Planetary SciencesCambridge University Press, 15 de jul. de 2010 - 647 páginas An authoritative introduction for graduate students in the physical sciences, this textbook explains the wide variety of physical, chemical, and geological processes that govern the motions and properties of planets. The second edition of this award-winning textbook has been substantially updated and improved. It now contains a reorganized discussion of small bodies, including a detailed description of the Kuiper belt and asteroid belt; a significantly expanded chapter on extrasolar planets and what they tell us about planetary systems; and appendixes providing a glossary of acronyms, tables of key spacecraft, a summary of observing techniques, and a sampling of very recent images. With over 300 exercises to help students apply the concepts covered, this textbook is ideal for courses in astronomy, planetary science and earth science, and well suited as a reference for researchers. Color versions of many figures and movie clips supplementing the text are available at www.cambridge.org/9780521853712. |
Conteúdo
1 Introduction | 1 |
2 Dynamics | 22 |
3 Solar Heating and Energy Transport | 56 |
4 Planetary Atmospheres | 76 |
5 Planetary Surfaces | 152 |
6 Planetary Interiors | 241 |
7 Magnetic Fields and Plasmas | 283 |
8 Meteorites | 337 |
13 Planet Formation | 512 |
Appendix A List of Symbols Used | 554 |
Appendix B Acronyms Used | 559 |
Units and Constants | 562 |
Periodic Table of Elements | 564 |
Appendix E Observing Techniques | 565 |
Appendix F Interplanetary Spacecraft | 575 |
Appendix G Recent Planetary Images | 581 |
9 Minor Planets | 366 |
10 Comets | 405 |
11 Planetary Rings | 448 |
12 Extrasolar Planets | 489 |
References | 606 |
| 625 | |
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Termos e frases comuns
abundance altitude angle appear Assume asteroids atmosphere atoms axis belt bodies bright Calculate caused changes chondrites cloud comets composition core crater density depends depth detected determined direction disk distance distribution dust Earth effect electrons elements emission energy equation equilibrium Figure force formation frequency giant planets given grains gravitational heat impact increases indicated interior Jupiter Jupiter’s known larger layers less lower magnetic field magnetosphere Mars mass material measured meteorites molecules moons motion objects observed optical orbit origin outer particles period phase planetary planets plasma present pressure Problem produced radiation radio radius ratio referred region relative resonance result ring rocks rotation satellites Saturn’s seen shown similar Solar System solar wind solid space spacecraft star structure suggest surface temperature thermal tion typically velocity Venus wavelengths waves