1,808 research outputs found
Measured optical absorption coefficients for uranium plasmas
Absolute emissivities of uranium plasmas in gas driven shock tub
Atomic spectroscopy with the shock tube
Spectroscopy of light atoms and ions and transition probability determinations using gas-driven shock tub
A BIOMECHANICAL AND PHYSIOLOGICAL ANALYSIS OF EFFICIENCY AT DIFFERENT RUNNING PACES
The purpose of this study was to investigate the differences between several biomechanical and physiological variables associated with two different paces in treadmill running. The treadmill speed was adjusted to simulate an easy warm-up pace and a race pace for a 5000 m run. Another purpose was to study the contribution of both biomechanical and physiological variables toward total efficiency. The biomechanical variables included: (a) stride frequency, (b) stride length, (c) time of stride, and (d) percent of support. The physiological variables included: (a) heart rate, (b) R value, (c) V02, (d) percent of V02max, and (e) blood lactate. Nine intercollegiate distance runners from the north Texas area were filmed twice (5 min and 15 min) .from a sagittal view with a 16 mm high speed camera operating at 100 fps during two running paces. Joint segment markers were attached to the runners and one complete stride was digitized. The X/Y coordinates were used to determine the work per stride. Since physiological data were being collected simultaneously during the treadmill protocol, these were matched to the 5 min and 15 min film data intervals to determine total efficiency. A one-way repeated measures ANOVA was utilized with two paces and two times to investigate the biomechanical, physiological, and efficiency variables.
Maximum experimentwise error control for Type I errors was necessary since ten dependent variables were utilized and the correlation matrix indicated that the data were nonorthogonal. A Bonferroni inequality test was also used and produced a modified alpha level of .005. No significant interactions for time by pace were found for any of the dependent variables. However, a trend does exist for several of the variables
A Functional Elaboration Theory Perspective on Management Accounting in Small Firms
We note a lack of theoretical explanations in a recent review of small-firm management accounting research and draw on recent organizational research (functional elaboration theory and theory of asymmetric effects of misfit, specifically) that may further illuminate findings in some small-firm management accounting studies. After briefly discussing how the functional elaboration process model in Wilkerson and Seers (2019) may be adapted to small-firm management accounting research, we offer recommendations for questionnaire measures of management accounting’s qualitative functional elaboration and underfit in small firms. Finally, we discuss implications for practice and entrepreneurship education
Development of a spectroscopic shock tube
Gas spectroscopic tube and component equipment instrumentation for radiative transfer experiment
"Ashkui" Vernal Ice-cover Phenomena and Their Ecological Role in Southern Labrador
This is the first documented incident of River Otter (Lutra canadensis) feeding on Common Goldeneye (Bucephala clangula) in a little studied region, southern Labrador. Our observations were made during spring staging when waterfowl aggregate at open water sites in frozen lakes and rivers, locally known as ashkui. We suggest that otters and raptors opportunistically forage on staging waterfowl at ashkui
A Description of Stroke Dynamics in 100 Meter Wheelchair Racing
Since wheelchair racing was introduced in the United States over thirty years ago, wheelchair sports have been experiencing a growing popularity.
An ever increasing number of national, and international competitions are being held for the disabled athlete; and record times in racing events are being set on an almost routine basis. Much interest by coaches, athletes, and researchers exists in identifying optimal performance factors in wheelchair propulsion, Three major areas of interest relating to performance have been the topics of recent research, symposia, and conferenees. These include the following: (1) designing effective training programs; (2) improving chair design; and (3) optimizing technique.
Elite disabled athletes are being profiled by researchers from both physiological and biomechanical perspectives. All wheelchair users stand to benefit from wheelchair sports and research. Where many everyday chair users once were in a heavy, awkward «hospital-type» chair that fitted no one and certainly wasn't designed for sports use, now light weight, easily maneuverable chairs are in use. As equipment is improved and propulsion techniques become more efficient, all chair users can benefit from such knowledge.
The United States Olympic Committee sponsored their first Sports Medieine and Sports Science Conference for the Disabled Athlete in the United States in March of 1987. This conference provided the opportunity for coaches, athletes, researchers, and other persons interested in sports for the disabled athlete to come together to share knowledge and ideas, and to examine the unique needs of the disabled performer. While physical limitations may influence the disabled athlete's perfomance, today's athletes are vitally interested in learning how to maximize their individual physical abilities.
Although the major thrust of a great many of the research studies investigating wheelchair athletes has often been of a physiologic nature, a growing body of biomechanic research on wheelchair propulsion has been identified (Ridgwaw, Pope & Wilkerson, 1987; Siler, Martin & Mungiole, 1987; Higgs, 1986; Sanderson & Sommer, 1985; Cerquiglini, Figura, Marchetti & Ricci, 1981; King, 1981; and Perry, 1981). Many of these investigations have included small sample sizes, have been limited to male subjects, and have included relatively few classes of wheelchair athletes. Additionally, few have studied the elite wheelchair athlete during commpetition.
The purpose of this study was to develop a kinematic model of wheelchair propulsion during 100-meter racing as performed by three classes of elite male wheelchair athletes
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Gene-expression data integration to squamous cell lung cancer subtypes reveals drug sensitivity
Background: Squamous cell lung cancer (SqCC) is the second most common type of lung cancer in the United States. Previous studies have used gene-expression data to classify SqCC samples into four subtypes, including the primitive, classical, secretory and basal subtypes. These subtypes have different survival outcomes, although it is unknown whether these molecular subtypes predict response to therapy. Methods: Here, we analysed RNAseq data of 178 SqCC tumour samples and characterised the features of the different SqCC subtypes to define signature genes and pathway alterations specific to each subtype. Further, we compared the gene-expression features of each molecular subtype to specific time points in models of airway development. We also classified SqCC-derived cell lines and their reported therapeutic vulnerabilities. Results: We found that the primitive subtype may come from a later stage of differentiation, whereas the basal subtype may be from an early time. Most SqCC cell lines responded to one of five anticancer drugs (Panobinostat, 17-AAG, Irinotecan, Topotecan and Paclitaxel), whereas the basal-type cell line EBC-1 was sensitive to three other drugs (PF2341066, AZD6244 and PD-0325901). Conclusion: Compared with the other three subtypes of cell lines, the secretory-type cell lines were significantly less sensitive to the five most effective drugs, possibly because of their low proliferation activity. We provide a bioinformatics framework to explore drug repurposing for cancer subtypes based on the available genomic profiles of tumour samples, normal cell types, cancer cell lines and data of drug sensitivity in cell lines
A pulsed, mono-energetic and angular-selective UV photo-electron source for the commissioning of the KATRIN experiment
The KATRIN experiment aims to determine the neutrino mass scale with a
sensitivity of 200 meV/c^2 (90% C.L.) by a precision measurement of the shape
of the tritium -spectrum in the endpoint region. The energy analysis of
the decay electrons is achieved by a MAC-E filter spectrometer. To determine
the transmission properties of the KATRIN main spectrometer, a mono-energetic
and angular-selective electron source has been developed. In preparation for
the second commissioning phase of the main spectrometer, a measurement phase
was carried out at the KATRIN monitor spectrometer where the device was
operated in a MAC-E filter setup for testing. The results of these measurements
are compared with simulations using the particle-tracking software
"Kassiopeia", which was developed in the KATRIN collaboration over recent
years.Comment: 19 pages, 16 figures, submitted to European Physical Journal
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