05504nam 2200445 450 991055510010332120220819003131.01-119-88165-X1-119-88166-81-119-88164-1(MiAaPQ)EBC6817985(Au-PeEL)EBL6817985(CKB)19935016200041(EXLCZ)991993501620004120220819d2021 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierThe solar system 1 telluric and giant planets, interplanetary medium and exoplanets /edited by Thérèse Encrenaz, James LequeuxHoboken, New Jersey :John Wiley & Sons, Incorporated,[2021]©20211 online resource (352 pages)Print version: Encrenaz, Thérèse The Solar System 1 Newark : John Wiley & Sons, Incorporated,c2022 9781789450330 Cover -- Half-Title Page -- Title Page -- Copyright Page -- Contents -- Preface -- 1. General Presentation of the Solar System -- 1.1. Introduction -- 1.2. Mechanics and dynamics of the Solar System1 -- 1.2.1. Newton's law of gravitation -- 1.2.2. Kepler's laws r -- 1.2.3. Mean motion resonances -- 1.2.4. The N-body problem -- 1.2.5. The role of collisions -- 1.2.6. Migrations in the Solar System -- 1.2.7. The role of gravity in a solid body -- 1.2.8. Special configurations of the Sun-Earth-Moon system -- 1.3. Physics of the Solar System -- 1.3.1. Equilibrium temperature of an object in the Solar System -- 1.3.2. Planets -- 1.3.3. Satellites -- 1.3.4. Small bodies of the Solar System -- 1.3.5. The interplanetary medium2 -- 1.4. References -- 2 Solar and Planetary Systems -- 2.1. The Sun in the Galaxy -- 2.2. Planetary systems in the Galaxy -- 2.3. Interstellar matter¹ -- 2.3.1. History -- 2.3.2. Chemical composition -- 2.3.3. Physical properties -- 2.4. The formation of stars with masses close to that of the Sun -- 2.5. Circumstellar disks -- 2.6. Formation of planetesimals and planetoids -- 2.7. The environment of the Solar System at its birth -- 2.8. Detection and properties of exoplanets and their systems -- 2.8.1. First attempts -- 2.8.2. The unexpected discovery of planets around a pulsar -- 2.8.3. Exoplanet detection methods -- 2.8.4. Some statistical results -- 2.8.5. The diversity of exoplanets -- 2.8.6. Exoplanet atmospheres -- 2.8.7. Habitable planets -- 2.8.8. Some extrasolar planetary systems -- 2.9. References -- 3 The Interaction of Solar System Bodies with the Interplanetary Medium¹ -- 3.1. Interplanetary plasma: origin and properties of the solar wind -- 3.1.1. Coronal expansion -- 3.1.2. The structure of the heliosphere in the ecliptic plane -- 3.1.3. The three-dimensional structure of the heliosphere.3.1.4. Transient structures of the solar wind -- 3.1.5. The boundaries of the heliosphere -- 3.2. Planetary envelopes -- 3.2.1. Upper planetary atmospheres -- 3.2.2. Planetary magnetic fields -- 3.3. The solar wind's interaction with objects of the Solar System -- 3.3.1. The different types of interaction -- 3.3.2. The case of non-magnetized gaseous envelopes -- 3.3.3. The case of magnetized planets -- 3.3.4. Planetary auroral processes -- 3.4. Acknowledgements -- 3.5. References -- 4 Telluric Planets -- 4.1. The exploration of the telluric planets -- 4.1.1. From antiquity to the space age -- 4.1.2. The beginning of the space age -- 4.1.3. The return to Mars -- 4.1.4. The return to Venus -- 4.1.5. Observations from the ground -- 4.1.6. The exploration of planet Earth -- 4.1.7. Global Climatic Models -- 4.1.8. The electromagnetic spectrum of telluric planets -- 4.2. Objects without an atmosphere: Mercury, the Moon¹ -- 4.2.1. Orbital parameters and macroscopic characteristics -- 4.2.2. Exospheres -- 4.2.3. Internal structure -- 4.2.4. The surfaces of Mercury and the Moon -- 4.2.5. The origin of Mercury and the Moon -- 4.2.6. Mercury's magnetosphere -- 4.3. Objects with an atmosphere (Venus, Earth, Mars) -- 4.3.1. The interior and the magnetic field² -- 4.3.2. The surface³ -- 4.3.3. The atmosphere -- 4.3.4. The satellites of Mars -- 4.4. References -- 5 Giant Planets -- 5.1. The exploration of giant planets -- 5.1.1. From Antiquity to the Space Age -- 5.1.2. Space exploration -- 5.1.3. Exploration from Earth and the terrestrial environment -- 5.1.4. The electromagnetic spectrum of giant planets -- 5.2. The atmosphere of giant planets -- 5.2.1. Atmospheric composition -- 5.2.2. Elemental and isotopic abundance ratios -- 5.2.3. Thermal structure -- 5.2.4. Atmospheric circulation and cloud structure -- 5.2.5. High atmosphere and photochemistry.5.3. The internal structure of giant planets -- 5.3.1. Experimental data -- 5.3.2. The construction of internal energy models -- 5.3.3. The results -- 5.4. The magnetospheres of the giant planets -- 5.4.1. Jupiter's giant magnetosphere -- 5.4.2. Saturn's symmetrical magnetosphere -- 5.4.3. The asymmetric magnetospheres of Uranus and Neptune -- 5.5. References -- Appendix Web links -- Glossary -- List of Authors -- Index -- EULA.Solar systemAgeElectronic books.523.2Lequeux JamesEncrenaz ThérèseMiAaPQMiAaPQMiAaPQBOOK9910555100103321The solar system 12906134UNINA03287oam 2200661I 450 991078080990332120230725044831.01-135-26342-61-135-26343-41-282-44419-097866124441970-203-86961-310.4324/9780203869611 (CKB)2550000000000483(EBL)465421(OCoLC)503451429(SSID)ssj0000336428(PQKBManifestationID)11289991(PQKBTitleCode)TC0000336428(PQKBWorkID)10282497(PQKB)10368658(MiAaPQ)EBC465421(Au-PeEL)EBL465421(CaPaEBR)ebr10358640(CaONFJC)MIL244419(OCoLC)656481678 (EXLCZ)99255000000000048320180706d2010 uy 0engur|n|---|||||txtccrCurrent issues in applied memory research /edited by Graham M. Davies & Daniel B. WrightNew York, N.Y. :Psychology Press,2010.1 online resource (277 p.)Current Issues in MemoryIncludes index.0-415-64713-4 1-84169-727-3 Book Cover; Title; Copyright; Contents; Figures; Tables; Contributors; Preface; Introduction; Applications to education; 1 Benefits of testing memory: Best practices and boundary conditions; 2 Retrieval-induced forgetting: The unintended consequences of unintended forgetting; 3 More than just a memory: The nature and validity of working memory in educational settings; Applications to law; 4 Mechanisms underlying recovered memories; 5 Factors affecting the reliability of children's forensic reports; 6 Change blindness and eyewitness testimony; Applications to neuroscience7 Implicit memory, anesthesia and sedation8 Episodic memory and interhemispheric interaction: Handedness and eye movements; 9 Déjà vu: Insights from the dreamy state and the neuropsychology of memory; Discussion: A future for applied memory research; Author index; Subject indexResearch on applied memory is one of the most active, interesting and vibrant areas in experimental psychology today. This book provides descriptions of cutting-edge research and applies them to three key areas of contemporary investigation: education, the law and neuroscience.In the area of education, findings from the study of memory are described which could have a major impact on testing practice, revision techniques for examinations and teaching basic literacy and numeracy. In applications to the law, recent findings shed new light on the dynamics of child abuse investigaCurrent Issues in MemoryMemoryResearchCognitive psychologyMemoryResearch.Cognitive psychology.153.1/2Davies Graham1943-911766Wright Daniel B98320MiAaPQMiAaPQMiAaPQBOOK9910780809903321Current issues in applied memory research3825614UNINA