9,916 research outputs found

    More About the Missions ...

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    Especially the Parchments

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    It was August of 1974. We had just moved to Miami Springs, Florida, where on july 1 I took up my duties as president of Miami Christian College, having left a most enviable position at Trinity Evangelical Divinity School and a bewildered band of faculty friends. The man I hired to build shelving around the room that would become my study had finished his work and I was in the process of sorting and shelving some 4,000 books. In the midst of the effort, my wife came into the room, watched for a while silently, and finally asked the question, You really love your books, don\u27t you? That total is now down to about 3,000, but the sentiment has not changed. We of the dinosaur age admit that computers have taken over the world but too many of us know a shining piece of hardware stuffed with miraculous software can never take the place of a library. When some people move to a new town, they search out the best restaurants, perhaps a health club, parks, pools, churches and malls. Not I. First, show me the library

    Analytical study of nozzle performance for nuclear thermal rockets

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    Nuclear propulsion has been identified as one of the key technologies needed for human exploration of the Moon and Mars. The Nuclear Thermal Rocket (NTR) uses a nuclear reactor to heat hydrogen to a high temperature followed by expansion through a conventional convergent-divergent nozzle. A parametric study of NTR nozzles was performed using the Rocket Engine Design Expert System (REDES) at the NASA Lewis Research Center. The REDES used the JANNAF standard rigorous methodology to determine nozzle performance over a range of chamber temperatures, chamber pressures, thrust levels, and different nozzle configurations. A design condition was set by fixing the propulsion system exit radius at five meters and throat radius was varied to achieve a target thrust level. An adiabatic wall was assumed for the nozzle, and its length was assumed to be 80 percent of a 15 degree cone. The results conclude that although the performance of the NTR, based on infinite reaction rates, looks promising at low chamber pressures, finite rate chemical reactions will cause the actual performance to be considerably lower. Parameters which have a major influence on the delivered specific impulse value include the chamber temperature and the chamber pressures in the high thrust domain. Other parameters, such as 2-D and boundary layer effects, kinetic rates, and number of nozzles, affect the deliverable performance of an NTR nozzle to a lesser degree. For a single nozzle, maximum performance of 930 seconds and 1030 seconds occur at chamber temperatures of 2700 and 3100 K, respectively

    Nuclear thermal rocket nozzle testing and evaluation program

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    Performance characteristics of the Nuclear Thermal Rocket can be enhanced through the use of unconventional nozzles as part of the propulsion system. The Nuclear Thermal Rocket nozzle testing and evaluation program being conducted at the NASA Lewis is outlined and the advantages of a plug nozzle are described. A facility description, experimental designs and schematics are given. Results of pretest performance analyses show that high nozzle performance can be attained despite substantial nozzle length reduction through the use of plug nozzles as compared to a convergent-divergent nozzle. Pretest measurement uncertainty analyses indicate that specific impulse values are expected to be within + or - 1.17 pct

    Developments in REDES: The Rocket Engine Design Expert System

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    The Rocket Engine Design Expert System (REDES) was developed at NASA-Lewis to collect, automate, and perpetuate the existing expertise of performing a comprehensive rocket engine analysis and design. Currently, REDES uses the rigorous JANNAF methodology to analyze the performance of the thrust chamber and perform computational studies of liquid rocket engine problems. The following computer codes were included in REDES: a gas properties program named GASP; a nozzle design program named RAO; a regenerative cooling channel performance evaluation code named RTE; and the JANNAF standard liquid rocket engine performance prediction code TDK (including performance evaluation modules ODE, ODK, TDE, TDK, and BLM). Computational analyses are being conducted by REDES to provide solutions to liquid rocket engine thrust chamber problems. REDES was built in the Knowledge Engineering Environment (KEE) expert system shell and runs on a Sun 4/110 computer

    Seventy Years of Bequests for Masses in New York Courts 1883-1953

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    Braiding fluxes in Pauli Hamiltonian

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    Aharonov and Casher showed that Pauli Hamiltonians in two dimensions have gapless zero modes. We study the adiabatic evolution of these modes under the slow motion of NN fluxons with fluxes Φa∈R\Phi_a\in\mathbb{R}. The positions, ra∈R2\mathbf{r}_a\in\mathbb{R}^2, of the fluxons are viewed as controls. We are interested in the holonomies associated with closed paths in the space of controls. The holonomies can sometimes be abelian, but in general are not. They can sometimes be topological, but in general are not. We analyze some of the special cases and some of the general ones. Our most interesting results concern the cases where holonomy turns out to be topological which is the case when all the fluxons are subcritical, Φa<1\Phi_a<1, and the number of zero modes is D=N−1D=N-1. If N≥3N\ge3 it is also non-abelian. In the special case that the fluxons carry identical fluxes the resulting anyons satisfy the Burau representations of the braid group
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