Hilbert formulas for r-analytic functions in the domain exterior to spindle

Michael Zabarankin; Andrei F. Ulitko

doi:10.1137/050632403

Hilbert formulas for r-analytic functions in the domain exterior to spindle

Michael Zabarankin, Andrei F. Ulitko

Department of Mathematical Sciences

Kyiv National Taras Shevchenko University

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Hilbert formulas for an r-analytic function, defined by a generalized Cauchy-Riemann system in the domain exterior to the contour of a spindle in the meridional cross-section plane, have been derived. The derivation is based on the theory of Riemann boundary-value problems for analytic functions. For numerical calculations, Fourier integrals with Hilbert formulas representing the real and imaginary parts of the r-analytic function have been reduced to the form of regular integrals. The problem of the axially symmetric steady motion of a rigid spindle-shaped body in a Stokes fluid has been solved, and the pressure in the fluid has been expressed analytically based on a Hilbert formula. As an illustration, streamlines about the body, vortex and pressure functions at the contour of the body, and the drag force, exerted on the body by the fluid, have been calculated.

Original language	English
Pages (from-to)	1270-1300
Number of pages	31
Journal	SIAM Journal on Applied Mathematics
Volume	66
Issue number	4
DOIs	https://doi.org/10.1137/050632403
State	Published - 2006

Keywords

Analytic function
Bipolar coordinates
Drag force
Fourier integral transform
Hubert formula
Lame equation
Pressure
Riemann boundary-value problem
Spindle
Stokes equations
Vorticity
r-analytic function

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10.1137/050632403

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title = "Hilbert formulas for r-analytic functions in the domain exterior to spindle",

abstract = "Hilbert formulas for an r-analytic function, defined by a generalized Cauchy-Riemann system in the domain exterior to the contour of a spindle in the meridional cross-section plane, have been derived. The derivation is based on the theory of Riemann boundary-value problems for analytic functions. For numerical calculations, Fourier integrals with Hilbert formulas representing the real and imaginary parts of the r-analytic function have been reduced to the form of regular integrals. The problem of the axially symmetric steady motion of a rigid spindle-shaped body in a Stokes fluid has been solved, and the pressure in the fluid has been expressed analytically based on a Hilbert formula. As an illustration, streamlines about the body, vortex and pressure functions at the contour of the body, and the drag force, exerted on the body by the fluid, have been calculated.",

keywords = "Analytic function, Bipolar coordinates, Drag force, Fourier integral transform, Hubert formula, Lame equation, Pressure, Riemann boundary-value problem, Spindle, Stokes equations, Vorticity, r-analytic function",

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T1 - Hilbert formulas for r-analytic functions in the domain exterior to spindle

AU - Zabarankin, Michael

AU - Ulitko, Andrei F.

PY - 2006

Y1 - 2006

N2 - Hilbert formulas for an r-analytic function, defined by a generalized Cauchy-Riemann system in the domain exterior to the contour of a spindle in the meridional cross-section plane, have been derived. The derivation is based on the theory of Riemann boundary-value problems for analytic functions. For numerical calculations, Fourier integrals with Hilbert formulas representing the real and imaginary parts of the r-analytic function have been reduced to the form of regular integrals. The problem of the axially symmetric steady motion of a rigid spindle-shaped body in a Stokes fluid has been solved, and the pressure in the fluid has been expressed analytically based on a Hilbert formula. As an illustration, streamlines about the body, vortex and pressure functions at the contour of the body, and the drag force, exerted on the body by the fluid, have been calculated.

AB - Hilbert formulas for an r-analytic function, defined by a generalized Cauchy-Riemann system in the domain exterior to the contour of a spindle in the meridional cross-section plane, have been derived. The derivation is based on the theory of Riemann boundary-value problems for analytic functions. For numerical calculations, Fourier integrals with Hilbert formulas representing the real and imaginary parts of the r-analytic function have been reduced to the form of regular integrals. The problem of the axially symmetric steady motion of a rigid spindle-shaped body in a Stokes fluid has been solved, and the pressure in the fluid has been expressed analytically based on a Hilbert formula. As an illustration, streamlines about the body, vortex and pressure functions at the contour of the body, and the drag force, exerted on the body by the fluid, have been calculated.

KW - Analytic function

KW - Bipolar coordinates

KW - Drag force

KW - Fourier integral transform

KW - Hubert formula

KW - Lame equation

KW - Pressure

KW - Riemann boundary-value problem

KW - Spindle

KW - Stokes equations

KW - Vorticity

KW - r-analytic function

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JO - SIAM Journal on Applied Mathematics

JF - SIAM Journal on Applied Mathematics

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Hilbert formulas for r-analytic functions in the domain exterior to spindle

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