Orbital MotionCRC Press, 14. júl. 2020 - 544 síður Long established as one of the premier references in the fields of astronomy, planetary science, and physics, the fourth edition of Orbital Motion continues to offer comprehensive coverage of the analytical methods of classical celestial mechanics while introducing the recent numerical experiments on the orbital evolution of gravitating masses and the astrodynamics of artificial satellites and interplanetary probes. Following detailed reviews of earlier editions by distinguished lecturers in the USA and Europe, the author has carefully revised and updated this edition. Each chapter provides a thorough introduction to prepare you for more complex concepts, reflecting a consistent perspective and cohesive organization that is used throughout the book. A noted expert in the field, the author not only discusses fundamental concepts, but also offers analyses of more complex topics, such as modern galactic studies and dynamical parallaxes. New to the Fourth Edition: * Numerous updates and reorganization of all chapters to encompass new methods * New results from recent work in areas such as satellite dynamics * New chapter on the Caledonian symmetrical n-body problem Extending its coverage to meet a growing need for this subject in satellite and aerospace engineering, Orbital Motion, Fourth Edition remains a top reference for postgraduate and advanced undergraduate students, professionals such as engineers, and serious amateur astronomers. |
Efni
йр | 15 |
Ephemeris Time | 16 |
5 | 21 |
Galactic Coordinate System | 28 |
Bibliography | 43 |
4 | 55 |
Measurement of a planets mass | 69 |
6 | 80 |
Artificial Satellites | 315 |
13 | 330 |
5 | 335 |
7 | 341 |
3 | 350 |
cutoff | 360 |
Problems | 378 |
14 | 408 |
9 | 89 |
12 | 95 |
xvii | 101 |
12 | 140 |
The Hierarchical Threebody Stability Criterion | 151 |
General Perturbations | 198 |
Special Perturbations | 234 |
Recurrence relations | 255 |
Problems | 263 |
8 | 291 |
1 | 299 |
11 | 311 |
Orbit Determination with Additional Observational Data | 417 |
Bibliography | 428 |
15 | 430 |
3 | 453 |
16 | 458 |
18 | 465 |
Answers to Problems | 494 |
Astronomical and Related Constants | 502 |
Appendix III | 508 |
514 | |
520 | |
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Common terms and phrases
angle angular approximation asteroids astrodynamics Astron Astronomical axes binary body calculated Celestial Mechanics celestial sphere centre of mass components computed constant coordinates defined differential distance dynamical Earth Earth-Moon eccentric anomaly eccentricity elements elliptic orbit energy epoch equations of motion equatorial figure function geocentric give given gravitational field heliocentric heliocentric orbit Hence hyperbolic interplanetary Jacobi integral Jupiter Kepler's Lagrange libration longitude lunar m₁ mean motion measured method Moon Moon's observations obtain orbital plane P₁ particle perihelion periodic orbits perturbations planet planetary position and velocity quantities radius vector relation respectively right ascension rocket rotation Saturn semimajor axis sin² Solar System solution space sphere of influence star stellar surface Szebehely theory three-body problem transfer orbit true anomaly two-body two-body problem vehicle velocity vector zero