Global ETD Search

601	Symmetry reduction of Reynold's equation and applications to film lubrication Abell, Martha Louise 08 1900 (has links) No description available. Symmetry (Physics) Gas-lubricated bearings Differential equations
602	Group analysis of equations arising in ocean acoustics Richards, Pamela Jane Childs 08 1900 (has links) No description available. Underwater acoustics Transformation groups Differential equations
603	Viscosity solutions of second order equations in a separable Hilbert space and applications to stochastic optimal control Kelome, Djivèdé Armel 05 1900 (has links) No description available. Differential equations, Partial Mathematical optimization Control theory
604	Solution of initial-value problems for some infinite eventually periodic chains of harmonic oscillators Glidewell, Samuel Ray 08 1900 (has links) No description available. Differential equations
605	Skew-product semiflows and time-dependent dynamical systems Leiva, Hugo 12 1900 (has links) No description available. Nonlinear equations Differentiable dynamical systems Differential equations
606	Exploring global dynamics : a numerical algorithm based on the Conley index theory Eidenschink, Michael 08 1900 (has links) No description available. Differentiable dynamical systems Differential equations Topological dynamics
607	Comparison theorem and its applications to finance Krasin, Vladislav Unknown Date No description available.
608	Complete symmetry groups : a connection between some ordinary differential equations and partial differential equations. Myeni, Senzosenkosi Mandlakayise. January 2008 (has links) The concept of complete symmetry groups has been known for some time in applications to ordinary differential equations. In this Thesis we apply this concept to partial differential equations. For any 1+1 linear evolution equation of Lie’s type (Lie S (1881) Uber die Integration durch bestimmte Integrale von einer Klasse linear partieller Differentialgleichung Archiv fur Mathematik og Naturvidenskab 6 328-368 (translation into English by Ibragimov NH in CRC Handbook of Lie Group Analysis of Differential Equations 2 473-508) containing three and five exceptional point symmetries and a nonlinear equation admitting a finite number of Lie point symmetries, the representation of the complete symmetry group has been found to be a six-dimensional algebra isomorphic to sl(2,R) s A3,1, where the second subalgebra is commonly known as the Heisenberg-Weyl algebra. More generally the number of symmetries required to specify any partial differential equations has been found to equal the number of independent variables of a general function on which symmetries are to be acted. In the absence of a sufficient number of point symmetries which are not solution symmetries one must look to generalized or nonlocal symmetries to remove the deficiency. This is true whether the evolution equation be linear or not. We report Ans¨ atze which provide a route to the determination of the required nonlocal symmetry or symmetries necessary to supplement the point symmetries for the complete specification of the equations. Furthermore we examine the connection of ordinary differential equations to partial differential equations through a common realisation of complete symmetry group. Lastly we revisit the notion of complete symmetry groups and further extend it so that it refers to those groups that uniquely specify classes of equations or systems. This is based on some recent developments pertaining to the properties and the behaviour of such groups in differential equations under the current definition, particularly their representations and realisations for Lie remarkable equations. The results seem to be quite astonishing. / Thesis (Ph.D.)-University of KwaZulu-Natal, Westville, 2008. Differential equations. Symmetry groups. Theses--Mathematics.
609	Singularity and symmetry analysis of differential sequences. Maharaj, Adhir. January 2009 (has links) We introduce the notion of differential sequences generated by generators of sequences. We discuss the Riccati sequence in terms of symmetry analysis, singularity analysis and identification of the complete symmetry group for each member of the sequence. We provide their invariants and first integrals. We propose a generalisation of the Riccati sequence and investigate its properties in terms of singularity analysis. We find that the coefficients of the leading-order terms and the resonances obey certain structural rules. We also demonstrate the uniqueness of the Riccati sequence up to an equivalence class. We discuss the properties of the differential sequence based upon the equation ww''−2w12 = 0 in terms of symmetry and singularity analyses. The alternate sequence is also discussed. When we analyse the generalised equation ww'' − (1 − c)w12 = 0, we find that the symmetry properties of the generalised sequence are the same as for the original sequence and that the singularity properties are similar. Finally we discuss the Emden-Fowler sequence in terms of its singularity and symmetry properties. / Thesis (Ph.D.)-University of KwaZulu-Natal, Westville, 2009. Differential equations. Riccati equation. Theses--Mathematics.
610	Applications of symmetry analysis to physically relevant differential equations. January 2005 (has links) We investigate the role of Lie symmetries in generating solutions to differential equations that arise in particular physical systems. We first provide an overview of the Lie analysis and review the relevant symmetry analysis of differential equations in general. The Lie symmetries of some simple ordinary differential equations are found t. illustrate the general method. Then we study the properties of particular ordinary differential equations that arise in astrophysics and cosmology using the Lie analysis of differential equations. Firstly, a system of differential equations arising in the model of a relativistic star is generated and a governing nonlinear equation is obtained for a linear equation of state. A comprehensive symmetry analysis is performed on this equation. Secondly, a second order nonlinear ordinary differential equation arising in the model of the early universe is described and a detailed symmetry analysis of this equation is undertaken. Our objective in each case is to find explicit Lie symmetry generators that may help in analysing the model. / Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2005. Theses--Mathematics. Lie algebras. Differential equations.

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