184 resultados para LEAP
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Pós-graduação em Educação Escolar - FCLAR
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We compare a model calculation with some available experimental data (LEAP 92) on KK̄ production. We believe the simplicity of the model makes it a useful tool for studying charm and beauty baryon production, for which also experimental data will soon be profuse.
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To select pedagogical practices that allow the development of psychic function thinking and psychic function language. It's necessary understanding the whole psyche human, postulated by Vygotsky. The action of playing, the main activity of the children in the childhood education, can enhance the resilience of the psychic functions, once it provides stimulus and may include teacher's intervention during its deployment. For a better intervention, this planning in light of a theory is primordial, as well as the reflection on this practice. This research aimed to find the moment of the activities that took place the development of these functions, language and thought, in children who are in the early years of the childhood education. The survey was conducted through a qualitative interpretation approach, as action research. Data analysis allowed us to observe planned teaching practices in which enabled the development of language and thought and consequently a qualitative leap in the other psychic functions
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As the area of nanotechnology continues to grow, the development of new nanomaterials with interesting physical and electronic properties and improved characterization techniques are several areas of research that will be remain vital for continued improvement of devices and the understanding in nanoscale phenomenon. In this dissertation, the chemical vapor deposition synthesis of rare earth (RE) compounds is described in detail. In general, the procedure involves the vaporization of a REClx (RE = Y, La, Ce, Pr, Nd, Sm, Gd, Tb, Dy, Ho) in the presence of hydride phase precursors such as decaborane and ammonia at high temperatures and low pressures. The vapor-liquid-solid mechanism was used in combination with the chemical vapor deposition process to synthesize single crystalline rare earth hexaboride nanostructures. The crystallographic orientation of as-synthesized rare earth hexaboride nanostructures and gadolinium nitride thin films was controlled by judicious choice of specific growth substrates and modeled by analyzing x-ray diffraction powder patterns and crystallographic models. The rare earth hexaboride nanostructures were then implemented into two existing technologies to enhance their characterization capabilities. First, the rare earth hexaboride nanowires were used as a test material for the development of a TEM based local electrode atom probe tomography (LEAP) technique. This technique provided some of the first quantitative compositional information of the rare earth hexaboride systems. Second, due to the rigidity and excellent conductivity of the rare earth hexaborides, nanostructures were grown onto tungsten wires for the development of robust, oxidation resistant nanomanipulator electronic probes for semiconductor device failure analysis.
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To select pedagogical practices that allow the development of psychic function thinking and psychic function language. It's necessary understanding the whole psyche human, postulated by Vygotsky. The action of playing, the main activity of the children in the childhood education, can enhance the resilience of the psychic functions, once it provides stimulus and may include teacher's intervention during its deployment. For a better intervention, this planning in light of a theory is primordial, as well as the reflection on this practice. This research aimed to find the moment of the activities that took place the development of these functions, language and thought, in children who are in the early years of the childhood education. The survey was conducted through a qualitative interpretation approach, as action research. Data analysis allowed us to observe planned teaching practices in which enabled the development of language and thought and consequently a qualitative leap in the other psychic functions
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Abstract Background How are morphological evolution and developmental changes related? This rather old and intriguing question had a substantial boost after the 70s within the framework of heterochrony (changes in rates or timing of development) and nowadays has the potential to make another major leap forward through the combination of approaches: molecular biology, developmental experimentation, comparative systematic studies, geometric morphometrics and quantitative genetics. Here I take an integrated approach combining life-history comparative analyses, classical and geometric morphometrics applied to ontogenetic series to understand changes in size and shape which happen during the evolution of two New World Monkeys (NWM) sister genera. Results Cebus and Saimiri share the same basic allometric patterns in skull traits, a result robust to sexual and ontogenetic variation. If adults of both genera are compared in the same scale (discounting size differences) most differences are small and not statistically significant. These results are consistent using both approaches, classical and geometric Morphometrics. Cebus is a genus characterized by a number of peramorphic traits (adult-like) while Saimiri is a genus with paedomorphic (child like) traits. Yet, the whole clade Cebinae is characterized by a unique combination of very high pre-natal growth rates and relatively slow post-natal growth rates when compared to the rest of the NWM. Morphologically Cebinae can be considered paedomorphic in relation to the other NWM. Geometric morphometrics allows the precise separation of absolute size, shape variation associated with size (allometry), and shape variation non-associated with size. Interestingly, and despite the fact that they were extracted as independent factors (principal components), evolutionary allometry (those differences in allometric shape associated with intergeneric differences) and ontogenetic allometry (differences in allometric shape associated with ontogenetic variation within genus) are correlated within these two genera. Furthermore, morphological differences produced along these two axes are quite similar. Cebus and Saimiri are aligned along the same evolutionary allometry and have parallel ontogenetic allometry trajectories. Conclusion The evolution of these two Platyrrhini monkeys is basically due to a size differentiation (and consequently to shape changes associated with size). Many life-history changes are correlated or may be the causal agents in such evolution, such as delayed on-set of reproduction in Cebus and larger neonates in Saimiri.
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Environmental Management includes many components, among which we can include Environmental Management Systems (EMS), Environmental Reporting and Analysis, Environmental Information Systems and Environmental Communication. In this work two applications are presented: the developement and implementation of an Environmental Management System in local administrations, according to the European scheme "EMAS", and the analysis of a territorial energy system through scenario building and environmental sustainability assessment. Both applications are linked by the same objective, which is the quest for more scientifically sound elements; in fact, both EMS and energy planning are oftec carachterized by localism and poor comparability. Emergy synthesis, proposed by ecologist H.T. Odum and described in his book "Environmental Accounting: Emergy and Environmental Decision Making" (1996) has been chosen and applied as an environmental evaluation tool, in order complete the analysis with an assessment of the "global value" of goods and processes. In particular, eMergy syntesis has been applied in order to improve the evaluation of the significance of environmental aspects in an EMS, and in order to evaluate the environmental performance of three scenarios of future evolution of the energy system. Regarding EMS, in this work an application of an EMS together with the CLEAR methodology for environmental accounting is discussed, in order to improve the identification of the environmental aspects; data regarding environmental aspects and significant ones for 4 local authorities are also presented, together with a preliminary proposal for the integration of the assessment of the significance of environmental aspects with eMergy synthesis. Regarding the analysis of an energy system, in this work the carachterization of the current situation is presented together with the overall energy balance and the evaluation of the emissions of greenhouse gases; moreover, three scenarios of future evolution are described and discussed. The scenarios have been realized with the support of the LEAP software ("Long Term Energy Alternatives Planning System" by SEI - "Stockholm Environment Institute"). Finally, the eMergy synthesis of the current situation and of the three scenarios is shown.
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Die vorliegende Dissertation ist eine molekulargenetische Studie an humanem neolithischem Skelettmaterial. Im zentralen Blickpunkt stand die Bestimmung der Variabilität der mitochondrialen Haplogruppen einer frühneolithischen Stichprobe aus drei unterschiedlichen Kulturkreisen, welche die Linearbandkeramik (LBK und AVK), die Körös-Kultur und eine Sammelkategorie osteuropäischer spätmeso- und frühneolithischer Kulturen umfasste. Im Vergleich dieser Gruppen untereinander sowie mit Rezentdaten moderner Populationen aus vergleichbaren Gebieten Mittel- und Osteuropas sowie dem Nahen Osten sollten bestehende Modelle und Hypothesen zur Neolithisierung Mitteleuropas geprüft werden. Insgesamt konnte für 43 neolithische Individuen aus 16 Fundorten der reproduzierbare Nachweis endogener DNA erbracht werden. Eine eindeutige Haplogruppenbestimmung konnte durch die Sequenzierung vier überlappender Fragmente der mitochondrialen Hypervariablen Region I sowie durch RFLP-Analyse zusätzlicher charakteristischer Nukleotidpositionen für alle 43 Individuen durchgeführt werden. Die neolithischen Individuen der Linearbandkeramik sowie der Körös-Kultur zeigten eine hohe Diversität an bekannten europäischen Haplogruppen, wohingegen die kleinere Stichprobe aus dem Gebiet Osteuropas eine auffällige Homogenität aufwies. Neben Frequenzunterschieden zur modernen mitteleuropäischen Bevölkerung war innerhalb der LBK/AVK-Stichprobe eine hohe Frequenz der Haplogruppe N1a festzustellen, welche nicht in den beiden anderen neolithischen Stichproben zu finden war und auch in der heutigen Rezentbevölkerung Eurasiens und Nordafrikas nur mit einer durchschnittlichen Frequenz von 0,2% vertreten ist. Innerhalb der Individuen der Körös-Kultur fanden sich zwei Haplotypen, welche heute nicht in Europa bekannt sind, dagegen jedoch in Süd- bzw. Nordostasien gehäuft vorkommen. Die Ergebnisse der aDNA-Analysen bestätigten im Wesentlichen das komplexe Bild der Neolithischen Transition in Mitteleuropa und konnten die, für diesen Raum postulierte, Hypothese der leap frog colonization weitestgehend unterstützen. Auch für den geographischen Vergleichsraum des nördlichen Osteuropa konnten Parallelen zur etablierten Sichtweise der archäologischen Forschung zu diesem Gebiet und den vorliegenden Ergebnissen der aDNA-Analysen aufgezeigt werden. Die zeitlich verzögerte Annahme der neolithischen Lebensweise im waldreichen nördlichen Osteuropa spiegelt sich in der reduzierten Diversität an mtDNA-Haplogruppen wider. Die vorliegende Dissertation konnte nicht nur durch die Ergebnisse der Haplogruppen-Bestimmung, sondern vor allem durch die umfangreichen und elaborierten Reproduktions- und Authentifizierungprotokolle deutlich machen, dass der Nachweis von humaner alter DNA trotz der allgegenwärtigen, methodenimmanenten Kontaminationsgefahr unter streng kontrollierten Bedingungen möglich ist. Gleichermaßen konnte veranschaulicht werden, dass die aDNA-Analyse wertvolle Hinweise auf das genetische status quo einer Population liefern kann, welche nicht bzw. nur in sehr eingeschränkten Maße von rezenten DNA-Daten abgeleitet werden können. Als sekundäres Ergebnis erlaubte der bislang größte vorliegende Datensatz von ~2500 Klonsequenzen zudem einen detaillierten Einblick in Häufigkeiten und Verteilungsmuster von post mortem Sequenzveränderungen. Es konnten für den mitochondrialen Bereich der Nukleotidpositionen 15997-16409 so genannte hot bzw. cold spots definiert werden, welche für die Auswertung und Interpretation von zukünftigen Sequenzierungen der Hypervariablen Region I des mt-Genoms von entscheidender Bedeutung sein werden.
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Grazie alla crescente evoluzione tecnologica è oggi possibile, tramite Head Mounted Display (HMD), vivere una realtà virtuale ricca nei dettagli, interattiva ed immersiva. L’avanzamento in questo settore ha infatti portato a una vera e propria rivoluzione, aprendo la possibilità di utilizzare questa tecnologia in molteplici ambiti. L’ostacolo riscontrato è che a un progresso di tale entità non si associa un adeguato aggiornamento e perfezionamento riguardo alle metodologie di interazione con oggetti 3D, dell’utilizzo di interfacce grafiche e del generale design ambientale. La diretta conseguenza di questo mancato aggiornamento è quella di indebolire o addirittura annullare l’effetto presenza dell'HMD, requisito indispensabile che consente all’utente di immergersi sensorialmente nel contesto simulato. L’obiettivo di questo studio consiste nel comprendere cosa è necessario tenere in considerazione e quali regole vanno cambiate per poter mantenere un'alta sensazione di presenza per l'utente all’interno di una realtà virtuale. A questo scopo è stato creato un ambiente virtuale 3D in grado di supportare l'utilizzo di un HMD, l'Oculus Rift, e di diversi dispositivi di input in grado di consentire controllo tramite movimenti naturali, il Razer Hydra ed il Leap Motion, in modo da poter effettuare un'analisi diretta sul livello del fattore presenza percepito nell'effettuare diverse interazioni con l'ambiente virtuale e le interfacce grafiche attraverso questi dispositivi. Questa analisi ha portato all'individuazione di molteplici aspetti in queste tipologie di interazioni e di design di intrefacce utente che, pur essendo di uso comune negli ambienti 3D contemporanei, se vissuti in un contesto di realtà virtuale non risultano più funzionali e indeboliscono il senso di presenza percepito dall'utente. Per ognuno di questi aspetti è stata proposta ed implementata una soluzione alternativa (basata su concetti teorici quali Natural Mapping, Diegesis, Affordance, Flow) in grado di risultare funzionale anche in un contesto di realtà virtuale e di garantire una forte sensazione di presenza all'utente. Il risultato finale di questo studio sono quindi nuovi metodi di design di ambienti virtuali per realtà aumentata. Questi metodi hanno permesso la creazione di un ambiente virtuale 3D pensato per essere vissuto tramite HMD dove l'utente è in grado di utilizzare movimenti naturali per interagire con oggetti 3D ed operare interfacce grafiche.
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Nella computer grafica, nell’ambito della modellazione geometrica, si fa uso delle operazioni booleane tra solidi per la manipolazione e la creazione di nuovi oggetti. Queste operazioni, quali unione, intersezione e differenza, vengono applicate alle superfici degli oggetti 3D esattamente come si fa su altri insiemi. In questo modo si riescono ad ottenere nuove forme complesse come combinazione delle altre, che sono in genere più semplici. Ciò che è stato realizzato in questo lavoro di tesi si colloca all’interno di un progetto preesistente, realizzato per consentire la manipolazione di modelli tridimensionali mediante l’utilizzo di operatori booleani: Mesh Glue. In questo lavoro, si è estesa la logica dell’applicazione degli operatori booleani, presente in Mesh Glue, per poter gestire anche scenari con mesh che presentano facce in tangenza. Inoltre, si è inserito Mesh Glue all’interno di un progetto più grande: Mesh Craft. Mesh Craft è un progetto che consiste in un ambiente di modellazione che utilizza come sistema di input il Leap Motion Controller, un dispositivo capace di identificare le dita di una mano e seguirne i movimenti con alta precisione.
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Interest in the study of magnetic/non-magnetic multilayered structures took a giant leap since Grünberg and his group established that the interlayer exchange coupling (IEC) is a function of the non-magnetic spacer width. This interest was further fuelled by the discovery of the phenomenal Giant Magnetoresistance (GMR) effect. In fact, in 2007 Albert Fert and Peter Grünberg were awarded the Nobel Prize in Physics for their contribution to the discovery of GMR. GMR is the key property that is being used in the read-head of the present day computer hard drive as it requires a high sensitivity in the detection of magnetic field. The recent increase in demand for device miniaturization encouraged researchers to look for GMR in nanoscale multilayered structures. In this context, one dimensional(1-D) multilayerd nanowire structure has shown tremendous promise as a viable candidate for ultra sensitive read head sensors. In fact, the phenomenal giant magnetoresistance(GMR) effect, which is the novel feature of the currently used multilayered thin film, has already been observed in multilayered nanowire systems at ambient temperature. Geometrical confinement of the supper lattice along the 2-dimensions (2-D) to construct the 1-D multilayered nanowire prohibits the minimization of magnetic interaction- offering a rich variety of magnetic properties in nanowire that can be exploited for novel functionality. In addition, introduction of non-magnetic spacer between the magnetic layers presents additional advantage in controlling magnetic properties via tuning the interlayer magnetic interaction. Despite of a large volume of theoretical works devoted towards the understanding of GMR and IEC in super lattice structures, limited theoretical calculations are reported in 1-D multilayered systems. Thus to gauge their potential application in new generation magneto-electronic devices, in this thesis, I have discussed the usage of first principles density functional theory (DFT) in predicting the equilibrium structure, stability as well as electronic and magnetic properties of one dimensional multilayered nanowires. Particularly, I have focused on the electronic and magnetic properties of Fe/Pt multilayered nanowire structures and the role of non-magnetic Pt spacer in modulating the magnetic properties of the wire. It is found that the average magnetic moment per atom in the nanowire increases monotonically with an ~1/(N(Fe)) dependance, where N(Fe) is the number of iron layers in the nanowire. A simple model based upon the interfacial structure is given to explain the 1/(N(Fe)) trend in magnetic moment obtained from the first principle calculations. A new mechanism, based upon spin flip with in the layer and multistep electron transfer between the layers, is proposed to elucidate the enhancement of magnetic moment of Iron atom at the Platinum interface. The calculated IEC in the Fe/Pt multilayered nanowire is found to switch sign as the width of the non-magnetic spacer varies. The competition among short and long range direct exchange and the super exchange has been found to play a key role for the non-monotonous sign in IEC depending upon the width of the Platinum spacer layer. The calculated magnetoresistance from Julliere's model also exhibit similar switching behavior as that of IEC. The universality of the behavior of exchange coupling has also been looked into by introducing different non-magnetic spacers like Palladium, Copper, Silver, and Gold in between magnetic Iron layers. The nature of hybridization between Fe and other non-magnetic spacer is found to dictate the inter layer magnetic interaction. For example, in Fe/Pd nanowire the d-p hybridization in two spacer layer case favors anti-ferromagnetic (AFM) configuration over ferromagnetic (FM) configuration. However, the hybridization between half-filled Fe(d) and filled Cu(p) state in Fe/Cu nanowire favors FM coupling in the 2-spacer system.
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In this issue...Faculty Women's Club, Engineering week, ARMCO, Uuno Sahinen, NASA, MSM library, Flying Club, weightlifting, intramural sports, Theta Tau
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Swiss lake-side settlements dating between 4300 and 800 BC were first recognized in the early 19th century and between 1854 and 1880 early research boomed due to the first scientific studies and the artificial lowering of lakes in Western Switzerland. In the 20th century underwater and wetland archaeology experienced an enormous surge not only because of large rescue excavations, due to extensive motorway construction projects but also due to the evolution of modern IT technology in the 1970s. For the first time huge quantities of ancient wooden structures could be dated by dendrochronology. This produced a quantum leap in the 150 years of pile-dwelling research. In 2011, the UNESCO World Heritage Committee recognized the outstanding universal value of these sites. This article presents an overview about Swiss pile-dwellings of the Neolithic and the Bronze Age and the results of two recent diploma works (case study Sutz-Lattrigen Haupstation innen and case study Seedorf Lobsigensee) as examples of research and cooperation between universities and government agencies for cultural heritage management.
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The development of astrophysics in the nineteenth century drew mankind closer to the planets. For the first time, it was possible to give serious scientific consideration to the possibilities for life on other planets. The greatest leap, however, was in recognizing what was not known, and acknowledging the limits of human intuition. ‘Ideas,’ wrote Agnes M. Clerke, ‘have all at once become plastic’. As the scientific community tested the limits of scientific understanding, it became the role of science-fiction writers to imagine the universe beyond these limits. This paper will examine the ways in which nineteenth-century science fiction used the inheritance of the poetic language of Romanticism to reinstate the centrality of human being in the universe. I will explore the ways in which writers such as Edward Bulwer-Lytton (The Coming Race, 1871) and W. S. Lach-Szyrma (Aleriel, 1883) extended the Byronic hero to envisage extra-terrestrial utopias. The Hegelian systematic mythology described by Byron and Shelley had reimagined paradise and redemption on earth. Through science fiction, this mythology extended out towards the stars. A discourse on the possibilities of extra-terrestrial life became a Romantic discourse on the possibilities of being. The Byronic hero could now find a home not by escaping the shackles of religion, but as an angelic citizen of Venus or Mars. In this way, the paper will explore how science-fiction writers appropriated the language of Romantic poetry to build a bridge between the framework of scientific knowledge and the extent of human imagination.
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El trabajo estudia los procesos de toma de conciencia que tuvieron lugar en la provincia de Mendoza a principios de los años '70. Momento en que distintas fracciones de la clase obrera construyeron alternativas políticas que buscaban la superación del sistema social vigente, nos abocamos a conocer los alineamientos político-sociales que asumieron los trabajadores alejados de los grandes centros industriales. Analizamos también el desarrollo de los conflictos intragremiales, los que en gran medida dejan entrever procesos de construcción de autonomía. Optamos por abordar el estudio de los conflictos obreros a nivel provincial a través de una medición cuantitativa de sus luchas, metodología que entendemos nos permite objetivar los procesos de lucha de clases en que se encontraba el conjunto de la sociedad argentina. En esta línea, el Mendozazo [abril de 1972] aparece como un hito central a dilucidar, entendiéndolo como un salto en cantidad y en calidad respecto de los procesos de toma de conciencia. Éste expresa un proceso de ruptura, que en su búsqueda por lograr ya sea la democratización o la superación de la forma en que se encuentra organizada la sociedad, entronca con las luchas nacionales del período. Nos interrogamos acerca su génesis y desarrollo, y por los cambios ocurridos en las formas de organización y de lucha de los trabajadores a nivel provincial como producto de este hecho social de masas. Para ello elaboramos un mapa de los conflictos obreros entre los años 1969 y 1974, que nos permite registrar la intensidad de los conflictos, el lugar de su ocurrencia, los sectores más movilizados y los objetivos de su acción. Asimismo, da cuenta de la dinámica de la conflictividad de carácter inter e intragremial, política y teórica; disputas que no estuvieron escindidas del posicionamiento que las distintas fracciones obreras asumieron respecto de las fuerzas sociales que por entonces disputaban el poder en la Argentina. Estos datos cuanti-cualitativos son luego puestos en diálogo con un estudio en profundidad, que analiza la experiencia del SOEP, sindicato de obreros y empleados públicos surgido al calor del Mendozazo. El mismo nos sirve para pensar cómo el proceso de avance de las fracciones más retardatarias de la sociedad logró cooptar a ciertos sectores que habían iniciado un proceso de autonomía e indisciplinamiento social; puesto que tanto de los resultados que arroja el mapeo como del proceso que muestra el estudio de caso seleccionado, se desprende que al menos hasta el momento que comprende este trabajo, el disciplinamiento gremial no fue un proceso que necesitó de grandes niveles de violencia material, sino que expresa un momento de construcción de hegemonía por parte de los sectores del denominado sindicalismo ortodoxo
