Life at school in Australia and Japan: the impact of stress and support on bullying and adaptation to school

In this international, comparative study, path analysis was used to examine eight different aspects of Japanese and Australian students' experiences of school life in relation to their effect on adaptation to school. Adaptation was constructed to include information on enjoyment of school, feelings of belonging to school, and relationships with other students. Two separate path models were tested to compare questionnaire data from over 3000 Australian and 6000 Japanese students across Years 5-10. The questionnaire was developed collaboratively by the authors to examine issues of common concern in both countries. Issues that related to the impact on adaptation to school of stress and support: family teachers, peers and school work, as well as bullying were of particular interest. Lack of support and the influential effect of stress were found to exert direct negative effects on adaptation to school, especially for high school students in Japan and Australia. The path results also confirmed the stressful effects of bullying in both countries. The finding of a strong relationship between bullying others and being victimised is discussed in the paper. Finally, the differences and similarities between Japanese and Australian students' perceptions of school life are extrapolated

Measurement of forward neutral pion transverse momentum spectra for s\sqrt{s} = 7TeV proton-proton collisions at LHC

The inclusive production rate of neutral pions in the rapidity range greater than $y=8.9$ has been measured by the Large Hadron Collider forward (LHCf) experiment during LHC $\sqrt{s}=7$\,TeV proton-proton collision operation in early 2010. This paper presents the transverse momentum spectra of the neutral pions. The spectra from two independent LHCf detectors are consistent with each other and serve as a cross check of the data. The transverse momentum spectra are also compared with the predictions of several hadronic interaction models that are often used for high energy particle physics and for modeling ultra-high-energy cosmic-ray showers.Comment: 18 Pages, 10 figures, submitted to Phys. Rev.

Low Cost Approach to Energy Efficient Buildings in Nigeria: A Review of Passive Design Options

Energy consumption in buildings accounts for approximately 45% of the world’s total energy consumption, leading to a significant proportion of greenhouse gas emissions. This has led to an increasing effort towards reducing energy consumption. An example of such efforts is energy efficient buildings using passive design options. This paper assesses a low cost energy efficient strategy approach to achieving energy efficiency in buildings using passive design options in Nigeria. A critical review of various passive design options and their roles in reducing energy consumption in buildings will be conducted. This approach is necessary due to energy poverty, high energy cost, erratic power supply, over dependence on electrical generators for indoor thermal comfort and other factors. Research has shown that this method can reduce energy consumption in buildings by 40%-60% in comparison to conventional buildings. This paper shows that there is an urgent need for professionals in the building industry as well as other stakeholders to advocate passive design options in Nigeria as a viable step towards achieving high energy performance buildings. This paper concludes by emphasizing the need for Nigeria to start with a low cost energy approach to achieve energy efficient buildings in the short term while aiming for ultra-low energy buildings in the long term

Single- and few-layer graphene growth on stainless steel substrates by direct thermal chemical vapor deposition

Steeping interest on graphene research in basic sciences and applications emphasizes the need for an economical means of synthesizing it. We report a method for the synthesis of graphene on commercially available stainless steel foils using direct thermal chemical vapor deposition. Our method of synthesis and the use of relatively cheap precursors such as ethanol (CH3CH2OH) as a source of carbon and SS 304 as the substrate, proved to be economically viable. Presence of single- and few-layer graphene was confirmed using confocal Raman microscopy/spectroscopy. X-ray photoelectron spectroscopic measurements were further used to establish the influence of various elemental species present in stainless steel on graphene growth. Role of cooling rate on surface migration of certain chemical species (oxides of Fe, Cr and Mn) that promote or hinder the growth of graphene is probed. Such analysis of the chemical species present on the surface can be promising for graphene based catalytic research

Thin Ice Target for 16^{16}O(p,p') experiment

A windowless and self-supporting ice target is described. An ice sheet with a thickness of 29.7 mg/cm$^2$ cooled by liquid nitrogen was placed at the target position of a magnetic spectrometer and worked stably in the $^{16}$O$(p,p')$ experiment at $E_{p}=392$ MeV. Background-free spectra were obtained.Comment: 14 pages, 4 figures, Nucl. Instr. & Meth. A (in press

Whole-organism phenotypic screening methods used in early-phase anthelmintic drug discovery

Diseases caused by parasitic helminths (worms) represent a major global health burden in both humans and animals. As vaccines against helminths have yet to achieve a prominent role in worm control, anthelmintics are the primary tool to limit production losses and disease due to helminth infections in both human and veterinary medicine. However, the excessive and often uncontrolled use of these drugs has led to widespread anthelmintic resistance in these worms - particularly of animals - to almost all commercially available anthelmintics, severely compromising control. Thus, there is a major demand for the discovery and development of new classes of anthelmintics. A key component of the discovery process is screening libraries of compounds for anthelmintic activity. Given the need for, and major interest by the pharmaceutical industry in, novel anthelmintics, we considered it both timely and appropriate to re-examine screening methods used for anthelmintic discovery. Thus, we reviewed current literature (1977-2021) on whole-worm phenotypic screening assays developed and used in academic laboratories, with a particular focus on those employed to discover nematocides. This review reveals that at least 50 distinct phenotypic assays with low-, medium- or high-throughput capacity were developed over this period, with more recently developed methods being quantitative, semi-automated and higher throughput. The main features assessed or measured in these assays include worm motility, growth/development, morphological changes, viability/lethality, pharyngeal pumping, egg hatching, larval migration, CO2- or ATP-production and/or enzyme activity. Recent progress in assay development has led to the routine application of practical, cost-effective, medium- to high-throughput whole-worm screening assays in academic or public-private partnership (PPP) contexts, and major potential for novel high-content, high-throughput platforms in the near future. Complementing this progress are major advances in the molecular data sciences, computational biology and informatics, which are likely to further enable and accelerate anthelmintic drug discovery and development