This book provides a comprehensive introduction to the physical phenomena that result from the interaction of the sun and the planets - often termed space weather. Physics of the Space Environment explores the basic processes in the Sun, in the interplanetary medium, in the near-Earth space, and down into the atmosphere. The first part of the book summarizes fundamental elements of transport theory relevant for the atmosphere, ionosphere and the magnetosphere. This theory is then applied to physical phenomena in the space environment. The fundamental physical processes are emphasized throughout, and basic concepts and methods are derived from first principles. This book is unique in its balanced treatment of space plasma and aeronomical phenomena. Students and researchers with a basic mathematics and physics background will find this book invaluable in the study of phenomena in the space environment.
This book provides a comprehensive introduction to the physical phenomena that result from the interaction of the sun and the planets - often termed space weather. Physics of the Space Environment explores the basic processes in the Sun, in the interplanetary medium, in the near-Earth space, and down into the atmosphere. The first part of the book summarizes fundamental elements of transport theory relevant for the atmosphere, ionosphere and the magnetosphere. This theory is then applied to physical phenomena in the space environment. The fundamental physical processes are emphasized throughout, and basic concepts and methods are derived from first principles. This book is unique in its balanced treatment of space plasma and aeronomical phenomena. Students and researchers with a basic mathematics and physics background will find this book invaluable in the study of phenomena in the space environment.
Preface; Part I. Theoretical Description of Gases and Plasmas: 1. Particle orbit theory; 2. Kinetic theory; 3. Basic plasma phenomena; 4. Fluid and MHD theory; 5. Waves and oscillations; 6. Shocks and discontinuities; 7. Transport of superthermal particles; Part II. The Upper Atmosphere: 8. The terrestrial upper atmosphere; 9. Airglow and aurora; 10. The ionosphere; Part III. Sun-Earth connection: 11. The Sun; 12. The solar wind; 13. Cosmic rays and energetic particles; 14. The terrestrial magnetosphere; Appendices: A. Physical constants; B. Vector and tensor identities and operators; C. Some important integrals; D. Some useful special functions.
A self-contained, comprehensive introduction to the physical phenomena that result from the interaction of the Sun and the planets.
'This book provides a comprehensive introduction to the space environment at a level suitable for graduate students and researchers, with an emphasis on the physics of solar-planetary relations.' C. Welch, Spacefight '... is a welcome addition to the space physics literature.' Gordon D. Holman, Physics Today '... an excellent text for those wishing to familiarise themselves with the physics of space plasma phenomena. The range of subject matter is such that it is likely to have wide appeal.' The Times Higher Education Supplement '... a significant addition to the textbook literature.' Vytenis M. Vasyliunas, EOS '... a valuable resource for helping introduce graduate students to space physics, and for presenting to specialists in various branches of the field a broad overview of many of the theoretical concepts applied in space physics.' World Meteorological Organization Bulletin
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