Titlebook: Complex Fluids in Biological Systems; Experiment, Theory, Saverio E. Spagnolie Book 2015 Springer Science+Business Media New York 2015 Act

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https://doi.org/10.37307/b.978-3-503-20937-8ecules capable of converting fuel into mechanical work and microstructural stresses. Such systems, which have excited much research in the last decade, exhibit complex dynamical behaviors such as large-scale correlated motions and pattern formation due to hydrodynamic interactions. In this chapter,

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Sinngemäße Anwendung der Verordnungid mechanics, particularly in the case of fluids with large elastic forces that interact with immersed elastic structures. We discuss some of the characteristics of strongly elastic flows and introduce different models and methods designed for these types of flows. We describe contributions from ana

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Complex Fluids and Soft Structures in the Human Bodyy share both liquid-like and solid-like properties. The material world between liquids and solids is unlimited and exploited by Nature to form complex fluids and soft structures with properties that are tuned to perform highly specialized functions. This chapter will briefly summarize the diversity

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Theoretical Microrheologyrown in the early nineteenth century. Indeed, passive microrheology and Brownian motion are one and the same. Brown’s observation of microscopic pollen grains dancing about in water was initially thought to reveal some sort of “fundamental life force.” However, upon further investigation, it turned

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Membrane Rheologyethora of complex broken symmetry phases, each with its own rheological signature, while bilayers are of fundamental biological importance in forming the cell membrane and the principal internal partitions of the cell. Understanding the low-energy excitations and mechanical response of these materia