25,192 research outputs found

    Bookshelving in the high school library

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    Assessing the Information Needs of Rural People: The Development of an Action Strategy for Rural Librarians

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    The Observational Case for Jupiter Being a Typical Massive Planet

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    We identify a subsample of the recently detected extrasolar planets that is minimally affected by the selection effects of the Doppler detection method. With a simple analysis we quantify trends in the surface density of this subsample in the period - Msin(i) plane. A modest extrapolation of these trends puts Jupiter in the most densely occupied region of this parameter space, thus indicating that Jupiter is a typical massive planet rather than an outlier. Our analysis suggests that Jupiter is more typical than indicated by previous analyses. For example, instead of M_Jup mass exoplanets being twice as common as 2 M_Jup exoplanets, we find they are three times as common.Comment: 17 pages, 6 figures, conforms to version accepted for publication in "Astrobiology", includes new comparison with microlensing constraints on Jupiter-like planet

    The \u3csup\u3e13\u3c/sup\u3eC-NMR Solid State Spectroscopy of Various Classes of Coals

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    The 13C-NMR spectra of various classes of coal obtained in the solid state show two resonances, one of which is assigned to aromatic carbon and the other to aliphatic carbon. The resonances are very broad with the high field resonance centered at about 7 ppm below tetramethylsilane and a low field resonance centered at about 140 ppm below tetramethysilane. Based on our previous solid state 13C-NMR studies of graphite and diamond, the high field resonance is typical of a sp3 carbon whereas the low fields resonance is assigned to a sp2 carbon whereas the low fields resonance is assigned to a sp2 carbon. It is found that the antracitic coals have more aromatic (sp2) carbons than the bituminous, subbituminous and lignite coals. The analytical implications of this technique are briefly discussed

    Simultaneous Parasitism of Field-Collected Green Cloverworm, \u3ci\u3eHypena Scabra\u3c/i\u3e (Lepidoptera: Noctuidae) Larvae by Endoparasitioids and an Entomopathogenic Fungus

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    The impacts of entomopathogens (e.g., fungi, bacteria, protists and viruses) on larval Lepidoptera and their associated insect parasitoids have been examined in laboratory studies but field studies of interaction between these two mortality factors are rare. We present field observations of concurrent insect parasitism and fungal disease infection in larvae of the green cloverworm, Hypena scabra, a sporadic pest of soybean (Glycine max) in North America. We reared ten parasitoid species from H. scabra larvae during our three-month study. Three parasitoid species were dominant and overlapped the period of infection by the entomopathogenic fungus Nomuraea rileyi: Aleiodes nolophanae, Cotesia plathypenae and Campylochaeta plathypenae. Two of the three parasitoid species, Co. plathypenae and Ca. plathypenae, completed development within H. scabra larvae infected by N. rileyi. Overall incidence of simultaneous parasitism and fungal infection was low, averaging 6.7% of H. scabra larvae parasitized by Ca. plathypenae and 3.3% of those parasitized by Co. plathypenae

    The Solid State \u3csup\u3e13\u3c/sup\u3eC-NMR Spectra of Some Carbides

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    The utility of NMR spectroscopy to the study of liquids or solids dissolved in liquids is well known. This technique has been used infrequently to studies in the solid state[I,2]. Work has been done on diamond, graphite and coa113-6]. The 13C-NMR of ebony and ivory have been studied by the magic angle technique[7]. The solid state 13C-NMR spectra of graphite and diamond can be interpreted in terms of tetrahedral (sp3) and trigonal planar (sp2) carbon atoms[8]. We now report our investigations using solid state 13C-NMR spectroscopy to study various types of carbides
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