115,512 research outputs found
Key pedagogic thinkers: Jean Baudrillard
Jean Baudrillard was born in Reims, France, in 1929, and completed his undergraduate work at the Sorbonne, taking a degree in German. Upon graduation, he taught high school. In the early 1960s, he began graduate studies at the University of Paris, Nanterre, earning his doctorate in sociology in 1966. Baudrillard published 30 books in which he examined various facets of modern society: gender, race, consumerism, politics, the media, and so forth. His focus was semiological—how objects and signs reflect the current human condition. Although Baudrillard did not write about education, his work is nevertheless relevant if we recognize that our educational system is a reflection of society. A Baudrillardian perspective raises the following question: What effect has consumerism had on education? To address this question, we offer some background information related to Baudrillard’s philosophical inquiries. This is followed by our brief analysis of how Baudrillard’s work may provide some potential answers to the above question and of how it can help us interpret the changes that have occurred in education during the modern period. We give special emphasis to The Consumer Society and Simulacra and Simulation
Atomic final-state interactions in tritium decay
We calculate the effect of the Coulomb interaction of the ejected β ray with the bound atomic electron in the β decay of a tritium atom. The excited state probabilities of the residual helium ion are changed by at most 0.17% from the usual sudden approximation
CO on Ru(001): Formation and dissolution of islands of CO at low coverages
The present paper deals with the benefits and difficulties of using ion scattering spectroscopy as a spectrometric technique
Energy and environmental burdens of organic and non-organic agriculture and horticulture
Production of 10 major commodities in England and Wales was studied using Life Cycle Analysis (LCA). Organic and non-organic (contemporary conventional) systems were compared. Organic production was generally less energy consuming, except for poultry meat, eggs and tomatoes. Environmental burdens, such as global warming potential or eutrophication were often greater per unit of production from organic than non-organic systems
Space Laser Power Transmission System Studies
Power transmission by laser technique is addressed. Space to Earth and space to space configurations are considered
Analysis of Nd3+:glass, solar-pumped, high-powr laser systems
The operating characteristics of Nd(3+):glass lasers energized by a solar concentrator were analyzed for the hosts YAG, silicate glass, and phosphate glass. The modeling is based on the slab zigzag laser geometry and assumes that chemical hardening methods for glass are successful in increasing glass hardness by a factor of 4. On this basis, it was found that a realistic 1-MW solar-pumped laser might be constructed from phosphate glass 4 sq m in area and 2 mm thick. If YAG were the host medium, a 1-MW solar-pumped laser need only be 0.5 sq m in area and 0.5 cm thick, which is already possible. In addition, Nd(3+) doped glass fibers were found to be excellent solar-pumped laser candidates. The small diameter of fibers eliminates thermal stress problems, and if their diameter is kept small (10 microns), they propagate a Gaussian single mode which can be expanded and transmitted long distances in space. Fiber lasers could then be used for communications in space or could be bundled and the individual beams summed or phase-matched for high-power operation
Rotor redesign for a highly loaded 1800 ft/sec tip speed fan. 3: Laser Doppler velocimeter report
Laser Doppler velocimeter (LDV) techniques were employed for testing a highly loaded, 550 m/sec (1800 ft/sec) tip speed, test fan stage, the objective to provide detailed mapping of the upstream, intrablade, and downstream flowfields of the rotor. Intrablade LDV measurements of velocity and flow angle were obtained along four streamlines passing through the leading edge at 45%, 69%, 85%, and 95% span measured from hub to tip, at 100% of design speed, peak efficiency; 100% speed, near surge; and 95% speed, peak efficiency. At the design point, most passages appeared to have a strong leading edge shock, which moved forward with increasing strength near surge and at part speeds. The flow behind the shock was of a complex mixed subsonic and supersonic form. The intrablade flowfields were found to be significantly nonperiodic at 100% design speed, peak efficiency
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