1,053 research outputs found
Reducing Gender Stereotypes in Mathematics
Research into academic gaps between male and female students in math and science areas show male students outperform females. The purpose of this study was to determine the effects of gender stereotypes as they relate to male and female academic achievement levels in mathematics and science. The two-fold objectives for the project include: determining how gender biases and stereotypes affect female performance in the class setting and on standardized testing; implementing strategies that increase female academic achievement in typically male dominated subject areas. This thesis project examines the trends for male and female success rates on standardized and teacher generated tests. It investigates the historical perception that gender assigns inherent giftedness to boys in math related subjects. It further discusses influence, through family and societal stereotypes, that perpetuate the thought that math-related fields are purely a male domain.
The research study was conducted in a sixth grade classroom in an urban setting. The math instruction time was one hour and 15 minutes every day during the month long project. The research group of 23 students was divided up by gender, twelve boys and eleven girls. The student population was almost entirely a lower economic class, diverse in ethnicity, and included several students with special needs. Single sex work groups were developed and maintained to allow a more comfortable environment and gender specific lessons developed for this project. Research data included pre-testing to assess academic level, post-tests to highlight any changes in achievement, classroom observation, and parent and student surveys. Conclusions from the data analysis support the projects intent, that an emphasis on gender equity in teaching mathematics can change and increase female student achievement and self -esteem
AFTER FURTHER REVIEW: AN UPDATE ON MODELING AND DESIGN STRATEGIES FOR AGRICULTURAL DOSE-RESPONSE EXPERIMENTS
Research investigating dose-response relationships is common in agricultural science. This paper is an expansion on previous work by Guo, et al. (2006) motivated by plant nutrition research in horticulture. Plant response to level of nutrient applied is typically sigmoidal, i.e. no response at very low levels, observable response at mid-levels, point-of-diminishing returns and plateau at high levels. Plant scientists need accurate estimates of these response relationships for many reasons, including determining the lower threshold below which plants show deficiency symptoms and the point of diminishing returns, above which excessive doses are economically and environmentally costly. Guo et al. presented models and designs that address these requirements and a simulation study to assess and compare the small-sample behavior of these models and designs. This paper expands on that simulation study. In addition, a simulation study based procedure for exploring designs for experimental scenarios fitting this description is presented. This simulation study approach utilizes simulation based fit statistics in conjunction with various lack-of-fit plots to produce a design robust to multiple candidate models
Template assisted surface micro microstructuring of flowable dental composites and its effect on the microbial adhesion properties
Despite their various advantages, such as good esthetic properties, absence of mercury and adhesive bonding to teeth, modern dental composites still have some drawbacks, e.g., a relatively high rate of secondary caries on teeth filled with composite materials. Recent research suggests that microstructured biomaterials surfaces may reduce microbial adhesion to materials due to unfavorable physical material–microbe interactions. The objectives of this study were, therefore, to test the hypotheses that (i) different surface microstructures can be created on composites by a novel straightforward approach potentially suitable for clinical application and (ii) that these surface structures have a statistically significant effect on microbial adhesion properties.Peer ReviewedPostprint (author's final draft
Managing international development: (Re)positioning critique in the post-2008 conjuncture
Despite earlier neglect, International Development (ID) has begun to receive some attention from the Critical Management Studies (CMS) community over the last two decades. This paper reviews existing CMS work that engages with ID and outlines directions for future research. Building on extant research and scholarship that has focussed on linkages between managerialism and ID, we identify and discuss in some depth three emerging areas within ID – financialization, evaluation and projectification–that, we argue, merit further critical scrutiny from CMS scholars. We call for a programme of theoretical and grounded empirical research into these three areas in the hope of reinvigorating CMS’ engagement with ID; a programme that would seek to expose the fallacy of the universalizing managerialism that increasingly informs ID projects and organizational practices. In operationalizing this research programme, we draw attention to problems of positionality, drawing on methodological and epistemological debates in Anthropology to inform our argument. We thus highlight the need for grounding CMS research practices in reflective trans-disciplinarity
Intra-cell dynamics and cyclotron motion without magnetic field
Intra-cell motion endows rich non-trivial phenomena to a wide variety of
quantum materials. The most prominent example is a transverse current in the
absence of a magnetic field (i.e. the anomalous Hall effect). Here we show
that, in addition to a dc Hall effect, anomalous Hall materials possess
circulating currents and cyclotron motion without magnetic field. These are
generated from the intricate wavefunction dynamics within the unit cell, and
correspond to interband transitions (coherences) in much the same way that
cyclotron resonances arise from inter-Landau level transitions in
magneto-optics. Curiously, anomalous cyclotron motion exhibits an intrinsic
decay in time (even in pristine materials) displaying a characteristic power
law decay. This reveals an intrinsic dephasing similar to that of inhomogeneous
broadening of spinors. Circulating currents can manifest as the emission of
circularly polarized light pulses in response to incident linearly polarized
(pulsed) electric field, and provide a direct means of interrogating the
intra-unit-cell dynamics of quantum materials
Nonradiative Electronic Deexcitation Time Scales in Metal Clusters
The life-times due to Auger-electron emission for a hole on a deep electronic
shell of neutral and charged sodium clusters are studied for different sizes.
We consider spherical clusters and calculate the Auger-transition probabilities
using the energy levels and wave functions calculated in the
Local-Density-Approximation (LDA).
We obtain that Auger emission processes are energetically not allowed for
neutral and positively charged sodium clusters. In general, the Auger
probabilities in small Na clusters are remarkably different from the
atomic ones and exhibit a rich size dependence.
The Auger decay times of most of the cluster sizes studied are orders of
magnitude larger than in atoms and might be comparable with typical
fragmentation times.Comment: 11 pages, 4 figures. Accepted for publication in Phys. Rev.
Observation of suppressed terahertz absorption in photoexcited graphene
When light is absorbed by a semiconductor, photoexcited charge carriers enhance the absorption of far-infrared radiation due to intraband transitions. We observe the opposite behavior in monolayer graphene, a zero-gap semiconductor with linear dispersion. By using time domain terahertz (THz) spectroscopy in conjunction with optical pump excitation, we observe a reduced absorption of THz radiation in photoexcited graphene. The measured spectral shape of the differential optical conductivity exhibits non-Drude behavior. We discuss several possible mechanisms that contribute to the observed low-frequency non-equilibrium optical response of graphene.United States. Dept. of Energy. Office of Basic Energy Sciences (Grant DE-SC0006423)National Science Foundation (U.S.). Graduate Research Fellowship ProgramUnited States. Air Force Office of Scientific ResearchUnited States. Office of Naval Research. Multidisciplinary University Research Initiative. Graphene Approaches to Terahertz ElectronicsNational Science Foundation (U.S.) (Award DMR-0819762)National Science Foundation (U.S.) (Grant ECS-0335765
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Sutureless fixation of amniotic membrane for therapy of ocular surface disorders
Amniotic membrane is applied to the diseased ocular surface to stimulate wound healing and tissue repair, because it releases supportive growth factors and cytokines. These effects fade within about a week after application, necessitating repeated application. Generally, amniotic membrane is fixed with sutures to the ocular surface, but surgical intervention at the inflamed or diseased site can be detrimental. Therefore, we have developed a system for the mounting of amniotic membrane between two rings for application to a diseased ocular surface without surgical intervention (sutureless amniotic membrane transplantation). With this system, AmnioClip, amniotic membrane can be applied like a large contact lens. First prototypes were tested in an experiment on oneself for wearing comfort. The final system was tested on 7 patients in a pilot study. A possible influence of the ring system on the biological effects of amniotic membrane was analyzed by histochemistry and by analyzing the expression of vascular endothelial growth factor-A (VEGF-A), hepatocyte growth factor (HGF), fibroblast growth factor 2 (FGF 2) and pigment epithelium-derived factor (PEDF) from amniotic membranes before and after therapeutic application. The final product, AmnioClip, showed good tolerance and did not impair the biological effects of amniotic membrane. VEGF-A and PEDF mRNA was expressed in amniotic membrane after storage and mounting before transplantation, but was undetectable after a 7-day application period. Consequently, transplantation of amniotic membranes with AmnioClip provides a sutureless and hence improved therapeutic strategy for corneal surface disorders
Incremental Mutual Information: A New Method for Characterizing the Strength and Dynamics of Connections in Neuronal Circuits
Understanding the computations performed by neuronal circuits requires characterizing the strength and dynamics of the connections between individual neurons. This characterization is typically achieved by measuring the correlation in the activity of two neurons. We have developed a new measure for studying connectivity in neuronal circuits based on information theory, the incremental mutual information (IMI). By conditioning out the temporal dependencies in the responses of individual neurons before measuring the dependency between them, IMI improves on standard correlation-based measures in several important ways: 1) it has the potential to disambiguate statistical dependencies that reflect the connection between neurons from those caused by other sources (e. g. shared inputs or intrinsic cellular or network mechanisms) provided that the dependencies have appropriate timescales, 2) for the study of early sensory systems, it does not require responses to repeated trials of identical stimulation, and 3) it does not assume that the connection between neurons is linear. We describe the theory and implementation of IMI in detail and demonstrate its utility on experimental recordings from the primate visual system
Gauge Theories with Cayley-Klein and Gauge Groups
Gauge theories with the orthogonal Cayley-Klein gauge groups and
are regarded. For nilpotent values of the contraction
parameters these groups are isomorphic to the non-semisimple Euclid,
Newton, Galilei groups and corresponding matter spaces are fiber spaces with
degenerate metrics. It is shown that the contracted gauge field theories
describe the same set of fields and particle mass as gauge
theories, if Lagrangians in the base and in the fibers all are taken into
account. Such theories based on non-semisimple contracted group provide more
simple field interactions as compared with the initial ones.Comment: 14 pages, 5 figure
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