856 research outputs found
The Insects. Peter Farb and the editors of Life. New York: Time Inc., 1962. 192 pp. $4.00.
Excerpt: It is a pleasant surprise to find a book that can effectively communicate much information about insects to the lay public, amateur entomologist, and professional entomologist alike. In straight-forward language the author gives genuine insight into the morphology, physiology, behavior, evolution, and adaptation of insects. These areas are not treated as unrelated topics but are skillfully blended into a meaningful whole. The text is supported liberally with pertinent facts, clear drawings, and many photographs of remarkable quality. The lack of obvious mistakes indicates that editing has been carried out carefully
Food Plants of Some Adult Sphinx Moths (Lepidoptera: Sphingidae)
Excerpt: While food plants of many species of sphinx moth larvae are well known, food plants of the adults are not. Many observations of the feeding habits of adult sphinx moths undoubtedly have been made, but much of the information is probably resting in the field notebooks and memories of the observers.
To my knowledge no summary of known feeding information has been presented previously for American Sphingidae. A rather thorough list of food plants for adult European sphinx moths has been published by Wahlgren (1941). This list also includes other moth families as well and it can be a useful reference for many workers
Lattice study of ChPT beyond QCD
We describe initial results by the Lattice Strong Dynamics (LSD)
collaboration of a study into the variation of chiral properties of chiral
properties of SU(3) Yang-Mills gauge theory as the number of massless flavors
changes from to , with a focus on the use of chiral
perturbation theory.Comment: 9 pages, 3 figures. Presented at the 6th International Workshop on
Chiral Dynamics, University of Bern, Switzerland, July 6-10 200
An exploration of the pedagogies employed to integrate knowledge in work-integrated learning
This article describes a three‐sector, national research project that investigated the integration aspect of work‐integrated learning (WIL). The context for this study is three sectors of New Zealand higher education: business and management, sport, and science and engineering, and a cohort of higher educational institutions that offer WIL/cooperative education in variety of ways. The aims of this study were to investigate the pedagogical approaches in WIL programs that are currently used by WIL practitioners in terms of learning, and the integration of academic‐workplace learning. The research constituted a series of collective case studies, and there were two main data sources — interviews with three stakeholder groups (namely employers, students, and co‐op practitioners), and analyses of relevant documentation (e.g., course/paper outlines, assignments on reflective practice, portfolio of learning, etc.). The research findings suggest that there is no consistent mechanism by which placement coordinators, off‐campus supervisors, or mentors seek to employ or develop pedagogies to foster learning and the integration of knowledge. Learning, it seems, occurs by means of legitimate peripheral participation with off‐campus learning occurring as a result of students working alongside professionals in their area via an apprenticeship model of learning. There is no evidence of explicit attempts to integrate on‐ and off‐campus learning, although all parties felt this would and should occur. However, integration is implicitly or indirectly fostered by a variety of means such as the use of reflective journals
Toward TeV Conformality
We study the chiral condensate for an SU(3) gauge theory
with massless Dirac fermions in the fundamental representation when
is increased from 2 to 6. For , our lattice simulations of , where is the Nambu-Goldstone-boson decay constant, agree with
the measured QCD value. For , this ratio shows significant
enhancement, presaging an even larger enhancement anticipated as
increases further, toward the critical value for transition from confinement to
infrared conformality.Comment: 4 pages, 4 figures. v2: revised version for PR
Exploring strange nucleon form factors on the lattice
We discuss techniques for evaluating sea quark contributions to hadronic form
factors on the lattice and apply these to an exploratory calculation of the
strange electromagnetic, axial, and scalar form factors of the nucleon. We
employ the Wilson gauge and fermion actions on an anisotropic 24^3 x 64
lattice, probing a range of momentum transfer with Q^2 < 1 GeV^2. The strange
electric and magnetic form factors, G_E^s(Q^2) and G_M^s(Q^2), are found to be
small and consistent with zero within the statistics of our calculation. The
lattice data favor a small negative value for the strange axial form factor
G_A^s(Q^2) and exhibit a strong signal for the bare strange scalar matrix
element _0. We discuss the unique systematic uncertainties affecting
the latter quantity relative to the continuum, as well as prospects for
improving future determinations with Wilson-like fermions.Comment: 19 pages, 11 figures; v2 includes additional references; v3 as
appears in PR
Approaching Conformality with Ten Flavors
We present first results for lattice simulations, on a single volume, of the
low-lying spectrum of an SU(3) Yang-Mills gauge theory with ten light fermions
in the fundamental representation. Fits to the fermion mass dependence of
various observables are found to be globally consistent with the hypothesis
that this theory is within or just outside the strongly-coupled edge of the
conformal window, with mass anomalous dimension consistent with 1 over the
range of scales simulated. We stress that we cannot rule out the possibility of
spontaneous chiral-symmetry breaking at scales well below our infrared cutoff.
We discuss important systematic effects, including finite-volume corrections,
and consider directions for future improvement.Comment: 7 pages, 3 figures. Submitted to Physical Review Letters. v2:
corrected global fits. v3: corrected estimation of confidence interval
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