1,341 research outputs found
Un problema de geografía histórica para estudiantes de secundaria: el emplazamiento de un poblado medieval
El trabajo describe y valora una experiencia didáctica, realizada en el contexto educativo informal da un campamento da verano. La experiencia parte del planteamiento de un problema de geografía histórica a un grupo de niños y niñas de entra 11 y 14 años: elegir el emplazamiento da un poblado medieval. Se formaron tras equipos da seis miembros, asumiendo cada uno da éstos al rol correspondiente a un determinado oficio o posición social. Cada equipo, teniendo en cuanta las opiniones de todos sus integrantes, eligió por consenso al emplazamiento más adecuado. La elección realizada por dos da los tres equipos responde a una clara visión estratégica, según la lógica militar en un caso y según la lógica comercial en al otro
Superconductivity in WO2.6F0.4 synthesized by reaction of WO3 with Teflon
WO3-xFx (x < 0.45) perovskite-like oxyfluorides were prepared by a chemically
reducing fluorination route using the polymer polytetrafluoroethylene (Teflon).
The symmetry of the crystal structures of WO3-xFx changes from monoclinic to
tetragonal to cubic as the fluorine content increases. Fluorine doping changes
insulating WO3 to a metallic conductor, and superconductivity (Tc = 0.4 K) was
discovered in the samples with fluorine contents of 0.41 < x < 0.45. This easy
fluorination method may be applicable to other systems and presents an
opportunity for finding new oxyfluoride superconductors.Comment: 9 pages, 3 figures, 2 tables. To be published in Phys Rev
Wavelet transforms for non-uniform speech recognition
An algorithm for nonuniform speech segmentation and its application in speech recognition systems is presented. A method based on the Modulated Gaussian Wavelet Transform based Speech Analyser (MGWTSA) and the subsequent parametrization block is used to transform a uniform signal into a set of nonuniformly separated frames, with the accurate information being fed into a speech recognition system. The algorithm needs a frame characterizing the signal where necessary, trying to reduce the number of frames per signal as much as possible, without an appreciable reduction in the recognition rate of the system.Peer ReviewedPostprint (published version
El arte del trabajo interdisciplinario
El trabajo en interdisciplina es una de las bases en la que deben formarse los médicos de la generación actual.
La interdisciplina no sólo debe ser ejercida en el plano asistencial y docente, también es fundamental en el campo de la investigación, incorporando psicopedagogos, sociólogos, metodólogos, y especialistas en informática
Stress-wave analysis technique study on thick-walled type A302B steel pressure vessels, July 1968 - July 1969
Stress wave analysis and crack opening displacement to monitor subcritical crack growth for grade B alloy steel pressure vessel
Fully coupled simulations of non-colloidal monodisperse sheared suspensions
In this work we investigate numerically the dynamics of sheared suspensions in the limit of vanishingly small fluid and particle inertia. The numerical model we used is able to handle the multi-body hydrodynamic interactions between thousands of particles embedded in a linear shear flow. The presence of the particles is modeled by momentum source terms spread out on a spherical envelop forcing the Stokes equations of the creeping flow. Therefore all the velocity perturbations induced by the moving particles are simultaneously accounted for.
The statistical properties of the sheared suspensions are related to the velocity fluctuation of the particles. We formed averages for the resulting velocity fluctuation and rotation rate tensors. We found that the latter are highly anisotropic and that all the velocity fluctuation terms grow linearly with particle volume fraction. Only one off-diagonal term is found to be non zero (clearly related to trajectory symmetry breaking induced by the non-hydrodynamic repulsion force). We also found a strong correlation of positive/negative velocities in the shear plane, on a time scale controlled by the shear rate (direct interaction of two particles). The time scale required to restore uncorrelated velocity fluctuations decreases continuously as the concentration increases. We calculated the shear induced self-diffusion coefficients using two different methods and the resulting diffusion tensor appears to be anisotropic too.
The microstructure of the suspension is found to be drastically modified by particle interactions. First the probability density function of velocity fluctuations showed a transition from exponential to Gaussian behavior as particle concentration varies. Second the probability of finding close pairs while the particles move under shear flow is strongly enhanced by hydrodynamic interactions when the concentration increases
Kubo-Anderson theory of polariton lineshape
We apply the Kubo-Anderson stochastic theory of molecular spectral lineshape
to the case of polaritons formed in the collective strong coupling regime. We
investigate both the fast and slow limits of the random frequency modulation of
the emitter as well as the intermediate regime and show how the interplay
between the characteristic timescales of the cavity and the molecular disorder
is expressed in the observed polaritons lineshapes. The analytical solution
obtained for the slow limit is valid for any ratio between the inhomogeneous
broadening of the molecules and the Rabi splitting, especially relevant for
molecular polaritons where these two quantities can be of the same order of
magnitude
Chain formation can enhance the vertical migration of phytoplankton through turbulence
Many species of motile phytoplankton can actively form long multicellular chains by remaining attached to one another after cell division. While chains swim more rapidly than single cells of the same species, chain formation also dramatically reduces phytoplankton’s ability to maintain their bearing. This suggests that turbulence, which acts to randomize swimming direction, could sharply attenuate a chain’s ability to migrate between well-lit surface waters during the day and deeper nutrient rich waters at night. Here we use numerical models to investigate how chain formation affects the migration of phytoplankton through a turbulent water column. Unexpectedly, we find that the elongated shape of chains helps them travel through weak to moderate turbulence much more effectively than single cells and isolate the physical processes that confer chains this ability. Our findings provide a new mechanistic understanding of how turbulence can select for phytoplankton with elongated morphologies and may help explain why turbulence triggers chain formation
Identification of internal properties of fibres and micro-swimmers
In this paper, we address the identifiability of constitutive parameters of passive or active micro-swimmers. We first present a general framework for describing fibres or micro-swimmers using a bead-model description. Using a kinematic constraint formulation to describe fibres, flagellum or cilia, we find explicit linear relationship between elastic constitutive parameters and generalized velocities from computing contact forces. This linear formulation then permits one to address explicitly identifiability conditions and solve for parameter identification. We show that both active forcing and passive parameters are both identifiable independently but not simultaneously. We also provide unbiased estimators for generalized elastic parameters in the presence of Langevin-like forcing with Gaussian noise using a Bayesian approach. These theoretical results are illustrated in various configurations showing the efficiency of the proposed approach for direct parameter identification. The convergence of the proposed estimators is successfully tested numerically
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