6,532 research outputs found
Absolute intensity of radiation emitted by uranium plasmas
The absolute intensity of radiation emitted by fissioning and nonfissioning uranium plasmas in the spectral range from 350 nm to 1000 nm was measured. The plasma was produced in a plasma-focus apparatus and the plasma properties are simular to those anticipated for plasma-core nuclear reactors. The results are expected to contribute to the establishment of design criteria for the development of plasma-core reactors
Wind tunnel turning vanes of modern design
Rehabilitation of the Altitude Wind Tunnel includes the need for new corner turning vanes to match its upgraded performance. The design and experimental performance results from a 0.1-full scale model of the highest speed corner (M = 0.35) are presented and discussed along with some two dimensional inviscid analyses of two vaned corners. With a vane designed by an inverse two dimensional technique, the overall corner loss was about 12% of the inlet dynamic pressure of which about 4% was caused by vane skin friction. Comparable values with a conventionally designed circular arc vane were about 14% overall with about 7% due to skin friction
Biomedical applications team tasks
The status of the biomedical applications team is discussed along with its activity in applications engineering. Various technology requests are summarized
Design and performance of a fixed, nonaccelerating, guide vane cascade that operates over an inlet flow angle range of 60 deg
A unique set of wind tunnel guide vanes are designed with an inverse design code and analyzed with a panel method and an integral boundary layer code developed at the NASA Lewis Research Center. The fixed guide vanes, 80 feet long with 6-foot chord length, were designed for the NASA Ames 40 x 80/80 x 120 ft Wind Tunnel. Low subsonic flow is accepted over a 60 deg range of inlet angle from either the 40 x 80 leg or the 80 x 120 leg of the wind tunnel, and directed axially into the main leg of the tunnel where drive fans are located. Experimental tests of 1/10-scale models were conducted to verify design calculations
Land-Based Learning: A Learning Paradigm for Building Community and Sustainable Farms
Mitigating complex problems is increasingly essential to sustaining life on Earth. Empowering current and future generations to address these problems requires rethinking traditional education approaches. This article serves as a primer for land-based learning—defined as a pedagogical approach in which learners collaborate with community members to implement place-based interventions within agricultural systems to increase the sustainability of their community. As an introduction to land-based learning, the article (a) describes critical checkpoints within land-based learning, (b) illuminates the role of Extension educators in facilitating land-based learning, and (c) introduces a case study of land-based learning in Michigan\u27s Upper Peninsula
Weather data communication and utilization
The communication of weather data to aircraft is discussed. Problems encountered because of the great quantities of data available and the limited capacity to transfer this via radio link to an aircraft are discussed. Display devices are discussed
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