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The second X-43A hypersonic research aircraft and its modified Pegasus booster rocket accelerate

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Subjects

armstrong | afrc | nasaarmstrong | aviationaerospacenationalaeronauticsandspaceadministrationnasaairplanehypersonicexperimentalflightscramjetxplaneorbitalsciencescorporationorbitalsciencesoscorbitalsciencespegasuspegasusrocketboeingboeingb52stratofortressboei

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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

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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5.04 Principles of Inorganic Chemistry II (MIT) 5.04 Principles of Inorganic Chemistry II (MIT)

Description

This course provides a systematic presentation of the chemical applications of group theory with emphasis on the formal development of the subject and its applications to the physical methods of inorganic chemical compounds. Against the backdrop of electronic structure, the electronic, vibrational, and magnetic properties of transition metal complexes are presented and their investigation by the appropriate spectroscopy described. This course provides a systematic presentation of the chemical applications of group theory with emphasis on the formal development of the subject and its applications to the physical methods of inorganic chemical compounds. Against the backdrop of electronic structure, the electronic, vibrational, and magnetic properties of transition metal complexes are presented and their investigation by the appropriate spectroscopy described.

Subjects

inorganic chemistry | inorganic chemistry | group theory | group theory | electronic structure of molecules | electronic structure of molecules | transition metal complexes | transition metal complexes | spectroscopy | spectroscopy | symmetry elements | symmetry elements | mathematical groups | mathematical groups | character tables | character tables | molecular point groups | molecular point groups | Huckel Theory | Huckel Theory | N-Dimensional cyclic systems | N-Dimensional cyclic systems | solid state theory | solid state theory | band theory | band theory | frontier molecular orbitals | frontier molecular orbitals | similarity transformations | similarity transformations | complexes | complexes | organometallic complexes | organometallic complexes | two electron bond | two electron bond | vibrational spectroscopy | vibrational spectroscopy | symmetry | symmetry | overtones | overtones | normal coordinat analysis | normal coordinat analysis | AOM | AOM | single electron CFT | single electron CFT | tanabe-sugano diagram | tanabe-sugano diagram | ligand | ligand | crystal field theory | crystal field theory | LCAO | LCAO

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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X-34 Mated to Modified L-1011

Description

Subjects

armstrong | afrc | nasaarmstrong | drydenl1011x34orbitalsciences

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5.04 Principles of Inorganic Chemistry II (MIT)

Description

This course provides a systematic presentation of the chemical applications of group theory with emphasis on the formal development of the subject and its applications to the physical methods of inorganic chemical compounds. Against the backdrop of electronic structure, the electronic, vibrational, and magnetic properties of transition metal complexes are presented and their investigation by the appropriate spectroscopy described.

Subjects

inorganic chemistry | group theory | electronic structure of molecules | transition metal complexes | spectroscopy | symmetry elements | mathematical groups | character tables | molecular point groups | Huckel Theory | N-Dimensional cyclic systems | solid state theory | band theory | frontier molecular orbitals | similarity transformations | complexes | organometallic complexes | two electron bond | vibrational spectroscopy | symmetry | overtones | normal coordinat analysis | AOM | single electron CFT | tanabe-sugano diagram | ligand | crystal field theory | LCAO

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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5.04 Principles of Inorganic Chemistry II (MIT)

Description

This course provides a systematic presentation of the chemical applications of group theory with emphasis on the formal development of the subject and its applications to the physical methods of inorganic chemical compounds. Against the backdrop of electronic structure, the electronic, vibrational, and magnetic properties of transition metal complexes are presented and their investigation by the appropriate spectroscopy described.

Subjects

inorganic chemistry | group theory | electronic structure of molecules | transition metal complexes | spectroscopy | symmetry elements | mathematical groups | character tables | molecular point groups | Huckel Theory | N-Dimensional cyclic systems | solid state theory | band theory | frontier molecular orbitals | similarity transformations | complexes | organometallic complexes | two electron bond | vibrational spectroscopy | symmetry | overtones | normal coordinat analysis | AOM | single electron CFT | tanabe-sugano diagram | ligand | crystal field theory | LCAO

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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5.111 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.

Subjects

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

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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Orbital Sunrise

Description

Subjects

endeavour | srl2 | sts68 | orbitalsunrise | spaceradarlaboratory

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Orbital Sunrise with Venus and Mars

Description

Subjects

discovery | earthlimb | sts70 | orbitalsunrise

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Organic Chemistry I

Description

Organic chemistry is the study of the carbon and the bonding patterns that make carbon the central element to life. A well-rounded science student must take courses in organic chemistry to understand its application to various other topics, such as the study of DNA, pharmaceuticals, and plastics. In the first semester of organic chemistry, the student will cover the basics. The student will explore different explanations of how molecules bond and learn about the simplest carbon structures (alkanes) before moving on to more complex carbon structures (alkenes and alkynes) and their reactions. The student will then transition into stereoechemistry (the spatial arrangement of atoms) and spectroscopy (methods of identifying molecules) and will conclude the course by examining the four basic

Subjects

organic chemistry | bonding | hybridization | lewis | valence | charge | polar | resonance | isomerism | orbitals | functional groups | alkanes | alkyl halides | alcohols | alkenes | synthesis | alkynes | Physical sciences | F000

License

Attribution 2.0 UK: England & Wales Attribution 2.0 UK: England & Wales http://creativecommons.org/licenses/by/2.0/uk/ http://creativecommons.org/licenses/by/2.0/uk/

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