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3 edition of centenary of a paper on slow viscous flow by the physicist H.A. Lorentz found in the catalog.

centenary of a paper on slow viscous flow by the physicist H.A. Lorentz

Lorentz, H. A.

centenary of a paper on slow viscous flow by the physicist H.A. Lorentz

by Lorentz, H. A.

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Published by Kluwer Acdemic in Dordrecht, Boston .
Written in English

    Subjects:
  • Viscous flow.

  • Edition Notes

    Statementedited by H.K. Kuiken.
    ContributionsKuiken, H. K.
    Classifications
    LC ClassificationsQC154 .L67 1996
    The Physical Object
    Pagination305 p. :
    Number of Pages305
    ID Numbers
    Open LibraryOL965049M
    ISBN 100792339584
    LC Control Number96001345

    Abstract: In this paper, we give a control theoretic approach to the slow self-propelled motion of a rigid body in a viscous fluid. The control of the system is the relative velocity of the fluid with respect to the solid on the boundary of the rigid body (the thrust). (), no. , – The centenary of a paper on slow viscous. Like its predecessor, the revised and expanded Second Edition of this book addresses the basic principles of fluid mechanics and solves fluid flow problems where viscous effects are the dominant physical phenomena. Much progress has occurred in the .

    boundary. Relevantly, there is a circle theorem for potential flow past a circular boundary, which is due to Milne Thomson [3, 9]. Further, in the two- -dimensional viscous flow theory similar theorems are found in Avudainayagon et al. [10] and Sen [11] for solving the problems of slow viscous flow past a rigid circular boundary with shear stress.   Two-dimensional slow viscous flow in a partitioned channel is investigated based on the Stokes approximation. The partitioned channel is composed of two infinite parallel planes and a semi-infinite plate located midway between the infinite planes.

      This flow is entirely forced by the moving surface, or the relative motion between the two parallel surfaces, and is depicted in Fig. PLANE-POISEUILLE OR CHANNEL FLOW When both of the parallel bounding surfaces are fixed, the appropriate boundary conditions for the unidirectional flow between them are u u = = 0, 0, at at z = = 0 h z. slow, viscous flow for the steady motion of a solid sphere towards or away from a plane surface of infinite extent. Two cases are considered: (i) the plane surface is rigid and fluid adheres to its surface ; (ii) the plane is a free surface on which the tangential stresses vanish. Deformation.


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Centenary of a paper on slow viscous flow by the physicist H.A. Lorentz by Lorentz, H. A. Download PDF EPUB FB2

This book commemorates the appearance one hundred years ago of a paper on slow viscous flow, written by the physicist and Nobel laureate H.A. Lorentz. Although Lorentz is.

The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz book. Read reviews from world’s largest community for readers. This book comm Author: Hendrik Antoon Lorentz. This book commemorates the appearance one hundred years ago of a paper on slow viscous flow, written by the physicist and Nobel laureate H.A.

Lorentz. Although Lorentz is not remembered by most as a fluid dynamicist - indeed, his fame rests primarily on his contributions to the theory ofBrand: Springer Netherlands.

The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz by Hendrik Antoon Lorentz (Editor) avg rating — 0 ratings — published This book commemorates the appearance one hundred years ago of a paper on slow viscous flow, written by the physicist and Nobel laureate H.A.

Lorentz. Although Lorentz is not remembered by most as a fluid dynamicist - indeed, his fame rests primarily on his contributions to the theory of electrons, electrodynamics and early developments in relativity - his fluid-mechanics paper of Kuiken, The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A.

Lorentz,Buch, Bücher schnell und portofrei. With this special issue of the Journal of Engineering Mathematics we commemorate and celebrate the appearance, one hundred years ago (Fig. 1), of a paper [1] by the Dutch physicist H.A. Lorentz in which he put forward some seminal ideas on slow viscous flow (see also [2–4]).

The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz pp | Cite as A general theorem on the motion of a fluid with friction and a few results derived from it Authors.

The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz. The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz pp Hasimoto H. () Lorentz’s theorem on the Stokes equation. In: Kuiken H.K. (eds) The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A.

Lorentz. Springer. The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz. The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A.

Lorentz pp Nadim A. () The Lorentz reciprocal theorem for micropolar fluids. In: Kuiken H.K. (eds) The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A.

Lorentz. Springer. The Centenary of a Paper on Slow Viscous Flow by the Physicist H. Lorentz. Edited by H. K UIKEN. Kluwer Academic Publishers, pp.

ISBN 0 4. $ or £ In The Centenary of a Paper on Slow Viscous Flow by the Physicist H. Lorentz, pp. – Springer.

Brinkman, H. A calculation of the viscous force exerted by a flowing fluid on a dense swarm of particles. The centenary of a paper on slow viscous flow by the physicist H.A.

Lorentz. By H Kuiken. The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz. CrossRef; Google Scholar Google Scholar; Lighthill, James The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A.

Lorentz. CrossRef; Google Scholar; The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz. The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A.

Lorentz, () Stokes flow past two circular cylinders using a Boundary Element Method. Computers & FluidsKuiken, H.

(Ed.) The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz. Kluwer Academic. Landau, L. & Levich, B. Dragging of liquid by a plate. The classical problem of slow, steady, two-dimensional flow of a viscous incompressible fluid around an infinitely long straight cylinder is considered.

The cylinder cross section is symmetric about the direction of the oncoming stream but otherwise is arbitrary. The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz; The General Theory of Employment, Interest, and Money; Boxing in New Jersey, ; Mobile Multimedia Processing: Fundamentals, Methods, and Applications.

The Centenary of a Paper on Slow Viscous Flow by the Physicist H.A. Lorentz, () Sperm motility in the presence of boundaries. Bulletin of Mathematical Biology In The Centenary of a Paper on Slow Viscous Flow by the Physicist H. Lorentz, pp. – Springer. Mazur P.

& Bedeaux D. A generalization of Faxén’s theorem to nonsteady motion of a sphere through an incompressible fluid in arbitrary flow. Viscous sintering: the surface-tension-driven flow of a liquid form under the influence of curvature gradients at its surface - Volume - H.

K. Kuiken Skip to main content Accessibility help We use cookies to distinguish you from other users and to provide you with a better experience on our websites.Strength Analysis Modelling of Flexible Umbilical Members for Marine Structures Sævik, S.

and Gjøsteen, J. K. Ø., Journal of Applied Mathematics, ; A Molecular Kinetic Theory of Inhomogeneous Liquid Crystal Flow and the Small Deborah Number Limit E, Weinan and Zhang, Pingwen, Methods and Applications of Analysis, ; A Viscous Fluid Flow through a Thin Channel with Mixed Rigid-Elastic.Lorentz: Sketches of his work on slow viscous flow and some other areas in fluid mechanics and the background against which it arose', in: H.K.

Kuiken, ed. Centenary of a paper on slow viscous flow by the physicist H. A. Lorentz, (Dordrecht: Kluwer Academic, ) ; B.

Theunissen and H. Klomp, 'H.A. Lorentz' visie op Wetenschap'.