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"Be more than what you are taught to be."
This wide-ranging, geographically ambitious book tells the story of the Arab diaspora within the context of British and Dutch colonialism, unpacking the community's ambiguous embrace of European colonial authority in Southeast Asia. In Fluid Jurisdictions, Nurfadzilah Yahaya looks at colonial legal infrastructure and discusses how it impacted, and was impacted by, Islam and ethnicity. But more important, she follows the actors who used this framework to advance their particular interests. Yahaya explains why Arab minorities in the region helped to fuel the entrenchment of European colonial legalities: their itinerant lives made institutional records necessary. Securely stored in centralized repositories, such records could be presented as evidence in legal disputes. To ensure accountability down the line, Arab merchants valued notarial attestation land deeds, inheritance papers, and marriage certificates by recognized state officials. Colonial subjects continually played one jurisdiction against another, sometimes preferring that colonial legal authorities administer Islamic law—even against fellow Muslims. Fluid Jurisdictions draws on lively material from multiple international archives to demonstrate the interplay between colonial projections of order and their realities, Arab navigation of legally plural systems in Southeast Asia and beyond, and the fraught and deeply human struggles that played out between family, religious, contract, and commercial legal orders.
This volume contains notes for 21 of the 22 major 16-mm sound films prepared under the direction of the NCFMF and covering nearly all of the fundamental phenomena of fluid motions.
Structured introduction covers everything the engineer needs to know: nature of fluids, hydrostatics, differential and integral relations, dimensional analysis, viscous flows, more. Solutions to selected problems. 760 illustrations. 1985 edition.
Geared toward advanced undergraduate and graduate students in applied mathematics, engineering, and the physical sciences, this introductory text covers kinematics, momentum principle, Newtonian fluid, compressibility, and other subjects. 1971 edition.
"Why Study Fluid Mechanics? 1.1 Getting Motivated Flows are beautiful and complex. A swollen creek tumbles over rocks and through crevasses, swirling and foaming. A child plays with sticky tafy, stretching and reshaping the candy as she pulls it and twist it in various ways. Both the water and the tafy are fluids, and their motions are governed by the laws of nature. Our goal is to introduce the reader to the analysis of flows using the laws of physics and the language of mathematics. On mastering this material, the reader becomes able to harness flow to practical ends or to create beauty through fluid design. In this text we delve deeply into the mathematical analysis of flows, but before beginning, it is reasonable to ask if it is necessary to make this significant mathematical effort. After all, we can appreciate a flowing stream without understanding why it behaves as it does. We can also operate machines that rely on fluid behavior - drive a car for exam- 15 behavior? mathematical analysis. ple - without understanding the fluid dynamics of the engine, and we can even repair and maintain engines, piping networks, and other complex systems without having studied the mathematics of flow What is the purpose, then, of learning to mathematically describe fluid The answer to this question is quite practical: knowing the patterns fluids form and why they are formed, and knowing the stresses fluids generate and why they are generated is essential to designing and optimizing modern systems and devices. While the ancients designed wells and irrigation systems without calculations, we can avoid the wastefulness and tediousness of the trial-and-error process by using mathematical models"--
Fluid Russia offers a new framework for understanding Russian national identity by focusing on the impact of globalization on its formation, something which has been largely overlooked. This approach sheds new light on the Russian case, revealing a dynamic Russian identity that is developing along the lines of other countries exposed to globalization. Vera Michlin-Shapir shows how along with the freedoms afforded when Russia joined the globalizing world in the 1990s came globalization's disruptions. Michlin-Shapir describes Putin's rise to power and his project to reaffirm a stronger identity not as a uniquely Russian diversion from liberal democracy, but as part of a broader phenomenon of challenges to globalization. She underlines the limits of Putin's regime to shape Russian politics and society, which is still very much impacted by global trends. As well, Michlin-Shapir questions a prevalent approach in Russia studies that views Russia's experience with national identity as abnormal or defective, either being too week or too aggressive. What is offered is a novel explanation for the so-called Russian identity crisis. As the liberal postwar order faces growing challenges, Russia's experience can be an instructive example of how these processes unfold. This study ties Russia's authoritarian politics and nationalist rallying to the shortcomings of globalization and neoliberal economics, potentially making Russia "patient zero" of the anti-globalist populist wave and rise of neo-authoritarian regimes. In this way, Fluid Russia contributes to the broader understanding of national identity in the current age and the complexities of identity formation in the global world.
This book discusses the fundamental principles and equations governing the motion of incompressible Newtonian fluids, and simultaneously introduces numerical methods for solving a broad range of problems. Appendices provide a wealth of information that establishes the necessary mathematical and computational framework.