13,349 research outputs found
Aboard the Space Shuttle
Livability aboard the space shuttle orbiter makes it possible for men and women scientists and technicians in reasonably good health to join superbly healthy astronauts as space travelers and workers. Features of the flight deck, the mid-deck living quarters, and the subfloor life support and house-keeping equipment are illustrated as well as the provisions for food preparation, eating, sleeping, exercising, and medical care. Operation of the personal hygiene equipment and of the air revitalization system for maintaining sea level atmosphere in space is described. Capabilities of Spacelab, the purpose and use of the remote manipulator arm, and the design of a permanent space operations center assembled on-orbit by shuttle personnel are also depicted
Copper Complexation by Dissolved Organic Matter in arid Soils: A Voltametric Study
A voltammetric method was used to estimate the complexing capacity of water extracts from both desert soils sampled at the root zone of creosote and salt cedar plants, and in soils from interspace or background regions where no vegetative influence was apparent. The copper complexing capacity of water extracts of these desert soils was influenced by contact time and pH. In soils from the root zones of creosote and salt cedar plant, copper complexation capacities at pH 8 were from 5 µM to 60 µM after five min contact periods, while 18 h contact periods yielded copper complexation capacities of 40 µM–80 µM. Soils with no vegetative influence had copper complexing capacities of less the 2 µM. The copper complexing capacities of these soils are well correlated with the concentration of organic carbon in the water extract (r2 = 0.86). The abundance of soluble organic matter in the root zone of desert shrubs has the potential to control the solution speciation of Cu2+. The formation of soluble complexes should also have an important influence on the plant uptake and transport of copper, as well as other heavy metals in the root zones of desert shrubs and beyond
Development of an apparatus to measure thermophysical properties of wind tunnel heat transfer models
The apparatus and technique for measuring the thermophysical properties of models used with the phase-change paint method for obtaining wind tunnel heat transfer data are described. The method allows rapid measurement of the combined properties in a transient manner similar to an actual wind tunnel test. An effective value of the thermophysical properties can be determined which accounts for changes in thermal properties with temperature or with depth into the model surface. The apparatus was successfully tested at various heating rates between 19,000 and 124,000 watts per square meter
Mathematical Tutorials in Introductory Physics
Students in introductory calculus-based physics not only have difficulty
understanding the fundamental physical concepts, they often have difficulty
relating those concepts to the mathematics they have learned in math courses.
This produces a barrier to their robust use of concepts in complex problem
solving. As a part of the Activity-Based Physics project, we are carrying out
research on these difficulties and are developing instructional materials in
the tutorial framework developed at the University of Washington by Lillian C.
McDermott and her collaborators. In this paper, we present a discussion of
student difficulties and the development of a mathematical tutorial on the
subject of pulses moving on strings.Comment: 8 pages, 2 figures, 1 table, 12 references and note
Review: Insatiable Appetite: The Unided States and the Ecological Degradation of the Tropical World
Historical analysis is an indispensable tool in the study of politics. When building theories, it allows us to evaluate the explanatory power of our carefully-delineated models in light of the broader (ceteris non paribus) social context. From a methodological standpoint, historical analysis is receiving renewed attention in efforts to devise rigorous qualitative methods for establishing cause and effect. For these reasons the emerging field of environmental history merits close study and emulation by researchers in international environmental politics and policy (IEP). In addition to offering worthy examples of how to conduct historical research, environmental history directly engages many of the central concerns of IEP, from the environmental consequences of globalism, to the nature of transnational scientific communities, the impact of environmental institutions, and the origins of environmental concern. Particularly for IEP, in which prehistory is generally construed as anything predating the 1972 Stockholm conference, the rich perspective offered by the rapidly expanding environmental history literature is a timely development that should be enthusiastically embraced
Institutional Resilience Amid Political Change: The Case of Biodiversity Conservation
There is a substantial literature documenting the spatial mismatch between the geographic location of biological resources and the spatial jurisdiction of the institutions responsible for their management. But little attention has been paid to the disjuncture in temporal scales between the long-term requirements of biodiversity conservation and the short time horizons governing public and private decisions affecting the survival of species and ecosystems. How can we create socially agreed-upon rules governing the long-term use and conservation of biodiversity when ongoing change is one of the defining characteristics of modern society? This article describes a new approach to biodiversity conservation—conservation systems—that addresses this question by providing design criteria that can be used to construct resilient social safety nets for biological diversity
Phase Space Tomography of Classical and Nonclassical Vibrational States of Atoms in an Optical Lattice
Atoms trapped in optical lattice have long been a system of interest in the
AMO community, and in recent years much study has been devoted to both short-
and long-range coherence in this system, as well as to its possible
applications to quantum information processing. Here we demonstrate for the
first time complete determination of the quantum phase space distributions for
an ensemble of atoms in such a lattice, including a negative Wigner
function for atoms in an inverted state.Comment: Submitted to Journal of Optics B: Quantum and Semiclassical Optics.
Special issue in connection with the 9th International Conference on Squeezed
States and Uncertainty Relations, to be held in Besancon, France, on 2-6 May
200
Quasi-Particle Degrees of Freedom versus the Perfect Fluid as Descriptors of the Quark-Gluon Plasma
The hot nuclear matter created at the Relativistic Heavy Ion Collider (RHIC)
has been characterized by near-perfect fluid behavior. We demonstrate that this
stands in contradiction to the identification of QCD quasi-particles with the
thermodynamic degrees of freedom in the early (fluid) stage of heavy ion
collisions. The empirical observation of constituent quark ``'' scaling of
elliptic flow is juxtaposed with the lack of such scaling behavior in
hydrodynamic fluid calculations followed by Cooper-Frye freeze-out to hadrons.
A ``quasi-particle transport'' time stage after viscous effects break down the
hydrodynamic fluid stage, but prior to hadronization, is proposed to reconcile
these apparent contradictions. However, without a detailed understanding of the
transitions between these stages, the ``'' scaling is not a necessary
consequence of this prescription. Also, if the duration of this stage is too
short, it may not support well defined quasi-particles. By comparing and
contrasting the coalescence of quarks into hadrons with the similar process of
producing light nuclei from nucleons, it is shown that the observation of
``'' scaling in the final state does not necessarily imply that the
constituent degrees of freedom were the relevant ones in the initial state.Comment: 9 pages, 7 figures, Updated text and figure
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