Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Acknowledgments
- Glossary
- 1 Recent progress in interpreting the nature of the near-Earth object population
- 2 Earth impactors: orbital characteristics and warning times
- 3 The role of radar in predicting and preventing asteroid and comet collisions with Earth
- 4 Interior structures for asteroids and cometary nuclei
- 5 What we know and don't know about surfaces of potentially hazardous small bodies
- 6 About deflecting asteroids and comets
- 7 Scientific requirements for understanding the near-Earth asteroid population
- 8 Physical properties of comets and asteroids inferred from fireball observations
- 9 Mitigation technologies and their requirements
- 10 Peering inside near-Earth objects with radio tomography
- 11 Seismological investigation of asteroid and comet interiors
- 12 Lander and penetrator science for near-Earth object mitigation studies
- 13 Optimal interception and deflection of Earth-approaching asteroids using low-thrust electric propulsion
- 14 Close proximity operations at small bodies: orbiting, hovering, and hopping
- 15 Mission operations in low-gravity regolith and dust
- 16 Impacts and the public: communicating the nature of the impact hazard
- 17 Towards a national program to remove the threat of hazardous NEOs
- Index
Acknowledgments
Published online by Cambridge University Press: 12 October 2009
Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Acknowledgments
- Glossary
- 1 Recent progress in interpreting the nature of the near-Earth object population
- 2 Earth impactors: orbital characteristics and warning times
- 3 The role of radar in predicting and preventing asteroid and comet collisions with Earth
- 4 Interior structures for asteroids and cometary nuclei
- 5 What we know and don't know about surfaces of potentially hazardous small bodies
- 6 About deflecting asteroids and comets
- 7 Scientific requirements for understanding the near-Earth asteroid population
- 8 Physical properties of comets and asteroids inferred from fireball observations
- 9 Mitigation technologies and their requirements
- 10 Peering inside near-Earth objects with radio tomography
- 11 Seismological investigation of asteroid and comet interiors
- 12 Lander and penetrator science for near-Earth object mitigation studies
- 13 Optimal interception and deflection of Earth-approaching asteroids using low-thrust electric propulsion
- 14 Close proximity operations at small bodies: orbiting, hovering, and hopping
- 15 Mission operations in low-gravity regolith and dust
- 16 Impacts and the public: communicating the nature of the impact hazard
- 17 Towards a national program to remove the threat of hazardous NEOs
- Index
Summary
A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
- Type
- Chapter
- Information
- Mitigation of Hazardous Comets and Asteroids , pp. xiiiPublisher: Cambridge University PressPrint publication year: 2004