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Oscillatory hydromagnetic disc flow

Oscillatory hydromagnetic disc flow SummaryThis paper presents the solution to the problem of determining the flow field and the fluctuating torque necessary to sustain the motion of a torsionally oscillating plate in a viscous conducting fluid subjected to a uniform axial field under the assumptions that the amplitude of the oscillation is small and that the magnetic Prandtl numberPrm(μσν) is small enough to justify the neglect of induced fields. The analysis reveals that the field decreases the flow velocities, but increases the magnitude of the fluctuating torque. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Applied Scientific Research, Section B Springer Journals

Oscillatory hydromagnetic disc flow

Datta, Sunil
Applied Scientific Research, Section B , Volume 11 (1-2) – Feb 1, 1964
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References (2)

Publisher
Springer Journals
Copyright
Copyright © Martinus Nijhoff 1964
ISSN
0365-7140
DOI
10.1007/bf02922212
Publisher site
See Article on Publisher Site

Abstract

SummaryThis paper presents the solution to the problem of determining the flow field and the fluctuating torque necessary to sustain the motion of a torsionally oscillating plate in a viscous conducting fluid subjected to a uniform axial field under the assumptions that the amplitude of the oscillation is small and that the magnetic Prandtl numberPrm(μσν) is small enough to justify the neglect of induced fields. The analysis reveals that the field decreases the flow velocities, but increases the magnitude of the fluctuating torque.

Journal

Applied Scientific Research, Section BSpringer Journals

Published: Feb 1, 1964

Keywords: Magnetic Field; Torque; Flow Field; Prandtl Number; Transverse Velocity

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