The idea for a series of volumes dealing with the 'Landmark Papers' defining the development of different areas of our science was discussed at a meeting of the council of the Mineralogical Society of Great Britain & Ireland in 2002. Council approved the idea by reasoning "which of us would not be interested in a collection of papers illustrating the development of a branch of mineralogy?" This, the third collection of such papers has been selected by Bernard Evans of the University of Washington. Much of Earth's crust and arguably parts of its mantle are composed of rock that has undergone partial to complete textural and mineralogical reconstitution as a result of changes in conditions imposed on it. Metamorphic rocks carry a record of surface, shallow and deep geological events and processes going back to 4 Ga. Early in the last century, the descriptive science of metamorphic petrography began a gradual evolution into metamorphic petrology and petrogenesis much as we know it today. Researchers came to depend more and more on related sciences, such as thermodynamics, materials science, mineralogy, tectonophysics, and isotope geochemistry, to provide a fuller understanding of the facts coming from the field and the laboratory. Fundamental principles and procedures from these borrowed sciences helped keep metamorphic petrology moving and contributed to its endless fascination. The purpose of this Landmark series is to let students read for themselves in the original how some of the giants of the field set down their ideas. Their papers convey something that is not necessarily obvious in the summaries found in our textbooks, namely a feeling and respect for the environment of intellectual discourse in which the early thinkers worked. Many things that we consider self-evident today were not at that time part of the general scientific understanding, yet they wrote with admirable clarity and logic and made the best of what information was available.

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

This 5th edition of the Zeolite Powder Pattern Collection contains calculated patterns of 218 zeolite materials representing 174 framework topologies. The almost exponential growth of new zeolite topologies reflects the continued success of zeolite synthesis researchers in producing novel materials. Collection of Simulated XRD Powder Patterns for Zeolites includes materials of interest to zeolite scientists following the policies established at recent IZA conferences. The materials included have corner-sharing tetrahedral frameworks with no restrictions on chemical composition.
* Covers an increase of 41 new topologies since the 4th edition in 2001
* Data collected from diverse literature sources
* Represents an extensive compilation of data

Calculations of reservoir performance for petroleum reservoirs require accurate knowledge of the volumetric behavior of hydrocarbon mixtures, both liquid and gaseous. Coefficient of Isothermal oil compressibility is a measure of the fractional change in volume with respect to pressure at constant temperature. Coefficients of isothermal oil compressibility are usually obtained from reservoir fluid analysis. Reservoir fluid analysis is an expensive and time consuming operation that is not always available when the volumetric properties of reservoir fluids are needed. For this reason correlations have been developed and are being developed for predicting fluid properties including the coefficient of isothermal oil compressibility. This project developed a mathematical model for predicting the coefficient of isothermal oil compressibility based on Peng-Robinson Equation of State (PR EOS). A computer program was developed to predict the coefficient of isothermal compressibility using the developed model. The predicted coefficient of isothermal oil compressibility closely matches the experimentally derived coefficient of isothermal compressibility at pressures above and below the bubble point pressure.

Morgan discusses the origin of the emerald, its peculiar structure, and its strange allure. The story weaves across several continents and thousands of years. It is a tale of conquistadors, treachery, shipwrecks, and alchemy. Along the way, we meet scientists and kings and bear witness as the great emeralds are born, mined, smuggled, cut, and sold. The book also discusses the modern art of making synthetic emeralds. From the fastnesses of Afghanistan to the steamy jungles of Colombia and Zimbabwe, from the sands of Egypt to the bitter Urals, this is the story of a stone whose strange journey reflects the yearnings, greed, passions, and longing for beauty of the human race.

An introduction to ionic compounds for both mineralogists and chemists

Mineralogy and chemistry find their paths intertwined in many ways. Minerals afford chemists interesting examples of simple and complex structures, as well as practical applications of bonding, symmetry, and thermodynamics. Concurrently, the relevant chemistry enriches the mineralogist's view with a grasp of such aspects as structure, stability, and reactivity. This introduction to ionic compounds bridges the two disciplines by explaining the concepts that are used by the chemist and mineralogist in their attempts to unravel the mysteries of nature.

The lively style uses questions and answers throughout as a means to both engage the reader and enhance their understanding of the material. "Ionic Compounds: Applications of Chemistry to Mineralogy" conveys the fundamental principles of the structure and bonding in minerals and emphasizes the relationship of structure at the atomic level to the symmetry and properties of crystals. The book covers: Bonding and composition Structure of ionic compounds, including close-packing The symmetry of crystals Factors that affect the symmetry of the unit cell Morphology and color Chemical properties

Requiring no knowledge of either chemistry or mineralogy beyond the typical secondary school level, "Ionic Compounds" is an accessible and highly useful reference for both professional scientist, student, and the serious mineral collector who can benefit from a deeper understanding of the chemical and crystallographic properties of minerals.

Kessinger Publishing is the place to find hundreds of thousands of rare and hard-to-find books with something of interest for everyone!

This book describes the structure-property-composition relationships for silicate glasses and melts of industrial and geological interest. From Antiquity to the 20th century, an introductory chapter presents this subject in a historical perspective. Basic concepts are then discussed in three chapters where attention is paid to the glass transition and its various consequences on melt and glass properties, to the structural and physical differences between amorphous and crystalline silicates, and to the mutual relationships between local order, energetics and physical properties.

With pure SiO2 as a starting point, compositions of increasing chemical complexity are successively dealt with in a dozen chapters. The effects of network-modifying cations on structure and properties are first exemplified by alkali and alkaline earth elements. The specific influence of aluminum, iron, titanium, and phosphorus are then reviewed. With water, volatiles in the system COHS, noble gases, and halogens, the effects of volatile components are also described. The last chapter explains how the results obtained on simpler melts can be applied to chemically complex systems. In each chapter, physical and chemical properties are described first and followed by a review of glass and melt structure. When possible, pressure effects are also considered.
*From SiO2 to complex silicate compositions, the physical and chemical properties of melts and glasses of geological and industrial interest
*Structural characterization of melts and glasses, from ambient to high pressure and temperature
*From basic concepts to an advanced level, a consistent description of the structure-property-composition relationships in glasses and melts

A reference book of mineral names, their formula and crystal system.

Crystals are sometimes called 'Flowers of the Mineral Kingdom'. In addition to their great beauty, crystals and other textured materials are enormously useful in electronics, optics, acoustics and many other engineering applications. This richly illustrated text describes the underlying
principles of crystal physics and chemistry, covering a wide range of topics and illustrating numerous applications in many fields of engineering using the most important materials today. Tensors, matrices, symmetry and structure-property relationships form the main subjects of the book. While
tensors and matrices provide the mathematical framework for understanding anisotropy, on which the physical and chemical properties of crystals and textured materials often depend, atomistic arguments are also needed to quantify the property coefficients in various directions. The atomistic
arguments are partly based on symmetry and partly on the basic physics and chemistry of materials. After introducing the point groups appropriate for single crystals, textured materials and ordered magnetic structures, the directional properties of many different materials are described: linear and
nonlinear elasticity, piezoelectricity and electrostriction, magnetic phenomena, diffusion and other transport properties, and both primary and secondary ferroic behavior. With crystal optics (its roots in classical mineralogy) having become an important component of the information age, nonlinear
optics is described along with the piexo-optics, magneto-optics, and analogous linear and nonlinear acoustic wave phenomena. Enantiomorphism, optical activity, and chemical anisotropy are discussed in the final chapters of thebook.

THE LANGUAGE OF GEOLOGY AND MINERALOGY AT YOUR FINGERTIPS

Derived from the world-renowned McGraw-Hill Dictionary of Scientific and Technical Terms, Sixth Edition, this vital reference offers a wealth of essential information in a portable, convenient, quick-find format. Whether you’re a professional, a student, a writer, or a general reader with an interest in science, there is no better or more authoritative way to stay up-to-speed with the current language of geology and mineralogy or gain an understanding of its key ideas and concepts.

Written in clear, simple language understandable to the general reader, yet in-depth enough for scientists, educators, and advanced students, The McGraw-Hill Dictionary of Geology & Mineralogy, Second Edition:

* Has been extensively revised, with 9,000 entries encompassing the language of geology and mineralogy

* Includes synonyms, acronyms, and abbreviations

* Provides pronunciations for all terms

* Covers such topics as physical geology, historical geology, mineralogy, marine geology, plate tectonics, petrology, sedimentology, and stratigraphy

* Includes an appendix containing tables of useful data and information

* Is based on the McGraw-Hill Dictionary of Scientific and Technical Terms – for more than a quarter-of-a-century THE standard international reference

Carefully reviewed for clarity, completeness, and accuracy, the McGraw-Hill Dictionary of Geology & Mineralogy, Second Edition, offers a standard of excellence unmatched by any similar publication.

Zeolite synthesis is an active field of research. As long as this continues, new phases will be discovered and new techniques for preparing existing phases will appear. This edition of "Verified Synthesis of Zeolitic Materials" contains all the recipes from the first edition plus 24 new recipes. Five new introductory articles have been included plus those from the first edition, some of which have been substantially revised. The XRD patterns have been recorded using different instrument settings from those in the first edition and are intended to conform to typical X-ray diffraction practice. In most cases, only the XRD pattern for the productas synthesised is printed here. The exceptions are those phases which show marked changes in the XRD pattern upon calcination.

The scientific community has argued for decades over the origin of giant craters on the earth. In a highly readable fashion, Kathleen Mark recounts the fascinating detective story of how scientists came to recognize metorite craters, both ancient and relatively recent.

Evaluates the risks to human health and the environment posed by the mining, refining, industrial use, and recycling of platinum and selected platinum compounds. Because of its exceptional catalytic properties, resistance to chemical corrosion, and high mechanical strength, platinum is widely used in the chemical and petroleum industries, most notably in the production of catalysts, including devices for reducing hazardous gas emissions. The growing use of catalytic converters to reduce pollution from automobile exhausts has caused a sharp increase in the world demand for this metal. Compounds such as cisplatin also have important therapeutic applications.

Mount Etna in Sicily is one of a small number of active volcanoes in the Mediterranean area, where written history survives from more than two millennia: its eruptions are therefore among the best documented in the world. This account of the eruption of 1819 was written by the chemist and vulcanologist Carmelo Maravigna, a professor at the University of Catania, who was commissioned by his colleagues to make scientific observations of the phenomena and to publish them in a clear and methodical format. Maravigna's book opens with the diary of his own observations from 27 May to 5 August 1819; it then describes the physical consequences of the eruption, including the spread and depth of lava flows, and discusses various theories of volcanic activity. The sixth chapter analyses the mineral deposits in the lava, and the last describes the volcano returned to its dormant state.

This famous book takes you on an extensive gem and mineral collecting tour of Colorado, revealing the interesting places where Nature has stored her treasures.
Detailed directions are given for reaching the noted as well as the little-known localities in all sections of this great mineral-producing state. Included are numerous mileage logs never before published, and many sketch maps made especially for this book. A unique system arranges the localities along segments of the main highways.
Latest information is given on local travel and collecting conditions and land ownership, so much desired by collectors who want to make the best use of their time. Gem and mineral societies that welcome visitors -- museums that display outstanding collections -- are all described. Official maps and references to the literature are listed.

This book is the direct result of the desire expressed by Canadians in many walks ofl ife to know "more about mining." It takes the interested layman on a short trip through the complex mining industry.

Carbon is one of the most important elements of our planet, and ninety percent of it resides inside Earth's interior. This book summarizes ten years of research by scientists involved in the Deep Carbon Observatory, a global community of 1200 scientists. It is a comprehensive guide to carbon inside Earth, including its quantities, movements, forms, origins, changes over time, and impact on planetary processes. Leading experts from a variety of fields, including geoscience, biology, chemistry, and physics, provide exciting new insights into the interconnected nature of the global carbon cycle, and explain why it matters to the past, present, and future of our planet. With end-of-chapter problems, illustrative infographics, full-color images, and access to online models and datasets, it is a valuable reference for graduate students, researchers, and professional scientists interested in carbon cycling and Earth system science. This title is also available as Open Access on Cambridge Core.