Slow Rotation of Two Touching Spheres in Viscous Fluid
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概要
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The Stokes flow for the case in which two solid spheres in contact are steadily rotating with different angular velocities about their line of centers is studied. In particular, it is shown that the couple experienced by a sphere in contact with a fixed infinite plane perpendicular to the axis of rotation is increased by a factor Σ^^∞__<n=1>1/n^3=1.202… as compared with its value in the absence of the plane. It is also found that, for the case of two equal spheres, one of which is kept rotating with angular velocity ω while the other is left free, the latter will rotate with angular velocity ω/7.
- 社団法人日本物理学会の論文
- 1974-03-15
著者
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Takagi Hideaki
Department Of Physics Faculty Of Science The University Of Tokyo
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Takagi Hideaki
Department Of Physics Faculty Of Science University Of Tokyo
関連論文
- Slow Motion of a Spherical Cap in a Viscous Fluid. : II. Free Suspension in a Shear Field
- The Stokes Flow past an Impulsively Started Circular Cylinder
- Slow Motion of a Spherical Cap in a Viscous Fluid. : I. Uniform Translation and Rotation
- On the Slow Motion of a Sphere in a Viscous Fluid
- Slow Viscous Flow Due to the Motion of a Closed Torus
- Slow Rotation of Two Touching Spheres in Viscous Fluid