551 research outputs found
Local structure of Liquid-Vapour Interfaces
The structure of a simple liquid may be characterised in terms of ground
state clusters of small numbers of atoms of that same liquid. Here we use this
sensitive structural probe to consider the effect of a liquid-vapour interface
upon the liquid structure. At higher temperatures (above around half the
critical temperature) we find that the predominant effect of the interface is
to reduce the local density, which significantly suppresses the local cluster
populations. At lower temperatures, however, pronounced interfacial layering is
found. This appears to be connected with significant orientational ordering of
clusters based on 3- and 5-membered rings, with the rings aligning
perpendicular and parallel to the interface respectively. At all temperatures,
we find that the population of five-fold symmetric structures is suppressed,
rather than enhanced, close to the interface.Comment: 10 pages, 8 figures, accepted for publication by Molecular Physic
The effect of attractions on the local structure of liquids and colloidal fluids
We revisit the role of attractions in liquids and apply these concepts to
colloidal suspensions. Two means are used to investigate the structure; the
pair correlation function and a recently developed topological method. The
latter identifies structures topologically equivalent to ground state clusters
formed by isolated groups of 5 < m < 13 particles, which are specific to the
system under consideration. Our topological methodology shows that, in the case
of Lennard-Jones, the addition of attractions increases the system's ability to
form larger (m>8) clusters, although pair-correlation functions are almost
identical. Conversely, in the case of short-ranged attractions, pair
correlation functions show a significant response to adding attraction, while
the liquid structure exhibits a strong decrease in clustering upon adding
attractions. Finally, a compressed, weakly interacting system shows a similar
pair structure and topology.Comment: 22 page
Resting vs. active: a meta-analysis of the intra- and inter-specific associations between minimum, sustained, and maximum metabolic rates in vertebrates
Variation in aerobic capacity has far reaching consequences for the physiology, ecology, and evolution of vertebrates. Whether at rest or active, animals are constrained to operate within the energetic bounds determined by their minimum (minMR) and sustained or maximum metabolic rates (upperMR). MinMR and upperMR can differ considerably among individuals and species but are often presumed to be mechanistically linked to one another. Specifically, minMR is thought to reflect the idling cost of the machinery needed to support upperMR. However, previous analyses based on limited datasets have come to conflicting conclusions regarding the generality and strength of their association.
Here we conduct the first comprehensive assessment of their relationship, based on a large number of published estimates of both the intra-specific (n = 176) and inter-specific (n = 41) phenotypic correlations between minMR and upperMR, estimated as either exercise-induced maximum metabolic rate (VO2max), cold-induced summit metabolic rate (Msum), or daily energy expenditure (DEE).
Our meta-analysis shows that there is a general positive association between minMR and upperMR that is shared among vertebrate taxonomic classes. However, there was stronger evidence for intra-specific correlations between minMR and Msum and between minMR and DEE than there was for a correlation between minMR and VO2max across different taxa. As expected, inter-specific correlation estimates were consistently higher than intra-specific estimates across all traits and vertebrate classes.
An interesting exception to this general trend was observed in mammals, which contrast with birds and exhibit no correlation between minMR and Msum. We speculate that this is due to the evolution and recruitment of brown fat as a thermogenic tissue, which illustrates how some species and lineages might circumvent this seemingly general association.
We conclude that, in spite of some variability across taxa and traits, the contention that minMR and upperMR are positively correlated generally holds true both within and across vertebrate species. Ecological and comparative studies should therefore take into consideration the possibility that variation in any one of these traits might partly reflect correlated responses to selection on other metabolic parameters
Extended sedimentation profiles in charged colloids: the gravitational length, entropy, and electrostatics
We have measured equilibrium sedimentation profiles in a colloidal model
system with confocal microscopy. By tuning the interactions, we have determined
the gravitational length in the limit of hard-sphere-like interactions, and
using the same particles, tested a recent theory [R.van Roij, J. Phys. Cond.
Mat. 15, S3569, (2003)], which predicts a significantly extended sedimentation
profile in the case of charged colloids with long-ranged repulsions, due to a
spontaneously formed macroscopic electric field. For the hard-sphere-like
system we find that the gravitational length matches that expected. By tuning
the buoyancy of the colloidal particles we have shown that a mean field
hydrostatic equilibrium description even appears to hold in the case that the
colloid volume fraction changes significantly on the length scale of the
particle size. The extended sedimentation profiles of the colloids with
long-ranged repulsions are well-described by theory. Surprisingly, the theory
even seems to hold at concentrations where interactions between the colloids,
which are not modeled explicitly, play a considerable role
The Physics of the Colloidal Glass Transition
As one increases the concentration of a colloidal suspension, the system
exhibits a dramatic increase in viscosity. Structurally, the system resembles a
liquid, yet motions within the suspension are slow enough that it can be
considered essentially frozen. This kinetic arrest is the colloidal glass
transition. For several decades, colloids have served as a valuable model
system for understanding the glass transition in molecular systems. The spatial
and temporal scales involved allow these systems to be studied by a wide
variety of experimental techniques. The focus of this review is the current
state of understanding of the colloidal glass transition. A brief introduction
is given to important experimental techniques used to study the glass
transition in colloids. We describe features of colloidal systems near and in
glassy states, including tremendous increases in viscosity and relaxation
times, dynamical heterogeneity, and ageing, among others. We also compare and
contrast the glass transition in colloids to that in molecular liquids. Other
glassy systems are briefly discussed, as well as recently developed synthesis
techniques that will keep these systems rich with interesting physics for years
to come.Comment: 56 pages, 18 figures, Revie
A frequentist framework of inductive reasoning
Reacting against the limitation of statistics to decision procedures, R. A.
Fisher proposed for inductive reasoning the use of the fiducial distribution, a
parameter-space distribution of epistemological probability transferred
directly from limiting relative frequencies rather than computed according to
the Bayes update rule. The proposal is developed as follows using the
confidence measure of a scalar parameter of interest. (With the restriction to
one-dimensional parameter space, a confidence measure is essentially a fiducial
probability distribution free of complications involving ancillary statistics.)
A betting game establishes a sense in which confidence measures are the only
reliable inferential probability distributions. The equality between the
probabilities encoded in a confidence measure and the coverage rates of the
corresponding confidence intervals ensures that the measure's rule for
assigning confidence levels to hypotheses is uniquely minimax in the game.
Although a confidence measure can be computed without any prior distribution,
previous knowledge can be incorporated into confidence-based reasoning. To
adjust a p-value or confidence interval for prior information, the confidence
measure from the observed data can be combined with one or more independent
confidence measures representing previous agent opinion. (The former confidence
measure may correspond to a posterior distribution with frequentist matching of
coverage probabilities.) The representation of subjective knowledge in terms of
confidence measures rather than prior probability distributions preserves
approximate frequentist validity.Comment: major revisio
Система автоматизированного тестирования электроавтоматики газопровода «Сахалин –Хабаровск-Владивосток»
В данном проекте была разработана система контроля и управления технологическим процессом на базе промышленных контроллеров Schneider Electric Modicon 258, с применением SCADA–системы Infinity. Цель работы – проектирование автоматизированной системы управления узла очистки и сбора конденсата на ГРС с использованием ПЛК, на основе выбранной SCADA–системы. Объектом исследования является узел очистки и сбора конденсата на ГРС. Разработанная система может применяться в системах контроля, управления и сбора данных на различных промышленных предприятиях. Данная система позволит увеличить производительность, повысить точность и надежность измерений, сократить число аварий. Разработана функциональная схема автоматизации, структурная схема, алгоритмы управления.This project has been developed a process monitoring and control system based on industrial controllers of Schneider Electric Modicon 258, with Infinity SCADA-system. The purpose of work - designing automated cleaning unit management system and the condensate collecting in the GDS using the PLC, based on the selected SCADA-system. The object of this study is to purification unit and condensate collection at GDS. The developed system can be used in control systems, data acquisition and control in different industrial plants. This system will increase productivity, improve the accuracy and reliability of the measurements, reduce the number of accidents. The project was designed automation functional diagram and a block diagram of the control algorithms
Geometric frustration in small colloidal clusters
We study the structure of clusters in a model colloidal system with competing
interactions using Brownian dynamics simulations. A short-ranged attraction
drives clustering, while a weak, long-ranged repulsion is used to model
electrostatic charging in experimental systems. The former is treated with a
short-ranged Morse attractive interaction, the latter with a repulsive Yukawa
interaction. We consider the yield of clusters of specific structure as a
function of the strength of the interactions, for clusters with m=3,4,5,6,7,10
and 13 colloids. At sufficient strengths of the attractive interaction (around
10 kT), the average bond lifetime approaches the simulation timescale and the
system becomes nonergodic. For small clusters m<=5 where geometric frustration
is not relevant, despite nonergodicity, for sufficient strengths of the
attractive interaction the yield of clusters which maximise the number of bonds
approaches 100%. However for and higher, in the nonergodic regime we find
a lower yield of these structures where we argue geometric frustration plays a
significant role. is a special case, where two structures, of octahedral
and C2v symmetry compete, with the latter being favoured by entropic
contributions in the ergodic regime and by kinetic trapping in the nonergodic
regime. We believe that our results should be valid as far as the one-component
description of the interaction potential is valid. A system with competing
electrostatic repulsions and van der Waals attractions may be such an example.
However, in some cases, the one-component description of the interaction
potential may not be appropriate.Comment: 21 pages, accepted for publication by J. Phys. Condens. Matte
The cooking task: making a meal of executive functions
Current standardized neuropsychological tests may fail to accurately capture real-world executive deficits. We developed a computer-based Cooking Task (CT) assessment of executive functions and trialed the measure with a normative group before use with a head-injured population. Forty-six participants completed the computerized CT and subtests from standardized neuropsychological tasks, including the Tower and Sorting Tests of executive function from the Delis-Kaplan Executive Function System (D-KEFS) and the Cambridge prospective memory test (CAMPROMPT), in order to examine whether standardized executive function tasks, predicted performance on measurement indices from the CT. Findings showed that verbal comprehension, rule detection and prospective memory contributed to measures of prospective planning accuracy and strategy implementation of the CT. Results also showed that functions necessary for cooking efficacy differ as an effect of task demands (difficulty levels). Performance on rule detection, strategy implementation and flexible thinking executive function measures contributed to accuracy on the CT. These findings raise questions about the functions captured by present standardized tasks particularly at varying levels of difficulty and during dual-task performance. Our preliminary findings also indicate that CT measures can effectively distinguish between executive function and Full Scale IQ abilities. Results of the present study indicate that the CT shows promise as an ecologically valid measure of executive function for future use with a head-injured population and indexes selective executive function’s captured by standardized tests
Behavior of QQ-Plots and Genomic Control in Studies of Gene-Environment Interaction
Genome-wide association studies of gene-environment interaction (GxE GWAS) are becoming popular. As with main effects GWAS, quantile-quantile plots (QQ-plots) and Genomic Control are being used to assess and correct for population substructure. However, in GE work these approaches can be seriously misleading, as we illustrate; QQ-plots may give strong indications of substructure when absolutely none is present. Using simulation and theory, we show how and why spurious QQ-plot inflation occurs in GE GWAS, and how this differs from main-effects analyses. We also explain how simple adjustments to standard regression-based methods used in GE GWAS can alleviate this problem
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