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Apollo Project - Liftoff of Lunar Orbiter III Apollo Project - Liftoff of Lunar Orbiter III

Description

Subjects

aviation | aviation | nasa | nasa | atlas | atlas | rocket | rocket | capecanaveral | capecanaveral | lockheed | lockheed | aerospace | aerospace | agena | agena | spaceflight | spaceflight | convair | convair | rocketlaunch | rocketlaunch | spaceexploration | spaceexploration | nationalaeronauticsandspaceadministration | nationalaeronauticsandspaceadministration | mannedspaceflight | mannedspaceflight | atlasrocket | atlasrocket | lc13 | lc13 | atlasagena | atlasagena | launchcomplex13 | launchcomplex13 | lunarorbiterprogram | lunarorbiterprogram | lunarorbiter3 | lunarorbiter3 | lunarorbiteriii | lunarorbiteriii | agenad | agenad | atlasagenad | atlasagenad

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16.07 Dynamics (MIT) 16.07 Dynamics (MIT)

Description

Dynamics starts with fundamentals of Newtonian mechanics. Further topics include kinematics, particle dynamics, motion relative to accelerated reference frames, work and energy, impulse and momentum, systems of particles and rigid body dynamics. Applications to aerospace engineering are discussed, including introductory topics in orbital mechanics, flight dynamics, inertial navigation and attitude dynamics. Dynamics starts with fundamentals of Newtonian mechanics. Further topics include kinematics, particle dynamics, motion relative to accelerated reference frames, work and energy, impulse and momentum, systems of particles and rigid body dynamics. Applications to aerospace engineering are discussed, including introductory topics in orbital mechanics, flight dynamics, inertial navigation and attitude dynamics.

Subjects

Curvilinear motion | Curvilinear motion | carteian coordinates | carteian coordinates | dynamics | dynamics | equations of motion | equations of motion | intrinsic coordinates | intrinsic coordinates | coordinate systems | coordinate systems | work | work | energy | energy | conservative forces | conservative forces | potential energy | potential energy | linear impulse | linear impulse | mommentum | mommentum | angular impulse | angular impulse | relative motion | relative motion | rotating axes | rotating axes | translating axes | translating axes | Newton's second law | Newton's second law | inertial forces | inertial forces | accelerometers | accelerometers | Newtonian relativity | Newtonian relativity | gravitational attraction | gravitational attraction | 2D rigid body kinematics | 2D rigid body kinematics | conservation laws for systems of particles | conservation laws for systems of particles | 2D rigid body dynamics | 2D rigid body dynamics | pendulums | pendulums | 3D rigid body kinematics | 3D rigid body kinematics | 3d rigid body dynamics | 3d rigid body dynamics | inertia tensor | inertia tensor | gyroscopic motion | gyroscopic motion | torque-free motion | torque-free motion | spin stabilization | spin stabilization | variable mass systems | variable mass systems | rocket equation | rocket equation | central foce motion | central foce motion | Keppler's laws | Keppler's laws | orbits | orbits | orbit transfer | orbit transfer | vibration | vibration | spring mass systems | spring mass systems | forced vibration | forced vibration | isolation | isolation | coupled oscillators | coupled oscillators | normal modes | normal modes | wave propagation | wave propagation | cartesian coordinates | cartesian coordinates | momentum | momentum | central force motion | central force motion

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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

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8.282J Introduction to Astronomy (MIT) 8.282J Introduction to Astronomy (MIT)

Description

Introduction to Astronomy provides a quantitative introduction to physics of the solar system, stars, interstellar medium, the galaxy, and universe, as determined from a variety of astronomical observations and models.Topics include: planets, planet formation; stars, the Sun, "normal" stars, star formation; stellar evolution, supernovae, compact objects (white dwarfs, neutron stars, and black holes), plusars, binary X-ray sources; star clusters, globular and open clusters; interstellar medium, gas, dust, magnetic fields, cosmic rays; distance ladder; galaxies, normal and active galaxies, jets; gravitational lensing; large scaling structure; Newtonian cosmology, dynamical expansion and thermal history of the Universe; cosmic microwave background radiation; big-bang nucleosynthesis Introduction to Astronomy provides a quantitative introduction to physics of the solar system, stars, interstellar medium, the galaxy, and universe, as determined from a variety of astronomical observations and models.Topics include: planets, planet formation; stars, the Sun, "normal" stars, star formation; stellar evolution, supernovae, compact objects (white dwarfs, neutron stars, and black holes), plusars, binary X-ray sources; star clusters, globular and open clusters; interstellar medium, gas, dust, magnetic fields, cosmic rays; distance ladder; galaxies, normal and active galaxies, jets; gravitational lensing; large scaling structure; Newtonian cosmology, dynamical expansion and thermal history of the Universe; cosmic microwave background radiation; big-bang nucleosynthesis

Subjects

solar system; stars; interstellar medium; the Galaxy; the Universe; planets; planet formation; star formation; stellar evolution; supernovae; compact objects; white dwarfs; neutron stars; black holes; plusars | binary X-ray sources; star clusters; globular and open clusters; interstellar medium | gas | dust | magnetic fields | cosmic rays; distance ladder; | solar system; stars; interstellar medium; the Galaxy; the Universe; planets; planet formation; star formation; stellar evolution; supernovae; compact objects; white dwarfs; neutron stars; black holes; plusars | binary X-ray sources; star clusters; globular and open clusters; interstellar medium | gas | dust | magnetic fields | cosmic rays; distance ladder; | solar system | solar system | stars | stars | interstellar medium | interstellar medium | the Galaxy | the Galaxy | the Universe | the Universe | planets | planets | planet formation | planet formation | star formation | star formation | stellar evolution | stellar evolution | supernovae | supernovae | compact objects | compact objects | white dwarfs | white dwarfs | neutron stars | neutron stars | black holes | black holes | plusars | binary X-ray sources | plusars | binary X-ray sources | star clusters | star clusters | globular and open clusters | globular and open clusters | interstellar medium | gas | dust | magnetic fields | cosmic rays | interstellar medium | gas | dust | magnetic fields | cosmic rays | distance ladder | distance ladder | galaxies | normal and active galaxies | jets | galaxies | normal and active galaxies | jets | gravitational lensing | gravitational lensing | large scaling structure | large scaling structure | Newtonian cosmology | dynamical expansion and thermal history of the Universe | Newtonian cosmology | dynamical expansion and thermal history of the Universe | cosmic microwave background radiation | cosmic microwave background radiation | big-bang nucleosynthesis | big-bang nucleosynthesis | pulsars | pulsars | binary X-ray sources | binary X-ray sources | gas | gas | dust | dust | magnetic fields | magnetic fields | cosmic rays | cosmic rays | galaxy | galaxy | universe | universe | astrophysics | astrophysics | Sun | Sun | supernova | supernova | globular clusters | globular clusters | open clusters | open clusters | jets | jets | Newtonian cosmology | Newtonian cosmology | dynamical expansion | dynamical expansion | thermal history | thermal history | normal galaxies | normal galaxies | active galaxies | active galaxies | Greek astronomy | Greek astronomy | physics | physics | Copernicus | Copernicus | Tycho | Tycho | Kepler | Kepler | Galileo | Galileo | classical mechanics | classical mechanics | circular orbits | circular orbits | full kepler orbit problem | full kepler orbit problem | electromagnetic radiation | electromagnetic radiation | matter | matter | telescopes | telescopes | detectors | detectors | 8.282 | 8.282 | 12.402 | 12.402

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16.346 Astrodynamics (MIT) 16.346 Astrodynamics (MIT)

Description

Includes audio/video content: AV selected lectures. This course covers the fundamentals of astrodynamics, focusing on the two-body orbital initial-value and boundary-value problems with applications to space vehicle navigation and guidance for lunar and planetary missions, including both powered flight and midcourse maneuvers. Other topics include celestial mechanics, Kepler's problem, Lambert's problem, orbit determination, multi-body methods, mission planning, and recursive algorithms for space navigation. Selected applications from the Apollo, Space Shuttle, and Mars exploration programs are also discussed. Includes audio/video content: AV selected lectures. This course covers the fundamentals of astrodynamics, focusing on the two-body orbital initial-value and boundary-value problems with applications to space vehicle navigation and guidance for lunar and planetary missions, including both powered flight and midcourse maneuvers. Other topics include celestial mechanics, Kepler's problem, Lambert's problem, orbit determination, multi-body methods, mission planning, and recursive algorithms for space navigation. Selected applications from the Apollo, Space Shuttle, and Mars exploration programs are also discussed.

Subjects

space navigation | space navigation | two body problem | two body problem | boundary value problem | boundary value problem | Kepler | Kepler | astrodynamics | astrodynamics | orbital transfer | orbital transfer | satellite | satellite | hyperbolic orbits | hyperbolic orbits | planetary flybys | planetary flybys | hypergeometric functions | hypergeometric functions | flight guidance | flight guidance | three body problem | three body problem | Clohessy-Wiltshire equation | Clohessy-Wiltshire equation | Hodograph plane | Hodograph plane | Battin-vaughan formulation | Battin-vaughan formulation | atmospheric drag | atmospheric drag | disturbing function | disturbing function

License

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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

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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5.61 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

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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5.05 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

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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8.282J Introduction to Astronomy (MIT) 8.282J Introduction to Astronomy (MIT)

Description

Introduction to Astronomy provides a quantitative introduction to the physics of the solar system, stars, the interstellar medium, the galaxy, and the universe, as determined from a variety of astronomical observations and models. Introduction to Astronomy provides a quantitative introduction to the physics of the solar system, stars, the interstellar medium, the galaxy, and the universe, as determined from a variety of astronomical observations and models.

Subjects

solar system; stars; interstellar medium; the Galaxy; the Universe; planets; planet formation; star formation; stellar evolution; supernovae; compact objects; white dwarfs; neutron stars; black holes; plusars | binary X-ray sources; star clusters; globular and open clusters; interstellar medium | gas | dust | magnetic fields | cosmic rays; distance ladder; | solar system; stars; interstellar medium; the Galaxy; the Universe; planets; planet formation; star formation; stellar evolution; supernovae; compact objects; white dwarfs; neutron stars; black holes; plusars | binary X-ray sources; star clusters; globular and open clusters; interstellar medium | gas | dust | magnetic fields | cosmic rays; distance ladder; | solar system | solar system | stars | stars | interstellar medium | interstellar medium | the Galaxy | the Galaxy | the Universe | the Universe | planets | planets | planet formation | planet formation | star formation | star formation | stellar evolution | stellar evolution | supernovae | supernovae | compact objects | compact objects | white dwarfs | white dwarfs | neutron stars | neutron stars | black holes | black holes | plusars | binary X-ray sources | plusars | binary X-ray sources | star clusters | star clusters | globular and open clusters | globular and open clusters | interstellar medium | gas | dust | magnetic fields | cosmic rays | interstellar medium | gas | dust | magnetic fields | cosmic rays | distance ladder | distance ladder | galaxies | normal and active galaxies | jets | galaxies | normal and active galaxies | jets | gravitational lensing | gravitational lensing | large scaling structure | large scaling structure | Newtonian cosmology | dynamical expansion and thermal history of the Universe | Newtonian cosmology | dynamical expansion and thermal history of the Universe | cosmic microwave background radiation | cosmic microwave background radiation | big-bang nucleosynthesis | big-bang nucleosynthesis | pulsars | pulsars | binary X-ray sources | binary X-ray sources | gas | gas | dust | dust | magnetic fields | magnetic fields | cosmic rays | cosmic rays | galaxy | galaxy | universe | universe | astrophysics | astrophysics | Sun | Sun | supernova | supernova | globular clusters | globular clusters | open clusters | open clusters | jets | jets | Newtonian cosmology | Newtonian cosmology | dynamical expansion | dynamical expansion | thermal history | thermal history | normal galaxies | normal galaxies | active galaxies | active galaxies | Greek astronomy | Greek astronomy | physics | physics | Copernicus | Copernicus | Tycho | Tycho | Kepler | Kepler | Galileo | Galileo | classical mechanics | classical mechanics | circular orbits | circular orbits | full kepler orbit problem | full kepler orbit problem | electromagnetic radiation | electromagnetic radiation | matter | matter | telescopes | telescopes | detectors | detectors | 8.282 | 8.282 | 12.402 | 12.402 | plusars | plusars | galaxies | galaxies | normal and active galaxies | normal and active galaxies | dynamical expansion and thermal history of the Universe | dynamical expansion and thermal history of the Universe

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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5.61 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, and 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 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, and 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

Subjects

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 | spectroscopy | spectroscopy | NMR | NMR | hartree-fock | hartree-fock | 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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Evidence for Recent Liquid Water on Mars Evidence for Recent Liquid Water on Mars

Description

Subjects

water | water | mgs | mgs | moc | moc | gullies | gullies | noachisterra | noachisterra | marsorbitercamera | marsorbitercamera | marsglobalsurveyor | marsglobalsurveyor | vikingorbiter | vikingorbiter

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Glenn on Middeck Glenn on Middeck

Description

Subjects

osteoporsisexperimentinorbitosteomiddeckjohnglennsts95 | osteoporsisexperimentinorbitosteomiddeckjohnglennsts95 | osteoporsisexperimentinorbitosteomiddeckjohnglennsts95discovery | osteoporsisexperimentinorbitosteomiddeckjohnglennsts95discovery

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X0003P0038

Description

Close up of the normal equine skull showing the supraorbital foramen above the orbital socket

Subjects

svmsvet | equine | horse | skeleton | skull | head | orbit | orbital | socket | eye | supraorbital | foramen

License

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

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X0003P0038

Description

Close up of the normal equine skull showing the supraorbital foramen above the orbital socket

Subjects

svmsvet | equine | horse | skeleton | skull | head | orbit | orbital | socket | eye | supraorbital | foramen

License

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

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

Description

Subjects

armstrong | afrc | nasaarmstrong | aviationaerospacenationalaeronauticsandspaceadministrationnasaairplanehypersonicexperimentalflightscramjetxplaneorbitalsciencescorporationorbitalsciencesoscorbitalsciencespegasuspegasusrocketboeingboeingb52stratofortressboei

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12.540 Principles of Global Positioning Systems (MIT) 12.540 Principles of Global Positioning Systems (MIT)

Description

The aim of this course is to introduce the principles of the Global Positioning System and to demonstrate its application to various aspects of Earth Sciences. The specific content of the course depends each year on the interests of the students in the class. In some cases, the class interests are towards the geophysical applications of GPS and we concentrate on high precision (millimeter level) positioning on regional and global scales. In other cases, the interests have been more toward engineering applications of kinematic positioning with GPS in which case the concentration is on positioning with slightly less accuracy but being able to do so for a moving object. In all cases, we concentrate on the fundamental issues so that students should gain an understanding of the basic limitation The aim of this course is to introduce the principles of the Global Positioning System and to demonstrate its application to various aspects of Earth Sciences. The specific content of the course depends each year on the interests of the students in the class. In some cases, the class interests are towards the geophysical applications of GPS and we concentrate on high precision (millimeter level) positioning on regional and global scales. In other cases, the interests have been more toward engineering applications of kinematic positioning with GPS in which case the concentration is on positioning with slightly less accuracy but being able to do so for a moving object. In all cases, we concentrate on the fundamental issues so that students should gain an understanding of the basic limitation

Subjects

Global Positioning System (GPS) | Global Positioning System (GPS) | kinematic positioning | kinematic positioning | geodetic systems | geodetic systems | satellite orbital motions | satellite orbital motions

License

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12.301 Climate Physics and Chemistry (MIT) 12.301 Climate Physics and Chemistry (MIT)

Description

This course introduces students to climate studies, including beginnings of the solar system, time scales, and climate in human history; methods for detecting climate change, including proxies, ice cores, instrumental records, and time series analysis; physical and chemical processes in climate, including primordial atmosphere, ozone chemistry, carbon and oxygen cycles, and heat and water budgets; internal feedback mechanisms, including ice, aerosols, water vapor, clouds, and ocean circulation; climate forcing, including orbital variations, volcanism, plate tectonics, and solar variability; climate models and mechanisms of variability, including energy balance, coupled models, and global ocean and atmosphere models; and outstanding problems. This course introduces students to climate studies, including beginnings of the solar system, time scales, and climate in human history; methods for detecting climate change, including proxies, ice cores, instrumental records, and time series analysis; physical and chemical processes in climate, including primordial atmosphere, ozone chemistry, carbon and oxygen cycles, and heat and water budgets; internal feedback mechanisms, including ice, aerosols, water vapor, clouds, and ocean circulation; climate forcing, including orbital variations, volcanism, plate tectonics, and solar variability; climate models and mechanisms of variability, including energy balance, coupled models, and global ocean and atmosphere models; and outstanding problems.

Subjects

climate | climate | climate change | climate change | proxies | proxies | ice cores | ice cores | primordial atmosphere | primordial atmosphere | ozone chemistry | ozone chemistry | carbon and oxygen cycles | carbon and oxygen cycles | heat and water budgets | heat and water budgets | aerosols | aerosols | water vapor | water vapor | clouds | clouds | ocean circulation | ocean circulation | orbital variations | orbital variations | volcanism | volcanism | plate tectonics | plate tectonics | solar system | solar system | solar variability | solar variability | climate model | climate model | energy balance | energy balance

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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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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12.540 Principles of the Global Positioning System (MIT) 12.540 Principles of the Global Positioning System (MIT)

Description

The aim of this course is to introduce the principles of the Global Positioning System and to demonstrate its application to various aspects of Earth Sciences. The specific content of the course depends each year on the interests of the students in the class. In some cases, the class interests are towards the geophysical applications of GPS and we concentrate on high precision(millimeter level) positioning on regional and global scales. In other cases, the interests have been more toward engineering applications of kinematic positioning with GPS in which case the concentration is on positioning with slightly less accuracy but being able to do so for a moving object. In all cases, we concentrate on the fundamen The aim of this course is to introduce the principles of the Global Positioning System and to demonstrate its application to various aspects of Earth Sciences. The specific content of the course depends each year on the interests of the students in the class. In some cases, the class interests are towards the geophysical applications of GPS and we concentrate on high precision(millimeter level) positioning on regional and global scales. In other cases, the interests have been more toward engineering applications of kinematic positioning with GPS in which case the concentration is on positioning with slightly less accuracy but being able to do so for a moving object. In all cases, we concentrate on the fundamen

Subjects

Global Positioning System | Global Positioning System | Earth Sciences | Earth Sciences | geophysical applications | geophysical applications | GPS | GPS | engineering applications | engineering applications | kinematic positioning | kinematic positioning | precision | precision | accuracy | accuracy | moving objects | moving objects | coordinate | coordinate | time | time | systems | systems | satellite | satellite | geodetic | geodetic | orbital | orbital | motions | motions | pseudo ranges | pseudo ranges | carrier phases | carrier phases | stochastic | stochastic | mathematics | mathematics | models | models | data | data | analysis | analysis | estimation | estimation

License

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12.301 Past and Present Climate (12.301) / Climate Physics and Chemistry (12.842) (MIT) 12.301 Past and Present Climate (12.301) / Climate Physics and Chemistry (12.842) (MIT)

Description

This course introduces students to climate studies, including beginnings of the solar system, time scales, and climate in human history. This course introduces students to climate studies, including beginnings of the solar system, time scales, and climate in human history.

Subjects

climate | climate | climate change | climate change | proxies | proxies | ice cores | ice cores | primordial atmosphere | primordial atmosphere | ozone chemistry | ozone chemistry | carbon and oxygen cycles | carbon and oxygen cycles | heat and water budgets | heat and water budgets | aerosols | aerosols | water vapor | water vapor | clouds | clouds | ocean circulation | ocean circulation | orbital variations | orbital variations | volcanism | volcanism | plate tectonics | plate tectonics | solar system | solar system | solar variability | solar variability | climate model | climate model | energy balance | energy balance

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® Excel software is recommended for viewing the .xls files found on this course site. Free Microsoft® Excel viewer software 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® Excel software is recommended for viewing the .xls files found on this course site. Free Microsoft® Excel viewer software 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

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

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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8.06 Quantum Physics III (MIT) 8.06 Quantum Physics III (MIT)

Description

This course is a continuation of 8.05, Quantum Physics II. Content includes:Natural UnitsCharged particles in a magnetic fieldTime-independent perturbation theoryVariational and semi-classical methodsQuantum ComputingThe adiabatic approximation and Berry’s phaseScatteringTime-dependent perturbation theory This course is a continuation of 8.05, Quantum Physics II. Content includes:Natural UnitsCharged particles in a magnetic fieldTime-independent perturbation theoryVariational and semi-classical methodsQuantum ComputingThe adiabatic approximation and Berry’s phaseScatteringTime-dependent perturbation theory

Subjects

natural units | natural units | scales of microscopic phenomena | scales of microscopic phenomena | Time-independent approximation methods: degenerate and non-degenerate perturbation theory | Time-independent approximation methods: degenerate and non-degenerate perturbation theory | variational method | variational method | Born-Oppenheimer approximation | Born-Oppenheimer approximation | spin-orbit and relativistic corrections | spin-orbit and relativistic corrections | Zeeman and Stark effects | Zeeman and Stark effects | Charged particles in a magnetic field | Charged particles in a magnetic field | Landau levels | Landau levels | integer quantum hall effect | integer quantum hall effect | Scattering | Scattering | partial waves | partial waves | Born approximation | Born approximation | Time-dependent perturbation theory | Time-dependent perturbation theory | quantum physics | quantum physics

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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5.111 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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5.04 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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