Advanced Space Propulsion - Edition 1 - By Michael Paluszek, EAA, Stephanie J. Thomas, Christopher A. Galea, PhD, Parisa Mirdamadi, BSE, Joyce Mo and Layla Mohsen Aboud Elsevier Educate

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Advanced Space Propulsion,

Edition 1 Technologies, Missions, and Computer Modeling

By Michael Paluszek, EAA, Stephanie J. Thomas, Christopher A. Galea, PhD, Parisa Mirdamadi, BSE, Joyce Mo and Layla Mohsen Aboud

Publication Date: 01 Jun 2026

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Advanced Space Propulsion: Technologies, Missions, and Computer Modeling includes coverage of all these topics in an integrated manner. The volume, written by a team of sector-specific R&D experts, touches upon fundamentals cardinal to the understanding of [i] Orbit theory and its implications for control, estimation, and optimization of trajectory and attitude, and [ii] How each mission is designed (depending primarily on the mass of the payload, but also on how far from Earth the launch vehicle needs to go), and then succeeds in consolidating them with software and computer applications for simulations and modeling.

The book continues with a discussion on the complete gamut of in-space propulsion power sources and concludes with both human and robotic mission-related case studies and future implementation examples. The outcome is a carefully calibrated and self-contained resource that will prove to be invaluable for graduate and senior undergraduate students, researchers, scientists, and engineering professionals alike.

Key Features

Covers all advanced propulsion technologies, both existing and future
Takes advantage of a structured and comprehensive approach to seamlessly combine theory, technological outcomes, and their practical applications
Features case studies and worked-out examples with MATLAB code

About the author

By Michael Paluszek, EAA, President, Princeton Satellite Systems Inc., Plainsboro, New Jersey, United States; Lecturer, Department of Aeronautics and Astronautics, Massachusetts Institute of Technology, Cambridge, MA, USA; Stephanie J. Thomas, Vice-President, Princeton Satellite Systems Inc., Plainsboro, New Jersey, USA; Christopher A. Galea, PhD, Research Scientist, Princeton Satellite Systems Inc., Plainsboro, New Jersey, USA; Parisa Mirdamadi, BSE, Technical Staff, Princeton Satellite Systems, USA; Joyce Mo, Project Engineer, Princeton Satellite Systems Inc., Plainsboro, New Jersey, USA and Layla Mohsen Aboud

PART I: ORBITS AND MISSIONS
1. HISTORY
2. SPACECRAFT MISSIONS
3. MISSION ANALYSIS
4. ORBIT THEORY
5. STRAIGHT LINE TRAJECTORIES
6. TRAJECTORY PLANNING AND OPTIMIZATION

PART II: POWER FOR PROPULSION SYSTEMS AND PROPULSION SOURCES
7. CHEMICAL
8. SOLAR
9. NUCLEAR FISSION
10. NUCLEAR FUSION
11. POWER BEAMING
12. SOLAR SAILS
13. ELECTRIC POWER CONVERSION

PART III: PROPULSION MISSION CASE STUDIES
14. DEEP SPACE 1
15. BEPICOLUMBO
16. GEO SATELLITE STATIONKEEPING
17. LEO ORBIT MAINTENANCE

PART IV: PROPULSION FUTURE MISSIONS
18. HUMAN MARS MISSION WITH NUCLEAR THERMAL
19. ORBITAL MISSION TO URANUS
20. TITAN FUSION POWERED AIRCRAFT
21. MISSION TO MERCURY
22. SOLAR GRAVITATIONAL LENS
23. ALPHA CENTAURI ORBITER

ISBN: 9780443338090

Page Count: 700

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Graduates and senior undergraduates, researchers, and academics in aerospace engineering, applied mechanical engineering, electrical engineering (electronics and/or power systems engineering), and plasma physics

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