Orbital Mechanics for Engineering Students

Orbital Mechanics for Engineering Students

Cover of the third edition of Orbital Mechanics for Engineering Students

Third edition
Author Howard D. Curtis
Series Elsevier Aerospace Engineering Series
Subject Orbital mechanics
Published 2010 (Butterworth-Heinemann)
Pages 768 (3rd ed.)
ISBN 978-0-08-097747-8 (3rd ed.)

Orbital Mechanics for Engineering Students is an aerospace engineering textbook by Howard D. Curtis, in its third edition as of 2013.[1] The book provides an introduction to orbital mechanics, while assuming an undergraduate-level background in physics, rigid body dynamics, differential equations, and linear algebra.[2][3]

Topics covered by the text include a review of kinematics and Newtonian dynamics, the two-body problem, Kepler's laws of planetary motion, orbit determination, orbital maneuvers, relative motion and rendezvous, and interplanetary trajectories.[3] The text focuses primarily on orbital mechanics, but also includes material on rigid body dynamics, rocket vehicle dynamics, and attitude control.[2][3] Control theory and spacecraft control systems are less thoroughly covered.[3]

The textbook includes exercises at the end of each chapter, and supplemental material is available online, including MATLAB code for orbital mechanics projects.[2]

References

  1. Curtis, Howard D. (2013). Orbital Mechanics for Engineering Students (3rd ed.). Butterworth-Heinemann. ISBN 978-0-08-097747-8.
  2. 1 2 3 Hall, Christopher; Sandfry, Ralph A. (March 2008). "Review of Orbital Mechanics for Engineering Students". Journal of Guidance, Control, and Dynamics 31 (2): 445–446. doi:10.2514/1.34514.
  3. 1 2 3 4 Jablonski, Alexander M. (June 2005). "Book Review: Orbital Mechanics for Engineering Students". Canadian Aeronautics and Space Journal 51 (2): 87. doi:10.5589/q05-005.


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