976 resultados para Interaction process
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This article aims to discuss the importance of the interaction process between the child and teachers, that occurs in the context of the development of the teaching and learning processes of the school subjects, as to permit the constitution of the meanings and senses essential to his formation, aiming the development of his capacities, abilities, skills, aptitudes and values that are indispensable to hers process of humanization. The processes developed in that context implicates, essentially, an adequate selection of social meanings relevant to the development of the human senses in the students; an organization of study activities that cause them a motif to work on them; and such a situation of interaction between the teacher and the students and among the students that permit emotional experiences good to the integration of the students in the study activities.
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Pós-graduação em Engenharia Mecânica - FEG
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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This research deals with teachers’ education, discussing elements related to the teachers’ knowledge and discursive interaction. Teaching knowledge can be mobilized in different situations and spaces; however, here, we considered them in the classroom environment and the interactive context among teacher-students and students-students. We analyzed the discursive interactions in a 23 future high school physics teachers sample, observed during the development of activities of supervised teaching, in an undergraduate teachers’ initial education program, in one of the São Paulo State universities, in Brazil. The main research question was: which teachers’ knowledge is mobilized by future high physics teachers during the interactive discursive context aiming the construction of scientific knowledge by students? Data showed that in the communicative interaction process in the classroom the student-teachers mobilized teaching knowledge related to the content and to its pedagogy.
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From a conceptual and contextual review of the phenomenon of convergence between TV and internet, demonstrated by the increasing use of so-called social media as tools for audience participation in television programs, the article examines the incorporation of information from social media programs in TV Cultura, a public television station in the state of São Paulo in Brazil. The work tries to characterize a model of the interaction process, in order to describe how is the audience participation in three selected programs: Green Card, JC Debate and Roda Viva.
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Since the Moon is not shielded by a global magnetic field or by an atmosphere, solar wind plasma impinges onto the lunar surface almost unhindered. Until recently, it was assumed that almost all of the impinging solar wind ions are absorbed by the surface. However, recent Interstellar Boundary Explorer, Chandrayaan-1, and Kaguya observations showed that the interaction process between the solar wind ions and the lunar surface is more complex than previously assumed. In contrast to previous assumptions, a large fraction of the impinging solar wind ions is backscattered as energetic neutral atoms. Using the complete Chandrayaan-1 Energetic Neutral Analyzer data set, we compute a global solar wind reflection ratio of 0.16 ± 0.05 from the lunar surface. Since these backscattered neutral particles are not affected by any electric or magnetic fields, each particle's point of origin on the lunar surface can be determined in a straight-forward manner allowing us to create energetic neutral atom maps of the lunar surface. The energetic neutral atom measurements recorded by the Chandrayaan-1 Energetic Neutral Analyzer cover ˜89% of the lunar surface, whereby the lunar farside is almost completely covered. We analyzed all available energetic neutral atom measurements recorded by the Chandrayaan-1 Energetic Neutral Analyzer to create the first global energetic neutral hydrogen maps of the lunar surface.
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The development of electrophoretic computer models and their use for simulation of electrophoretic processes has increased significantly during the last few years. Recently, GENTRANS and SIMUL5 were extended with algorithms that describe chemical equilibria between solutes and a buffer additive in a fast 1:1 interaction process, an approach that enables simulation of the electrophoretic separation of enantiomers. For acidic cationic systems with sodium and H3 0(+) as leading and terminating components, respectively, acetic acid as counter component, charged weak bases as samples, and a neutral CD as chiral selector, the new codes were used to investigate the dynamics of isotachophoretic adjustment of enantiomers, enantiomer separation, boundaries between enantiomers and between an enantiomer and a buffer constituent of like charge, and zone stability. The impact of leader pH, selector concentration, free mobility of the weak base, mobilities of the formed complexes and complexation constants could thereby be elucidated. For selected examples with methadone enantiomers as analytes and (2-hydroxypropyl)-β-CD as selector, simulated zone patterns were found to compare well with those monitored experimentally in capillary setups with two conductivity detectors or an absorbance and a conductivity detector. Simulation represents an elegant way to provide insight into the formation of isotachophoretic boundaries and zone stability in presence of complexation equilibria in a hitherto inaccessible way.
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Esta tesis se suma a los intentos teóricos de clarificar la impronta del dominio digital en lo arquitectónico. Propone una cartografía crítica para reconstruir el proceso de tal convergencia considerando aquellos acontecimientos reveladores que lo han pautado. La integración de la extensión digital propia las tecnologías de la información y la comunicación en el contexto tradicional arquitectónico ha supuesto el advenimiento de un ecosistema artificial complejo. A esta realidad o proceso concurrente se la denomina el Entorno Aumentado. La línea principal de investigación explora el desarrollo de la interacción hombre-máquina, en sendas trayectorias sincrónicas convergentes. El análisis se aborda por tanto desde la consideración de esa naturaleza dual, atendiendo simultáneamente a la humanización del dominio digital o cómo la computación se adapta a la condición natural de ser humano, y a la digitalización del ser humano o cómo éste asume el imperativo digital. El análisis resulta vertebrado desde la condición panóptica del punto de observación del acontecimiento: la cuarta pared, entendida como pantalla y punto de inflexión que estructura la convergencia de los entornos físico y digital. La reflexión acometida sobre la construcción del Entorno Aumentado procura la verificación de la tesis, que es central en esta investigación: la multiplicación dimensional del lugar físico mediante su extensión con un campo informacional procedente del dominio digital, y sus efectos en la construcción de la nueva ecología digital propia del Entorno Aumentado. Esta circunstancia se produce tras la eclosión de la Revolución Digital en la segunda mitad del siglo XX, el consecuente incremento de la interacción entre los entornos digital y físico, y el alcance de un nivel superior de comunicación en los procesos arquitectónicos. Los síntomas del Entorno Aumentado se hacen notar en nuestra contemporaneidad; en ese sentido, la tesis alcanza un diagnóstico del cambio. La fractura y obsolescencia del límite espacio-temporal establecido por las dicotomías históricas privado-público, casa-ciudad, trabajo-ocio,…etc., o la vigencia del proyecto procedimental son algunas de sus consecuencias en el modo de abordar la disciplina arquitectónica. Abstract This dissertation aims to complete the theoretical attempts to clarify the digital domain imprint on the architectural realm. It constructs a critical cartography to reconstruct the process of such convergence, considering those principal events who have scheduled it. The integration of TIC’s digital extension through the traditional architectural context has meant the advent of an artificial complex ecosystem. This reality or concurrent process is called The Augmented Environment. The key research attempt explores man-machine interaction process in both synchronous converging trajectories. The analysis therefore addresses from the consideration of this dual nature, focusing simultaneously in humanizing digital domain process or how the computer fits the natural condition of human beings, and in digitalizing human beings or how it affords the digital imperative. The analysis is structured from the panoptic condition of the event scope: the fourth wall as screen that structures the convergence of physical and digital environments. The examination of The Augmented Environment’s assembly pretends the verification of the central point of this research: the dimensional multiplication of physical space by extending informational fields from the digital domain, and its effects on the construction of the Augmented Environment new digital ecology. This circumstance occurs after the arrival of the Digital Revolution in the second half of the twentieth century, with the consequent increase in the interaction between digital and physical environments, and the reach of a higher level of communication in architectural processes. The Augmented Environment signs are alive nowadays; in that sense, the thesis reaches a diagnostic of the changes. The fracture and obsolescence of the time-space limit established by historic dichotomies as private-public, home-city, working-leisure...etc., or the validity of the procedural design are some of its consequences on the architectural discipline.
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More children with different versions of speech disorders appear in Russia last decades. This situation reflects general tendency of national health deterioration. Our practical experience shows that close grownups can?t communicate to children with limited health capacity. As a result there arise social disabilities in child development. Speech communication is one of the forms of global communicative interaction process between close grownups and young child in the course of which there is a redistribution of knowledge and ignorance (Nikas Luman,2005). Within a framework of sociocultiral theory of mental growth we consider the appearance of speech communication under any cases of physical illness is possible only under conditions of correctly- organized communication between grownups and young children. (L.S. Vigotski ,2000). The special value in this aspect acquires the study of communication between grownups and young children. For five years we have been conducting the surveys on the problem of communicative contacts between parents and non-verbal children. Analysis of received data gave us the opportunity to systematize peculiar communicative interaction of adults and children who have some lapses in acquiring speech form communication. We have revealed four versions of situational- business communication between close grownups and young children with disabilities in acquiring speech. We have assumed that four versions of situational- business communication negatively affect speech form communication formation.
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Symbiosis between Rhizobium and its leguminous host requires elaborate communication between the partners throughout the interaction process. A calmodulin-like protein, termed calsymin, was identified in Rhizobium etli; a calmodulin-related protein in a Gram-negative bacterium had not been described previously. Calsymin possesses three repeated homologous domains. Each domain contains two predicted EF-hand Ca2+-binding motifs. Ca2+-binding activity of calsymin was demonstrated on purified protein. R. etli efficiently secretes calsymin without N-terminal cleavage of the protein. The gene encoding calsymin, casA, is exclusively expressed during colonization and infection of R. etli with the host. Expression of casA is controlled by a repressor protein, termed CasR, belonging to the TetR family of regulatory proteins. Mutation of the casA gene affects the development of bacteroids during symbiosis and symbiotic nitrogen fixation.
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One of the challenges that concerns chemistry is the design of molecules able to modulate protein-protein and protein-ligand interactions, since these are involved in many physiological and pathological processes. The interactions occurring between proteins and their natural counterparts can take place through reciprocal recognition of rather large surface areas, through recognition of single contact points and single residues, through inclusion of the substrates in specific, more or less deep binding sites. In many cases, the design of synthetic molecules able to interfere with the processes involving proteins can benefit from the possibility of exploiting the multivalent effect. Multivalency, widely spread in Nature, consists in the simultaneous formation between two entities (cell-cell, cell-protein, protein-protein) of multiple equivalent ligand-recognition site complexes. In this way the whole interaction results particularly strong and specific. Calixarenes furnish a very interesting scaffold for the preparation of multivalent ligands and in the last years calixarene-based ligands demonstrated their remarkable capability to recognize and inhibit or restore the activity of different proteins, with a high efficiency and selectivity in several recognition phenomena. The relevance and versatility of these ligands is due to the different exposition geometries of the binding units that can be explored exploiting the conformational properties of these macrocycles, the wide variety of functionalities that can be linked to their structure at different distances from the aromatic units and to their intrinsic multivalent nature. With the aim of creating new multivalent systems for protein targeting, the work reported in this thesis regards the synthesis and properties of glycocalix[n]arenes and guanidino calix[4]arenes for different purposes. Firstly, a new bolaamphiphile glycocalix[4]arene in 1,3-alternate geometry, bearing cellobiose, was synthesized for the preparation of targeted drug delivery systems based on liposomes. The formed stable mixed liposomes obtained by mixing the macrocycle with DOPC were shown to be able of exploiting the sugar units emerging from the lipid bilayer to agglutinate Concanavalin A, a lectin specific for glucose. Moreover, always thanks to the presence of the glycocalixarene in the layer, the same liposomes demonstrated through preliminary experiments to be uptaken by cancer cells overexpressing glucose receptors on their exterior surface more efficiently respect to simple DOPC liposomes lacking glucose units in their structure. Then a small library of glycocalix[n]arenes having different valency and geometry was prepared, for the creation of potentially active immunostimulants against Streptococcus pneumoniae, particularly the 19F serotype, one of the most virulent. These synthesized glycocalixarenes bearing β-N-acetylmannosamine as antigenic unit were compared with the natural polysaccharide on the binding to the specific anti-19F human polyclonal antibody, to verify their inhibition potency. Among all, the glycocalixarene based on the conformationally mobile calix[4]arene resulted the more efficient ligand, probably due its major possibility to explore the antibody surface and dispose the antigenic units in a proper arrangement for the interaction process. These results pointed out the importance of how the different multivalent presentation in space of the glycosyl units can influence the recognition phenomena. At last, NMR studies, using particularly 1H-15N HSQC experiments, were performed on selected glycocalix[6]arenes and guanidino calix[4]arenes blocked in the cone geometry, in order to better understand protein-ligand interactions. The glycosylated compounds were studied with Ralstonia solanacearum lectin, in order to better understand the nature of the carbohydrate‐lectin interactions in solution. The series of cationic calixarene was employed with three different acidic proteins: GB1, Fld and alpha synuclein. Particularly GB1 and Fld were observed to interact with all five cationic calix[4]arenes but showing different behaviours and affinities.
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Dissertação apresentada ao Instituto Politécnico de Castelo Branco para cumprimento dos requisitos necessários à obtenção do grau de Mestre em Desenvolvimento de Software e Sistemas Interactivos, realizada sob a orientação científica do Doutor Arminda Guerra Lopes Professor Doutor do Departamento de Informática do Instituto Politécnico de Castelo Branco
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social stressors typically elicit two distinct behavioural responses in vertebrates: an active response (i.e., "fight or flight") or behavioural inhibition (i.e., freezing). Here, we report an interesting exception to this dichotomy in a Caribbean cleaner fish, which interacts with a wide variety of reef fish clients, including predatory species. Cleaning gobies appraise predatory clients as potential threat and become stressed in their presence, as evidenced by their higher cortisol levels when exposed to predatory rather than to non-predatory clients. Nevertheless, cleaning gobies neither flee nor freeze in response to dangerous clients but instead approach predators faster (both in captivity and in the wild), and interact longer with these clients than with non-predatory clients (in the wild). We hypothesise that cleaners interrupt the potentially harmful physiological consequences elicited by predatory clients by becoming increasingly proactive and by reducing the time elapsed between client approach and the start of the interaction process. The activation of a stress response may therefore also be responsible for the longer cleaning service provided by these cleaners to predatory clients in the wild. Future experimental studies may reveal similar patterns in other social vertebrate species when, for instance, individuals approach an opponent for reconciliation after a conflict.
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We present a review of the latest developments in one-dimensional (1D) optical wave turbulence (OWT). Based on an original experimental setup that allows for the implementation of 1D OWT, we are able to show that an inverse cascade occurs through the spontaneous evolution of the nonlinear field up to the point when modulational instability leads to soliton formation. After solitons are formed, further interaction of the solitons among themselves and with incoherent waves leads to a final condensate state dominated by a single strong soliton. Motivated by the observations, we develop a theoretical description, showing that the inverse cascade develops through six-wave interaction, and that this is the basic mechanism of nonlinear wave coupling for 1D OWT. We describe theory, numerics and experimental observations while trying to incorporate all the different aspects into a consistent context. The experimental system is described by two coupled nonlinear equations, which we explore within two wave limits allowing for the expression of the evolution of the complex amplitude in a single dynamical equation. The long-wave limit corresponds to waves with wave numbers smaller than the electrical coherence length of the liquid crystal, and the opposite limit, when wave numbers are larger. We show that both of these systems are of a dual cascade type, analogous to two-dimensional (2D) turbulence, which can be described by wave turbulence (WT) theory, and conclude that the cascades are induced by a six-wave resonant interaction process. WT theory predicts several stationary solutions (non-equilibrium and thermodynamic) to both the long- and short-wave systems, and we investigate the necessary conditions required for their realization. Interestingly, the long-wave system is close to the integrable 1D nonlinear Schrödinger equation (NLSE) (which contains exact nonlinear soliton solutions), and as a result during the inverse cascade, nonlinearity of the system at low wave numbers becomes strong. Subsequently, due to the focusing nature of the nonlinearity, this leads to modulational instability (MI) of the condensate and the formation of solitons. Finally, with the aid of the probability density function (PDF) description of WT theory, we explain the coexistence and mutual interactions between solitons and the weakly nonlinear random wave background in the form of a wave turbulence life cycle (WTLC).
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We present theory, numerical simulations and experimental observations of a 1D optical wave system. We show that this system is of a dual cascade type, namely, the energy cascading directly to small scales, and the photons or wave action cascading to large scales. In the optical context the inverse cascade is particularly interesting because it means the condensation of photons. We show that the cascades are induced by a six-wave resonant interaction process described by weak turbulence theory. We show that by starting with weakly nonlinear randomized waves as an initial condition, there exists an inverse cascade of photons towards the lowest wavenumbers. During the cascade nonlinearity becomes strong at low wavenumbers and, due to the focusing nature of the nonlinearity, it leads to modulational instability resulting in the formation of solitons. Further interaction of the solitons among themselves and with incoherent waves leads to the final condensate state dominated by a single strong soliton. In addition, we show the existence of the direct energy cascade numerically and that it agrees with the wave turbulence prediction.
