Reducing General Aviation Accidents By Utilizing Airline Operational Strategies

The United States maintains one of the largest and most diverse general aviation (GA) industries. However, GA results in hundreds of fatalities each year; thus, increasing safety and preventing accidents are the core values of the GA industry. This research lays the foundation for more work to be completed in order for GA to remain safe, efficient and have their needs met. The findings explain the current trends of GA accidents compared to commercial aviation, the differences in operational strategies between the two types, efforts that have been made by the Federal Aviation Administration (and others) to improve GA, and finally, recommended alternatives for improving GA safety using commercial aviation operational strategies. As a result of this study, recommendations to the stakeholders in the GA community include: (1) embracing in-cockpit technology to not only enable safer operations in crowded skies, but also permit reliable data collection on GA trends for data-driven decision making; (2) offering valuable incentives for pilots to undergo quality recurrent and safety training, while also eliminating loopholes or incentives that compromise safety; and (3) instituting a system of checks and balances to ensure pilots have a sufficient safety net from human error

Ultra-fast Rotors for Molecular Machines and Functional Materials via Halogen Bonding: Crystals of 1,4-Bis(iodoethynyl)bicyclo 2.2.2 octane with Distinct Gigahertz Rotation at Two Sites

As a point of entry to investigate the potential of halogen-bonding interactions in the construction of functional materials and crystalline molecular machines, samples of 1,4-bis(iodoethynyl)bicyclo[2.2.2] octane (BIBCO) were synthesized and crystallized. Knowing that halogen-bonding interactions are common between electron-rich acetylenic carbons and electron-deficient iodines, it was expected that the BIBCO rotors would be an ideal platform to investigate the formation of a crystalline array of molecular rotors. Variable temperature single crystal X-ray crystallography established the presence of a halogen-bonded network, characterized by lamellarly ordered layers of crystallographically unique BIBCO rotors, which undergo a reversible monoclinic-to-triclinic phase transition at 110 K. In order to elucidate the rotational frequencies and the activation parameters of the BIBCO molecular rotors, variable-temperature H-1 wide-line and C-13 cross-polarization/magic-angle spinning solid-state NMR experiments were performed at temperatures between 27 and 290 K. Analysis of the H-1 spin-lattice relaxation and second moment as a function of temperature revealed two dynamic processes simultaneously present over the entire temperature range studied, with temperature-dependent rotational rates of k(rot) = 5.21 x 10(10) s(-1).exp(-1.48 kcal.mol(-1)/RT) and k(rot) = 8.00 x 10(10) s(-1).exp(-2.75 kcal.mol(-1)/RT). Impressively, these correspond to room temperature rotational rates of 4.3 and 0.8 GHz, respectively. Notably, the high-temperature plastic crystalline phase I of bicyclo[2.2.2]octane has a reported activation energy of 1.84 kcal.mol(-1) for rotation about the 1,4 axis, which is 24% larger than E-a = 1.48 kcal.mol(-1) for the same rotational motion of the fastest BIBCO rotor; yet, the BIBCO rotor has three fewer degrees of translational freedom and two fewer degrees of rotational freedom! Even more so, these rates represent some of the fastest engineered molecular machines, to date. The results of this study highlight the potential of halogen bonding as a valuable construction tool for the design and the synthesis of amphidynamic artificial molecular machines and suggest the potential of modulating properties that depend on the dielectric behavior of crystalline media

Dynamic Characterization of Crystalline Supramolecular Rotors Assembled through Halogen Bonding

A modular molecular kit for the preparation of crystalline molecular rotors was devised from a set of stators and rotators to gain simple access to a large number of structures with different dynamic performance and physical properties. In this work, we have accomplished this with crystalline molecular rotors self-assembled by halogen bonding of diazabicyclo[2.2.2]octane, acting as a rotator, and a set of five fluorine-substituted iodobenzenes that take the role of the stator. Using variableerature 1H T1 spin-lattice relaxation measurements, we have shown that all structures display ultrafast Brownian rotation with activation energies of 2.4-4.9 kcal/mol and pre-exponential factors of the order of (1-9) × 1012 s-1. Line shape analysis of quadrupolar echo 2H NMR measurements in selected examples indicated rotational trajectories consistent with the 3-fold or 6-fold symmetric potential of the rotator

Static Modulation Wave of Arrays of Halogen Interactions Transduced to a Hierarchy of Nanoscale Change Stimuli of Crystalline Rotors Dynamics

Here we present a study where what can be seen as a static modulation wave encompassing four successive arrays of interacting iodine atoms in cryst. 1,​4-​Bis((4\u27-​(iodoethynyl)​phenyl) ethynyl)​bicyclo[2,​2,​2]​octane rotors changes the structure from one-​half mol. to three-​and-​a-​half mols. in the asym. unit below a phase transition at 105 K.  The remarkable finding is that the total 1H spin-​lattice relaxation rate, T1-​1, of unprecedented complexity to date in mol. rotors, is the weighted sum of the relaxation rates of the four contributing rotors relaxation rates, each with distinguishable exchange frequencies reflecting Arrhenius parameters with different activation barriers (Ea) and attempt frequencies (τo-​1)​.  This allows us to show in tandem with rotor-​environment interaction energy calcns. how the dynamics of mol. rotors are able to decode structural information from their surroundings with remarkable nanoscale precision

Planeación estratégica en el simulador de negocios Capstone para la industria de sensores

En este trabajo se presenta el plan de negocios realizado para la empresa Baldwin Inc. dentro del simulador de negocios Capstone. Se presenta la estrategia utilizada, las tácticas y objetivos que hicieron que esta empresa ganara la competencia

Effective forces in colloidal mixtures: from depletion attraction to accumulation repulsion

Computer simulations and theory are used to systematically investigate how the effective force between two big colloidal spheres in a sea of small spheres depends on the basic (big-small and small-small) interactions. The latter are modeled as hard-core pair potentials with a Yukawa tail which can be both repulsive or attractive. For a repulsive small-small interaction, the effective force follows the trends as predicted by a mapping onto an effective non-additive hard-core mixture: both a depletion attraction and an accumulation repulsion caused by small spheres adsorbing onto the big ones can be obtained depending on the sign of the big-small interaction. For repulsive big-small interactions, the effect of adding a small-small attraction also follows the trends predicted by the mapping. But a more subtle ``repulsion through attraction'' effect arises when both big-small and small-small attractions occur: upon increasing the strength of the small-small interaction, the effective potential becomes more repulsive. We have further tested several theoretical methods against our computer simulations: The superposition approximation works best for an added big-small repulsion, and breaks down for a strong big-small attraction, while density functional theory is very accurate for any big-small interaction when the small particles are pure hard-spheres. The theoretical methods perform most poorly for small-small attractions.Comment: submitted to PRE; New version includes an important quantitative correction to several of the simulations. The main conclusions remain unchanged thoug

Inactivación de patógenos en residuos avícolas mediante el compostaje

The aim of the study was to inactivate pathogenic microorganisms through the composting process for 120 hours using residues of organic compounds in two proportions: C/N 25 composed of 25.31, 40.42 and 34.27% and C/N 35 for 44.61, 12.90 and 42.50% of bean straw, fresh sorghum forage and dry chicken manure, respectively. The variables analysed were temperature, microbial load (mesophilic aerobics, total and faecal coliforms) and reduction of Escherichia coli and Salmonella Typhimurium, artificially inoculated in three levels of the compost piles. The C/N 35 treatment reached the highest temperature and inactivation of the pathogenic microorganisms evaluated during the thermophilic phase of composting. The temperatures reached were not homogeneous between the levels of the piles, being lower in the upper level (p<0.000). This study suggests the implementation of composting as an efficient alternative for the disposal of poultry waste.El objetivo del estudio fue inactivar microorganismos patógenos mediante el proceso de compostaje durante 120 horas utilizando residuos de compuestos orgánicos en dos proporciones: C/N 25 compuesto por 25.31, 40.42 y 34.27% y C/N 35 por 44.61, 12.90 y 42.50% de paja de frijol, forraje fresco de sorgo y estiércol seco, respectivamente. Las variables analizadas fueron temperatura, carga microbiana (aeróbicos mesófilos, coliformes totales y fecales) y reducción de Escherichia coli y Salmonella Typhimurium inoculadas artificialmente en tres niveles de las pilas de compost. El tratamiento C/N 35 alcanzó la mayor temperatura e inactivación de los microorganismos patógenos evaluados durante la fase termofílica del compostaje. Las temperaturas alcanzadas no fueron homogéneas entre los niveles de las pilas siendo inferior en el nivel superior (p<0.000). Este estudio sugiere la implementación del compostaje como una alternativa eficiente para la disposición de residuos avícolas

Iron Incorporation and Post-Malaria Anaemia

BACKGROUND: Iron supplementation is employed to treat post-malarial anaemia in environments where iron deficiency is common. Malaria induces an intense inflammatory reaction that stalls reticulo-endothelial macrophagal iron recycling from haemolysed red blood cells and inhibits oral iron absorption, but the magnitude and duration of these effects are unclear. METHODOLOGY/PRINCIPAL FINDINGS: We examined the red blood cell incorporation of oral administered stable isotopes of iron and compared incorporation between age matched 18 to 36 months old children with either anaemia post-malaria (n = 37) or presumed iron deficiency anaemia alone (n = 36). All children were supplemented for 30 days with 2 mg/kg elemental iron as liquid iron sulphate and administered (57)Fe and (58)Fe on days 1 and 15 of supplementation respectively. (57)Fe and(58)Fe incorporation were significantly reduced (8% vs. 28%: p<0.001 and 14% vs. 26%: p = 0.045) in the malaria vs. non-malaria groups. There was a significantly greater haemoglobin response in the malaria group at both day 15 (p = 0.001) and 30 (p<0.000) with a regression analysis estimated greater change in haemoglobin of 7.2 g/l (s.e. 2.0) and 10.1 g/l (s.e. 2.5) respectively. CONCLUSION/SIGNIFICANCE: Post-malaria anaemia is associated with a better haemoglobin recovery despite a significant depressant effect on oral iron incorporation which may indicate that early erythropoetic iron need is met by iron recycling rather than oral iron. Supplemental iron administration is of questionable utility within 2 weeks of clinical malaria in children with mild or moderate anaemia

Disorientating, fun or meaningful? Disadvantaged families' experiences of a science museum visit

It is widely agreed that there is a need to increase and widen science partici- pation. Informal science learning environments (ISLEs), such as science museums, may provide valuable spaces within which to engage visitors—yet the visitor profile of science museums remains narrow. This paper seeks to understand the experiences of socially disadvantaged families within such spaces. Using a Bourdieusian analytic lens, we analyse qualitative data from a small study conducted with ten parents and ten children from an urban school who visited a large science museum. Data includes pre- and post-interviews, audio recordings and visit fieldnotes. We characterised families’ experiences as falling into three discourses, as ‘disorientating’, ‘fun’ or ‘meaningful’ visits. Analysis identifies how the families’ experiences, and the likelihood of deriving science learning from the visit, were shaped through interactions of habitus and capital. Implications for improving equity and inclusion within ISLEs are discussed