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This multifaceted study explores new directions for plate tectonic research, especially as a guide for future geodynamic modelling of the earth. In particular, it equips readers with a plate-tectonic toolbox (with derivations and ANSI-C code) for applications and reconstruction analysis, including new continuous calculation methods. Pilger's Geokinematics shows how to apply these tools to Late Mesozoic and Cenozoic kinematics, with a focus on hotspot reference frames, and for empirical analysis of continental stress histories, including fractured hydrocarbon reservoirs. Supported by solid arguments and data, the book integrates theoretical developments of expanded plate kinematic theory and an ensemble of critical observations into a grand model, with the new concept of mesoplates playing a key role.
The Global Geodetic Observing System (GGOS) has been established by the Int- national Association of Geodesy (IAG) in order to integrate the three fundamental areas of geodesy, so as to monitor geodetic parameters and their temporal varia- ?9 tions, in a global reference frame with a target relative accuracy of 10 or b- ter. These areas, often called ‘pillars’, deal with the determination and evolution of (a) the Earth’s geometry (topography, bathymetry, ice surface, sea level), (b) the Earth’s rotation and orientation (polar motion, rotation rate, nutation, etc. ), and (c) the Earth’s gravity eld (gravity, geoid). Therefore, Earth Observation on a global scale is at the heart of GGOS’s activities, which contributes to Global Change - search through the monitoring, as well as the modeling, of dynamic Earth processes such as, for example, mass and angular momentum exchanges, mass transport and ocean circulation, and changes in sea, land and ice surfaces. To achieve such an - bitious goal, GGOS relies on an integrated network of current and future terrestrial, airborne and satellite systems and technologies. These include: various positioning, navigation, remote sensing and dedicated gravity and altimetry satellite missions; global ground networks of VLBI, SLR, DORIS, GNSS and absolute and relative gravity stations; and airborne gravity, mapping and remote sensing systems.
This book explores all aspects of large igneous provinces as key processes in shaping our planet, for researchers, graduate students and mining industry professionals.
It was in September 1906 that the predecessor of the IAG, the 'Internationale Erdmessung', th organized the 15 General Assembly at the Hungarian Academy of Sciences in Budapest. It was 95 years later, in September 2001, that the IAG returned to this beautiful city to hold its Scientific Assembly, IAG 2001, in the historical premises of the Academy. The meeting took place from September 2-7, 2001 and continued the tradition of Scientific Assemblies, started in Tokyo (1982) and continued in Edinburgh (1989), Beijing (1993) and Rio de Janeiro (1997). Held every four years at the midpoint between General Assemblies of the IAG, they focus on giving an integrated view of geodesy to a broad spectrum of researchers and practitioners in geodesy and geophysics. The convenient location of the main building of the Hungarian Academy in downtown Budapest and the superb efforts of the Local Organizing Committee contributed in a major way to the excellent atmosphere of the meeting. As at previous meetings, the scientific part of the program was organized as a series of symposia which, as a whole, gave a broad overview of actual geodetic research activities. To emphasize an integrated view of geodesy, the symposia did not follow the pattern of the IAG Sections, but focussed on current research topics to which several IAG Sections could contribute. Each symposium had 5 sessions with presented papers and poster sessions on two consecutive days.
The past few decades have witnessed the growth of the Earth Sciences in the pursuit of knowledge and understanding of the planet that we live on. This development addresses the challenging endeavor to enrich human lives with the bounties of Nature as well as to preserve the planet for the generations to come. Solid Earth Geophysics aspires to define and quantify the internal structure and processes of the Earth in terms of the principles of physics and forms the intrinsic framework, which other allied disciplines utilize for more specific investigations. The first edition of the Encyclopedia of Solid Earth Geophysics was published in 1989 by Van Nostrand Reinhold publishing company. More than two decades later, this new volume, edited by Prof. Harsh K. Gupta, represents a thoroughly revised and expanded reference work. It brings together more than 200 articles covering established and new concepts of Geophysics across the various sub-disciplines such as Gravity, Geodesy, Geomagnetism, Seismology, Seismics, Deep Earth Processes, Plate Tectonics, Thermal Domains, Computational Methods, etc. in a systematic and consistent format and standard. It is an authoritative and current reference source with extraordinary width of scope. It draws its unique strength from the expert contributions of editors and authors across the globe. It is designed to serve as a valuable and cherished source of information for current and future generations of professionals.
Issues in Astronautics and Space Research / 2013 Edition is a ScholarlyEditions™ book that delivers timely, authoritative, and comprehensive information about Spacecraft and Rockets. The editors have built Issues in Astronautics and Space Research: 2013 Edition on the vast information databases of ScholarlyNews.™ You can expect the information about Spacecraft and Rockets in this book to be deeper than what you can access anywhere else, as well as consistently reliable, authoritative, informed, and relevant. The content of Issues in Astronautics and Space Research: 2013 Edition has been produced by the world’s leading scientists, engineers, analysts, research institutions, and companies. All of the content is from peer-reviewed sources, and all of it is written, assembled, and edited by the editors at ScholarlyEditions™ and available exclusively from us. You now have a source you can cite with authority, confidence, and credibility. More information is available at http://www.ScholarlyEditions.com/.
Geodetic reference frames are the basis for The programme of the Symposium was divided three-dimensional, time dependent positioning according to the Sub-commissions, Projects in all global, regional and national networks, in and Study Groups of Commission 1 into eight cadastre, engineering, precise navigation, geo- general themes: information systems, geodynamics, sea level studies, and other geosciences. They are 1. Combination of space techniques necessary to consistently estimate unknown 2. Global reference frames and Earth rotation parameters using geodetic observations, e. g. , 3. Regional reference frames station coordinates, Earth orientation and 4. Interaction of terrestrial and celestial frames rotation parameters. Commission 1 “Reference 5. Vertical reference frames Frames” of the International Association of 6. Ionosphere modelling and analysis Geodesy (IAG) was established within the new 7. Satellite altimetry structure of IAG in 2003 with the mission to 8. Use of GNSS for reference frames study the fundamental scientific problems for the establishment of reference frames. One day of the Symposium was dedicated to a The principal objective of the scientific work joint meeting with the International Congress of the Commission is basic research on: of Federación Internationale des Géomètres - Definition, establishment, maintenance, and (FIG) and the INTERGEO congress of the improvement of geodetic reference frames. German Association of Surveying, Geo- - Advanced development of terrestrial and information and Land Management. The space observation techniques for this contributions presented at this meeting are purpose. integrated into these proceedings.
One of this book’s main themes is how God’s ‘Book of Nature’ is concordant with His ‘Book of Scripture’. In their writings, many of the pioneers of the Scientific Revolution often referred to God’s two ‘Books’. These brilliant naturalists were also devout Christians. But that was back then. Is modern science actually compatible with Scripture? More to the point, are the findings of 21st-century science concordant with the Genesis creation story? What else does the text of Genesis 1-2 have to say? While making an honest effort to answer those questions, some vitally-important theological concepts (which were introduced by Moses in the first two chapters of Genesis) are also examined and discussed in this volume. This comprehensive study (on how modern science is concordant with the intended meaning of the text of Genesis 1-2) has many useful features, including the following: Much of the first two parts of the book consists of background material on: (1) logic, (2) history and philosophy of science, and (3) ‘scientific method’, as well as (4) basic geological principles, (5) descriptions of Plate Tectonic theory, and (6) the principles and methods of radiometric dating. This background material is designed to help the reader to understand the implications of the empirical evidence presented in Part Two: God’s Book of Nature. Similarly, there is also extensive material on: (1) Biblical interpretation and hermeneutics, (2) textual criticism, (3) the history of ancient Israel, (4) development of the Hebrew language, and (5) some of the basic elements of Biblical Hebrew. This material is given prior to looking at the literary structure and genre of the Genesis 1-2 text, and then conducting thorough and complete exegetical analyses of the various textual units of Genesis 1-2 in Part Four: God’s Book of Scripture. Prior to the exegetical analyses for each of the textual units of Genesis 1-2, (1) the Biblical Hebrew text, (2) a standard English translation, and (3) an Interlinear version of the text of that unit are provided. The Interlinear version consists of (a) the Hebrew text, with (b) SBL transliterations and (c) English glosses below each one of the Hebrew words. Color coding and other types of annotations/highlighting are used throughout Part Four: God’s Book of Scripture, in order to help the reader identify important Biblical Hebrew elements, including recurring phrases, important BH words, and key BHVS verb forms. There are more than 2000 detailed footnotes. Many of these footnotes also cross-reference other topics in the book to make it easier for the reader to refer back to a discussion of some important theme or concept. Excerpts from the entries of reputable Hebrew and Greek lexicons (for words written in the original languages of the Biblical text) are also footnoted. An Appendix is included with a Key to Transliteration and Pronunciation for Biblical Hebrew graphemes; it also has a short section on Biblical Hebrew Accent Markings. Numerous detailed, colored figures are sprinkled throughout the text. In many of these figures, the artwork itself is worth the inexpensive price of the digital edition of this book. Part Six: The Good News is worth reading as a stand-alone exposition of God’s Grace, but it also helps put the rest of the book in context. Although the most common (and logical) way to read A Fresh Look at Genesis 1-2 is from start to finish, this 1100-page book was also intended to be used as a reference work. Footnotes direct the reader back to pertinent material in preceding chapters that might not have been read already (or that readers might want to revisit, in order to refresh their memory on some topic). More information is available at https://a-fresh-look-at-genesis.org