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Suppose that K is a compact body in R3 which is rotating about the x1–axis with the angular velocity ω. Put ω = ωe1 where e1 is the unit vector oriented in ...
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Operator Arising from Flow around a Rotating. Body in the Lq–Framework ... [12] Galdi, G. P., Steady flow of a Navier-Stokes fluid around a rotating obstacle.
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We present the description of the essential spectrum of a linear Stokes–type operator arising from the mathematical model of fluid flow around rotating ...
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... spectrum of a Stokes‐type operator arising from flow around a rotating body. TU Darmstadt, Fachbereich Mathematik, Preprint No. 2423,. 2005. [10] Galdi, G. P ...
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On the spectrum of a Stokes-type operator arising from flow around a rotating body ˇ R. FarwigJ. Neustupa. Mathematics. 2005. We present the description of the ...
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Abstract. We consider the spectrum of the Stokes operator with and without rotation effect for the whole space and exterior domains in Lq{spaces.
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Feb 29, 2008 ˇ Abstract: We prove Li--Yau-type lower bounds for the eigenvalues of the Stokes operator and give applications to the attractors of the ...
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We prove Li-Yau type lower bounds for the eigenvalues of the Stokes operator and give applications to the attractors of the Navier-Stokes equations.
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Jun 7, 2022 ˇ This NASA Technical Handbook is published by the National Aeronautics and Space. Administration (NASA) as a guidance document to provide ...
Wall flows, i.e. turbulent flows along solid walls, arise in flows around bodies (external flows) or in flows through pipes and ducts (internal flows). They ...