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Orbital Mechanics for Engineering Students: Revised Reprint
Orbital Mechanics for Engineering Students, Fourth Edition, is a key text for students of aerospace engineering. While this latest edition has been updated with new content and included sample problems, it also retains its teach-by-example approach that emphasizes analytical procedures, computer-implemented algorithms, and the most comprehensive support package available, including fully worked solutions, PPT lecture slides, and animations of selected topics. Highly illustrated and fully supported with downloadable MATLAB algorithms for project and practical work, this book provides all the tools needed to fully understand the subject.
780 pages, Paperback
First published December 1, 2004
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Displaying 1 - 3 of 3 reviews
July 12, 2018
As with many textbooks I didn't read to the end. I was reading this for a possible job, but I didn't get it so no sense in continuing for now. It'll always be a good reference on my shelf. I got through Ch 5 out of 11 and found it pretty informative and useful. It didn't get 5 stars because I did notice some mistakes in the sample problems, but you should be able to work through them.
March 29, 2013
(722 pages)
I'm only up to chapter 4 as of today, however, this textbook is one of the best that I have ever studied. Everything is put together very well and the calculations progress in a wonderful workflow. This book should really only be used by the undergrad engineering students (or computer science such as myself) or by others in grad school as only a reference, however, practitioners and researches use this book as well. This book is great for computer science majors because all of the more labor-intensive computational procedures are implemented in MATLAB code. Before picking up this book you should have completed courses in physics, dynamics & mathematics through differential equations and applied linear algebra.
Here is what each chapter contains so you get the idea of what's inside the cover.
Ch.1 Dynamics of point masses
CH.2 The two-body problem
Ch.3 Orbital position as a function of time (orbits, trajectories, & . universal variables)
Ch.4 Orbits in three dimensions
Ch.5 Preliminary orbit determination
Ch.6 Orbital maneuvers
Ch.7 Relative motion and rendezvous
Ch.8 Interplanetary trajectories
Ch.9 Rigid-body dynamics
Ch.10 Satellite altitude dynamics
Ch.11 Rocket vehicle dynamics
Appendix A - Physical data
Appendix B - A road map
Appendix C - Numerical integration of the n-body equations of motion
Appendix D - MATLAB algorithms (Computer Science!!!)
Appendix E - Gravitational potential energy of a sphere
This is a truly intriguing book..
I'm only up to chapter 4 as of today, however, this textbook is one of the best that I have ever studied. Everything is put together very well and the calculations progress in a wonderful workflow. This book should really only be used by the undergrad engineering students (or computer science such as myself) or by others in grad school as only a reference, however, practitioners and researches use this book as well. This book is great for computer science majors because all of the more labor-intensive computational procedures are implemented in MATLAB code. Before picking up this book you should have completed courses in physics, dynamics & mathematics through differential equations and applied linear algebra.
Here is what each chapter contains so you get the idea of what's inside the cover.
Ch.1 Dynamics of point masses
CH.2 The two-body problem
Ch.3 Orbital position as a function of time (orbits, trajectories, & . universal variables)
Ch.4 Orbits in three dimensions
Ch.5 Preliminary orbit determination
Ch.6 Orbital maneuvers
Ch.7 Relative motion and rendezvous
Ch.8 Interplanetary trajectories
Ch.9 Rigid-body dynamics
Ch.10 Satellite altitude dynamics
Ch.11 Rocket vehicle dynamics
Appendix A - Physical data
Appendix B - A road map
Appendix C - Numerical integration of the n-body equations of motion
Appendix D - MATLAB algorithms (Computer Science!!!)
Appendix E - Gravitational potential energy of a sphere
This is a truly intriguing book..
November 17, 2012
Very good book for academia. Curtis clearly explains the principles in an easy to understand manner. I read it cover-to-cover as an undergrad and find myself referencing it quite often. I found this book a joy to read.
Displaying 1 - 3 of 3 reviews