Natural Crazy Wisdom

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A Tautology or Two While We Translate Chinese Classics

What is a Chinese classic, and why do we translate one? These innocent questions lead Sabina Knight and Kidder Smith into a mandala of paradox, metaphor, and tautologies. En route they must negotiate a field of errant nouns, shifty images, and undisclosed participants. Relying on maps drawn by Borges, A. A. Milne, Quine, and Zeno, they find themselves in a landscape where little is certain and much is in transit—from here to here. The generic passports of poetry, prose, and philosophy have been stamped Invalid. So everyone acts like a resident alien. The authors discover that what they don\u27t know is as useful as what they do. And, strangely, translations materialize

The Sky in the Classroom

We have all experienced the sky – its vast expanse, endless possibilities, the feeling of playful freedom one might have during vacation. It’s less obvious, though, how it fits into the classroom, neither slimming down its vastness nor overwhelming precise academic discourse. This article describes a multi-disciplinary course we taught at Bowdoin College, where we sought to expand students’ views of themselves, their minds, and the nature of academic inquiry by accomplishing the marriage of this vastness with precision. Our purpose here is to evoke that learning experience for other educators who might have similar goals

Evaluation of a Prelicensure Nursing Capstone Preceptorship

https://digitalcommons.psjhealth.org/summit_all/1053/thumbnail.jp

A multidomain spectral method for solving elliptic equations

We present a new solver for coupled nonlinear elliptic partial differential equations (PDEs). The solver is based on pseudo-spectral collocation with domain decomposition and can handle one- to three-dimensional problems. It has three distinct features. First, the combined problem of solving the PDE, satisfying the boundary conditions, and matching between different subdomains is cast into one set of equations readily accessible to standard linear and nonlinear solvers. Second, touching as well as overlapping subdomains are supported; both rectangular blocks with Chebyshev basis functions as well as spherical shells with an expansion in spherical harmonics are implemented. Third, the code is very flexible: The domain decomposition as well as the distribution of collocation points in each domain can be chosen at run time, and the solver is easily adaptable to new PDEs. The code has been used to solve the equations of the initial value problem of general relativity and should be useful in many other problems. We compare the new method to finite difference codes and find it superior in both runtime and accuracy, at least for the smooth problems considered here.Comment: 31 pages, 8 figure

Synthesis and regioselective N- and O-alkylation of 3-alkyl-5-phenyl-3H-[1,2,3]triazolo[4,5-d]pyrimidin-7(6H)-ones and 2-phenyl-9-propyl-9H-purin-6(1H)-one with evaluation of antiviral and antitumor activities

3-Alkyl-5-phenyl-3H-[1,2,3]triazolo[4,5-d]pyrimidin-7(6H)-ones were prepared by nitrosative cyclization of the appropriate 5,6-diamino-2-phenylpyrimidin-4(3H)-ones with nitrous acid and were subjected to regioselective alkylation with several alkylating agents in aprotic solvent at different temperature. Simultaneous 6-N- and 7-O-alkylation were observed and the regioselectivity varied remarkably with size and shape of the alkylating agents as well as with the reaction temperature. Similarly, N- and O-alkylation as well as selectivity was also observed in the case of 2-phenyl-9-propyl-9H-purin-6(1H)-one. Some of the synthesized compounds showed moderate antiviral and antitumor activities.</p

Impact of densitized lapse slicings on evolutions of a wobbling black hole

We present long-term stable and second-order convergent evolutions of an excised wobbling black hole. Our results clearly demonstrate that the use of a densitized lapse function extends the lifetime of simulations dramatically. We also show the improvement in the stability of single static black holes when an algebraic densitized lapse condition is applied. In addition, we introduce a computationally inexpensive approach for tracking the location of the singularity suitable for mildly distorted black holes. The method is based on investigating the fall-off behavior and asymmetry of appropriate grid variables. This simple tracking method allows one to adjust the location of the excision region to follow the coordinate motion of the singularity.Comment: 10 pages, 8 figure

Gravitational waves from coalescing binaries and Doppler experiments

Doppler tracking of interplanetary spacecraft provides the only method presently available for broad-band searches of low frequency gravitational waves. The instruments have a peak sensitivity around the reciprocal of the round-trip light-time T of the radio link connecting the Earth to the space-probe and therefore are particularly suitable to search for coalescing binaries containing massive black holes in galactic nuclei. A number of Doppler experiments -- the most recent involving the probes ULYSSES, GALILEO and MARS OBSERVER -- have been carried out so far; moreover, in 2002-2004 the CASSINI spacecraft will perform three 40 days data acquisition runs with expected sensitivity about twenty times better than that achieved so far. Central aims of this paper are: (i) to explore, as a function of the relevant instrumental and astrophysical parameters, the Doppler output produced by in-spiral signals -- sinusoids of increasing frequency and amplitude (the so-called chirp); (ii) to identify the most important parameter regions where to concentrate intense and dedicated data analysis; (iii) to analyze the all-sky and all-frequency sensitivity of the CASSINI's experiments, with particular emphasis on possible astrophysical targets, such as our Galactic Centre and the Virgo Cluster.Comment: 52 pages, LaTeX, 19 Postscript Figures, submitted to Phys. Rev.