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A Physical Introduction to Fluid Mechanics
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Fluid Statics and Fluid Motion I. Introduction to Fluid motion II. Equations of Motion in Integral Form. Dimensional Analysis as mentioned in this paper and differential equations of motion.Abstract:
Fluid Statics. Introduction to Fluid Motion I. Introduction to Fluid Motion II. Equations of Motion in Integral Form. Differential Equations of Motion. Incompressible, Irrotational Flows. Dimensional Analysis. Viscous Internal Flows. Viscous External Flows. Open Channel Flow. Compressible Flow. Turbomachines. Environmental Fluid Mechanics. Historical Notes. Appendices. Answers to Selected Problems. Index.read more
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Rock Fractures in Geological Processes
TL;DR: In this article, the authors combine results from fracture mechanics, materials science, rock mechanics, structural geology, hydrogeology, and fluid mechanics to explore and explain fracture processes and fluid transport in the crust.
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Chemical Reactor Modeling: Multiphase Reactive Flows
TL;DR: The second edition consists of two volumes: Volume 1: Fundamentals and Chemical Engineering Applications as discussed by the authors and Volume 2: Chemical Reactor Modeling Applications: A survey of the frequently used numerical methods, algorithms and schemes is provided.
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Scaling and Optimization of Gravure-Printed Silver Nanoparticle Lines for Printed Electronics
TL;DR: In this article, the authors present a systematic study on the scaling and optimization of conductive lines for printed electronics, especially with high viscosity nanoparticle inks, which are potentially suitable for use in thin-film transistor (TFT) based circuits as well as passive components.
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Fast-swimming hydromedusae exploit velar kinematics to form an optimal vortex wake.
TL;DR: This paper presents high-speed video and dye-flow visualizations of free-swimming Nemopsis bachei hydromedusae to indicate that the time-dependent velar kinematics observed during the swimming cycle primarily serve to optimize vortices formed by the ejected water rather than to affect the speed of the ejected flow.