Introduction to Space Dynamics

Nonfiction, Science & Nature, Technology, Aeronautics & Astronautics
Cover of the book Introduction to Space Dynamics by William Tyrrell Thomson, Dover Publications
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: William Tyrrell Thomson ISBN: 9780486140520
Publisher: Dover Publications Publication: September 11, 2012
Imprint: Dover Publications Language: English
Author: William Tyrrell Thomson
ISBN: 9780486140520
Publisher: Dover Publications
Publication: September 11, 2012
Imprint: Dover Publications
Language: English

Although this classic introduction to space-flight engineering was first published not long after Sputnik was launched, the fundamental principles it elucidates are as varied today as then. The problems to which these principles are applied have changed, and the widespread use of computers has accelerated problem-solving techniques, but this book is still a valuable basic text for advanced undergraduate and graduate students of aerospace engineering.
The first two chapters cover vector algebra and kinematics, including angular velocity vector, tangential and normal components, and the general case of space motion. The third chapter deals with the transformation of coordinates, with sections of Euler's angles, and the transformation of angular velocities.
A variety of interesting problems regarding the motion of satellites and other space vehicles is discussed in Chapter 4, which includes the two-body problem, orbital change due to impulsive thrust, long-range ballistic trajectories, and the effect of the Earth's oblateness. The fifth and sixth chapters describe gyrodynamics and the dynamics of gyroscopic instruments, covering such topics as the displacement of a rigid body, precession and nutation of the Earth's polar axis, oscillation of the gyrocompass, and inertial navigation.
Chapter 7 is an examination of space vehicle motion, with analyses of general equations in body conditions and their transformation to inertial coordinates, attitude drift of space vehicles, and variable mass. The eighth chapter discusses optimization of the performance of single-stage and multistage rockets. Chapter 9 deals with generalized theories of mechanics, including holonomic and non-holonomic systems, Lagrange's Equation for impulsive forces, and missile dynamics analysis.
Throughout this clear, comprehensive text, practice problems (with answers to many) aid the student in mastering analytic techniques, and numerous charts and diagrams reinforce each lesson. 1961 edition.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

Although this classic introduction to space-flight engineering was first published not long after Sputnik was launched, the fundamental principles it elucidates are as varied today as then. The problems to which these principles are applied have changed, and the widespread use of computers has accelerated problem-solving techniques, but this book is still a valuable basic text for advanced undergraduate and graduate students of aerospace engineering.
The first two chapters cover vector algebra and kinematics, including angular velocity vector, tangential and normal components, and the general case of space motion. The third chapter deals with the transformation of coordinates, with sections of Euler's angles, and the transformation of angular velocities.
A variety of interesting problems regarding the motion of satellites and other space vehicles is discussed in Chapter 4, which includes the two-body problem, orbital change due to impulsive thrust, long-range ballistic trajectories, and the effect of the Earth's oblateness. The fifth and sixth chapters describe gyrodynamics and the dynamics of gyroscopic instruments, covering such topics as the displacement of a rigid body, precession and nutation of the Earth's polar axis, oscillation of the gyrocompass, and inertial navigation.
Chapter 7 is an examination of space vehicle motion, with analyses of general equations in body conditions and their transformation to inertial coordinates, attitude drift of space vehicles, and variable mass. The eighth chapter discusses optimization of the performance of single-stage and multistage rockets. Chapter 9 deals with generalized theories of mechanics, including holonomic and non-holonomic systems, Lagrange's Equation for impulsive forces, and missile dynamics analysis.
Throughout this clear, comprehensive text, practice problems (with answers to many) aid the student in mastering analytic techniques, and numerous charts and diagrams reinforce each lesson. 1961 edition.

More books from Dover Publications

Cover of the book Intriguing Mathematical Problems by William Tyrrell Thomson
Cover of the book Initiations and Initiates in Tibet by William Tyrrell Thomson
Cover of the book Athletics in the Ancient World by William Tyrrell Thomson
Cover of the book Robert's Rules Simplified by William Tyrrell Thomson
Cover of the book Metalwork and Enamelling by William Tyrrell Thomson
Cover of the book An Occurrence at Owl Creek Bridge and Other Stories by William Tyrrell Thomson
Cover of the book Beginner's Book of Modular Origami Polyhedra by William Tyrrell Thomson
Cover of the book The Art of Illustration by William Tyrrell Thomson
Cover of the book His Last Bow by William Tyrrell Thomson
Cover of the book Tales of the North American Indians by William Tyrrell Thomson
Cover of the book Elegant Designs for Paper Cutting by William Tyrrell Thomson
Cover of the book Gravitational Curvature by William Tyrrell Thomson
Cover of the book My Last Duchess and Other Poems by William Tyrrell Thomson
Cover of the book Algebraic Geometry by William Tyrrell Thomson
Cover of the book Outline Alphabets by William Tyrrell Thomson
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy