| Capillarity and Wetting Phenomena: Drops, Bubbles, Pearls, Waves 2004 Edition Contributor(s): de Gennes, Pierre-Gilles (Author), Brochard-Wyart, Francoise (Author), Quere, David (Author) |
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ISBN: 0387005927 ISBN-13: 9780387005928 Publisher: Springer OUR PRICE: $94.99 Product Type: Hardcover - Other Formats Published: September 2003 Annotation: The study of capillarity is in the midst of a veritable explosion. Hence the temptation to write a new book, aiming at an audience of students. What is offered here is not a comprehensive review of the latest research but rather a compendium of principles. How does one turn a hydrophilic surface into one that is hydrophobic, and vice versa? We will describe a few solutions. Some rely on chemical treatments, such as coating a surface with a molecular layer. Others are based on physics, for instance by controlling the roughness of a surface. We will also examine the dynamics of wetting. Drops that spread spontaneously do so at a rate that slows down with time. They can be tricked into covering large areas by spreading them suddenly. We will describe a few of the many facets of their dynamical properties. Special additives are required for water to foam. Foams are desirable in a shampoo but can be a nightmare in a dishwasher detergent. Antifoam agents have been developed and are well known, but how do they work? It is also possible to generate bubbles and foams without special additives, for example in pure and viscous liquids such as glycerin, molten glass, and polymers. As we will see, the laws of draining and bursting then turn out to be quite different from the conventional ones. This book will enable the reader to understand in simple terms such questions that affect every day life -- questions that also come up during in industry. The aim is to view systems that often prove quite complex in a way that isolates a particular physical phenomenon, often avoiding descriptions requiring advanced numerical techniques will oftentimes in favor of qualitative arguments. This strategy may attimes jeopardize scientific rigor, but it makes it possible to grasp things efficiently and to invent novel situations. |
| Additional Information |
| BISAC Categories: - Science | Chemistry - Physical & Theoretical - Science | Physics - General - Science | Mechanics - Fluids |
| Dewey: 541.33 |
| LCCN: 2003042431 |
| Physical Information: 0.97" H x 6.5" W x 9.44" (1.31 lbs) 292 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: As I glance out my window in the early morning, I can see beads of droplets gracing a spider web. The film of dew that has settled on the threads is unstable and breaks up spontaneously into droplets. This phenomenon has implications for the treatment of textile fibers (the process known as "oiling"), glass, and carbon. It is no less important when applying mascara I take my morning shower. The moment I step out, I dry off by way of evaporation (which makes me feel cold) and by dewetting (the process by which dry areas form spontaneously and expand on my skin). As I rush into my car under a pelting rain, my attention is caught by small drops stuck on my windshield. I also notice larger drops rolling down and others larger still that, like snails, leave behind them a trail of water. I ask myself what the difference is between these rolling drops and grains of sand tumbling down an incline. I wonder why the smallest drops remain stuck. The answers to such questions do help car manufacturers treat the surface of glass and adjust the tilt of windshields. |
