioning System | solar system tests of relativity | solar system tests of relativity | descending into a black hole | descending into a black hole | gravitational lensing | gravitational lensing | gravitational waves | gravitational waves | Gravity Probe B | Gravity Probe B | more advanced models of the Cosmos | more advanced models of the Cosmos | spacetime curvature | spacetime curvature | rotating centers of attraction | rotating centers of attraction | nonrotating centers of attraction | nonrotating centers of attraction | event horizon | event horizon | energy | energy | momentum | momentum | flat spacetime | flat spacetime | metric | metric | trajectories | trajectories | orbits | orbits | particles | particles | light | light | elementary | elementary | models | models | cosmos | cosmos | spacetime | spacetime | curvature | curvature | flat | flat | GPS | GPS | gravitational | gravitational | lensing | lensing | waves | waves | rotating | rotating | nonrotating | nonrotating | centers | centers | attraction | attraction | solar system | solar system | tests | tests | relativity | relativity | general | general | advanced | advanced

License

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Numbers: An introduction to subtraction Numbers: An introduction to subtraction

Description

Do you want to improve your ability to subtract one number from another, especially if decimals are involved, without having to rely on a calculator? Numbers: An introduction to subtraction, is a free course that will help you get to grips with subtraction and give you some practice in doing it. First published on Thu, 24 Mar 2016 as Numbers: An introduction to subtraction. To find out more visit The Open University's Openlearn website. Creative-Commons 2016 Do you want to improve your ability to subtract one number from another, especially if decimals are involved, without having to rely on a calculator? Numbers: An introduction to subtraction, is a free course that will help you get to grips with subtraction and give you some practice in doing it. First published on Thu, 24 Mar 2016 as Numbers: An introduction to subtraction. To find out more visit The Open University's Openlearn website. Creative-Commons 2016 First published on Thu, 24 Mar 2016 as Numbers: An introduction to subtraction. To find out more visit The Open University's Openlearn website. Creative-Commons 2016 First published on Thu, 24 Mar 2016 as Numbers: An introduction to subtraction. To find out more visit The Open University's Openlearn website. Creative-Commons 2016

Subjects

Mathematics Education | Mathematics Education

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Except for third party materials and otherwise stated (see http://www.open.ac.uk/conditions terms and conditions), this content is made available under a http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ Creative Commons Attribution-NonCommercial-ShareAlike 2.0 Licence Licensed under a Creative Commons Attribution - NonCommercial-ShareAlike 2.0 Licence - see http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ - Original copyright The Open University

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6.161 Modern Optics Project Laboratory (MIT) 6.161 Modern Optics Project Laboratory (MIT)

Description

6.161 offers an introduction to laboratory optics, optical principles, and optical devices and systems. This course covers a wide range of topics, including: polarization properties of light, reflection and refraction, coherence and interference, Fraunhofer and Fresnel diffraction, holography, imaging and transforming properties of lenses, spatial filtering, two-lens coherent optical processor, optical properties of materials, lasers, electro-optic, acousto-optic and liquid-crystal light modulators, optical detectors, optical waveguides and fiber-optic communication systems. Students engage in extensive oral and written communication exercises. There are 12 engineering design points associated with this subject. 6.161 offers an introduction to laboratory optics, optical principles, and optical devices and systems. This course covers a wide range of topics, including: polarization properties of light, reflection and refraction, coherence and interference, Fraunhofer and Fresnel diffraction, holography, imaging and transforming properties of lenses, spatial filtering, two-lens coherent optical processor, optical properties of materials, lasers, electro-optic, acousto-optic and liquid-crystal light modulators, optical detectors, optical waveguides and fiber-optic communication systems. Students engage in extensive oral and written communication exercises. There are 12 engineering design points associated with this subject.

Subjects

modern optics lab | modern optics lab | modern optics | modern optics | laboratory | laboratory | polarization | polarization | light | light | reflection | reflection | refraction | refraction | coherence | coherence | interference | interference | Fraunhofer diffraction | Fraunhofer diffraction | Fresnel diffraction | Fresnel diffraction | imaging | imaging | transforming | transforming | lenses | lenses | spatial filtering | spatial filtering | coherent optical processors | coherent optical processors | holography | holography | optical properties of materials | optical properties of materials | lasers | lasers | nonlinear optics | nonlinear optics | electro-optic | electro-optic | acousto-optic | acousto-optic | optical detectors | optical detectors | fiber optics | fiber optics | optical communication | optical communication

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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Chemistry 202. Organic Reaction Mechanisms II. Lecture 14. Sigmatropic Reaction

Description

UCI Chem 202 Organic Reaction Mechanisms II (Winter 2014) Lec 14. Organic Reaction Mechanism -- Sigmatropic Reaction View the complete course: http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html Instructor: David Van Vranken, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: Topics include more in-depth treatment of mechanistic concepts, kinetics, conformational analysis, computational methods, stereoelectronics, and both solution and enzymatic catalysis. Organic Reaction Mechanisms II (Chem 202) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html These videos are part of a 23-lecture graduate-level course titled "Organic Reaction Mechanisms II" taught at UC Irvine by Professor David Van Vranken. Recorded on February 19, 2014. Required attribution: Van Vranken, David Organic Reaction Mechanisms 202 (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_202_organic_reaction_mechanisms_ii.html [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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HST.151 Principles of Pharmacology (MIT) HST.151 Principles of Pharmacology (MIT)

Description

The object of the course is to teach students an approach to the study of pharmacologic agents. It is not intended to be a review of the pharmacopoeia. The focus is on the basic principles of biophysics, biochemistry and physiology, as related to the mechanisms of drug action, biodistribution and metabolism. The course consists of lectures and student-led case discussions. Topics covered include: mechanisms of drug action, dose-response relations, pharmacokinetics, drug delivery systems, drug metabolism, toxicity of pharmacological agents, drug interaction and substance abuse. Selected agents and classes of agents are examined in detail. Lecturers Prof. Keith Baker Dr. Mark Dershwitz Harold Demonaco Dr. Daniel Kohane Dr. Donald Kufe Prof. Robert Langer Dr. Robert Lees Dr. Robert Rubin The object of the course is to teach students an approach to the study of pharmacologic agents. It is not intended to be a review of the pharmacopoeia. The focus is on the basic principles of biophysics, biochemistry and physiology, as related to the mechanisms of drug action, biodistribution and metabolism. The course consists of lectures and student-led case discussions. Topics covered include: mechanisms of drug action, dose-response relations, pharmacokinetics, drug delivery systems, drug metabolism, toxicity of pharmacological agents, drug interaction and substance abuse. Selected agents and classes of agents are examined in detail. Lecturers Prof. Keith Baker Dr. Mark Dershwitz Harold Demonaco Dr. Daniel Kohane Dr. Donald Kufe Prof. Robert Langer Dr. Robert Lees Dr. Robert Rubin

Subjects

health care | health care | pharmacology | pharmacology | pharmacologic agents | pharmacologic agents | medical | medical | pre-clinical | pre-clinical | biophysics | biophysics | biochemistry | biochemistry | physiology related to drug action | physiology related to drug action | interaction | interaction | distribution | distribution | metabolism | metabolism | toxicity | toxicity

License

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6.632 Electromagnetic Wave Theory (MIT) 6.632 Electromagnetic Wave Theory (MIT)

Description

6.632 is a graduate subject on electromagnetic wave theory, emphasizing mathematical approaches, problem solving, and physical interpretation. Topics covered include: waves in media, equivalence principle, duality and complementarity, Huygens' principle, Fresnel and Fraunhofer diffraction, dyadic Green's functions, Lorentz transformation, and Maxwell-Minkowski theory. Examples deal with limiting cases of Maxwell's theory and diffraction and scattering of electromagnetic waves. 6.632 is a graduate subject on electromagnetic wave theory, emphasizing mathematical approaches, problem solving, and physical interpretation. Topics covered include: waves in media, equivalence principle, duality and complementarity, Huygens' principle, Fresnel and Fraunhofer diffraction, dyadic Green's functions, Lorentz transformation, and Maxwell-Minkowski theory. Examples deal with limiting cases of Maxwell's theory and diffraction and scattering of electromagnetic waves.

Subjects

electromagnetic wave theory | electromagnetic wave theory | waves in media | waves in media | equivalence principle | equivalence principle | duality | duality | complementarity | complementarity | Huygens' principle | Huygens' principle | Fresnel diffraction | Fresnel diffraction | Fraunhofer diffraction | Fraunhofer diffraction | dyadic Green's functions | dyadic Green's functions | Lorentz transformation | Lorentz transformation | Maxwell-Minkowski theory | Maxwell-Minkowski theory | Maxwell | Maxwell | diffraction | diffraction | scattering | scattering

License

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Preparation for General Chemistry 1P. Lecture 17. Precipitation Reactions.

Description

UCI Chem 1P General Chemistry (Fall 2012) Lec 17. General Chemistry Preparation for General Chemistry -- Precipitation Reactions -- View the complete course: http://ocw.uci.edu/courses/chem_1p_preparation_for_chemistry.html Instructor: Eric Potma, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: UCI Chem 1P is a preparation go General Chemistry that covers: units of measurement, dimensional analysis, significant figures; elementary concepts of volume, mass, force, pressure, energy, density, temperature, heat, work; fundamentals of atomic and molecular structure; the mole concept, stoichiometry; properties of the states of matter; gas laws; solutions concentrations. Course may be offered online. Preparation for General Chemistry (Chem 1P) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html This video is part of a 24-lecture undergraduate-level course titled "Preparation for General Chemistry" taught at UC Irvine by Associate Professor Eric Potma. Recorded on November 14, 2012. Slides: 00:06- Precipitation Reactions 00:24- Types of Chemical Reactions in Solution 01:41- Precipitation Reactions 03:58- Precipitation Reactions: Salts with a Low Solubility 12:13- Precipitation Reactions Example Problem: Potassium Chromate and Barium Nitrate Solutions 16:13- Precipitation Reactions Example Problem: Sliver Nitrate and Potassium Chloride Solutions 19:42- Precipitation Reactions Example Problem: Potassium Iodide and Lead (III) Nitrate Solutions 22:22- Types of Equations: Molecular Equation 23:33- Types of Equations: Complete Ionic Equation 25:28- Types of Equations: Net Ionic Equation 26:37- Types of Equations Example: Aqueous Potassium Hydroxide and Aqueous Iron (III) Nitrate 31:14- Types of Equations: Net Ionic Equation 31:56- Stoichiometry of Precipitation Reactions Required attribution: Potma, Eric General Chemistry 1P (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_1p_preparation_for_chemistry.html. [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License. (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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Preparation for General Chemistry 1P. Lecture 18. Acid-Base Reactions.

Description

UCI Chem 1P General Chemistry (Fall 2012) Lec 18. General Chemistry Preparation for General Chemistry -- Acid-Base Reactions -- View the complete course: http://ocw.uci.edu/courses/chem_1p_preparation_for_chemistry.html Instructor: Eric Potma, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: UCI Chem 1P is a preparation go General Chemistry that covers: units of measurement, dimensional analysis, significant figures; elementary concepts of volume, mass, force, pressure, energy, density, temperature, heat, work; fundamentals of atomic and molecular structure; the mole concept, stoichiometry; properties of the states of matter; gas laws; solutions concentrations. Course may be offered online. Preparation for General Chemistry (Chem 1P) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html This video is part of a 24-lecture undergraduate-level course titled "Preparation for General Chemistry" taught at UC Irvine by Associate Professor Eric Potma. Recorded on November 16, 2012. Slides: 00:06- Acid-Base Reactions 01:37- Acids and Bases 03:39- Acids and Bases, Slide 2 05:12- Acids 08:25- Bases 10:29- Acid-Base Reactions: Hydrocholoric Acid and Potassium Hydroxide 15:53- Acid-Base Reactions: H+ and OH- 17:48- Acid-Base Reactions: Perchloric Acid and Magnesium Hydroxide 24:03- Titrations 25:22- Titrations: Neutralization Reaction 26:41- Youtube Example: Titration 28:06- Indicators 28:49- Indicators, Slide 2 29:52- Acid-Base Reactions: Neutralizing NaOH with HCl 35:35- Acid-Base Reactions: Hydrochloric Acid Added to BA(OH)2 Required attribution: Potma, Eric General Chemistry 1P (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_1p_preparation_for_chemistry.html. [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License. (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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Preparation for General Chemistry 1P. Lecture 21. Balancing Redox Reactions.

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UCI Chem 1P General Chemistry (Fall 2012) Lec 21. General Chemistry Preparation for General Chemistry -- Balancing Redox Reacions -- View the complete course: http://ocw.uci.edu/courses/chem_1p_preparation_for_chemistry.html Instructor: Eric Potma, Ph.D. License: Creative Commons BY-NC-SA Terms of Use: http://ocw.uci.edu/info. More courses at http://ocw.uci.edu Description: UCI Chem 1P is a preparation go General Chemistry that covers: units of measurement, dimensional analysis, significant figures; elementary concepts of volume, mass, force, pressure, energy, density, temperature, heat, work; fundamentals of atomic and molecular structure; the mole concept, stoichiometry; properties of the states of matter; gas laws; solutions concentrations. Course may be offered online. Preparation for General Chemistry (Chem 1P) is part of OpenChem: http://ocw.uci.edu/collections/open_chemistry.html This video is part of a 24-lecture undergraduate-level course titled "Preparation for General Chemistry" taught at UC Irvine by Associate Professor Eric Potma. Recorded on November 26, 2012. 00:06- Balancing Redox Reactions 03:49- Beautiful Redox 05:15- Biochemical Redox Reactions 07:44- Half-Reactions 11:33- Writing Half-Reactions 17:57- Redox Reactions in Solution 18:55- Half-Ractions (Acidic) 29:37- Balancing Redox Reactions (Acidic) 31:54- Balancing Redox Reactions Required attribution: Potma, Eric General Chemistry 1P (UCI OpenCourseWare: University of California, Irvine), http://ocw.uci.edu/courses/chem_1p_preparation_for_chemistry.html. [Access date]. License: Creative Commons Attribution-ShareAlike 3.0 United States License. (http://creativecommons.org/licenses/by-sa/3.0/us/deed.en_US).

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