In Russian Colonization of Alaska, Andrei Val'terovich Grinëv examines the sociohistorical origins of the former Russian colonies in Alaska, or "Russian America," between 1741 and 1799. Beginning with the Second Kamchatka Expedition of Vitus Ivanovich Bering and Aleksei Ilyich Chirikov's discovery of Alaska and the Aleutian Islands and ending with the formation of the Russian-American Company's monopoly of the Russian colonial endeavor in the Americas, Russian Colonization of Alaska offers a definitive, revisionist examination of Tsarist Russia's foray into the imperial contest in North America. Russian Colonization of Alaska is the first comprehensive study to analyze the origin and evolution of Russian colonization based on research into political economy, history, and ethnography. Grinёv's study elaborates the social, political, spiritual, ideological, personal, and psychological aspects of Russian America. He also accounts for the idiosyncrasies of the natural environment, competition from other North American empires, Alaska Natives, and individual colonial diplomats. The colonization of Alaska, rather than being simply a continuation of the colonization of Siberia by Russians, was instead part of overarching Russian and global history.
This is the first book which describes completely the nontraditional difference schemes which combine the ideas of Padé-type approximation and upwind differencing. These possess some favorable properties and can be used to solve various problems in fluid dynamics and related disciplines. They were proposed by the author in the seventies and are extensively used in Russia. However, they seem to be relatively unknown outside the country. In this book, the author presents the theory of the schemes, to provide some sophisticated algorithms for different computational fluid dynamics problems, to supply readers with useful information which would permit them to construct a rich variety of algorithms of this type and to illustrate the applications of these methods to the numerical simulation of various fluid dynamics phenomena, ranging from supersonic viscous flows to some atmosphere and ocean processes. This book is an essential guide for anyone keenly interested in this field.
This book is devoted to the problem of the frequency dispersion of optical constants of inorganic glasses. It is the only source providing a comprehensive discussion of this topic on a unified physical and analytical basis. Optical Constants of Inorganic Glasses presents thorough descriptions of the underlying physical phenomena, analytical models for the optical constants dispersion, and detailed information on the optical constants and related optical characteristics of glasses. The broad scope of the book includes such topics as general relationships for the response of a solid to the effect of an electromagnetic field, and specific features of optical spectrum formation for a glass and the resulting constants. The text details methods for reconstructing the spectra of optical constants from raw experimental spectra of glasses, and provides data on the spectra of optical constants in the IR and VUV ranges and on the IR band parameters for inorganic glasses. It includes factors responsible for the behavior of the refractive index dispersion of glasses in the transparency range. The reference fully details the opportunities provided by the recent version of dispersion analysis for glasses based on the specific analytical model for the complex dielectric constant. Until now, this information was only available in Russian journals. A large quantity of never-before-published data on numerical values of optical constants in the medium and far IR and of IR band frequencies and intensities is given for a wide variety of inorganic glasses. For vitreous silica, data on the optical constants are also given for the broad wavelength range in the VUV. Optical Constants of Inorganic Glasses provides the only comprehensive review of available dispersion formulas and methods for interpolating and extrapolating the refractive indices of glasses in the transparency range. The volume is a valuable resource for researchers, practitioners in the fields of glass technology
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