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200 00$aDynamics of the Earth's radiation belts and inner magnetosphere$b[electronic resource]$fDanny Summers ... [et al.], editor
210   $aWashington, D.C. $cAmerican Geophysical Union$d2012
215   $a1 online resource (443 p.)
225  0$aGeophysical monograph,$x0065-8448 ;$v199
300   $aDescription based upon print version of record.
311   $a0-87590-489-0 
311   $a1-299-68733-4 
320   $aIncludes bibliographical references and index.
327   $aCOVER; Title Page; Contents; Preface; Introduction; Section I: Historical Perspective; Space Weather: Affecting Technologies on Earth and in Space; Section II: Current State of Knowledge of Radiation Belts; SAMPEX: A Long-Serving Radiation Belt Sentinel; Large-Amplitude Whistler Waves and Electron Acceleration in the Earth's Radiation Belts: A Review of STEREO and Wind Observation; Classification of Pc1-2 Electromagnetic Ion Cyclotron Waves at Geosynchronous Orbit; The Role of Ultralow Frequency Waves in Radiation Belt Dynamics; Section III: Space Missions
327   $aNASA's Radiation Belt Storm Probes Mission: From Concept to RealityThe Energization and Radiation in Geospace (ERG) Project; RESONANCE Project for Studies of Wave-Particle Interactions in the Inner Magnetosphere; Section IV: Modeling and Simulations; Global Structure of ULF Waves During the 24-26 September 1998 Geomagnetic Storm; ULF Wave-Driven Radial Diffusion Simulations of the Outer Radiation Belt; Nonlinear Radial Transport in the Earth's Radiation Belts; Section V: Radiation Belt Injections, Dropouts, and Magnetospheric Variability
327   $aTime Scales for Localized Radiation Belt Injections to Become a Thin ShellRebuilding Process of the Outer Electron Radiation Belt: The Spacecraft Akebono Observations; The Shock Injection of 24 March 1991: Another Look; Outer Radiation Belt Flux Dropouts: Current Understanding and Unresolved Questions; Rapid Radiation Belt Losses Occurring During High-Speed Solar Wind Stream-Driven Storms: Importance of Energetic Electron Precip; Background Magnetospheric Variability as Inferred From Long Time Series of GOES Data; Section VI: Wave-Particle Interactions
327   $aGeneration Processes of Whistler Mode Chorus Emissions: Current Status of Nonlinear Wave Growth TheoryAspects of Nonlinear Wave-Particle Interactions; Linear and Nonlinear Growth of Magnetospheric Whistler Mode Waves; High-Energy Electron Diffusion by Resonant Interactions With Whistler Mode Hiss; Recent Advances in Understanding the Diffuse Auroral Precipitation: The Role of Resonant Wave-Particle Interactions; Section VII: Energy Coupling in the Inner Magnetosphere; The Role of the Earth's Ring Current in Radiation Belt Dynamics; Ring Current Asymmetry and the Love-Gannon Relation
327   $aThe Importance of the Plasmasphere Boundary Layer for Understanding Inner Magnetosphere DynamicsThe Role of Quiet Time Ionospheric Plasma in the Storm Time Inner Magnetosphere; Cold Ion Outflow as a Source of Plasma for the Magnetosphere; What Happens When the Geomagnetic Field Reverses?; Section VIII: Radiation Belts and Space Weather; What the Satellite Design Community Needs From the Radiation Belt Science Community; Storm Responses of Radiation Belts During Solar Cycle 23: HEO Satellite Observations
327   $aColorado Student Space Weather Experiment: Differential Flux Measurements of Energetic Particles in a Highly Inclined Low Earth
330   $a Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 199.Dynamics of the Earth's Radiation Belts and Inner Magnetosphere draws together current knowledge of the radiation belts prior to the launch of Radiation Belt Storm Probes (RPSP) and other imminent space missions, making this volume timely and unique. The volume will serve as a useful benchmark at this exciting and pivotal period in radiation belt research in advance of the new discoveries that the RPSP mission will surely bring. Highlights include the following: a review of
410  0$aGeophysical Monograph Series
606   $aMagnetosphere
606   $aVan Allen radiation belts
615  0$aMagnetosphere.
615  0$aVan Allen radiation belts.
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200 12$aA modified T-value method for selection of strain gages for measuring loads on a low aspect ratio wing /$fMing H. Tang and Robert G. Sheldon
210  1$aEdwards California :$cNASA Dryden Flight Research Center,$dNovember 1980.
215   $a1 online resource (51 pages) $cillustrations
225 1 $aNASA technical paper ;$v1748
300   $aTitle from title screen (viewed on Aug. 17, 2016).
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615  7$aRegression coefficients.
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615  7$aStrain gages.
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700   $aTang$b Ming Han$f1939-$01418052
702   $aSheldon$b Robert G.
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200 10$aInnovation trends in the space industry$hVolume 25 /$fVictor Dos Santos Paulino
210  1$aLondon, England :$cISTE ;$aHoboken, New Jersey :$cWiley,$d2020.
215   $a1 online resource (235 pages)
311   $a1-78630-491-0 
330   $aEver since their inception, space activities have been innovative, but not driven by commercial considerations - that is, until the end of the Cold War, when the commercialization of space escalated. As a result, the direction of the innovation changed in order to leverage new business opportunities, which reached a turning point in the 2010s. This book discusses the developmental trends of the world space sector in detail, by analyzing their long-term evolution, and studying why this innovative industry sometimes experiences technological and organizational delays. Innovation Trends in the Space Industry also provides a framework to diagnose more accurately the potential technological threats that are currently faced by existing space tech manufacturers. Moreover, this book, with an economic perspective, provides a close examination of the space sector. It also contributes to enriching innovation management theory by leading us to better understand industry emergence shaped by customers, to reinterpret technological and organizational inertia in high technology activities, and to refine disruptive innovation trends.
606   $aSpace industrialization
606   $aAstronautics$xTechnological innovations
606   $aAerospace industries
615  0$aSpace industrialization.
615  0$aAstronautics$xTechnological innovations.
615  0$aAerospace industries.
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