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Spacecraft Attitude Dynamics Peter C. Hughes

By: Material type: TextTextPublication details: NewYork Dover 1986Description: 570pISBN:
  • 9780486439259
DDC classification:
  • 629.47 HUG
Contents:
1. Introduction 2. Rotational Kinematics 3. Attitude Motion Equations 4. Attitude Dynamics of a Rigid Body 5. Effect of Internal Energy Dissipation on the Directional Stability of Spinning Bodies 6. Directional Stability of Multispin Vehicles 7. Effect of Internal Energy Dissipation on the Directional Stability of Gyrostats 8. Spacecraft Torques 9. Gravitational Stabilization 10. Spin Stabilization in Orbit 11. Dual-Stabilization in Orbit: Gyrostats and Bias Momentum Satellites
Summary: Pointing a satellite in the right direction requires an extremely complex system — one that describes the satellite's orientation and at the same time predicts and either uses or neutralizes external influences. From its roots in classical mechanics and reliance on stability theory to the evolution of practical stabilization ideas, Spacecraft Attitude Dynamics offers comprehensive coverage of environmental torques encountered in space; energy dissipation and its effects on the attitude stability of spinning bodies; motion equation for four archetypical systems derived and used repeatedly throughout the text; orientation parameters (not limited to Euler angles); illustrations of key concepts with on-orbit flight data; and typical engineering hardware, with examples of the implementation of dynamic ideas. Suitable as a text for advanced undergraduates and graduate students, this unified treatment is also a valuable reference for professional engineers studying the analysis and application of modern spacecraft attitude dynamics. The sole prerequisites are a fundamental knowledge of vector dynamics and matrix algebra. Over 250 diagrams appear throughout the text, along with extensive problem sets at the end of each chapter, 350 references (cited, interpreted, and placed in perspective to reinforce the material), and two helpful appendixes.
List(s) this item appears in: New Arrivals (June 2024)
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Item type Current library Collection Call number Status Date due Barcode
Books Books IIITDM Kurnool General Stacks Non-fiction 629.47 HUG (Browse shelf(Opens below)) Available 0005348
Books Books IIITDM Kurnool General Stacks Non-fiction 629.47 HUG (Browse shelf(Opens below)) Available 0005471
Books Books IIITDM Kurnool General Stacks Non-fiction 629.47 HUG (Browse shelf(Opens below)) Available 0005472

1. Introduction
2. Rotational Kinematics
3. Attitude Motion Equations
4. Attitude Dynamics of a Rigid Body
5. Effect of Internal Energy Dissipation on the Directional Stability of Spinning Bodies
6. Directional Stability of Multispin Vehicles
7. Effect of Internal Energy Dissipation on the Directional Stability of Gyrostats
8. Spacecraft Torques
9. Gravitational Stabilization
10. Spin Stabilization in Orbit
11. Dual-Stabilization in Orbit: Gyrostats and Bias Momentum Satellites

Pointing a satellite in the right direction requires an extremely complex system — one that describes the satellite's orientation and at the same time predicts and either uses or neutralizes external influences.
From its roots in classical mechanics and reliance on stability theory to the evolution of practical stabilization ideas, Spacecraft Attitude Dynamics offers comprehensive coverage of environmental torques encountered in space; energy dissipation and its effects on the attitude stability of spinning bodies; motion equation for four archetypical systems derived and used repeatedly throughout the text; orientation parameters (not limited to Euler angles); illustrations of key concepts with on-orbit flight data; and typical engineering hardware, with examples of the implementation of dynamic ideas.
Suitable as a text for advanced undergraduates and graduate students, this unified treatment is also a valuable reference for professional engineers studying the analysis and application of modern spacecraft attitude dynamics. The sole prerequisites are a fundamental knowledge of vector dynamics and matrix algebra. Over 250 diagrams appear throughout the text, along with extensive problem sets at the end of each chapter, 350 references (cited, interpreted, and placed in perspective to reinforce the material), and two helpful appendixes.

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