2,112 research outputs found
The GOAL-to-HAL/S translator specification
The specification sets forth a technical framework within which to deal with the transfer of specific GOAL features to HAL/S. Key technical features of the translator are described which communicate with the data bank, handle repeat statements, and deal with software interrupts. GOAL programs, databank information, and GOAL system subroutines are integrated into one GOAL in HAL/S. This output is fully compatible HAL/S source ready for insertion into the HAL/S compiler. The Translator uses a PASS1 to establish all the global data needed for the HAL/S output program. Individual GOAL statements are translated in PASS2. The specification document makes extensive use of flowcharts to specify exactly how each variation of each GOAL statement is to be translated. The specification also deals with definitions and assumptions, executive support structure and implementation. An appendix, entitled GOAL-to-HAL Mapping, provides examples of translated GOAL statements
On the Spinning Motion of the Hovering Magnetic Top
In this paper we analyze the spinning motion of the hovering magnetic top. We
have observed that its motion looks different from that of a classical top. A
classical top rotates about its own axis which precesses around a vertical
fixed external axis. The hovering magnetic top, on the other hand, has its axis
slightly tilted and moves rigidly as a whole about the vertical axis. We call
this motion synchronous, because in a stroboscopic experiment we see that a
point at the rim of the top moves synchronously with the top axis. We show that
the synchronous motion may be attributed to a small deviation of the magnetic
moment from the symmetry axis of the top. We calculate the minimum angular
velocity required for stability in terms of the moments of inertia and magnetic
field and show that it is different from that of a classical top. We also give
experimental results that were taken with a top whose moment of inertia can be
changed. These results show very good agreement with our calculations.Comment: 19 pages (including 3 figures named fig1.eps-fig3.eps), uses amssymb,
epsf and amsbsy (AMSLaTeX
Maxwell's Equations in a Uniformly Rotating Dielectric Medium and the Wilson-Wilson Experiment
This note offers a conceptually straightforward and efficient way to
formulate and solve problems in the electromagnetics of moving media based on a
representation of Maxwell's equations in terms of differential forms on
spacetime together with junction conditions at moving interfaces. This
framework is used to address a number of issues that have been discussed
recently in this journal about the theoretical description underlying the
interpretation of the Wilson-Wilson experiment.Comment: 16 pages, 2 figure
Economic Impacts of Ethanol Production in Georgia
Capital costs to construct a conventional ethanol plant producing 100 million gallons per year are 59.216 million with a 1% chance of annual net returns less than 314.221 million in the Georgia economy. Wages and benefits total 4.572 million in tax revenues from ethanol production.Resource /Energy Economics and Policy,
Quality of health care surveillance systems: review and implementation in the Swiss setting.
Quality of health care has been a subject of attention for many years in the USA and in Europe. Since the introduction of the new federal law on insurance in 1996 it has evolved to a progressively more important issue within the Swiss health care system. In this review, some theoretical concepts of quality of health care, variations, and surveillance systems are explored. Examples of quality of health care surveillance systems that have been developed successfully in the USA, in Canada, in Australia, and in Europe are discussed. They all demonstrate the interest in creating a large range of quality indicators in the surveillance system and in evaluating hospital performance using a benchmark approach. Currently, the measurement of quality with appropriate indicators is a subject of intense debate between the Swiss Hospitals Association (H+) and the Swiss Health Insurance Consortium (Santésuisse). Examples of existing surveillance systems in Switzerland are the Outcome Verein in Zurich and the quality of care program of the Canton of Valais. The FoQual association has also contributed to the debate by reviewing six indicators, which could be used nationally for a healthcare surveillance system. In this debate it is important to stress that ideal quality indicators intended for use as measures of quality in Swiss hospitals need to be both appropriate and valid. Only indicators that fulfil these conditions should be integrated in a Swiss health care surveillance system. Priority needs to be given to quality indicators and methods with the highest level of evidence and with a solid scientific basis
Photon deflection and precession of the periastron in terms of spatial gravitational fields
We show that a Maxwell-like system of equations for spatial gravitational
fields and (latter being the analogy of a magnetic field),
modified to include an extra term for the field in the expression for
force, leads to the correct values for the photon deflection angle and for the
precession of the periastron
Controlled electrochemical growth of ultra-long gold nanoribbons
Citation: Basnet, G., Panta, K. R., Thapa, P. S., & Flanders, B. N. (2017). Controlled electrochemical growth of ultra-long gold nanoribbons. Applied Physics Letters, 110(7), 5. doi:10.1063/1.4976027This paper describes the electrochemical growth of branchless gold nanoribbons with similar to 40 nm x similar to 300 nm cross sections and >100 mu m lengths (giving length-to-thickness aspect ratios of > 10(3)). These structures are useful for opto-electronic studies and as nanoscale electrodes. The 0.75-1.0V voltage amplitude range is optimal for branchless ribbon growth. Reduced amplitudes induce no growth, possibly due to reversible redox chemistry of gold at reduced amplitudes, whereas elevated amplitudes, or excess electrical noise, induce significant side-branching. The inter-relatedness of voltage-amplitude, noise, and side-branching in electrochemical nanoribbon growth is demonstrated. Published by AIP Publishing
Spinor formulation of topologically massive gravity
In the framework of real 2-component spinors in three dimensional space-time
we present a description of topologically massive gravity (TMG) in terms of
differential forms with triad scalar coefficients. This is essentially a real
version of the Newman-Penrose formalism in general relativity. A triad
formulation of TMG was considered earlier by Hall, Morgan and Perjes, however,
due to an unfortunate choice of signature some of the spinors underlying the
Hall-Morgan-Perjes formalism are real, while others are pure imaginary. We
obtain the basic geometrical identities as well as the TMG field equations
including a cosmological constant for the appropriate signature. As an
application of this formalism we discuss the Bianchi Type exact
solutions of TMG and point out that they are parallelizable manifolds. We also
consider various re-identifications of these homogeneous spaces that result in
black hole solutions of TMG.Comment: An expanded version of paper published in Classical and Quantum
Gravity 12 (1995) 291
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