984 resultados para Càlcul integral
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A novel algorithm of phase reconstruction based on the integral of phase gradient is presented. The algorithm directly derives two real-valued partial derivatives from three phase-shifted interferograms. Through integrating the phase derivatives, the desired phase is reconstructed. During the phase reconstruction process, there is no need for an extra rewrapping manipulation to ensure values of the phase derivatives lie in the interval [-pi, pi] as before, thus this algorithm can prevent error or distortion brought about by the phase unwrapping operation. Additionally, this algorithm is fast and easy to implement, and insensitive to the nonuniformity of the intensity distribution of the interferogram. The feasibility of the algorithm is demonstrated by both computer simulation and experiment.
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We generalize the Faddeev-Jackiw canonical path integral quantization for the scenario of a Jacobian with J=1 to that for the general scenario of non-unit Jacobian, give the representation of the quantum transition amplitude with symplectic variables and obtain the generating functionals of the Green function and connected Green function. We deduce the unified expression of the symplectic field variable functions in terms of the Green function or the connected Green function with external sources. Furthermore, we generally get generating functionals of the general proper vertices of any n-points cases under the conditions of considering and not considering Grassmann variables, respectively; they are regular and are the simplest forms relative to the usual field theory.
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In terms of the quantitative causal principle, this paper obtains a general variational principle, gives unified expressions of the general, Hamilton, Voss, Holder, Maupertuis-Lagrange variational principles of integral style, the invariant quantities of the general, Voss, Holder, Maupertuis-Lagrange variational principles are given, finally the Noether conservation charges of the general, Voss, Holder, Maupertuis-Lagrange variational principles axe deduced, and the intrinsic relations among the invariant quantities and the Noether conservation charges of all the integral variational principles axe achieved.
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The differential and integral cross sections for electron impact excitation of lithium from the ground state 1s(2)2s to excited states 1s(2)2p, 1s(2)3l (l = s,p,d) and 1s(2)4l (l = s,p,d,f) at incident energies ranging from 5 eV to 25 eV are calculated by using a full relativistic distorted wave method. The target state wavefunctions are calculated by using the Grasp92 code. The continuum orbitals are computed in the distorted-wave approximation, in which the direct and exchange potentials among all the electrons are included. A part of the cross sections are compared with the available experimental data and with the previous theoretical values. It is found that, for the integral cross sections, the present calculations are in good agreement with the time-independent distorted wave method calculation, for differential cross sections, our results agree with the experimental data very well.
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The J-integral is applied to characterize the fracture initiation of phenolphthalein polyether ketone (PEK-C) for which the concepts of linear elastic fracture mechanics (LEFM) are inapplicable at high temperatures for reasonably-sized specimens due to ex
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We present a new nonlinear integral transform relating the ocean wave spectrum to the along-track interferometric synthetic aperture radar (AT-INSAR) image spectrum. The AT-INSAR, which is a synthetic aperture radar (SAR) employing two antennas displaced along the platform's flight direction, is considered to be a better instrument for imaging ocean waves than the SAR. This is because the AT-INSAR yields the phase spectrum and not only the amplitude spectrum as with the conventional SAR. While the SAR and AT-INSAR amplitude spectra depend strongly on the modulation of the normalized radar cross section (NRCS) by the long ocean waves, which is poorly known, the phase spectrum depends only weakly on this modulation. By measuring the phase difference between the signals received by both antennas, AT-INSAR measures the radial component of the orbital velocity associated with the ocean waves, which is related to the ocean wave height field by a well-known transfer function. The nonlinear integral transform derived in this paper differs from the one previously derived by Bao et al. [1999] by an additional term containing the derivative of the radial component of the orbital velocity associated with the long ocean waves. By carrying out numerical simulations, we show that, in general, this additional term cannot be neglected. Furthermore, we present two new quasi-linear approximations to the nonlinear integral transform relating the ocean wave spectrum to the AT-INSAR phase spectrum.
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2006
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2016
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Iantchenko, A.; Sj?strand, J., (2001) 'Birkhoff normal forms for Fourier integral operators II', American Journal of Mathematics 124(4) pp.817-850 RAE2008
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84 hojas : ilustraciones, fotografías a color.
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21 hojas : ilustraciones.
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Este trabajo realiza, en primer lugar, un estudio de manuales de primero y segundo de Bachillerato-LOGSE, respecto al concepto de integral definida, exponiendo las cuatro dimensiones que se han considerado y un ejemplo de aplicación a un manual de 2º de Bachillerato. En la segunda parte, se hace un estudio comparativo entre los nueve manuales realizados, más representativos de Jaén y provincia, centrándonos en los significados institucionales históricos y en los conflictos semióticos.
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En este trabajo se aportan los resultados de una investigación, realizada con cuatro grupos de estudiantes de segundo de bachillerato de la Comunidad Autónoma Andaluza, sobre la incidencia de las pruebas de acceso a la universidad (PAU) en los significados de la integral definida, en cuanto a los posibles sesgos producidos. En primer lugar se detectan los significados de referencia que se comparan posteriormente con los obtenidos en las PAU, después se analiza el significado implementado en el aula. Por último, se dan algunas implicaciones para la enseñanza de la integral definida.
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A ênfase algébrica dada ao longo do tempo nos cursos de Cálculo Diferencial e Integral não oportunizou que tratamentos gráficos e numéricos fossem privilegiados, visto a ausência de softwares que possibilitassem uma abordagem diferenciada aos conceitos inerentes a esta disciplina (Richit, 2010, Guimarães, 2001). Contudo, iniciativas no mundo inteiro têm dedicado esforços e desenvolvido softwares que possibilitam explorações qualitativamente diferentes para conceitos de Cálculo a partir de representações gráficas, numéricas ou algébricas envolvendo visualização, a simulação, o aprofundamento do pensamento matemático, conjecturas e validações, etc. Deste modo, a incorporação das tecnologias digitais na aula de Cálculo remove um pouco o fardo da manipulação algébrica, possibilitando a transição entre a ação física (interação do estudante com a tecnologia) e a representação matemática de um conceito. Assim, a proposta de oficina aqui apresentada objetiva explorar conceitos de Cálculo (Funções, Limites, Derivadas e Integrais) em uma perspectiva de investigação com o software GeoGebra.
