Rompecabezas del teorema de Pitágoras.

Presentación de diferentes juegos relacionados con el teorema de Pitágoras. Así se muestran puzzles y rompecabezas con aplicación en las aulas y que parten de las teorías del matemático griego.

En el entorno del teorema Kou-KU (IV)

Reflexi??n en torno al teorema de Pit??goras a partir del propio teorema Kou-Ku. Todo ello se relaciona con el estudio general de las matem??ticas.

An??lisis de los conceptos de energ??a, calor, trabajo y Teorema de Carnot en textos universitarios de termodin??mica

Resumen tomado de la publicaci??n

El planteamiento de problemas y la construcci??n del teorema de Bayes

Resumen basado en el de la publicaci??n

Comprensión de las implicaciones del teorema del límite central a través de histogramas : un estudio con estudiantes y profesores de América latina.

Resumen basado en el de la publicación

Ense??anza del teorema de Bayes con apoyo tecnol??gico

XII Jornadas de Investigaci??n en el Aula de Matem??ticas : estad??stica y azar, celebradas en Granada, noviembre y diciembre de 2006. Resumen tomado de la publicaci??n

Actividades de aprendizaje con estadística dinámica : el teorema del límite central.

XII Jornadas de Investigación en el Aula de Matemáticas : estadística y azar, celebradas en Granada, noviembre y diciembre de 2006. Resumen tomado de la publicación

El teorema de Euler a partir de la teoría de grafos.

Se estudia la teoría de grafos en relación con el teorema de Euler. La teoría de grafos se refiere a la teoría de conjuntos relativa a las relaciones binarias de un conjunto numerable consigo mismo. Esta teoría posee un vasto campo de aplicaciones en Física, Economía, Teoría de la Información, Programación Lineal, Transportas, Psicología, e incluso en ciertos dominios del arte. Se pretende realizar un trabajo que sirva como seminario optativo para los alumnos de COU, que presente a los alumnos un teorema clásico de geometría mediante la teoría de grafos, un aspecto bastante olvidado en los programas. Se utilizan los métodos y el lenguaje de la teoría de grafos para demostrar el teorema de Euler, que liga caras, vértices y aristas de un poliedro regular. Para todo ello en primer lugar se sistematizan una serie de conceptos previos, se analizan las propiedades de distintos tipos de grafos, y por último, se realizan demostraciones.

El teorema de Fermat de l'educaci?? : conciliaci?? entre l'horari familiar, laboral i acad??mic

Resumen basado en el de la publicaci??n

Lattice Boltzmann method for simulating the viscous flow in large distensible blood vessels

A lattice Boltzmann method for simulating the viscous flow in large distensible blood vessels is presented by introducing a boundary condition for elastic and moving boundaries. The mass conservation for the boundary condition is tested in detail. The viscous flow in elastic vessels is simulated with a pressure-radius relationship similar to that of the Pulmonary blood vessels. The numerical results for steady flow agree with the analytical prediction to very high accuracy, and the simulation results for pulsatile flow are comparable with those of the aortic flows observed experimentally. The model is expected to find many applications for studying blood flows in large distensible arteries, especially in those suffering from atherosclerosis. stenosis. aneurysm, etc.

Studying the contact point and interface moving in a sinusoidal tube with lattice Boltzmann method

The multicomponent nonideal gas lattice Boltzmann model by Shan and Chen (S-C) is used to study the immiscible displacement in a sinusoidal tube. The movement of interface and the contact point (contact line in three-dimension) is studied. Due to the roughness of the boundary, the contact point shows "stick-slip" mechanics. The "stick-slip" effect decreases as the speed of the interface increases. For fluids that are nonwetting, the interface is almost perpendicular to the boundaries at most time, although its shapes at different position of the tube are rather different. When the tube becomes narrow, the interface turns a complex curves rather than remains simple menisci. The velocity is found to vary considerably between the neighbor nodes close to the contact point, consistent with the experimental observation that the velocity is multi-values on the contact line. Finally, the effect of three boundary conditions is discussed. The average speed is found different for different boundary conditions. The simple bounce-back rule makes the contact point move fastest. Both the simple bounce-back and the no-slip bounce-back rules are more sensitive to the roughness of the boundary in comparison with the half-way bounce-back rule. The simulation results suggest that the S-C model may be a promising tool in simulating the displacement behaviour of two immiscible fluids in complex geometry.

Lattice Boltzmann simulation of viscous fluid systems with elastic boundaries

A lattice Boltzmann model able to simulate viscous fluid systems with elastic and movable boundaries is proposed. By introducing the virtual distribution function at the boundary, the Galilean invariance is recovered for the full system. As examples of application, the how in elastic vessels is simulated with the pressure-radius relationship similar to that of the pulmonary blood vessels. The numerical results for steady how are in good agreement with the analytical prediction, while the simulation results for pulsative how agree with the experimental observation of the aortic flows qualitatively. The approach has potential application in the study of the complex fluid systems such as the suspension system as well as the arterial blood flow.

A equação de Poisson-Boltzmann em regiões com fronteira irregular

Propomos uma idealização da situação em que uma macromolécula é ionizada em um solvente. Neste modelo a área da superfície da molécula é suposta ser grande com respeito a seu diâmetro. A molécula é considerada como um dielétrico com uma distribuição de cargas em sua superfície. Utilizando as condições de transmissão, a distribuição de Boltzmann no solvente e resultados recentes sobre espaços de Sobolev no contexto de espaços métricos, bem como de integração sobre superfícies irregulares, o problema é formulado em forma variacional. Resultados clássicos do cálculo de variações permitem a resolução analítica do problema.