Flight dynamics (spacecraft)
Appearance
Spacecraft flight dynamics is the use of dynamics to show how forces can act on a space vehicle or spacecraft. The aim is to determine the flight path of spacecrafts.
Related pages
[change | change source]Books
[change | change source]- Anderson, John D. (2004), Introduction to Flight (5th ed.), McGraw-Hill, ISBN 0-07-282569-3
- Fellenz, D.W. (1967). "Atmospheric Entry". In Theodore Baumeister (ed.). Marks' Standard Handbook for Mechanical Engineers (Seventh ed.). New York City: McGraw Hill. pp. 11:155–58. ISBN 0-07-142867-4.
- Glasstone, Samuel (1965). Sourcebook on the Space Sciences. D. Van Nostrand Company, Inc.
- Hintz, Gerald R. (2015). Orbital Mechanics and Astrodynamics: Techniques and Tools for Space Missions. Cham. ISBN 9783319094441. OCLC 900730410.
{{cite book}}
: CS1 maint: location missing publisher (link) - Kromis, A.J. (1967). "Powered-Flight-Trajectory Analysis". In Theodore Baumeister (ed.). Marks' Standard Handbook for Mechanical Engineers (Seventh ed.). New York City: McGraw Hill. pp. 11:154–55. ISBN 0-07-142867-4.
- Perry, W.R. (1967). "Orbital Mechanics". In Theodore Baumeister (ed.). Marks' Standard Handbook for Mechanical Engineers (Seventh ed.). New York City: McGraw Hill. pp. 11:151–52. ISBN 0-07-142867-4.
- Russell, J.W. (1967). "Lunar and Interplanetary Flight Mechanics". In Theodore Baumeister (ed.). Marks' Standard Handbook for Mechanical Engineers (Seventh ed.). New York City: McGraw Hill. pp. 11:152–54. ISBN 0-07-142867-4.
- Sidi, M.J. "Spacecraft Dynamics & Control. Cambridge, 1997.
- Thomson, W.T. "Introduction to Space Dynamics." Dover, 1961.
- Wertz, J.R. "Spacecraft Attitude Determination and Control." Kluwer, 1978.
- Wiesel, W.E. "Spaceflight Dynamics." McGraw-Hill, 1997.