On unsteady three-dimensional boundary layer.
I. Pop (1974)
Publications de l'Institut Mathématique [Elektronische Ressource]
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Displaying similar documents to “A note on three-dimensional compressible boundary layer growth”
On unsteady three-dimensional boundary layer.
One-Parameter Method For Calculations Of Non-Steady Laminar Boundary Layers
Milan Đurić (1965)
Publications de l'Institut Mathématique
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Systems of differential inclusions in the absence of maximum principles and growth conditions
Christopher C. Tisdell (2006)
Discussiones Mathematicae, Differential Inclusions, Control and Optimization
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This article investigates the existence of solutions to second-order boundary value problems (BVPs) for systems of ordinary differential inclusions. The boundary conditions may involve two or more points. Some new inequalities are presented that guarantee a priori bounds on solutions to the differential inclusion under consideration. These a priori bound results are then applied, in conjunction with appropriate topological methods, to prove some new existence theorems for solutions to...
Remarks on a three-point boundary value problem in a differential equation of the third order
M. Greguš (1974)
Annales Polonici Mathematici
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Properties of a class of functions with bounded boundary rotation
K. S. Padmanabhan, R. Parvatham (1976)
Annales Polonici Mathematici
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A boundary value problem arising in the flow of a viscous fluid
Lee, Tai-Chi (1978)
Portugaliae mathematica
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A boundary value problem for non-linear differential equations with a retarded argument
Józef Wenety Myjak (1973)
Annales Polonici Mathematici
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A zoology of boundary layers.
David Gérard-Varet, Emmanuel Grenier (2002)
RACSAM
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In meteorology and magnetohydrodynamics many different boundary layers appear. Some of them are already mathematically well known, like Ekman or Hartmann layers. Others remain unstudied, and can be much more complex. The aim of this paper is to give a simple and unified presentation of the main boundary layers, and to propose a simple method to derive their sizes and equations.