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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

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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8.901 Astrophysics I (MIT) 8.901 Astrophysics I (MIT)

Description

This course provides a graduate-level introduction to stellar astrophysics. It covers a variety of topics, ranging from stellar structure and evolution to galactic dynamics and dark matter. This course provides a graduate-level introduction to stellar astrophysics. It covers a variety of topics, ranging from stellar structure and evolution to galactic dynamics and dark matter.

Subjects

Historical astronomy | Historical astronomy | astronomical instrumentation | astronomical instrumentation | Stars: spectra | Stars: spectra | classification | classification | stellar structure equations | stellar structure equations | stellar evolution | stellar evolution | stellar oscillations | stellar oscillations | degenerate and collapsed stars | degenerate and collapsed stars | radio pulsars | radio pulsars | interacting binary systems | interacting binary systems | accretion disks | accretion disks | x-ray sources | x-ray sources | gravitational lenses | gravitational lenses | dark matter | dark matter | interstellar medium: HII regions | interstellar medium: HII regions | supernova remnants | supernova remnants | molecular clouds | molecular clouds | dust | dust | radiative transfer | radiative transfer | Jeans' mass | Jeans' mass | star formation | star formation | high-energy astrophysics | high-energy astrophysics | Compton scattering | Compton scattering | bremsstrahlung | bremsstrahlung | synchrotron radiation | synchrotron radiation | cosmic rays | cosmic rays | Galactic stellar distributions | Galactic stellar distributions | Oort constants | Oort constants | Oort limit | Oort limit | globular clusters. | globular clusters. | globular clusters | globular clusters

License

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

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7.349 Biological Computing: At the Crossroads of Engineering and Science (MIT) 7.349 Biological Computing: At the Crossroads of Engineering and Science (MIT)

Description

Imagine you are a salesman needing to visit 100 cities connected by a set of roads. Can you do it while stopping in each city only once? Even a supercomputer working at 1 trillion operations per second would take longer than the age of the universe to find a solution when considering each possibility in turn. In 1994, Leonard Adleman published a paper in which he described a solution, using the tools of molecular biology, for a smaller 7-city example of this problem. His paper generated enormous scientific and public interest, and kick-started the field of Biological Computing, the main subject of this discussion based seminar course. Students will analyze the Adleman paper, and the papers that preceded and followed it, with an eye for identifying the engineering and scientific aspects of Imagine you are a salesman needing to visit 100 cities connected by a set of roads. Can you do it while stopping in each city only once? Even a supercomputer working at 1 trillion operations per second would take longer than the age of the universe to find a solution when considering each possibility in turn. In 1994, Leonard Adleman published a paper in which he described a solution, using the tools of molecular biology, for a smaller 7-city example of this problem. His paper generated enormous scientific and public interest, and kick-started the field of Biological Computing, the main subject of this discussion based seminar course. Students will analyze the Adleman paper, and the papers that preceded and followed it, with an eye for identifying the engineering and scientific aspects of

Subjects

biological computing | biological computing | Leonard Adleman | Leonard Adleman | exquisite detection | exquisite detection | whole-cell computing | whole-cell computing | computation | computation | molecular biology | molecular biology | biotin-avidin | biotin-avidin | magnetic beads | magnetic beads | cellular processes | cellular processes | combinatorial problems | combinatorial problems | self-assembly | self-assembly | nanodevices | nanodevices | molecular machines | molecular machines | quorum sensing | quorum sensing | molecular switches | molecular switches | ciliates | ciliates | molecular gates | molecular gates | molecular circuits | molecular circuits | genetic switch | genetic switch | cellular networks | cellular networks | genetic networks | genetic networks | genetic circuits | genetic circuits

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)

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.

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 | 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 | pulsars | binary X-ray sources | gas | dust | magnetic fields | cosmic rays | galaxy | universe | astrophysics | Sun | supernova | globular clusters | open clusters | jets | Newtonian cosmology | dynamical expansion | thermal history | normal galaxies | active galaxies | Greek astronomy | physics | Copernicus | Tycho | Kepler | Galileo | classical mechanics | circular orbits | full kepler orbit problem | electromagnetic radiation | matter | telescopes | detectors | 8.282 | 12.402 | plusars | galaxies | normal and active galaxies | 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 https://ocw.mit.edu/terms/index.htm

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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

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 | 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 | pulsars | binary X-ray sources | gas | dust | magnetic fields | cosmic rays | galaxy | universe | astrophysics | Sun | supernova | globular clusters | open clusters | jets | Newtonian cosmology | dynamical expansion | thermal history | normal galaxies | active galaxies | Greek astronomy | physics | Copernicus | Tycho | Kepler | Galileo | classical mechanics | circular orbits | full kepler orbit problem | electromagnetic radiation | matter | telescopes | detectors | 8.282 | 12.402

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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.

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 | 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 | pulsars | binary X-ray sources | gas | dust | magnetic fields | cosmic rays | galaxy | universe | astrophysics | Sun | supernova | globular clusters | open clusters | jets | Newtonian cosmology | dynamical expansion | thermal history | normal galaxies | active galaxies | Greek astronomy | physics | Copernicus | Tycho | Kepler | Galileo | classical mechanics | circular orbits | full kepler orbit problem | electromagnetic radiation | matter | telescopes | detectors | 8.282 | 12.402 | plusars | galaxies | normal and active galaxies | dynamical expansion and thermal history of the Universe

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20.320 Analysis of Biomolecular and Cellular Systems (MIT) 20.320 Analysis of Biomolecular and Cellular Systems (MIT)

Description

This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales, including genetic, molecular, cellular, and cell population levels. The two central themes of the course are modeling of complex dynamic systems and protein design and engineering. Topics include gene sequence analysis, molecular modeling, metabolic and gene regulation networks, signal transduction pathways and cell populations in tissues. Emphasis is placed on experimental methods, quantitative analysis, and computational modeling. This course focuses on computational and experimental analysis of biological systems across a hierarchy of scales, including genetic, molecular, cellular, and cell population levels. The two central themes of the course are modeling of complex dynamic systems and protein design and engineering. Topics include gene sequence analysis, molecular modeling, metabolic and gene regulation networks, signal transduction pathways and cell populations in tissues. Emphasis is placed on experimental methods, quantitative analysis, and computational modeling.

Subjects

biological engineering | biological engineering | kinase | kinase | PyMOL | PyMOL | PyRosetta | PyRosetta | MATLAB | MATLAB | Michaelis-Menten | Michaelis-Menten | bioreactor | bioreactor | bromodomain | bromodomain | protein-ligand interactions | protein-ligand interactions | titration analysis | titration analysis | fractional separation | fractional separation | isothermal titration calorimetry | isothermal titration calorimetry | ITC | ITC | mass spectrometry | mass spectrometry | MS | MS | co-immunoprecipitation | co-immunoprecipitation | Co-IP | Co-IP | Forster resonance energy transfer | Forster resonance energy transfer | FRET | FRET | primary ligation assay | primary ligation assay | PLA | PLA | surface plasmon resonance | surface plasmon resonance | SPR | SPR | enzyme kinetics | enzyme kinetics | kinase engineering | kinase engineering | competitive inhibition | competitive inhibition | epidermal growth factor receptor | epidermal growth factor receptor | mitogen-activated protein kinase | mitogen-activated protein kinase | MAPK | MAPK | genome editing | genome editing | Imatinib | Imatinib | Gleevec | Gleevec | Glivec | Glivec | drug delivery | drug delivery | kinetics of molecular processes | kinetics of molecular processes | dynamics of molecular processes | dynamics of molecular processes | kinetics of cellular processes | kinetics of cellular processes | dynamics of cellular processes | dynamics of cellular processes | intracellular scale | intracellular scale | extracellular scale | extracellular scale | and cell population scale | and cell population scale | biotechnology applications | biotechnology applications | gene regulation networks | gene regulation networks | nucleic acid hybridization | nucleic acid hybridization | signal transduction pathways | signal transduction pathways | cell populations in tissues | cell populations in tissues | cell populations in bioreactors | cell populations in bioreactors | experimental methods | experimental methods | quantitative analysis | quantitative analysis | computational modeling | computational modeling

License

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20.320 Biomolecular Kinetics and Cell Dynamics (MIT) 20.320 Biomolecular Kinetics and Cell Dynamics (MIT)

Description

This class covers analysis of kinetics and dynamics of molecular and cellular processes across a hierarchy of scales, including intracellular, extracellular, and cell population levels; a spectrum of biotechnology applications are also taken into consideration. Topics include gene regulation networks; nucleic acid hybridization; signal transduction pathways; and cell populations in tissues and bioreactors. Emphasis is placed on experimental methods, quantitative analysis, and computational modeling. This class covers analysis of kinetics and dynamics of molecular and cellular processes across a hierarchy of scales, including intracellular, extracellular, and cell population levels; a spectrum of biotechnology applications are also taken into consideration. Topics include gene regulation networks; nucleic acid hybridization; signal transduction pathways; and cell populations in tissues and bioreactors. Emphasis is placed on experimental methods, quantitative analysis, and computational modeling.

Subjects

kinetics of molecular processes | kinetics of molecular processes | dynamics of molecular processes | dynamics of molecular processes | kinetics of cellular processes | kinetics of cellular processes | dynamics of cellular processes | dynamics of cellular processes | intracellular scale | intracellular scale | extracellular scale | extracellular scale | and cell population scale | and cell population scale | biotechnology applications | biotechnology applications | gene regulation networks | gene regulation networks | nucleic acid hybridization | nucleic acid hybridization | signal transduction pathways | signal transduction pathways | cell populations in tissues | cell populations in tissues | cell populations in bioreactors | cell populations in bioreactors | experimental methods | experimental methods | quantitative analysis | quantitative analysis | computational modeling | computational modeling | cell population scale | cell population scale

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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Image from ?Il Pastor Fido. The faithfull Shepheard. [Translated from the Italian of Guarini.] With an addition of divers other Poems, concluding with a short discourse of the long Civill Warres of Rome ? by Richard Fanshawe, Esq. [With an engraved portrait of Guarini by Thomas Cross.]?, 001530656

Description

Image from ?Il Pastor Fido. The faithfull Shepheard. [Translated from the Italian of Guarini.] With an addition of divers other Poems, concluding with a short discourse of the long Civill Warres of Rome ? by Richard Fanshawe, Esq. [With an engraved portrait of Guarini by Thomas Cross.]?, 001530656 Author: GUARINI, Giovanni Battista. Page: 305 Year: 1648 Place: London Publisher: R. Raworth, for Humphrey Moseley View all the images from this book Following the link above will take you to the British Library?s integrated catalogue. You will be able to download a PDF of the book this image is taken from, as well as view the pages up close with the 'itemViewer?. Click on the 'related items? to search for the electronic version of this work.

Subjects

bldigital | bl_labs | britishlibrary | 1648 | similar_to_84810663327_identifier | similar_to_84810663327_title | similar_to_84810663327_author | similar_to_84810663327_place_of_publishing | similar_to_84810663327_publisher | similar_to_84810663327_published_date | similar_to_84810663327_slantyness | similar_to_84810663327_bubblyness_avesize | similar_to_84810663327_bubblyness_x | similar_to_84810663327_bubblyness_y | similar_to_84810663327_image_size

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http://creativecommons.org/publicdomain/zero/1.0/

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7.342 Systems and Synthetic Biology: How the Cell Solves Problems (MIT) 7.342 Systems and Synthetic Biology: How the Cell Solves Problems (MIT)

Description

A millennial challenge in biology is to decipher how vast arrays of molecular interactions inside the cell work in concert to produce a cellular function. Systems biology, a new interdisciplinary field of science, brings together biologists and physicists to tackle this grand challenge through quantitative experiments and models. In this course, we will discuss the unifying principles that all organisms use to perform cellular functions. We will also discuss key challenges faced by a cell in both single and multi-cellular organisms. Finally, we will discuss how researchers in the field of synthetic biology are using the new knowledge gained from studying naturally-occurring biological systems to create artificial gene networks capable of performing new functions. This course is one of many A millennial challenge in biology is to decipher how vast arrays of molecular interactions inside the cell work in concert to produce a cellular function. Systems biology, a new interdisciplinary field of science, brings together biologists and physicists to tackle this grand challenge through quantitative experiments and models. In this course, we will discuss the unifying principles that all organisms use to perform cellular functions. We will also discuss key challenges faced by a cell in both single and multi-cellular organisms. Finally, we will discuss how researchers in the field of synthetic biology are using the new knowledge gained from studying naturally-occurring biological systems to create artificial gene networks capable of performing new functions. This course is one of many

Subjects

systems biology | systems biology | synthetic biology | synthetic biology | cell | cell | cellular functions | cellular functions | biological systems | biological systems | artificial gene networks | artificial gene networks | molecular interactions | molecular interactions | molecular biology | molecular biology | genes | genes | RNA | RNA | proteins | proteins | macromolecules | macromolecules | intracellular biochemical interactions | intracellular biochemical interactions | extracellular molecules | extracellular molecules | gene expression | gene expression | stochastic gene expression | stochastic gene expression

License

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8.284 Modern Astrophysics (MIT) 8.284 Modern Astrophysics (MIT)

Description

This course explores the applications of physics (Newtonian, statistical, and quantum mechanics) to fundamental processes that occur in celestial objects. The list of topics includes Main-sequence Stars, Collapsed Stars (White Dwarfs, Neutron Stars, and Black Holes), Pulsars, Supernovae, the Interstellar Medium, Galaxies, and as time permits, Active Galaxies, Quasars, and Cosmology. Observational data is also discussed. This course explores the applications of physics (Newtonian, statistical, and quantum mechanics) to fundamental processes that occur in celestial objects. The list of topics includes Main-sequence Stars, Collapsed Stars (White Dwarfs, Neutron Stars, and Black Holes), Pulsars, Supernovae, the Interstellar Medium, Galaxies, and as time permits, Active Galaxies, Quasars, and Cosmology. Observational data is also discussed.

Subjects

Stars | Stars | equations stellar structure | equations stellar structure | stellar evolution | stellar evolution | stellar abundances | stellar abundances | binary | binary | binary stars | binary stars | interstellar medium: neutral and ionized gas | interstellar medium: neutral and ionized gas | dust | dust | HII regions | HII regions | supernovae | supernovae | shocks | shocks | galaxies | galaxies | galaxy clusters | galaxy clusters | galactic structure | galactic structure | stellar hydrodynamics | stellar hydrodynamics | massive halos | massive halos | active galactic nuclei | active galactic nuclei | cosmology | cosmology | Friedmann models | Friedmann models | primordial nucleosynthesis | primordial nucleosynthesis | microwave background radiation | microwave background radiation

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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18.305 Advanced Analytic Methods in Science and Engineering (MIT) 18.305 Advanced Analytic Methods in Science and Engineering (MIT)

Description

Advanced Analytic Methods in Science and Engineering is a comprehensive treatment of the advanced methods of applied mathematics. It was designed to strengthen the mathematical abilities of graduate students and train them to think on their own. Advanced Analytic Methods in Science and Engineering is a comprehensive treatment of the advanced methods of applied mathematics. It was designed to strengthen the mathematical abilities of graduate students and train them to think on their own.

Subjects

elementary methods complex analysis | elementary methods complex analysis | ordinary differential equations | ordinary differential equations | partial differential equations | partial differential equations | expansions around regular irregular singular points | expansions around regular irregular singular points | asymptotic evaluation integrals | asymptotic evaluation integrals | regular perturbations | regular perturbations | WKB method | WKB method | multiple scale method | multiple scale method | boundary-layer techniques. | boundary-layer techniques. | asymptotic evaluation integrals | regular perturbations | asymptotic evaluation integrals | regular perturbations | boundary-layer techniques | boundary-layer techniques

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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Geometría Gráfica Informática en Arquitectura I Geometría Gráfica Informática en Arquitectura I

Description

Teoría geométrica del objeto arquitectónico con herramientas informáticas. Esta asignatura se ocupa del estudio de las formas espaciales relacionadas con la arquitectura y de su representación, mediante el uso de los medios informáticos. Puede considerarse, en parte, como una profundización y ampliación de los conocimientos adquiridos por el alumno en Geometría Descriptiva; por otro lado, supone la aplicación, según los medios informáticos, de conceptos referentes a la expresión gráfica aprendidos en otras asignaturas de este mismo Área. Teoría geométrica del objeto arquitectónico con herramientas informáticas. Esta asignatura se ocupa del estudio de las formas espaciales relacionadas con la arquitectura y de su representación, mediante el uso de los medios informáticos. Puede considerarse, en parte, como una profundización y ampliación de los conocimientos adquiridos por el alumno en Geometría Descriptiva; por otro lado, supone la aplicación, según los medios informáticos, de conceptos referentes a la expresión gráfica aprendidos en otras asignaturas de este mismo Área.

Subjects

Bóveda | Bóveda | Expresión Gráfica en la Ingeniería | Expresión Gráfica en la Ingeniería | Módulo | Módulo | 3D network | 3D network | Laboratorios Jorba | Laboratorios Jorba | Modelado | Modelado | Extrusión | Extrusión | Construcciones Arquitectónicas | Construcciones Arquitectónicas | Red plana | Red plana | Mezquita Mihrimah | Mezquita Mihrimah | Orden toscano | Orden toscano | Dome | Dome | Platonic solids | Platonic solids | Dibujo | Dibujo | Booleana | Booleana | Graphic | Graphic | Solid | Solid | Dibujo 3D | Dibujo 3D | Arquitecto | Arquitecto | Architect | Architect | Poliedros semirregulares | Poliedros semirregulares | Hiperboloides | Hiperboloides | Polyhedron | Polyhedron | NURBS | NURBS | Render | Render | Malla | Malla | Computing | Computing | Ermita de la Virgen del Puerto | Ermita de la Virgen del Puerto | Surface | Surface | Particiones | Particiones | Historia del Arte | Historia del Arte | Poliedros regulares | Poliedros regulares | Red 3D | Red 3D | Choisy | Choisy | Axonometric | Axonometric | Network | Network | Pattern | Pattern | Geométrico | Geométrico | Mosque | Mosque | Spatial | Spatial | Sinan | Sinan | Red | Red | 3D | 3D | Form | Form | Perspectiva | Perspectiva | Ordenador | Ordenador | Ismael Garcia Rios | Ismael Garcia Rios | Lacería | Lacería | Paraboloides | Paraboloides | Axonometría | Axonometría | Souto de Moura | Souto de Moura | Revolve | Revolve | Kingo Houses | Kingo Houses | Santa María del Naranco | Santa María del Naranco | Pedro de Ribera | Pedro de Ribera | Regular tessellations | Regular tessellations | Expresión Gráfica Arquitectónica | Expresión Gráfica Arquitectónica | Architecture | Architecture | Molina de Aragón | Molina de Aragón | Tessellations | Tessellations | Ponte de Lima | Ponte de Lima | Arabesco | Arabesco | compactación | compactación | Pantheon | Pantheon | Computer | Computer | Eduardo Torroja | Eduardo Torroja | Fernández del Amo | Fernández del Amo | Ribbed vault | Ribbed vault | Organic architecture | Organic architecture | Superficie cuádrica | Superficie cuádrica | Arquitectura | Arquitectura | Miguel Fisac | Miguel Fisac | Crecimiento orgánico | Crecimiento orgánico | Autocad | Autocad | Symmetrical polyhedra | Symmetrical polyhedra | Rhinoceros | Rhinoceros | Domical vault | Domical vault | Templete de los Evangelistas | Templete de los Evangelistas | Gráfica | Gráfica | Luigi Canina | Luigi Canina | MicroStation | MicroStation | Irregular tessellations | Irregular tessellations | Patio de los Evangelistas | Patio de los Evangelistas | Composición Arquitectónica | Composición Arquitectónica | Sabil | Sabil | Modelling | Modelling | quadric surface | quadric surface | Mesh | Mesh | Panteón | Panteón | Monasterio de El Escorial | Monasterio de El Escorial | Superficie | Superficie | Tunnel vault | Tunnel vault | Vegaviana | Vegaviana | Iglesia Santos Apóstoles | Iglesia Santos Apóstoles | Proyectos Arquitectónicos | Proyectos Arquitectónicos | Parabólicos | Parabólicos | Geometry | Geometry | Carmen Garcia Reig | Carmen Garcia Reig | Expression | Expression | Cuba hiperbólica | Cuba hiperbólica | Red espacial | Red espacial | Geometría | Geometría | skeletal polyhedra | skeletal polyhedra | Bóveda de rincón de claustro | Bóveda de rincón de claustro | Sólido | Sólido | Poliedros platónicos | Poliedros platónicos | Hiperbólicos | Hiperbólicos | Perspective | Perspective | Mimbar | Mimbar | Fedala | Fedala | Furniture | Furniture | Polygon | Polygon | Hyperbolic | Hyperbolic | Bóveda de arista | Bóveda de arista | Revolución | Revolución | Cúpula | Cúpula | Bóveda de cañón | Bóveda de cañón | Estructura | Estructura | Expresión | Expresión | Computer aided design | Computer aided design | Informática | Informática | Hollow faced polyhedra | Hollow faced polyhedra | Flexible | Flexible | Geometric | Geometric | CAD | CAD | Formas | Formas | Bóveda de crucería | Bóveda de crucería | Infografía | Infografía | Polyhedra | Polyhedra | Groin vault | Groin vault | Plane | Plane | Architectural | Architectural | Plano | Plano | Structure | Structure | Architectural drawing | Architectural drawing | Arquitectónica | Arquitectónica | Barrel vault | Barrel vault | Arabesque | Arabesque | Sombra | Sombra | Utzon | Utzon | Escher | Escher | Mueble | Mueble | Vault | Vault | Annular vault | Annular vault | Egipto | Egipto | Polígono | Polígono | Archimedean solids | Archimedean solids | Poliedros arquimedianos | Poliedros arquimedianos | Egypt | Egypt | Paraboloid | Paraboloid | Module | Module | Extrude | Extrude | Boolean | Boolean | Tuscan Order | Tuscan Order | Hyperboloid | Hyperboloid | Poliedros vacuus | Poliedros vacuus

License

Copyright 2009, by the Contributing Authors http://creativecommons.org/licenses/by-nc-sa/3.0/

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EC.S07 Photovoltaic Solar Energy Systems (MIT) EC.S07 Photovoltaic Solar Energy Systems (MIT)

Description

This class will study the behavior of photovoltaic solar energy systems, focusing on the behavior of "stand-alone" systems. The design of stand-alone photovoltaic systems will be covered. This will include estimation of costs and benefits, taking into account any available government subsidies. Introduction to the hardware elements and their behavior will be included. This class will study the behavior of photovoltaic solar energy systems, focusing on the behavior of "stand-alone" systems. The design of stand-alone photovoltaic systems will be covered. This will include estimation of costs and benefits, taking into account any available government subsidies. Introduction to the hardware elements and their behavior will be included.

Subjects

solar radiation | solar radiation | solar flux | solar flux | photovoltaics | photovoltaics | solar gain | solar gain | solar energy | solar energy | solar energy collection systems | solar energy collection systems | design | design | cost-benefit analysis | cost-benefit analysis | green energy | green energy | hardware | hardware | stand-alone collectors | stand-alone collectors | flat-plate collectors | flat-plate collectors | PV stations | PV stations | utilities | utilities

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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Man with beard and top hat walking along a road (in Bundoran) Man with beard and top hat walking along a road (in Bundoran)

Description

Subjects

man | man | beard | beard | mainstreet | mainstreet | tophat | tophat | bundoran | bundoran | countydonegal | countydonegal | nationallibraryofireland | nationallibraryofireland | jjclarke | jjclarke | r267 | r267 | mcvitty | mcvitty | johnjosephclarke | johnjosephclarke | clarkecollection | clarkecollection | clarkephotographiccollection | clarkephotographiccollection | brianpclarke–donor | brianpclarke–donor

License

No known copyright restrictions

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3.012 Fundamentals of Materials Science (MIT) 3.012 Fundamentals of Materials Science (MIT)

Description

This course focuses on the fundamentals of structure, energetics, and bonding that underpin materials science. It is the introductory lecture class for sophomore students in Materials Science and Engineering, taken with 3.014 and 3.016 to create a unified introduction to the subject. Topics include: an introduction to thermodynamic functions and laws governing equilibrium properties, relating macroscopic behavior to atomistic and molecular models of materials; the role of electronic bonding in determining the energy, structure, and stability of materials; quantum mechanical descriptions of interacting electrons and atoms; materials phenomena, such as heat capacities, phase transformations, and multiphase equilibria to chemical reactions and magnetism; symmetry properties of molecules and s This course focuses on the fundamentals of structure, energetics, and bonding that underpin materials science. It is the introductory lecture class for sophomore students in Materials Science and Engineering, taken with 3.014 and 3.016 to create a unified introduction to the subject. Topics include: an introduction to thermodynamic functions and laws governing equilibrium properties, relating macroscopic behavior to atomistic and molecular models of materials; the role of electronic bonding in determining the energy, structure, and stability of materials; quantum mechanical descriptions of interacting electrons and atoms; materials phenomena, such as heat capacities, phase transformations, and multiphase equilibria to chemical reactions and magnetism; symmetry properties of molecules and s

Subjects

bonding | bonding | energetics | energetics | structure | structure | antibonding | antibonding | hydrogen | hydrogen | Quantum mechanics | Quantum mechanics | electron | electron | atom | atom | molecule | molecule | molecular dynamics | molecular dynamics | MD | MD | Symmetry properties | Symmetry properties | solid | solid | gas | gas | liquid | liquid | phase | phase | matter; molecular geometry | matter; molecular geometry | complex and disordered materials | complex and disordered materials | thermodynamics | thermodynamics | equilibrium property | equilibrium property | macroscopic behavior | macroscopic behavior | molecular model | molecular model | heat capacity | heat capacity | phase transformation | phase transformation | multiphase equilibria | multiphase equilibria | chemical reaction | chemical reaction | magnetism | magnetism | engineered alloy | engineered alloy | electronic and magnetic material | electronic and magnetic material | ionic solid | ionic solid | network solid | network solid | polymer | polymer | biomaterial | biomaterial | glass | glass | liquid crystal | liquid crystal | LCD | LCD | matter | matter | molecular geometry | molecular geometry

License

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

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7.27 Principles of Human Disease (MIT) 7.27 Principles of Human Disease (MIT)

Description

This course covers current understanding of, and modern approaches to human disease, emphasizing the molecular and cellular basis of both genetic disease and cancer. Topics include: The Genetics of Simple and Complex Traits; Karyotypic Analysis and Positional Cloning; Genetic Diagnosis; The Roles of Oncogenes and Tumor Suppressors in Tumor Initiation, Progression, and Treatment; The Interaction between Genetics and Environment; Animal Models of Human Disease; Cancer; and Conventional and Gene Therapy Treatment Strategies. This course covers current understanding of, and modern approaches to human disease, emphasizing the molecular and cellular basis of both genetic disease and cancer. Topics include: The Genetics of Simple and Complex Traits; Karyotypic Analysis and Positional Cloning; Genetic Diagnosis; The Roles of Oncogenes and Tumor Suppressors in Tumor Initiation, Progression, and Treatment; The Interaction between Genetics and Environment; Animal Models of Human Disease; Cancer; and Conventional and Gene Therapy Treatment Strategies.

Subjects

human disease | human disease | molecular basis of genetic disease | molecular basis of genetic disease | molecular basis of cancer | molecular basis of cancer | cellular basis of genetic disease | cellular basis of genetic disease | cellular basis of cancer | cellular basis of cancer | genetics of simple and complex traits | genetics of simple and complex traits | karyotypic analysis | karyotypic analysis | positional cloning | positional cloning | genetic diagnosis | genetic diagnosis | roles of oncogenes | roles of oncogenes | tumor suppressors | tumor suppressors | tumor initiation | tumor initiation | tumor progression | tumor progression | tumor treatment | tumor treatment | interaction between genetics and environment | interaction between genetics and environment | animal models of human disease | animal models of human disease | cancer | cancer | conventional treatment strategies | conventional treatment strategies | gene therapy treatment strategies | gene therapy treatment strategies

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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20.462J Molecular Principles of Biomaterials (MIT) 20.462J Molecular Principles of Biomaterials (MIT)

Description

This course covers the analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, vaccines, and cell-guiding surfaces. This course covers the analysis and design at a molecular scale of materials used in contact with biological systems, including biotechnology and biomedical engineering. Topics include molecular interactions between bio- and synthetic molecules and surfaces; design, synthesis, and processing approaches for materials that control cell functions; and application of state-of-the-art materials science to problems in tissue engineering, drug delivery, vaccines, and cell-guiding surfaces.

Subjects

biomaterials | biomaterials | biomaterial engineering | biomaterial engineering | biotechnology | biotechnology | cell-guiding surface | cell-guiding surface | molecular biomaterials | molecular biomaterials | drug release | drug release | polymers | polymers | pulsatile release | pulsatile release | polymerization | polymerization | polyer erosion | polyer erosion | tissue engineering | tissue engineering | hydrogels | hydrogels | adhesion | adhesion | migration | migration | drug diffusion | drug diffusion | molecular switches | molecular switches | molecular motors | molecular motors | nanoparticles | nanoparticles | microparticles | microparticles | vaccines | vaccines | drug targeting | drug targeting | micro carriers | micro carriers | nano carriers | nano carriers | intracellular drug delivery | intracellular drug delivery | 20.462 | 20.462 | 3.962 | 3.962

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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HST.542J Quantitative Physiology: Organ Transport Systems (MIT) HST.542J Quantitative Physiology: Organ Transport Systems (MIT)

Description

This course elaborates on the application of the principles of energy and mass flow to major human organ systems. It discusses mechanisms of regulation and homeostasis. It also discusses anatomical, physiological, and pathophysiological features of the cardiovascular, respiratory, and renal systems. There is emphasis on those systems, features, and devices that are most illuminated by the methods of physical sciences. This course elaborates on the application of the principles of energy and mass flow to major human organ systems. It discusses mechanisms of regulation and homeostasis. It also discusses anatomical, physiological, and pathophysiological features of the cardiovascular, respiratory, and renal systems. There is emphasis on those systems, features, and devices that are most illuminated by the methods of physical sciences.

Subjects

electrocardiogram | electrocardiogram | cardiovascular system | cardiovascular system | cardiovascular physiology | cardiovascular physiology | electrophysiology | electrophysiology | myocardial cells | myocardial cells | electrocardiography | electrocardiography | physiological fluid mechanics | physiological fluid mechanics | respiratory physiology | respiratory physiology | renal physiology | renal physiology | quantitative physiology | quantitative physiology | pulmonary mechanics | pulmonary mechanics | heart | heart | arrhythmia | arrhythmia | pulmonary modeling | pulmonary modeling | clinical electrocardiography | clinical electrocardiography | ECG | ECG | EKG | EKG | ischemia | ischemia | infarction | infarction | vector cardiogram | vector cardiogram | purkinje fibers | purkinje fibers | QRS waveform | QRS waveform | tachycardia | tachycardia | action potential | action potential | depolarization | depolarization | afterdepolarization | afterdepolarization | total lung capacity | total lung capacity | systolic | systolic | diastolic | diastolic | residual volume | residual volume | vital capacity | vital capacity | HST.542 | HST.542 | 2.792 | 2.792 | 20.371J20.371 | 20.371J20.371 | 6.022 | 6.022

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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HST.035 Principle and Practice of Human Pathology (MIT) HST.035 Principle and Practice of Human Pathology (MIT)

Description

This course provides a comprehensive overview of human pathology with emphasis on mechanisms of disease and diagnostic medicine. Topics include:Cellular Mechanisms of DiseaseMolecular PathologyPathology of Major Organ SystemsReview of Diagnostic Tools from Traditional Surgical Pathology to Diagnostic SpectroscopyFunctional and Molecular ImagingMolecular DiagnosticsIn addition to lectures, one of the two weekly sessions includes a 2-3 hour laboratory component. Periodically, time will also be devoted to minicases.LecturersProf. Jon AsterProf. Frederick BieberProf. Carlo BrugnaraProf. Robert B. ColvinProf. Christopher CrumProf. Douglas DockeryProf. Mel FeanyProf. Michael FeldProf. Jonathan FletcherProf. Michael GimbroneProf. Todd GolubProf. Frank B. HuProf. Donald IngberProf. Hart LidovProf. This course provides a comprehensive overview of human pathology with emphasis on mechanisms of disease and diagnostic medicine. Topics include:Cellular Mechanisms of DiseaseMolecular PathologyPathology of Major Organ SystemsReview of Diagnostic Tools from Traditional Surgical Pathology to Diagnostic SpectroscopyFunctional and Molecular ImagingMolecular DiagnosticsIn addition to lectures, one of the two weekly sessions includes a 2-3 hour laboratory component. Periodically, time will also be devoted to minicases.LecturersProf. Jon AsterProf. Frederick BieberProf. Carlo BrugnaraProf. Robert B. ColvinProf. Christopher CrumProf. Douglas DockeryProf. Mel FeanyProf. Michael FeldProf. Jonathan FletcherProf. Michael GimbroneProf. Todd GolubProf. Frank B. HuProf. Donald IngberProf. Hart LidovProf.

Subjects

human pathology | human pathology | disease mechanisms | disease mechanisms | cellular pathology | cellular pathology | molecular pathology | molecular pathology | diagnostic tools | diagnostic tools | surgical pathology | surgical pathology | diagnostic spectroscopy | diagnostic spectroscopy | functional imaging | functional imaging | molecular imaging | molecular imaging | molecular diagnostics | molecular diagnostics | medicine | medicine | immune system | immune system | transplantation | transplantation | diagnosis | diagnosis | neoplasia | neoplasia | pathobiology | pathobiology | pathophysiology | pathophysiology

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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nica Odontolgica Integrada Infantil (2013) nica Odontolgica Integrada Infantil (2013)

Description

Atencin bucodental integral de bebs, nios y jvenes. Atencin bucodental integral de bebs, nios y jvenes.

Subjects

na | na | exodoncia | exodoncia | selladores de fosas y fisuras | selladores de fosas y fisuras | bruxismo infantil | bruxismo infantil | n intraoral | n intraoral | mordida cruzada posterior | mordida cruzada posterior | mantenedor corona-ansa | mantenedor corona-ansa | mantenedor propioceptivo | mantenedor propioceptivo | anestesia infiltrativa | anestesia infiltrativa | fractura radicular | fractura radicular | botador | botador | paracetamol | paracetamol | anestesia troncular | anestesia troncular | mordida en tijera | mordida en tijera | MTA | MTA | sicos locales en odontopediatra | sicos locales en odontopediatra | n | n | resinas compuestas | resinas compuestas | amalgama dental | amalgama dental | facies adenoidea | facies adenoidea | a | a | coronas preformadas | coronas preformadas | nistatina | nistatina | Riesgo de caries | Riesgo de caries | a interproximal | a interproximal | forcep | forcep | metamizol | metamizol | mero de vidrio | mero de vidrio | n extraoral | n extraoral | clindamicina | clindamicina | dipirona | dipirona | mantenedor de espacio | mantenedor de espacio | n dental | n dental | cefalosporinas | cefalosporinas | anestesia transpapilar | anestesia transpapilar | aciclovir | aciclovir | composite | composite | fractura coronaria | fractura coronaria | espiramicina | espiramicina | n apical de MTA | n apical de MTA | amoxicilina | amoxicilina | metronidazol | metronidazol | eritromicina | eritromicina | n preventiva de resina | n preventiva de resina | a periapical | a periapical | mantenedor banda-ansa | mantenedor banda-ansa | fracturas dentales | fracturas dentales | a de aleta de mordida | a de aleta de mordida | n atpica | n atpica | n extrusiva | n extrusiva | ortodoncia interceptiva | ortodoncia interceptiva | n intrusiva | n intrusiva | recubrimiento pulpar directa | recubrimiento pulpar directa | n lateral | n lateral | a mnimamente invasiva | a mnimamente invasiva | trico | trico | recubrimiento pulpar indirecta | recubrimiento pulpar indirecta | fractura corono-radicular | fractura corono-radicular | AINEs | AINEs | mordida cruzada anterior | mordida cruzada anterior | cido clavulnico | cido clavulnico | endodoncia | endodoncia | azitromicina | azitromicina | penicilina G | penicilina G | nica | nica | n oral | n oral | ibuprofeno | ibuprofeno | maloclusiones clase III | maloclusiones clase III | n digital | n digital | a oclusal | a oclusal

License

http://creativecommons.org/licenses/by-nc-sa/3.0/

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a a

Description

La energa, formas. Fuentes de energa primaria, transformaciones y consumos. Evolucin histrica. Energa y desarrollo. Intensidad energtica. Tecnologas. Polticas. Fuentes de energa renovable y no renovable. Energa nuclear. Combustibles fsiles, petrleo, gas natural y carbn. Geotermia, energa solar trmica y termoelctrica, energa fotovoltaica. Energa atmosfrica, energa elica, energa hidroelctrica y marina. Biomasa. La energa, formas. Fuentes de energa primaria, transformaciones y consumos. Evolucin histrica. Energa y desarrollo. Intensidad energtica. Tecnologas. Polticas. Fuentes de energa renovable y no renovable. Energa nuclear. Combustibles fsiles, petrleo, gas natural y carbn. Geotermia, energa solar trmica y termoelctrica, energa fotovoltaica. Energa atmosfrica, energa elica, energa hidroelctrica y marina. Biomasa.

Subjects

quinas de absorcin | quinas de absorcin | ster | ster | Captura y secuestro de CO2 | Captura y secuestro de CO2 | a Nuclear | a Nuclear | Colectores solares | Colectores solares | a hidroelctrica y marina | a hidroelctrica y marina | a atmosfrica | a atmosfrica | as renovables | as renovables | a solar fotovoltaica | a solar fotovoltaica | a elica | a elica | a solar termoelctrica | a solar termoelctrica | 2013 | 2013 | tico | tico | a solar | a solar | tica | tica | a y Desarrollo | a y Desarrollo | Bomba de calor | Bomba de calor | siles | siles | a geotrmica | a geotrmica | ticos | ticos | Biomasa | Biomasa

License

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

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Image from ?The Birthday Book of Quotations and Autograph Album. Extracts in English, French and German, chiefly from standard authors, etc?, 000359422

Description

Image from ?The Birthday Book of Quotations and Autograph Album. Extracts in English, French and German, chiefly from standard authors, etc?, 000359422 Author: Page: 148 Year: 1878 Place: London Publisher: Bacon & Son View all the images from this book Following the link above will take you to the British Library?s integrated catalogue. You will be able to download a PDF of the book this image is taken from, as well as view the pages up close with the 'itemViewer?. Click on the 'related items? to search for the electronic version of this work.

Subjects

bldigital | bl_labs | britishlibrary | 1878 | similar_to_76581066987_identifier | similar_to_76581066987_title | similar_to_76581066987_place_of_publishing | similar_to_76581066987_publisher | similar_to_76581066987_published_date | similar_to_76581066987_slantyness | similar_to_76581066987_bubblyness_avesize | similar_to_76581066987_bubblyness_y

License

http://creativecommons.org/publicdomain/zero/1.0/

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Image from ?A Text-Book of Coal-Mining ? Second edition, etc?, 001758763

Description

Image from ?A Text-Book of Coal-Mining ? Second edition, etc?, 001758763 Author: HUGHES, Herbert W. Page: 228 Year: 1893 Place: London Publisher: Griffin & Co. View all the images from this book Following the link above will take you to the British Library?s integrated catalogue. You will be able to download a PDF of the book this image is taken from, as well as view the pages up close with the 'itemViewer?. Click on the 'related items? to search for the electronic version of this work. Open the page in the British Library?s itemViewer (page: 000228) Download the PDF for this book

Subjects

bldigital | bl_labs | britishlibrary | 1893 | similar_to_82684200181_identifier | similar_to_82684200181_title | similar_to_82684200181_author | similar_to_82684200181_place_of_publishing | similar_to_82684200181_publisher | similar_to_82684200181_published_date | similar_to_82684200181_slantyness | similar_to_82684200181_bubblyness_x

License

http://creativecommons.org/publicdomain/zero/1.0/

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