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Introduction to Applied Geophysics covers the fundamental methods of exploration geophysics in a depth and style both challenging and appropriate to undergraduates. Because of the increasing opportunities for students to conduct field experiments, the authors focus on methods, examples, illustrations, applications, and problem sets that emphasize shallow exploration of the Earth's surface. The textbook includes chapters on refraction seismology, electrical resistivity methods, gravity, magnetic surveying, and electromagnetic methods, including ground conductivity measurements and ground-penetrating radar. Geologic, engineering, and environmental applications are emphasized throughout. For each geophysical method, the theory and its application in exploring a given target in introduced. Each chapter includes a brief discussion of the applicable instruments, field operations, data collection and reduction, and limitations on interpretation. The textbook is supported by an extensive package of software. This edition from Cambridge University Press is a re-issue of the W.W. Norton edition, first published in 2006.
Introduction to Applied Geophysics covers the fundamental methods of exploration geophysics in a depth and style both challenging and appropriate to undergraduates. Because of the increasing opportunities for students to conduct field experiments, the authors focus on methods, examples, illustrations, applications, and problem sets that emphasize shallow exploration of the Earth's surface. The textbook includes chapters on refraction seismology, electrical resistivity methods, gravity, magnetic surveying, and electromagnetic methods, including ground conductivity measurements and ground-penetrating radar. Geologic, engineering, and environmental applications are emphasized throughout. For each geophysical method, the theory and its application in exploring a given target in introduced. Each chapter includes a brief discussion of the applicable instruments, field operations, data collection and reduction, and limitations on interpretation. The textbook is supported by an extensive package of software. This edition from Cambridge University Press is a re-issue of the W.W. Norton edition, first published in 2006.
This book was first published in 2006. Palaeontology has developed from a descriptive science to an analytical science used to interpret relationships between earth and life history. Applied Palaeontology adopts a holistic, integrated approach to palaeontology, highlighting its key role in the study of the evolving earth, life history and environmental processes. After an introduction to fossils and their classification, each of the principal fossil groups are studied in detail, covering their biology, morphology, classification, palaeobiology and biostratigraphy. The latter sections focus on the applications of fossils in the interpretation of earth and life processes and environments. It concludes with case histories of how our knowledge of fossils is applied, in industry and elsewhere. This is a valuable reference for anyone involved in the applications of palaeontology, including earth, life and environmental scientists, and petroleum, minerals, mining and engineering professionals.
This book was first published in 2006. Palaeontology has developed from a descriptive science to an analytical science used to interpret relationships between earth and life history. Applied Palaeontology adopts a holistic, integrated approach to palaeontology, highlighting its key role in the study of the evolving earth, life history and environmental processes. After an introduction to fossils and their classification, each of the principal fossil groups are studied in detail, covering their biology, morphology, classification, palaeobiology and biostratigraphy. The latter sections focus on the applications of fossils in the interpretation of earth and life processes and environments. It concludes with case histories of how our knowledge of fossils is applied, in industry and elsewhere. This is a valuable reference for anyone involved in the applications of palaeontology, including earth, life and environmental scientists, and petroleum, minerals, mining and engineering professionals.
