In this edition, most of the commonly occurring minerals of igneous, metamorphic and sedimentary rocks are discussed in terms of structure, chemistry, optical and other physical properties, distinguishing features and paragenesis. Important correlations between these aspects of mineralogy are emphasized wherever possible. The content of each section has been updated where needed in the light of published research over the 21 years between editions. Tables of over 200 chemical analyses and formulae are included and a number of older entries have been replaced by more recent examples. Major new features: Entirely new views of crystal structures in perspective using CrystalMaker colour images; Over 60 colour photographs of minerals in thin sections of rocks under the petrological microscope; Considerably expanded treatment of feldspar and zeolite minerals; Mineral identification table based on birefringence and listing other properties; Colour strip with appropriate interference colours and birefringences for the main rock-forming minerals. This book will be useful to undergraduate students of mineralogy, petrology and geochemistry, especially those at third or fourth year, engaged in more advanced courses or specialized projects, and also as a reference work for students for 'Masters' degrees by taught courses or research. For doctorate students, and research workers in the Earth Sciences as well as those in Materials Science and other related disciplines, this work can be useful as a condensed version of the very extensive treatment presented in the volumes of the DHZ Series 'Rock-Forming Minerals', second edition. Buyers through online retailers should contact the Mineralogical Society in order to receive the free CD which goes with the book ([email protected]).

Hydroxyapatite is the most widely accepted biomaterial for the repair and reconstruction of bone tissue defects. It has all the characteristic features of biomaterials, such as, biocompatible, bioactive, osteoconductive, non-toxic, non-inflammatory and non-immunogenic properties. In this book, the authors present current research in the study of the synthesis, properties and applications of hydroxyapatites. Topics discussed include nanodimensional and nanocrystalline hydroxyapatite and other calcium orthophosphates; application of biomimetic nanocrystalline apatites in drug delivery and tissue engineering; polymer matrix mediated synthesis of nano hydroxyapatite crystals; osteointegration of titanium porous implants with carbon nanocoating and hydroxyapatite particles into the pores; hydroxyapatite thin film prepared by sputtering technique for medical applications; and hydroxyapatite application in dentistry and maxillofacial surgery.

This book, from the series Primary Sources: Historical Books of the World (Asia and Far East Collection), represents an important historical artifact on Asian history and culture. Its contents come from the legions of academic literature and research on the subject produced over the last several hundred years. Covered within is a discussion drawn from many areas of study and research on the subject. From analyses of the varied geography that encompasses the Asian continent to significant time periods spanning centuries, the book was made in an effort to preserve the work of previous generations.

In this book, the authors gather and present topical research in the study of the occurrence, mineralogy and origin of granite. Topics discussed in this compilation include the occurrence of Th, U, Y, Zr and REE-bearing accessory minerals in granites and their petrogenetic significance; contrasting petrological attributes of granites in Nigeria; non-linear acoustic phenomena in granite; experimental methods of determining thermal properties of granite; and the mineralogy of the rare-earth element-bearing granites from Central India.

This book resulted from a series of frustrations. Analytical electron microscopy requires exactly what its name implies: quantitative information to conduct an analysis. The frustrations arose when I started hunting for specific forms of equations in a form understandable to a non-crystaHographer, for definitions of subtle concepts related to crystallography, for intelligible interpretations of space group symbols and their significance. What I frequently discovered was that such information was buried in a giant tome and couched in terms familiar to crystallographers but not to electron microscopists in general, or it was located in an old reference not available in my library, or it was found in an out-of-print book, or it was in a Russian book no longer available, etc. So to minimize the frustrations, I started a notebook containing the details, particularly after I had found forms of equations useful for quick calculations or equations in a form useful for proving, doing, or extending calculations found in a reference. The resulting notebook grew to a respectable size, requiring some organizing of the contents. Finally, the size became large enough, and has proven useful enough, to produce the notebook as a book.

Here is a state-of-the-art survey of artificial intelligence in modern exploration programs. Focussing on standard exploration procedures, the contributions examine the advantages and pitfalls of using these new techniques, and, in the process, provide new, more accurate and consistent methods for solving old problems. They show how expert systems can provide the integration of information that is essential in the petroleum industry when solving the complicated questions facing the modern petroleum geoscientist.

A method of treating a kaolin particulate material to improve its properties by removal of impurity particles thereform, to improve the brightness, and whiteness and other properties. Method of treating raw kaolin clay for preparing nanoparticles of kaolin clay to replace titanium dioxide in water based coatings, and for use as an adsorbent for the removal of toxic heavy metal ions such as lead, zinc, cadmium, cobalt, copper, and chromium ions from aqueous solutions. A method includes: (a) removing colored impurities by treating pulverized kaolin clay with diluted hydrochloric acid, (b) Producing a dispersed aqueous suspension of a kaolin particulate material containing at least 0.1 % by weight based on the dry weight of the kaolin deflocculated by sodium polyphosphate (c) Dispersed aqueous suspension may have a solids content kaolin particles of 20-30 % by weight and this suspension is subjected to evaporation to have a solids content of 70-75%, and (d) producing nanoparticles of kaolin clay by dispersing in water-ethanol mixture.

This work presents mathematical models for pressure and saturation distributions of oil and water flow through semi-infinite porous media. The mathematical models were developed from the popular Darcy's equation and the continuity equation. The mathematical model, which contains simultaneously saturation and pressure gradients, was decoupled to have a pure pressure and saturation differential equations. The Crank-Nicolson Finite Difference Method was used to provide solution to the partial differential equations. System of linear equations resulted from the discretized partial differential equations were solved for saturation and pressure distributions using the Modified Gaussian Elimination Method algorithm, which was implemented in Microsoft Excel Visual Basic for Application. The solution was tested using hypothetical oil/water well production data. The solution scheme and computer language adopted in this work are easy to apply and use as opposed to the sophisticated and expensive computer software used by most researchers in the area.

The Descriptive Handbook of Rock Forming Minerals is a simple reference book of all rock forming and accessory minerals. There are two listings for each mineral: 1. Physical properties, listing all physical properties and 2. Optical properties, listing all optical properties visible with a polarizing microscope. Where minerals are of a small size or microscopic in nature, only the optical properties are listed for that mineral

Elliot L. Richardson The United States is finally awakening to the fact that it has a major stake in the future of the Arctic. Recognition of the national importance of the Arctic has been slow in coming despite the resource wealth that Arctic Alaska has thus far yielded. Although the United States has had strategic interests in the Arctic since World War II and active oil and gas interests there since the discovery of oil at Prudhoe Bay in 1968, its interest in the Arctic has been low in comparison with that of its Arctic neighbors, Canada and the Soviet Union. What has been described by some as an attitude of neglect toward the Arctic is now changing. The notion of change has become central in most current discussions about the future of the Arctic. It is apparent that the Arctic region is entering a period of greatly accelerated economic, social, strategic, and is political change. The driving force behind the changes taking place resource development activity, and although the present scale of this activity is not inconsequential, it is small in comparison to its projected growth in the next two decades. In short, the Arctic is about to come alive. However, knowledge of the Arctic and experience in the Arctic is comparatively limited. Moreover, competing interests and differing val ues exist among national groups and between countries in the Arctic, just as they do in the lower latitudes."

This is a reproduction of a book published before 1923. This book may have occasional imperfections such as missing or blurred pages, poor pictures, errant marks, etc. that were either part of the original artifact, or were introduced by the scanning process. We believe this work is culturally important, and despite the imperfections, have elected to bring it back into print as part of our continuing commitment to the preservation of printed works worldwide. We appreciate your understanding of the imperfections in the preservation process, and hope you enjoy this valuable book. ++++ The below data was compiled from various identification fields in the bibliographic record of this title. This data is provided as an additional tool in helping to ensure edition identification: ++++ Naturgeschichte Der Vulcane Und Der Damit In Verbindung Stehenden Erscheinungen, Volume 1; Naturgeschichte Der Vulcane Und Der Damit In Verbindung Stehenden Erscheinungen; Georg Landgrebe Georg Landgrebe Perthes, 1855

Rare earth elements (REE) are essential for a diverse and expanding array of high-technology applications. REE-containing magnets, metal alloys for batteries and light-weight structures, and phosphors are essential for many current and emerging alternative energy technologies, such as electric vehicles, energy-efficient lighting and wind power. REE are also critical for a number of key defence systems and other advanced materials. This book provides a non-technical overview of domestic reserves and resources of REE and possibilities for utilising those resources. At the present time, the U.S. obtains its REE raw materials from foreign sources, almost exclusively from China.

Physical and optical properties of the economic minerals including commodity tables and explanation of terms

This book is a facsimile reprint and may contain imperfections such as marks, notations, marginalia and flawed pages.

The question of what is matter has fascinated the human race for thousands of years, and continues to fascinate us today: what is it made of, and how does it behave? Early in our history, the character of natural materials was of critical importance to us, and it is no accident that we date the prehistory of humanity by the materials with which our predecessors made their tools. Tools are one of the more enduring creations of our prehistoric ancestors, and are of particular historical significance as they document the increasing technological sophistication of the human race. From the Stone Age to the Bronze Age to the Iron Age, there was an increasing awareness of the diversity of natural materials, how they could be used, and eventually, how they could be processed in order to provide even more technologically effective materials for our use. This increasing reliance on rocks and minerals required that more and more people be conversant with these materials and their properties. The atomistic theory of the Greeks was a solely philosophical construct, and further development had to await a more sophisticated approach to Science. The first steps in this direction were taken by who else but Isaac Newton (1643-1727 AD). Although his ideas on action at a distance initially referred to planets, he also considered them as applying to atoms, and concluded from physical evidence involving surface tension and viscosity that there must be strong attractions between atoms. In what must be considered as insight of legendary proportions, Roger Joseph Boscovich (1711-1787), a Jesuit mathematician from Croatia, proposed that at very short distances, atoms repulse each other, the repulsion increasing indefinitely as the particles become closer together, whereas at longer distances apart, atoms oscillate between attraction and repulsion. Frank Hawthorne uses the republication of this set of landmark papers as a vehicle to focus on the development of key issues concerning structural connectivity in inorganic solids, of which minerals are a key component, and to look at where we are today in our understanding of crystal structure.