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Hydrodynamics of Interfaces: Thin Films, Waves, and Ripples

Gennes, Pierre-Gilles / Brochard-Wyart, Françoise / Quéré, David

Abstract The dynamical properties of objects in motion are described by Newton’s law, which states that the sum of all forces applied to an object is equal to its mass times its acceleration. The first difficulty one runs into when dealing with liquids is that different elements of volume making up the liquid can move independently of one another. This forces us it to work with small elements of volume, rather than with a rigid body moving as a whole.

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Hydrodynamics of Interfaces: Thin Films, Waves, and Ripples

Gennes, Pierre-Gilles / Brochard-Wyart, Françoise / Quéré, David

Abstract The dynamical properties of objects in motion are described by Newton’s law, which states that the sum of all forces applied to an object is equal to its mass times its acceleration. The first difficulty one runs into when dealing with liquids is that different elements of volume making up the liquid can move independently of one another. This forces us it to work with small elements of volume, rather than with a rigid body moving as a whole.

Hydrodynamics of Interfaces: Thin Films, Waves, and Ripples

Gennes, Pierre-Gilles / Brochard-Wyart, Françoise / Quéré, David

Abstract The dynamical properties of objects in motion are described by Newton’s law, which states that the sum of all forces applied to an object is equal to its mass times its acceleration. The first difficulty one runs into when dealing with liquids is that different elements of volume making up the liquid can move independently of one another. This forces us it to work with small elements of volume, rather than with a rigid body moving as a whole.

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Title:

Hydrodynamics of Interfaces: Thin Films, Waves, and Ripples

Contributors:

Gennes, Pierre-Gilles (author) / Brochard-Wyart, Françoise (author) / Quéré, David (author)

Published in:

Capillarity and Wetting Phenomena ; 107-138

Publication date:

2004-01-01

Size:

32 pages

ISBN:

978-1-4419-1833-8 , 978-0-387-21656-0

DOI:

https://doi.org/10.1007/978-0-387-21656-0_5

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Liquid Film , Capillary Number , Viscous Friction , Capillary Wave , Thin Liquid Film Physics , Classical Continuum Physics , Engineering Fluid Dynamics , Physical Chemistry , Surfaces and Interfaces, Thin Films

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