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251	Heats of mixing: measurement and prediction by an analytical group solution model Nguỹên, Thị Hường. January 1974 (has links) No description available. Heat of mixing. Solution (Chemistry) Mixtures.
252	Effect of order on LCST and gelation of polyolefin solutions Charlet, Gérard. January 1982 (has links) No description available. Gelation. Polymers. Heat of solution. Polyolefins.
253	Wronskian, Grammian and Pfaffian Solutions to Nonlinear Partial Differential Equations Abdeljabbar, Alrazi 01 January 2012 (has links) It is significantly important to search for exact soliton solutions to nonlinear partial differential equations (PDEs) of mathematical physics. Transforming nonlinear PDEs into bilinear forms using the Hirota differential operators enables us to apply the Wronskian and Pfaffian techniques to search for exact solutions for a (3+1)-dimensional generalized Kadomtsev-Petviashvili (KP) equation with not only constant coefficients but also variable coefficients under a certain constraint (ut + α 1(t)uxxy + 3α 2(t)uxuy)x +α 3 (t)uty -α 4(t)uzz + α 5(t)(ux + α 3(t)uy) = 0. However, bilinear equations are the nearest neighbors to linear equations, and expected to have some properties similar to those of linear equations. We have explored a key feature of the linear superposition principle, which linear differential equations have, for Hirota bilinear equations, while intending to construct a particular sub-class of N-soliton solutions formed by linear combinations of exponential traveling waves. Applications are given for the (3+1) dimensional KP, Jimbo-Miwa (JM) and BKP equations, thereby presenting their particular N-wave solutions. An opposite question is also raised and discussed about generating Hirota bilinear equations possessing the indicated N-wave solutions, and two illustrative examples are presented. Using the Pfaffianization procedure, we have extended the generalized KP equation to a generalized KP system of nonlinear PDEs. Wronskian-type Pfaffian and Gramm-type Pfaffian solutions of the resulting Pfaffianized system have been presented. Our results and computations basically depend on Pfaffian identities given by Hirota and Ohta. The Pl̈ucker relation and the Jaccobi identity for determinants have also been employed. A (3+1)-dimensional JM equation has been considered as another important example in soliton theory, uyt - uxxxy - 3(uxuy)x + 3uxz = 0. Three kinds of exact soliton solutions have been given: Wronskian, Grammian and Pfaffian solutions. The Pfaffianization procedure has been used to extend this equation as well. Within Wronskian and Pfaffian formulations, soliton solutions and rational solutions are usually expressed as some kind of logarithmic derivatives of Wronskian and Pfaffian type determinants and the determinants involved are made of functions satisfying linear systems of differential equations. This connection between nonlinear problems and linear ones utilizes linear theories in solving soliton equations. B̈acklund transformations are another powerful approach to exact solutions of nonlinear equations. We have computed different classes of solutions for a (3+1)-dimensional generalized KP equation based on a bilinear B̈acklund transformation consisting of six bilinear equations and containing nine free parameters. A variable coefficient Boussinesq (vcB) model in the long gravity water waves is one of the examples that we are investigating, ut + α 1 (t)uxy + α 2(t)(uw)x + α 3(t)vx = 0; vt + β1(t)(wvx + 2vuy + uvy) + β2(t)(uxwy - (uy)2) + β3(t)vxy + β4(t)uxyy = 0, where wx = uy. Double Wronskian type solutions have been constructed for this (2+1)-dimensional vcB model. Backlund Transformation Grammian Solution Hirota Dierential Operator Pfaffian Solution Wronskian Solution American Studies Arts and Humanities Mathematics
254	Etude de deux problèmes quasilinéaires elliptiques avec terme de source relatif à la fonction ou à son gradient Abdel Hamid, Haydar 07 December 2009 (has links) (PDF) Dans ce manuscrit de thèse nous présentons des nouveaux résultats concernant l'existence, la non-existence, la multiplicité et la régularité des solutions positives pour deux problèmes quasilinéaires elliptiques avec conditions de Dirichlet dans un domaine borné. Dans le chapitre 1 d'introduction, nous décrivons les deux problèmes que nous allons étudier et nous donnons les principaux résultats. Le premier, d'inconnue u, comporte un terme de source de gradient à croissance critique. Le second, d'inconnue v, contient un terme source d'ordre 0. Dans le chapitre 2 nous donnons des nouveaux résultats de régularité des solutions renormalisées utiles pour notre étude. A l'aide d'un changement d'inconnue, nous établissons un lien précis entre les problèmes en u et v. Le chapitre 3 est consacré à montrer ce lien et à donner une première application. Dans les chapitres 4 et 5 nous traitons de l'existence de solutions, la solution extrémale et sa régularité, l'existence d'une deuxième solution bornée du problème en v. Dans le chapitre 6 nous démontrons un résultat d'existence pour le problème en v avec des données mesures de Radon bornées quelconques. Dans le chapitre 7 nous obtenons des nouveaux résultats pour le problème en u en utilisant la connexion entre ces deux problèmes. [MATH] Mathematics problèmes quasilinéaires elliptiques p-Laplacien mesures de Radon bornées p-capacité topologie étroite topologie faible * solution renormalisée solution atteignable solution minimale bornée solution extrémale régularité multiplicité deuxième solution bornée fonctionnelle d'Euler solution semi-stable géométrie de col suites de Palais- Smale
255	Pfaffian and Wronskian solutions to generalized integrable nonlinear partial differential equations Asaad, Magdy 01 January 2012 (has links) The aim of this work is to use the Pfaffian technique, along with the Hirota bilinear method to construct different classes of exact solutions to various of generalized integrable nonlinear partial differential equations. Solitons are among the most beneficial solutions for science and technology, from ocean waves to transmission of information through optical fibers or energy transport along protein molecules. The existence of multi-solitons, especially three-soliton solutions, is essential for information technology: it makes possible undisturbed simultaneous propagation of many pulses in both directions. The derivation and solutions of integrable nonlinear partial differential equations in two spatial dimensions have been the holy grail in the field of nonlinear science since the late 1960s. The prestigious Korteweg-de Vries (KdV) and nonlinear Schrödinger (NLS) equations, as well as the ,Kadomtsev-Petviashvili (KP) and Davey-Stewartson (DS) equations, are prototypical examples of integrable nonlinear partial differential equations in (1+1) and (2+1) dimensions, respectively. Do there exist Pfaffian and soliton solutions to generalized integrable nonlinear partial differential equations in (3+1) dimensions? In this dissertation, I obtained a set of explicit exact Wronskian, Grammian, Pfaffian and N-soliton solutions to the (3+1)-dimensional generalized integrable nonlinear partial differential equations, including a generalized KP equation, a generalized B-type KP equation, a generalized modified B-type KP equation, soliton equations of Jimbo-Miwa type, the nonlinear Ma-Fan equation, and the Jimbo-Miwa equation. A set of sufficient conditions consisting of systems of linear partial differential equations involving free parameters and continuous functions is generated to guarantee that the Wronskian determinant or the Pfaffian solves these generalized equations. On the other hand, as part of this dissertation, bilinear Bäcklund transformations are formally derived for the (3+1)-dimensional generalized integrable nonlinear partial differential equations: a generalized B-type KP equation, the nonlinear Ma-Fan equation, and the Jimbo-Miwa equation. As an application of the obtained Bäcklund transformations, a few classes of traveling wave solutions, rational solutions and Pfaffian solutions to the corresponding equations are explicitly computed. Also, as part of this dissertation, I would like to apply the Pfaffianization mechanism of Hirota and Ohta to extend the (3+1)-dimensional variable-coefficient soliton equation of Jimbo-Miwa type to coupled systems of nonlinear soliton equations, called Pfaffianized systems. Examples of the Wronskian, Grammian, Pfaffian and soliton solutions are explicitly computed. The numerical simulations of the obtained solutions are illustrated and plotted for different parameters involved in the solutions. Bilinear operator Grammian solution Nonlinear partial differential equations Pfaffian solution Pfaffian technique Wronskian solution American Studies Arts and Humanities Mathematics
256	Study of (1:1) complex of potassium 3-methyl-3-pentoxide:3-methyl-3-pentanol in triglyme as a base/solvent system for E2 elimination reactions Zingde, Gurudas D. Sinai January 2011 (has links) Typescript (photocopy). / Digitized by Kansas Correctional Industries Solution (Chemistry) Solvents--Experiments Elimination reactions--Experiments
257	Normal freezing of organic liquids Irvin, David Arthur. January 1965 (has links) Call number: LD2668 .T4 1965 I72 / Master of Science Freezing points. Solution (Chemistry) Masters theses
258	Solubility of diuron in complex solvent systems Cheng, Chin-Hwa, 1957- January 1989 (has links) The solubility of diuron was determined in binary and ternary cosolvent-water systems. The binary systems were composed of a completely miscible organic solvent (CMOS) and water while the ternary systems incorporate partially miscible organic solvents (PMOS) into the binary systems. Due to the low aqueous solubilities of trichloroethylene and toluene, the PMOS's do not behave as cosolvents and they do not play an important role in altering solubility. Diuron -- Solubility. Nonaqueous solvents. Solution (Chemistry).
259	THE RECURSIVE ALGORITHMS FOR GDOP AND POSITIONING SOLUTION IN GPS Qing, Chang, Zhongkan, Liu, Qishan, Zhang 10 1900 (has links) International Telemetering Conference Proceedings / October 27-30, 1997 / Riviera Hotel and Convention Center, Las Vegas, Nevada / This paper proves theoretically that GDOP decreases as the number of satellites is increased.This paper proposes two recursive algorithms for calculating the GDOP and positioning solution.These algorithms not only can recursively calculate the GDOP and positioning solution, but also is very flexible in obtaining the best four-satellite positioning solution ,the best five-satellite positioning solution and the all visible satellite positioning solution according to given requirements. In the need of the two algorithms,this paper extends the definition of the GDOP to the case in which the number of visible satellites is less than 4. GPS GDOP Positioning solution Algorithm Generalized inverse
260	Chemistry of Portland cement as affected by the addition of polyalkanoic acids Mitchell, Lyndon David January 1997 (has links) No description available. 541

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