Geophysical exploration of the solar system /

Advances in Geophysics serial highlights new advances in the field with this new volume presenting interesting chapters. Each chapter is written by an international board of authors.

Bibliographic Details
Call Number:Libro Electrónico
Other Authors: Schmelzbach, Cedric (Editor), St�ahler, Simon Christian (Editor)
Format: Electronic eBook
Language:Inglés
Published: London ; San Diego, CA : Academic Press, [2022]
Series:Advances in geophysics ; v. 63.
Subjects:
Planets > Geology.
Plan�etes > G�eologie.
Exploration of outer space
Planets > Geology
Solar system.
Outer space > Exploration.
Syst�eme solaire.
Espace extra-atmosph�erique > Exploration.
Outer space
Solar system
Online Access:Texto completo
Table of Contents:
  • Front Cover
  • Geophysical Exploration of the Solar System
  • Copyright
  • Contents
  • Contributors
  • Preface
  • 1 Introduction to special issue
  • References
  • 2 Seismology in the solar system
  • 1 Introduction
  • 2 Mercury
  • 2.1 Potential scientific goals
  • 2.2 Seismicity
  • 2.3 Mission perspectives
  • 3 Venus
  • 3.1 Potential scientific goals
  • 3.2 Seismicity
  • 3.3 Mission perspectives
  • 4 Moon
  • 4.1 Potential scientific goals
  • 4.2 Seismicity
  • 4.3 Mission perspectives
  • 5 Mars
  • 5.1 Potential scientific goals
  • 5.2 Mission perspectives
  • 6 Phobos and Deimos
  • 6.1 Potential scientific goals
  • 6.2 Mission perspectives
  • 7 Ceres
  • 7.1 Potential scientific goals
  • 7.2 Seismicity
  • 7.3 Mission perspectives
  • 8 Jupiter and Saturn
  • the giant planets
  • 8.1 Potential scientific goals
  • 8.2 Mission perspectives
  • 9 Io
  • 9.1 Potential scientific goals
  • 9.2 Seismicity
  • 9.3 Mission perspectives
  • 10 Europa
  • 10.1 Potential scientific goals
  • 10.2 Seismicity
  • 10.3 Mission perspectives
  • 11 Ganymede and Callisto
  • 11.1 Potential scientific goals
  • 11.2 Seismicity
  • 11.3 Mission perspectives
  • 12 Titan
  • 12.1 Potential scientific goals
  • 12.2 Seismicity
  • 12.3 Mission perspectives
  • 13 Enceladus
  • 13.1 Potential scientific goals
  • 13.2 Seismicity
  • 13.3 Mission perspectives
  • 14 The Uranus and Neptune system
  • 14.1 Potential scientific goals
  • 14.2 Seismicity
  • 14.3 Mission perspectives
  • 15 Interstellar objects
  • 15.1 Potential scientific goals
  • 15.2 Seismicity
  • 15.3 Mission perspectives
  • 16 Lessons learned from Insight
  • 16.1 Scattering
  • 16.2 Timing
  • 16.3 Bandwidth
  • 17 Conclusion
  • References
  • 3 Planetary core radii: from Plato towards PLATO
  • 1 Introduction
  • 1.1 Why are cores interesting?
  • 1.2 Structure of this work
  • 2 Methods: evaluation of the literature
  • 3 Ye olden days: early and earliest history
  • 3.1 The subsurface world in mythology and early natural philosophy
  • 3.2 Celestial bodies in early natural philosophy
  • 3.3 At the dawning of the age of science
  • 4 Core radii of Earth, Moon, and Mars
  • 4.1 Earth
  • 4.2 Moon
  • 4.3 Mars
  • 5 Exoplanets
  • 5.1 Observational constraints
  • 5.2 Interior structure of exoplanets
  • 5.2.1 Mass-radius relationships
  • 5.2.2 Tidal parameters
  • 5.3 Simplified model ``exoplanet''
  • 6 Concluding remarks
  • Acknowledgments.

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