01207cam2 2200313 450 E60020005477520180212113523.0351807765120091013d1973 |||||ita|0103 bagerDE<<2: Das >>Apriori der KommunikationsgemeinschaftKarl-Otto ApelFrankfurt am MainSuhrkamp1973446 p.17 cmSuhrkamp Taschenbuch Wissenschaft165001LAEC000164682001 *Suhrkamp Taschenbuch Wissenschaft165001E6002000547672000 Transformation der Philosophie / Karl-Otto ApelApel, Karl_OttoAF00011603070143815ITUNISOB20180212RICAUNISOBUNISOB10026040UNISOB10021616E600200054775M 102 Monografia moderna SBNM100009029-2Si26040acquistopregresso2UNISOBUNISOB20091013094640.020180212113523.0menle100000067-2SI21616acquistoNmenleUNISOBUNISOB20180212113350.020180212113457.0menleApriori der Kommunikationsgemeinschaft1706246UNISOB00927nam0 22002653i 450 SGE004422420231121125831.0373380075320181017d1991 ||||0itac50 bagerdez01i xxxe z01n˜Das œwunderbare Abenteuer des Christoph KolumbusPaolo Emilio TavianiLeipzigBerlinKoehler & Amelang1991312 p.ill. c. geogr.22 cmTaviani, Paolo EmilioCFIV00375835166ITIT-0120181017IT-FR0017 Biblioteca umanistica Giorgio ApreaFR0017 NSGE0044224Biblioteca umanistica Giorgio Aprea 52DOB 14 52FLS0000359675 VMB RS A 2018101720181017 52Wunderbare Abenteuer des Christoph Kolumbus3637304UNICAS05086nam 2200625Ia 450 991083063150332120230803031002.03-527-65207-83-527-65205-13-527-65208-6(CKB)2670000000403757(EBL)1329760(OCoLC)854977486(SSID)ssj0001034853(PQKBManifestationID)11592307(PQKBTitleCode)TC0001034853(PQKBWorkID)11017395(PQKB)10307140(MiAaPQ)EBC1329760(MiAaPQ)EBC4044356(EXLCZ)99267000000040375720121015d2013 uy 0engur|n|---|||||txtccrMagnetoseismology[electronic resource] ground-based remote sensing of Earth's magnetosphere /Frederick W. Menk and Colin L. WatersWeinheim Wiley-VCHc20131 online resource (281 p.)Description based upon print version of record.1-299-75964-5 3-527-41027-9 Includes bibliographical references and index.Magnetoseismology: Ground-based remote sensing of the Earth's magnetosphere; Contents; Preface; Color Plates; 1 Introduction; 1.1 Purpose of This Book; 1.2 The Solar Wind; 1.3 Fluctuations in the Solar Wind; 1.4 Early Observations of Geomagnetic Variations; 1.5 Properties of Geomagnetic Variations; 2 The Magnetosphere and Ionosphere; 2.1 The Geomagnetic Field; 2.2 Structure of Earth's Magnetosphere; 2.3 Magnetospheric Current Systems; 2.3.1 Magnetopause Current; 2.3.2 Tail Current and Reconnection; 2.3.3 Ring Current; 2.3.4 Field-Aligned Currents; 2.3.5 Ionospheric Currents2.4 The Radiation Belts2.5 The Inner Magnetosphere; 2.6 Formation and Properties of the Ionosphere; 2.7 Geomagnetic Disturbances; 2.8 Space Weather Effects; 3 ULF Plasma Waves in the Magnetosphere; 3.1 Basic Properties of a Plasma; 3.2 Particle Motions; 3.2.1 Motions of Isolated Charged Particles; 3.2.2 First Adiabatic Invariant; 3.2.3 Second Adiabatic Invariant; 3.2.4 Third Adiabatic Invariant; 3.3 Low-Frequency Magnetized Plasma Waves; 3.3.1 Equations of Linear MHD; 3.3.2 The Wave Equation; 3.4 The Shear Alfv en Mode in a Dipole Magnetic Field; 3.4.1 Toroidal Oscillation of Field Lines3.5 MHD Wave Mode Coupling in One Dimension3.6 An Alternative Derivation of the Plasma Wave Equation, from Electromagnetism; 4 Sources of ULF Waves; 4.1 Introduction; 4.2 Exogenic Sources; 4.3 Boundary Instabilities; 4.4 Field Line Resonances; 4.5 Cavity and Waveguide Modes; 4.6 Spatially Localized Waves; 4.7 Ion Cyclotron Waves; 5 Techniques for Detecting Field Line Resonances; 5.1 Introduction; 5.2 Variation in Spectral Power with Latitude; 5.3 Variation of Phase with Latitude; 5.4 Wave Polarization Properties; 5.5 Spectral Power Difference and Division; 5.6 Single Station H/D5.7 Cross-Phase from Latitudinally Separated Sensors5.8 Using ULF Wave Polarization Properties; 5.9 Automated Detection Algorithms; 6 Ground-Based Remote Sensing of the Magnetosphere; 6.1 Estimating Plasma Mass Density; 6.2 Travel Time Method of Tamao; 6.3 Determining Electron Density; 6.4 Verification of Ground-Based Mass Density Measurements; 6.5 Determining Ion Concentrations; 6.6 Field-Aligned Plasma Density; 6.7 Plasma Density at Low Latitudes; 6.8 Plasma Density at High Latitudes; 7 Space Weather Applications; 7.1 Magnetospheric Structure and Density; 7.2 Plasmapause Dynamics7.3 Density Notches, Plumes, and Related Features7.4 Refilling of the Plasmasphere; 7.5 Longitudinal Variation in Density; 7.6 Solar Cycle Variations in Density; 7.7 Determining the Open/Closed Field Line Boundary; 7.8 Determining the Magnetospheric Topology at High Latitudes; 7.9 Wave-Particle Interactions; 7.10 Radial Motions of Flux Tubes; 8 ULF Waves in the Ionosphere; 8.1 Introduction; 8.2 Electrostatic and Inductive Ionospheres; 8.3 ULF Wave Solution for a Thin Sheet Ionosphere; 8.4 ULF Wave Solution for a Realistic Ionosphere; 8.5 FLRs and the Ionosphere8.6 Remote Sensing ULF Electric Fields in SpaceThis book provides a comprehensive account of magnetoseismology - the tool to monitor space weather. Written by researcher on the forefront of this field, it conveys the physics behind the phenomena and the methods to detect and investigate them, the relevance to communication, power supply and many other critical systems. In addition, it provides computational codes for analysis and evaluation.MagnetosphereMagnetospheric physicsMagnetosphere.Magnetospheric physics.538.766Menk Frederick W1612548Waters Colin L1612549MiAaPQMiAaPQMiAaPQBOOK9910830631503321Magnetoseismology3941405UNINA