Statistical Variation Research Articles

Comparison of Retreatability of AH Plus Sealer and Bioceramic Sealer with Solvent, Retreatment Files and Diode Laser: A CBCT and SEM Analysis

ABSTRACT Aim: The present study evaluated the retreatability of canals obturated using AH Plus sealer and Bioceramic (BC) sealers, employing Cone beam computed tomography (CBCT) and Scanning Electron Microscope (SEM). Methodology: A group of 90 extracted premolars was classified into two main categories based on whether they were sealed with AH Plus or BC Sealer. Each of these categories was then divided into two subcategories according to the retreatment technique applied. CBCT and SEM were used to assess the residual filling material within the canals. Results: The findings showed that there was no marked statistical variation in the retreatment success of canals sealed with BC and AH Plus sealers. Conclusion: The diode laser was the most effective modality for eliminating root canal filling materials in the least amount of time. None of the retreatment modalities used removed the obturating material completely.

It’s not (only) personal, it’s business: personal bankruptcy exemptions and business credit

Abstract In the USA, state-level exemptions determine the amount of property that individuals can protect from creditor liquidation during the debt settlement process. We exploit within-metropolitan statistical area variation in personal bankruptcy exemptions created by state borders and a stacked regression approach to identify the spillover effects of these laws on business credit extended to small firms. Subsequent to exemption increases, we find a reduction of 1–2 percent in originations of business credit. The effect is strongest for the smallest firms, which are more financially constrained. We provide household-level evidence that both business debt and personal debt decline for borrowers whose home equity becomes covered by the exemption, suggesting an overall decrease in credit availability for small businesses. As a result, increases in exemptions lead to fewer small establishments and lower employment, especially in industries dependent on external finance, suggesting that negative real economic effects occur via a credit market channel.

The strength of an adhesive contact in the presence of interfacial defects

Adhesive contacts which possess a dominant stress concentration, such as at the contact edge in spherical junctions or at the detachment front in a peeling film, are well studied. More complex adhesive junction geometries, such as mushroom-shaped fibrils in bioinspired micropatterned dry adhesives, have exhibited a complex dependence of adhesive strength on the presence of interfacial defects within the contact. This has led to the emergence of statistical variation of the local behavior among micropatterned sub-contacts. In order to examine the interplay between geometry and interfacial defect character in control of the adhesive strength, the model system of a stiff cylindrical probe on an elastic layer is examined. Both experiments (glass on PDMS) and cohesive zone finite element simulations are performed, with analytical asymptotic limits also considered. The thickness of the elastic layer is varied to alter the interfacial stress distribution, with thinner layers having a reduced edge stress concentration at the expense of increased stress at the contact center. The size and position of manufactured interfacial defects is varied. It is observed that for the thickest substrates the edge stress concentration is dominant, with detachment propagating from this region regardless of the presence of an interfacial defect within the contact. Only very large center defects, with radius greater than half of that of the contact influence the adhesive strength. This transition is in agreement with analytical asymptotic limits. As the substrate is made thinner and the stress distribution changes, a strong decay in adhesive strength with increasing center defect radius emerges. For the thinnest substrate the flaw-insensitive upper bound is approached, suggesting that this decay is dominated by a reduction in the contact area. For penny-shaped defects at increasing radial positions, the adhesive strength for the thinnest substrates becomes non-monotonic. This confirms an intricate interplay between the geometry-controlled interfacial stress distribution and the size and position of interfacial defects in adhesive contacts, which will lead to statistical variation in strength when defects form due to surface roughness, fabrication imperfections, or contaminant particles.

Changes in mathematical skills among freshman engineering students

This study investigates the critical transition from secondary to tertiary mathematics education, focusing on students’ challenges and the impact of curriculum reforms in Sweden. Through an analysis of diagnostic test scores and admission data from Umeå University over the period 2006–2021, we examine the evolving mathematical competencies of incoming engineering students and the broader implications of these shifts for educational policy and student preparedness for higher education. Our findings indicate a significant improvement in students’ mathematical readiness in the latter years of the study, correlating with the implementation of curriculum changes and variations in admission statistics. This research documents the positive outcomes of these educational reforms on student preparedness. It places these findings within a global context, highlighting the universal challenges and responses in mathematics education transitions. The study underscores the complex dynamics of the secondary-tertiary transition and provides valuable insights into the specific mathematical areas where students have shown varying degrees of improvement.

Statistical Variation of the Burning Rate and Extinction Characteristics of Engineered Timber Products

Understanding the burning rate (mass loss rate, MLR) of timber products is essential in characterizing the ignition characteristics, fire size, and extinction phenomena experienced by timber. Key parameters for timber, such as self-extinction criteria, are presented throughout literature. These parameters are often determined using bench-scale experiments in relatively low trial quantities (e.g., n=3). This study investigates the influence of trial quantity on the observed statistical variation in key burning rate metrics for timber products (e.g., peak MLR, MLR at extinction). Experiments were conducted using a conical heater to conduct 100 repeat trials at incident heat fluxes of 20 kW/m2, 40 kW/m2, and 50 kW/m2 on 12.7 mm (0.5 in.) thick ACX cross laminated plywood samples. Significant variability was observed in trials conducted at 40 kW/m2 due to bimodal behavior where 39% of samples experienced self-extinction and the remaining 61% of samples sustained combustion until burnout (i.e., complete pyrolysis of the material). The MLR at extinction for the trials at 40 kW/m2 displayed nearly double the magnitude compared to trials conducted at 20 kW/m2 due to the breakdown of the semi-infinite solid condition. The results from this work illustrate the significance of large trial quantities when investigating complex phenomena.

Determination of a Plasma Retinol Reference Interval in Eastern Collared Lizards (Crotaphytus collaris)

BackgroundThe Eastern collared lizard (Crotaphytus collaris) is a species of lizard native to the United States and Mexico and is growing in popularity in the exotic community around the world. There is minimal knowledge known on the analyte breakdown of this or closely related species. As this species becomes more popular in the exotic community more medical conditions are being identified that can be assisted in diagnosis with the establishment of ranges of the different essential analytes. Being an insectivorous lizard, this species may suffer from hypovitaminosis A. There has been a lack of antemortem diagnostics available for minimally invasive and appropriate diagnosis of this disease. Recent studies have been performed in other small insectivore species establishing plasma retinol reference intervals. Reference intervals for retinol have not been published or validated in collared lizards or any closely related species. MethodsPlasma, with a sample volume of only 50 µl, from forty clinically healthy captive bred Eastern collared lizards, twenty males and twenty females were analyzed using ultra-high-performance liquid chromatography with tandem mass spectrometry (UPLC-MS/MS) to determine plasma retinol concentrations. ResultsUsing UPLC-MS/MS analysis, data was normally distributed and a reference interval for plasma retinol in the Eastern collared lizard was 1.57-3.07 µg/mL (0.237-0.464 µmol/L). A mean of 0.31µg/ml; with a lower limit 95% confidence interval being 1.34-1.80 µg/ml and upper limit of 2.84-3.30 µg/ml. Vitamin A (retinol) levels were significantly different when comparing a captive bred line called Blazing Blue (n=4), with all other sampled captive bred localities. Including a closely related Aquaflames (n=16), (Sky Blue) (n=2), Western yellowhead (n=5), Fancy Spotted (n=4), Aquamarine (n=3), and Lightning Yellow (n=6); with the Blazing Blue morph being significantly lower using a t-Test comparison assuming equal variations. There was only one statistical variation seen in age groups between the 1-year-old and 6-year-old age groups with the 6-year-old age group being significantly lower than the 1-year-old age group. There was no variation based on sex. Conclusions and clinical relevanceThis study provides the first established plasma retinol range in a species in the suborder iguania. Values are valuable in assistance in diagnosing and treating hypovitaminosis A and to provide advice on dietary supplementation and dietary improvement for the collared lizards and possibly other related species as well. In addition, these values can be used to design and evaluate other studies for nutritional needs of this species. Limitations of this study include only a single season of collection, no same time comparison to liver values, some age groups were limited to only one individual, and the evaluation of only captive bred individuals.

“Green mathematical approaches in fluorescence spectroscopy for quality control and clinical studies”

In the past decade, significant advancements have been made in mathematical spectral approaches for estimating binary and ternary drug combinations in raw materials and dosage forms. These approaches established on mathematical spectral manipulations of mixture analytes, without the need for separation techniques.The idea of using mathematical spectral approaches in fluorescence spectroscopy was resolving analytical issues and reach to biological concentrations thus, Ratio subtraction (RD) and ratio subtraction coupled with constant multiplication (RS-CM) have been proposed in fluorescence spectroscopy to evaluate the content uniformity of Flunarizine dihydrochloride (FLZ) and Propranolol hydrochloride (PRO) combination in raw materials, tablets, and spiked biological fluids (blood-urine). These approaches have demonstrated the ability to overcome the quantitative analytical challenges posed by the high native fluorescence intensity of the major component (PRO) at λex = 286/λem = 341 nm and the low native fluorescence intensity of the minor component (FLZ) at λex = 254/λem = 311 nm. The linearity range for (PRO) was found to be 25–500 ng/mL, and for (FLZ), it was 50–500 ng/mL. However, the spectrum addition technique was required to estimate (FLZ) in mixtures with concentrations less than 300 ng/mL.The overall validity of the proposed approaches was confirmed through adherence to ICH guidelines, and no statistical variation was observed in comparison to official studies. Additionally, the greenness and whiteness of the proposed approaches were evaluated using the Analytical greenness metric (AGREE), Green Solvents Selecting Tool (GSST), and Red-Green-Blue (RGB) algorithm.

Long-term open-pit mining activities at the world's largest light rare earth mine significantly affect light rare earth elements in road dust over long distances

The long-term effects of decades of open-pit mining at the Bayan Obo deposit, the world's largest light rare earth mine, on the concentrations of several elements in road dust over long distances are unknown. Here, bulk road dust (BRD) and resuspended road dust (RRD) were collected from different distances from the mine for subsequent analysis of mining impacts. As a result of mining activities, light rare earth elements (LREEs), especially La, Ce, Pr and Nd, show different statistical and spatial variations compared to other elements. These LREEs decrease with increasing distance from the mine, and the values found in RRD are higher than those in other particle sizes. Mining emissions and soil have the most significant influence on these LREEs compared to other factors. Spatially, these four LREEs changed significantly over a large area (up to 60km from the mine) due to mining emissions. However, long-term mining activities affect these elements mainly through mining-contaminated soil as opposed to mining emissions. This study confirms the significant impact of mining activities on LREEs in road dust via a comprehensive data-driven framework, emphasizing the significant environmental effects of long-term open pit mining.

Elaboration and characterization of Pitaya (hylocereus polyrhizus) witbier craft beer

ABSTRACT Beer is the most consumed alcoholic beverage in the world, containing numerous bioactive compounds. The market has innovated to provide better experiences for consumers, such as the development of craft beers with high levels of antioxidant compounds obtained by incorporating fruits. This study aimed to produce a craft beer of the Witbier type added with pitaya (Hylocereus polyrhizus) pulp in different concentrations, evaluating the effects of this addition on the physical-chemical characteristics, the content of phenolic compounds and the antioxidant activity of the drinks. The beers were analyzed for soluble solids, pH, total acidity, dry matter, mineral matter, foam, color, total phenolic compounds, flavonoid content and antioxidant activity using the FRAP, ABTS and DPPH methods. The soluble solids content decreased from 12°Bx to approximately 7.2°Bx, with higher pitaya concentrations (T2 and T3) showing slightly lower final values compared to control beers. The apparent attenuation and alcohol content were significantly higher in beers with 10% and 20% (v/v) pitaya pulp, reflecting more complete fermentation. Beers with higher pitaya concentrations also exhibited notable changes in color parameters, showing increased redness. Total phenolic content did not show statistical variation between treatments and the control, with values between 410 (T2) and 547 (T3) mg AGE L−1. Antioxidant activity, assessed via FRAP (79.7 mg AGE L−1 (T3)), DPPH (475 mg AGE L−1 (T3)), and ABTS (455 mg α-tocopherol L−1 (T3)) methods, and total flavonoids content (12.6 mg QE L−1 (T3)) increased with higher pitaya levels. Overall, pitaya pulp impacted several beer attributes, particularly affecting fermentation, color, and antioxidant properties.

Beneath the apple trees - Exploring soil microbial properties under Malus domestica concerning various land management practices

The presented study evaluated the impact of six land management practices on soil bacterial and fungal communities under apple trees: green field belts, forests, gardens with trees and ornamental plants, gardens with farm animals, and uncultivated and cultivated orchards. The study explored soil microbial properties including the enzymatic activity of dehydrogenases (tested by colorimetric reaction with 2,3,5-triphenyl-tetrazolium chloride), metabolic profile (using Biolog™ ECO Plates), metataxonomy structure (Next Generation Sequencing using Illumina®), followed by physicochemical properties (pH, N, P, K, microelements concentrations, organic matter, and Corg content). The hypothesis was that different land management practices would influence soil microbial properties, with cultivated orchards expected to show significantly lower dehydrogenases activity, and higher substrate-based respiratory than biomass response, within substrate stress occurrence, when testing metabolic profiles, but also different composition and lower relative abundances of specific microbial taxa and different biomarker genera, compared to other treatments. We aimed to identify practices promoting diverse microbial substrate-based metabolic and taxa diversity responses, with a focus on Bacillus and Trichoderma abundances, which are potential biological agents against fungal pathogens. As expected the presented research revealed significant statistical variations in microbial communities among different land management practices in soil beneath apple trees. It was accordingly noted that cultivated orchards, but also green belts, clearly exhibited reduced microbial activity (3.59 and 4.76 TPF kg−1 d−1, respectively) compared to gardens and uncultivated orchards (12.08 and 9.89 TPF kg−1 d−1). Cultivated orchards notably showed higher respiration levels and substrate stress compared, especially to forests and other land management practices represented by a clear separation of observed according to Sneath's criteria in cluster analysis. Different land management practices induce unique stress responses in microbial communities: forests struggled with B-Methyl-d-Glucoside, gardens with Serine and Putrescine, cultivated orchards with d-Glucosaminic Acid and Cyclodextrin, and bounds with 2-Hydroxy-Benzoic Acid. Substantial differences were also observed in the relative abundance of the top ten bacterial and fungal orders, and biomarker genera representatives. In cultivated orchards, there was a significant decrease in the relative abundance of many bacterial taxa such as e.g. Rhizobiales, Burkholderiales, Vivinamibacterales, and fungal taxa including Eurotiales, and Saccharomycetales. Notably, no significant differences were noted for Bacillus abundance among tested management practices. Forests favored Trichoderma abundance the most among tested practices (relative abundance 0.05 %). In turn, Trichoderma representatives were revealed as biomarker genera in gardens with animals. Williamsia representatives, as found in uncultivated orchards were suggested to be a biomarker of less disturbance, resulting from area restoration. Overall, the study discussed how different land management practices influence soil microbial communities and their functional roles, emphasizing the potential impacts of use on soil health and biodiversity within its implications. The most important recommendation bullet points:•using Williamsia representatives as a soil biomarker microorganism to indicate successful area restoration processes in apple orchards,•using d-Glucosaminic Acid metabolic stress test to reveal early difficulties in controlling fungal pathogens in soil microbial communities,•promoting diverse plant covers and reasonably reduced agrochemical inputs in apple orchards for enhancing soil microbial resilience,•preserving habitats of wild apple trees in forests or green belts, as these environments exhibit reduced metabolic stress and support the occurrence of fungi like Trichoderma, in the context of locations from which such isolates should be sought for further biocontrol use.

Pragmatic structure optimization: Achieving optimal crosstalk delay and gate oxide reliability of randomly mixed CNT bundle interconnects

This study explores the potential of randomly mixed carbon nanotube bundle (RMCB) as a viable on-chip interconnect. Achieving high-quality carbon nanotubes (CNTs) with uniform diameters is challenging for the current framework of enhanced fabrication techniques. The Stoyan and Yaskov technique is employed to optimize CNT arrangement within a specified rectangular area. This method accounts for statistical variation in CNT diameters, offering a more realistic and fabrication-focused approach to designing CNT bundle interconnects. Eight such practical RMCB structures (RMCB-50 to RMCB-350) are selected using this technique, each characterized by distinct CNT counts and variable diameters. Comprehensive average crosstalk-delay and reliability assessments are conducted by comparing different CNT bundle interconnects with the best-optimized RMCB (O-RMCB) interconnect, placed on various dielectric substrates such as SiO2, SiC, BN. The study unequivocally indicates that O-RMCB produces highly favorable results and stands as the most suitable future solution for VLSI circuits. Additionally, the thickness optimization of O-RMCB interconnect is explored, yielding in improvements in both performance and reliability compared to other well-known CNT bundled interconnects.

Impacts of Climate Change on Streamflow on Dawa Sub-watershed, Genale-Dawa River Basin, Southern Ethiopia

<i>Climate change is statistical variations over an extended period in the features of the climate system, such as variations in global temperatures and precipitation, caused by human and natural sources.</i> In this study aimed to measure and examine how streamflow in the Dawa sub-basin, Genale Dawa River basin was affected by climate change. It used the average of five regional climate models from the Coordinated Regional Climate Downscaling Experiment (CORDEX) Africa, under two different scenarios of Representative Concentration Pathways: RCP4.5 and RCP8.5. The baseline scenario was based on the data from 1975 to 2005, while the future scenarios were based on the data from 2020s (2025–2054) and 2050s (2055–2084). The HBV hydrological model used to assess the impact on streamflow. The HBV model showed good statistical performance in simulating the impact of climate change on streamflow, with a coefficient of determination (R<sup>2</sup>) of 0.88 and Nash-Sutcliffe Efficiency (NSE) of 0.77 for monthly calibration, and R<sup>2</sup> of 0.86 and NSE of 0.83 for monthly validation. The impacts quantified using the mean monthly changes in precipitation, maximum and minimum temperatures. The bias-corrected precipitation and temperature showed a reasonable increase in both future periods for both RCP 4.5 and RCP 8.5 scenarios. These changes in climate variables resulted in a decrease in mean annual streamflow by 1.6 and 3.5% for RCP 4.5 and by 4.6 and 4.9% for RCP 8.5 scenarios of the 2020s and 2050s, respectively. Based on the analysis that predicted a drop in precipitation during the months, and seasons and an increase in precipitation during the <i>Belg</i> season, with a corresponding decrease and rise in stream flow throughout the watershed. So to offset the variation in the watershed, community should adopt various; Soil and water conservation technologies, Using drought tolerant crops, Implementing various trees and appropriate design and applying a water harvesting structure like in-situ, internal or micro catchment, external or macro catchment water harvesting and Surface runoff harvesting. This result offers useful information for current and future water resource management in the basin and similar other watershed in the country.

Effects of calcium channel blockers in patients with heart failure with preserved ejection fraction: A protocol for systematic review and meta-analysis.

Nearly half of patients with heart failure (HF) have preserved ejection fraction (EF) and the mortality and morbidity of patients with HF with preserved EF (HFpEF) are high. Patients with HFpEF are often elderly and their primary chronic symptom is severe exercise intolerance. Due to the frequent coexistence of hypertension in HFpEF patients, the use of anti-hypertensive medications is common in their treatment. While many cohort studies and several randomized controlled trials (RCTs) have examined the effectiveness of various anti-hypertensive drugs such as beta-blockers and renin-angiotensin system inhibitors in HFpEF, the role of calcium channel blockers (CCBs) remains uncertain. Despite several RCTs and cohort studies exploring the effects of CCBs on prognosis and exercise capacity in HFpEF patients, the findings have been inconsistent, likely due to limited statistical power and/or variations in study design. Therefore, our aim is to conduct a systematic review and meta-analysis of studies on the effects of CCBs in these patients. This meta-analysis will include RCTs and cohort studies on the effect of CCBs in HFpEF patients. Information of studies will be collected from PubMed, Web of Science, and Scopus. The primary outcome of interest will be prognosis. The secondary outcome of interest will be exercise capacity. Synthesizing our meta-analytical results with expert consensus could contribute to the formulation of updated clinical guidelines. Our systematic review and meta-analysis will provide directions for future research on the use of CCBs in HFpEF patients. INPLASY202430097.

Primordial black holes from supercooled phase transitions

Cosmological first-order phase transitions (1stOPTs) are said to be strongly supercooled when the nucleation temperature is much smaller than the critical temperature. These are often encountered in theories that admit a nearly scale-invariant potential, for which the bounce action decreases only logarithmically with temperature. During supercooled 1stOPTs the equation of state of the universe undergoes a rapid and drastic change, transitioning from vacuum domination to radiation domination. The statistical variations in bubble nucleation histories imply that distinct causal patches percolate at slightly different times. Patches which percolate the latest undergo the longest vacuum-domination stage and as a consequence develop large overdensities triggering their collapse into primordial black holes (PBHs). We derive an analytical approximation for the probability of a patch to collapse into a PBH as a function of the 1stOPT duration, β−1, and deduce the expected PBH abundance. We find that 1stOPTs which take more than 15% of a Hubble time to complete (β/H≲7) produce observable PBHs. Their abundance is independent of the duration of the supercooling phase, in agreement with the de Sitter no hair conjecture. Published by the American Physical Society 2024

Extending an Empirical Degradation Model for Li-Ion Batteries into Second-Life Applications

Lithium-ion batteries have been used increasingly in recent years for a wide range of applications, e.g., electric vehicles and large-scale power grids. Lithium-ion batteries suffer from degradation caused by their operation and their exposure to environmental conditions and thus have a limited lifetime within their first application. These batteries might be available for re-use in a different application, commonly under more moderate usage conditions. The influence of such a change in operating conditions on battery degradation within a second life application is not very well understood. Here we present the extension of an empirical degradation model that formulates the degradation process as a function of battery operations for both, first- and second life applications.Our extended semi-empirical model for battery degradation is based on work of Xu et al. [1] and combines the degradation mechanism due to the growth of the SEI layer and the degradation depth obtained in dedicated ageing tests. Within this work we focus on a commercial 64 Ah NMC-graphite pouch cell. The model parametrization is based on a large dataset containing both calendar and cycle life data of more than 100 cells, covering a large window of temperatures (5-45 °C), C-rates (0.2-1.5 C), SoC windows, and average SoC.Figure 1(a) shows the variations of state of health (SoH) with the number of the full equivalent cycle (FEC) for four cells cycling at the same constant ageing conditions (0.75C, 25°C, and 0-100% SoC). Figure 1(b) shows the fitting results of the empirical degradation model using the data from the ageing tests. It is assumed that the SEI layer model parameters are constant for this specific cell. The degradation depth increases linearly with cycle number, where the degradation rate varies with the battery operation condition. The degradation of the battery cell depends not only on external stress factors such as temperature, SoC, DoD, C-rate, but also its previous ageing history. The formation of the SEI film contributes non-linearly to the battery degradation, while the contribution of the degradation rate of different stress factors can be accounted for linearly. The degradation rate depends on the ageing modes: calendar or cycle ageing. Calendar ageing reflects the inherent degradation over time and the rate is affected by temperature and SoC. The calendar degradation rate per time unit can be obtained as a function of temperature and SoC [2, 3]. The cycle SoC window can be interpreted using DoD and mean SoC. The cycle degradation rate per FEC can be estimated as a function of temperature, mean SoC, and DoD [3]. Data-driven models and empirical correlations are applied to obtain battery degradation rate functions. The total degradation depth can be estimated by summarizing the degradation caused by the calendar ageing and the degradation resulting from all cycles.To verify the performance of the empirical degradation model, a dynamic ageing test was designed, including both calendar and cycle ageing. The historical data of SoC and temperature are shown in Figures 2 (a) and 2(b), respectively. Through analyzing the time series data of cell SoC, all cycle information can be obtained to calculate the cycle ageing. The calendar ageing was calculated based on time duration for each cycle, and the average temperature and SoC. Using the correlations for the degradation rates, the degradation depth during for each cycle can be evaluated. The accumulated degradation depth can be used to estimate the change of remaining capacity with time. Figure 2(c) shows the comparison of the prediction of SoH with the experimental data.When moving into the 2nd life regime, degradation mechanisms and their interplay become more complex, leading to a larger statistical variation in ageing rates between individual cells (i.e., see time offset in Fig 2c). This can be accounted for by readjustment of the model’s initial 2nd life SoH to the last SoH from the first life application data, as well as including statistical variation into the model’s parameters.

Self-Calibrating Fluorimetric Analysis of Single-Wall Carbon Nanotube Samples for Electronics Applications

Semiconducting single-wall carbon nanotubes (SWCNTs) are a leading candidate to replace or supplement silicon in future generation chip manufacturing. Because they are produced as structural mixtures with varied electronic properties, SWCNTs must first be carefully sorted and purified. This requires new metrology tools that can reliably measure SWCNT sample compositions to guide sorting processes and confirm product purity. We describe here a novel, self-calibrating optical instrument designed for advanced characterization of SWCNT samples. This desktop system will quickly, sensitively, and non-destructively quantify the concentrations of multiple SWCNT (n,m) species. The key advance is adding variance spectroscopy to rapid excitation-emission fluorimetry. Variance spectroscopy is a recently developed method that can determine absolute concentrations of nanoparticles by analyzing statistical variations in the fluorescence signals from small volumes of dilute samples. Measurements are made by a small accessory module linked to a standard NanoSpectralyzer. It will automatically acquire and analyze variance spectra to find the sensitivity calibration factors needed to convert raw fluorescence intensities into actual concentrations of the different SWCNT species. Those measured calibration factors are valid for subsequent samples with similar processing histories, allowing rapid quantitation from quick excitation-emission scans. We expect that this analytical capability will support advances in basic carbon nanotube science and applications.

Optimizing crash box design to meet injury criteria: a protocol for accurate simulation and material selection

The design of a deformation element or crash box that meets a given injury criterion based on deceleration requires careful consideration of physical properties and space requirements. Variations in material yield stress or geometry can result in statistical variations in the injury criterion output. Optimizing the crash box to fulfil two different injury criteria and two different energy levels may require more space than initially specified. In this study, we propose a protocol where the crash box is collapsed, and force–displacement is fitted to an equation. This fit is carried out with just two simulations and compared to 30 possible scenarios, obtaining a maximum error of 38.9%. With this initial fit, the appropriate thickness and yield stress can be chosen to perform crashes with two energy levels and monitor four injury values. With the ideal yield stress and sheet metal thickness, we introduce real statistical distributions using Monte Carlo design to perform 200 simulations and obtain 400 injury values for each design proposal. This technique ensures that the design will meet injury requirements for any possible combination of thickness and yield stress accepted by quality inspection. If only one simulation is performed, all designs meet the requirements, but only the last proposed design decreased the average injury to 9.2 g with a standard deviation of 2.68 g and a maximum value of 14.4 g, which is less than the required 15 g. This technique minimizes the risk of finding combinations of yield stress and thickness that produce an undesirable injury criterion.

Statistical analysis of low latitude spread F at the American, Atlantic, and Pacific sectors using digisonde observations

Statistical analysis of low latitude spread F is presented for three different longitudinal sectors from Jicamarca (12°S, 76.8°W, −2.5° declination angle) from 2001 to 2016, Ascension Island (7.9°S, 14.4°W, −15.09° declination angle) from 2000 to 2014, Kwajalein (8.71°N, 167.7°E, 7.5° declination angle) from 2004 to 2012. Digisonde data from these stations have been processed and analyzed to study statistical variations of equatorial spread F, a diagnostic of irregular plasma structure in the ionosphere. A new automated method of spread F detection using pattern recognition and edge detection for low latitude regions is used to determine solar and seasonal variation over these three sites. An algorithm has been developed to detect the foF2 and hpF2 parameters and this has been validated by comparisons with manually scaled data as well as with SAMI2 and International Reference Ionosphere models showing good correlation. While significant variation is not observed over the solar cycle, the different longitudes and declination angles contribute to the variations over the seasonal cycle.

Challenges in Integrating Demographic Variables into Local Government Authorities’ Development Plans

This paper examines the Challenges in Integrating Demographic Variables into Local Government Authorities’ Development plans in Chemba and Mpwapwa district councils. The study population was LGA’s development planning officers. The study adopted a cross-sectional research design in which both qualitative and quantitative data from planning officers were collected. Descriptive statistics (Univariate analysis) was done to explore the characteristics and distribution of respondents presented in frequencies and percentages. Cross-tabulation with chi-square (χ2) test tested the association of variables at a 0.05 (95%) significance level. The study findings revealed that LGA planning officers face several challenges in integrating population variables into development plans. Such challenges are Institutional-based (Scarcity of data, lack of political commitment to the goal, limited access to computing facilities, and inadequacy of statistical sources. Resource-based (Unclear relevance of the move among development planners, Continuing discussions on the best ways can use population data in development planning, Lack of clear understanding of demographic variables that can be integrated into the development plans in different sectors, Inadequate conceptualization and understanding of the operation and effects of population variables, lack of sufficient expertise to prepare needed projection inputs). Planning process based (Bureaucratic structures of centralized planning offices; create a barrier between planners and the public) Relying on secondary data from socio-economic profiles, too many directives (central government priories).Technical-based (unclear approaches of integrating population issues into development plans, lack of appropriate methodology, lack of planning and projection techniques, missing manual on the methodology, inadequate research into the many facets of the demographic processes and of their interrelations with other social and economic processes. The chi-square (2) test of the findings revealed no significant (P>0.05) statistical variation by LGAs on the faced challenges in integrating population variables into development plans. The study concludes that institutional setup, resource constraints, the nature of the planning process, and some technical issues affect LGA’s in coming up with effective and comprehensive development plans that cope with the area-specific aging population. The findings require the LGAs to consider putting more effort into the reliable sources of data, knowledge, and skills of planners, planning tools, and planning approaches in order to come up with good and realistic development plans that foster increasing local economic growth and improve the living standard of people; that slow down youth rural-urban migration due to low economic efficiency in their places of origin. The study recommends that LGAs in collaboration with the parent Ministry have to design the means of curbing the encountered planning challenges including improving awareness and sources of data for planning purposes, reviewing the planning approach by making it rather horizontal and comprehensive instead of being vertical from central government policies because obstacles and opportunities for development are area specific, and planners should get acquainted with methodologies for integrating population variables into development plans.

Sustainable Mixed-Halide Perovskite Resistive Switching Memories Using Self-Assembled Monolayers as the Bottom Contact.

The complex ionic-electronic conduction in mixed halide perovskites enables their use beyond von Neumann architectures implemented in resistive switching memory devices. Although device fabrication based on perovskite compounds involves solution-processing at low temperatures, reducing further fabrication costs by eliminating expensive materials can improve their compatibility with upscalable deposition techniques. Notably, the substrate on which the perovskite active layer is developed has been reported to severely affect its quality and thus the overall device performance. Hereby, we demonstrate the sustainable manufacturing of memristive perovskite solar cells by replacing the expensive poly[bis(4-phenyl)(2,4,6-trimethylphenyl)amine] (PTAA) that serves as a hole transporting layer (HTL) with a self-assembled monolayer (SAM), namely [2-(3,6-dimethoxy-9H-carbazol-9-yl)ethyl]phosphonic acid (MeO-2PACz). Multiple sequential memristive current-voltage characteristics of single devices are reported, and average data of multiple reference and targeted devices are compared. Resistive switching memory devices based on SAM exhibit improved performance having reduced average SET voltage values and narrower statistical variation compared to reference devices with PTAA. It is shown that both PTAA and SAM based devices exhibit high ON/OFF ratio of about 103 operating at low switching electric fields. Replacing an expensive polymer-based HTL with this approach reduces fabrication costs compared to PTAA.