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A01=Devon M. Burr
A01=Harry Y. McSween
A01=Jeffrey E. Moersch
A01=Joshua P. Emery
A01=Jr
A01=Linda C. Kah
A01=Molly C. McCanta
A01=William M. Dunne
Age Group_Uncategorized
Age Group_Uncategorized
Author_Devon M. Burr
Author_Harry Y. McSween
Author_Jeffrey E. Moersch
Author_Joshua P. Emery
Author_Jr
Author_Linda C. Kah
Author_Molly C. McCanta
Author_William M. Dunne
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Category1=Non-Fiction
Category=PGS
Category=RBGD
COP=United Kingdom
Delivery_Pre-order
Language_English
PA=Temporarily unavailable
Price_€50 to €100
PS=Active
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Planetary Geoscience

For many years, planetary science has been taught as part of the astronomy curriculum, from a very physics-based perspective, and from the framework of a tour of the Solar System - body by body. Over the past decades, however, spacecraft exploration and related laboratory research on extraterrestrial materials have given us a new understanding of planets and how they are shaped by geological processes. Based on a course taught at the University of Tennessee, Knoxville, this is the first textbook to focus on geologic processes, adopting a comparative approach that demonstrates the similarities and differences between planets, and the reasons for these. Profusely illustrated, and with a wealth of pedagogical features, this book provides an ideal capstone course for geoscience majors - bringing together aspects of mineralogy, petrology, geochemistry, volcanology, sedimentology, geomorphology, tectonics, geophysics and remote sensing. See more
Current price €64.59
Original price €67.99
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A01=Devon M. BurrA01=Harry Y. McSweenA01=Jeffrey E. MoerschA01=Joshua P. EmeryA01=JrA01=Linda C. KahA01=Molly C. McCantaA01=William M. DunneAge Group_UncategorizedAuthor_Devon M. BurrAuthor_Harry Y. McSweenAuthor_Jeffrey E. MoerschAuthor_Joshua P. EmeryAuthor_JrAuthor_Linda C. KahAuthor_Molly C. McCantaAuthor_William M. Dunneautomatic-updateCategory1=Non-FictionCategory=PGSCategory=RBGDCOP=United KingdomDelivery_Pre-orderLanguage_EnglishPA=Temporarily unavailablePrice_€50 to €100PS=Activesoftlaunch

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Product Details
  • Weight: 1250g
  • Dimensions: 223 x 284mm
  • Publication Date: 11 Jul 2019
  • Publisher: Cambridge University Press
  • Publication City/Country: United Kingdom
  • Language: English
  • ISBN13: 9781107145382

About Devon M. BurrHarry Y. McSweenJeffrey E. MoerschJoshua P. EmeryJrLinda C. KahMolly C. McCantaWilliam M. Dunne

Harry Y. McSween is Chancellor's Professor Emeritus of Planetary Geoscience at the University of Tennessee Knoxville. He holds degrees from The Citadel (B.S.) the University of Georgia (M.S.) and Harvard University (Ph.D.). His research focuses on meteorites and has resulted in the publications of hundreds of scientific papers on the subject. He has also authored three popular books on planetary science as well as textbooks in geochemistry and cosmochemistry. He has served as co-investigator for many NASA spacecraft missions including Mars Pathfinder Mars Exploration Rovers Mars Odyssey orbiter and Dawn asteroid orbiter. McSween has been elected President of the Meteoritical Society and of the Geological Society of America and is a fellow of the American Academy of Arts and Sciences. He is the recipient of the Leonard Medal (Meteoritical Society) the J. Lawrence Smith Medal (US National Academy of Sciences) and the Whipple Award (American Geophysical Union) and is the namesake for asteroid 5223 McSween. Jeffrey E. Moersch is Professor of Planetary Science at at the University of Tennessee Knoxville. He holds degrees from Cornell University (B.A. and Ph.D.) and Arizona State University (M.S.). His research focuses on remote sensing planetary surface geology instrument development and terrestrial analog field work. He has served on the science teams for many NASA spacecraft missions including the Mars Exploration Rovers Mars Science Laboratory and Mars Odyssey. Along with Professor McSween he originally developed the planetary geology course from which this book is derived. Professor Moersch has authored and co-authored more than eighty peer-reviewed scientific articles and book chapters and served for five years as the Mars editor for the scientific journal Icarus. Devon M. Burr is Associate Professor of Planetary Science at the University of Tennessee Knoxville. She holds degrees from the United States Naval Academy (B.S) St. John's College Santa Fe (M.A.) University of Iowa (M.S.) and University of Arizona (Ph.D.). Her research has been focusing on planetary geomorphology and she currently conducts research on fluvial aeolian (wind-driven) and tectonic landscapes and processes on planetary bodies using image analysis and wind tunnel experiments (featured on the cover of National Geographic magazine for kids entitled Dr E's Super Stellar Solar System!). Burr is the lead editor of the book Megaflooding on Earth and Mars (Cambridge 2009). She is also a member of the Geological Society of American (and former member of the GSA Planetary Geology Division management board) the AAS Division of Planetary Sciences (serving as Science Organizing Committee Chair for DPS 2018) the American Geophysical Union and the namesake of asteroid DevonBurr. William M. Dunne is Professor of Geology at the University of Tennessee Knoxville. He received his B.S. and Ph.D. in geology from the University of Bristol. His research concerns the development of mountain belts and characterization of fracture networks in rocks. The latter interest has practical importance with regard to hydrocarbon exploration and groundwater remediation efforts leading to collaborations with civil engineers. Dunne serves as an editor of the Journal of Structural Geology is a Fellow of the Geological Society of America (GSA) and has served as chair of the GSA Structural Geology and Tectonics Division and the American Society for Engineering Education (ASEE) Engineering Research Council. He has received teaching awards from the department college and university. Joshua P. Emery is the Lawrence A. Taylor Associate Professor of Planetary Science at the University of Tennessee Knoxville. He received a B.S. from Boston University and a Ph.D. from the University of Arizona. His research focuses on investigating the formation and evolution of the Solar System and the distribution of organic material. As an observational planetary astronomer he applies the techniques of reflection and emission spectroscopy of primitive and icy bodies in the near- (0.8 to 5.0 micron) and mid-infrared (5 to 50 micron). Current projects include The Jupiter Trojan asteroids Kuiper Belt objects icy satellites and other asteroids. He is leader of the Thermal Analysis Working Group on the OSIRIS-REx asteroid sample return mission and the Surface Composition Working Group on the Lucy Trojan asteroid flyby mission. Linda C. Kah is Professor of Carbonate Sedimentology and Geochemistry at the University of Tennessee Knoxville. She received concurrent B.S. and M.S. degrees in Geology from the Massachusetts Institute of Technology followed by a Ph.D. from Harvard University. Her research integrates sedimentology stratigraphy geochemistry and paleobiology to understand the evolution of the Earth's biosphere. Current projects include reconstructing the ocean-atmospheric oxygenation and the redox structure of Mesoproterozoic shallow marine systems exploring the effects of changing ocean circulation on the Great Ordovician Biodiversification Event (GOBE) and characterizing microbe-mineral interactions in the mineralization of Holocene lacustrine microbialites. In addition to Earth-based research projects she also investigates potential habitable environments as co-investigator on the Mars Science Laboratory Mission. Molly C. McCanta is Associate Professor of Mineralogy and Petrology at the University of Tennessee Knoxville. She received her B.S. from the University of Oregon and concurrent M.Sc. and Ph.D. from Brown University. Her research focuses on the record of igneous processes retained in mineral grains as a means of better understanding geologic processes in planetary interiors. Current projects include experimentally investigating mineral and melt redox conditions as a function of planetary evolution constraining the timing of eruptive hazards at several Costa Rican volcanoes determining weathering geochemistry on the surface of Venus and identifying cryptotephra layers in deep sea drill cores.

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