841 resultados para Mitchell, John Cameron
Resumo:
L'objectiu d'aquest article és mostrar com un mite antic, el mite dels tres gèneres, també anomenat de l'androgin de l'Aristòfanes del Simposi de Plató, esdevé per a John Cameron Mitchell la imatge adient per a explicar l'especial personalitat d'un home, Hedwig, que esdevé mitjançant una operació un androgin imperfecte, però que simbolitza la possibilitat d'una humanitat unida o l'acostament de móns diferents, de la mateixa manera que ell va pertànyer a les dues Berlín dividides per un mur que ara ja ha caigut, quedant restablerta així la unitat perduda.
Resumo:
El objetivo de este artículo es mostrar cómo un mito antiguo, el mito de los tres géneros, también llamado del andrógino del Aristófanes del Simposio de Platón, deviene para John Cameron Mitchell la imagen idónea para explicar la personalidad especial de un hombre, Hedwig, que se convierte mediante una operación en un andrógino imperfecto, pero que simboliza la posibilidad de una humanidad unida o el acercamiento de mundos diferentes, al igual que él perteneció a las dos Berlín divididas por un muro que ahora ya ha caído, restableciéndose así la unidad perdida.
Resumo:
The aim of this article is to show how an ancient myth, that of the three genres, also known as the myth of the androgynous by Aristophanes in Plato¿s Symposium, becomes for John Cameron Mitchell the suitable image in order to explain the peculiar personality of a man, Hedwig, who by means of a surgical operation becomes in his turn an imperfect androgynous but symbolises the need of a sole mankind or the unity of different worlds, just as he belonged to both Berlins divided by an already fallen wall, which permitted their inhabitants to recover their lost unity and identity.
Resumo:
Back Row: Mgr. Keith Webster, Video Coordinator Dave Garlow, Head Trainer Russ Miller, g.a.'s: Paul Alexander, Bill Sheridan, Jim Herrmann, John Johnson, Randy Fichtner, Kevin Kalinich, Tr. Paul Schmidt, Tr. Rex Thompson, Equipment Mgr. Jon Falk, Assistant Denny Morgan, Graduate Assistant John Ferens
11th Row: Assistant coaches: Alex Agase, Cam Cameron, Jerry Meter, Tom Reed, Elliott Uzelac, Gary Moeller, Lloyd Carr, Bill Harris, Jerry Hanlon, Tirrel Burton, Mike Gittleson, Recruiting Coord. Fritz Seyferth, Admin. Ass't. Cliff Dochterman
10th Row: Geoff Bissell, Mark Gutzwiller, Steve Woroniecki, Dave Knight, Steve Zacharias, Todd Plate, Matt McCoy, Greg Zeigler, Byron Lawson, Sean Eastman, Scott Harrala, Joel Boyden, Doug Matton
9th Row: Chris Calloway, Chris Horn, Scott Smykowski, Trey Walker, Jeff Tubo, Curtis Feaster, Mike Kerr, Marc Ramirez, T.J. Osman, Mike Teeter, Doug Daugherty, Huemartin Robinson
8th Row: John Milligan, Tony Boles, Jarrod Bunch, Greg McMurtry, Marc Spencer, Tom Dohring, Warde Manuel, Timothy Williams, Leroy Hoard, Allen Jefferson, Tracy Williams, David Key
7th Row: Olatide Ogunfiditimi, Keith Cooper, Scott Crawford, Joe Holland, Frank Petroff, Pat Olszewski, John Plantz, Sean LaFountaine, Mike Edwards, Rick Hassel, Ted Harris, Gulam Khan
6th Row: Kyle Anderson, Mark Erhardt, Brian Reid, Keith Mitchell, John Herrmann, Brent White, Dave Weil, Derrick Walker, Michael Taylor, Anthony Mitchell, Pat Fitzgerald, Mike DeBoer, Vince Washington
5th Row: Rick Stites, Ernie Bock, Mike Gillette, Scott Mandel, Mike Kovak, John Willingham, Dave Mandel, John Duerr, J.J. Grant, Don Lessner, Bob Stites
4th Row: Ken Mouton, Ernie Holloway, David Arnold, Jeffrey Brown, Dave Dever, Dave Herrick, Michael Dames, Dave Chester, Bob Cernak, Rick Sutkiewicz, John Kolesar, Allen Bishop
3rd Row: Erik Campbell, Mike Husar, Mark Messner, Jack Walker, Steve Thibert, Andree McIntyre, Andy Borowski, Dave Folkertsma, Tim Schulte, John Vitale, Phil Webb, Phil Logas
2nd Row: Jamie Morris, Monte Robbins, Todd Schulte, Billy Harris, Mark Hammerstein, Paul Jokisch, Bob Perryman, Mike Reinhold, John Elliott, Jerry Quaerna, Carlitos Bostic, Chris Zurbrugg, Head Coach Bo Schembechler
Front Row: Ken Higgins, Pat Moons, Garland Rivers, Ivan Hicks, Andy Moeller, Tony Gant, Jim Harbaugh, Gerald White, Thomas Wilcher, Dieter Heren, Doug Mallory, Russell Rein
Resumo:
Les glycogénoses sont des maladies touchant la synthèse ou la dégradation du glycogène. Un diagnostic précoce et une diète optimale, incluant la prévention des hypoglycémies, sont d’une importante cruciale pour le devenir des patients. Les présents travaux visaient la confirmation génétique de glycogénose chez des patients inuits du Nunavik ainsi que l’évaluation de l’impact sur le sommeil et la qualité de vie d’une nouvelle thérapie nutritionnelle, GlycosadeTM, dans une cohorte de patients montréalaise. Par séquençage d’exome, nous avons identifié la mutation causale de glycogénose au Nunavik, permettant un diagnostic précoce et un dépistage des membres de la famille. Nous avons aussi introduit une fécule de maïs à action prolongée et évalué prospectivement le sommeil et la qualité de vie des patients avec glycogénose avant et après ce traitement. Nous avons mis en évidence des troubles de sommeil chez les patients et avons discuté du GlycosadeTM comme d’une option thérapeutique prometteuse.
Resumo:
In the ‘Object as Subject’ exhibition held at the Stephen Lawrence Gallery, Greenwich University, myself and two other artists showed work which explores the use of the ‘found object’ in their respective practices. My work was selected by the gallery curator David Waterworth. The work exhibited by me, two multi-media pieces and two films, continues my (practice as research) investigation into using everyday objects as starting points for creating work in a variety of mediums including: sculpture, films, installations and multiples. In this work I address a range of subject matters – philosophical, social and cultural. The history of the use of found object in art began in early 20th century European art when Marcel Duchamp and Pablo Picasso independently introduced everyday objects into their practice. My work continues this research.
Resumo:
The necessity and benefits for establishing the international Earth-system Prediction Initiative (EPI) are discussed by scientists associated with the World Meteorological Organization (WMO) World Weather Research Programme (WWRP), World Climate Research Programme (WCRP), International Geosphere–Biosphere Programme (IGBP), Global Climate Observing System (GCOS), and natural-hazards and socioeconomic communities. The proposed initiative will provide research and services to accelerate advances in weather, climate, and Earth system prediction and the use of this information by global societies. It will build upon the WMO, the Group on Earth Observations (GEO), the Global Earth Observation System of Systems (GEOSS) and the International Council for Science (ICSU) to coordinate the effort across the weather, climate, Earth system, natural-hazards, and socioeconomic disciplines. It will require (i) advanced high-performance computing facilities, supporting a worldwide network of research and operational modeling centers, and early warning systems; (ii) science, technology, and education projects to enhance knowledge, awareness, and utilization of weather, climate, environmental, and socioeconomic information; (iii) investments in maintaining existing and developing new observational capabilities; and (iv) infrastructure to transition achievements into operational products and services.
Resumo:
Advances in the science and observation of climate change are providing a clearer understanding of the inherent variability of Earth’s climate system and its likely response to human and natural influences. The implications of climate change for the environment and society will depend not only on the response of the Earth system to changes in radiative forcings, but also on how humankind responds through changes in technology, economies, lifestyle and policy. Extensive uncertainties exist in future forcings of and responses to climate change, necessitating the use of scenarios of the future to explore the potential consequences of different response options. To date, such scenarios have not adequately examined crucial possibilities, such as climate change mitigation and adaptation, and have relied on research processes that slowed the exchange of information among physical, biological and social scientists. Here we describe a new process for creating plausible scenarios to investigate some of the most challenging and important questions about climate change confronting the global community
Resumo:
The CWRF is developed as a climate extension of the Weather Research and Forecasting model (WRF) by incorporating numerous improvements in the representation of physical processes and integration of external (top, surface, lateral) forcings that are crucial to climate scales, including interactions between land, atmosphere, and ocean; convection and microphysics; and cloud, aerosol, and radiation; and system consistency throughout all process modules. This extension inherits all WRF functionalities for numerical weather prediction while enhancing the capability for climate modeling. As such, CWRF can be applied seamlessly to weather forecast and climate prediction. The CWRF is built with a comprehensive ensemble of alternative parameterization schemes for each of the key physical processes, including surface (land, ocean), planetary boundary layer, cumulus (deep, shallow), microphysics, cloud, aerosol, and radiation, and their interactions. This facilitates the use of an optimized physics ensemble approach to improve weather or climate prediction along with a reliable uncertainty estimate. The CWRF also emphasizes the societal service capability to provide impactrelevant information by coupling with detailed models of terrestrial hydrology, coastal ocean, crop growth, air quality, and a recently expanded interactive water quality and ecosystem model. This study provides a general CWRF description and basic skill evaluation based on a continuous integration for the period 1979– 2009 as compared with that of WRF, using a 30-km grid spacing over a domain that includes the contiguous United States plus southern Canada and northern Mexico. In addition to advantages of greater application capability, CWRF improves performance in radiation and terrestrial hydrology over WRF and other regional models. Precipitation simulation, however, remains a challenge for all of the tested models.
Resumo:
Includes bibliography
