Book contents
- Frontmatter
- Dedication
- Contents
- Acknowledgements
- 1 Introduction
- 2 General Calculational Scheme
- 3 1pN Gravitoelectric Effects: Mass Monopole(s)
- 4 2pN Gravitoelectric Effects: Mass Monopoles
- 5 1pN Gravitomagnetic Effects: Spin Dipole(s)
- 6 1pN Gravitomagnetic Effects: Spin Octupole
- 7 Newtonian Effects: Mass Quadrupole(s)
- 8 1pN Gravitoelectric Effects: Mass Quadrupole
- 9 pK Tidal Effects: Distant 3rd Body
- 10 Modified Models of Gravity: Orbital Precessions
- Appendix A List of Acronyms and Abbreviations
- Appendix B Notations and Definitions
- Appendix C pK Disturbing Functions from the Spacetime Metric
- Appendix D Spin-Orbit Orientation and Lorentz-Violating Coefficients
- Appendix E Coefficients of the Lense–Thirring Orbital Shifts
- Appendix F Coefficients of the Newtonian J2 Orbital Shifts
- Appendix G Coefficients of the Total Mixed Net Orbital Shifts of the Order of J2/c2
- Appendix H The Coefficients of the Tidal Orbital Precessions
- Appendix I Coefficients of the Power-Law Mass Density Profile Orbital Precessions
- Appendix J Numerical Values of Relevant Astronomical Parameters
- Appendix K Post-Keplerian Orbital Effects: Numerical Values
- Appendix L A Cursory Overview on Some Proposed Spacecraft-Based Missions
- References
- Author Index
- Subject Index
7 - Newtonian Effects: Mass Quadrupole(s)
Published online by Cambridge University Press: 28 November 2024
- Frontmatter
- Dedication
- Contents
- Acknowledgements
- 1 Introduction
- 2 General Calculational Scheme
- 3 1pN Gravitoelectric Effects: Mass Monopole(s)
- 4 2pN Gravitoelectric Effects: Mass Monopoles
- 5 1pN Gravitomagnetic Effects: Spin Dipole(s)
- 6 1pN Gravitomagnetic Effects: Spin Octupole
- 7 Newtonian Effects: Mass Quadrupole(s)
- 8 1pN Gravitoelectric Effects: Mass Quadrupole
- 9 pK Tidal Effects: Distant 3rd Body
- 10 Modified Models of Gravity: Orbital Precessions
- Appendix A List of Acronyms and Abbreviations
- Appendix B Notations and Definitions
- Appendix C pK Disturbing Functions from the Spacetime Metric
- Appendix D Spin-Orbit Orientation and Lorentz-Violating Coefficients
- Appendix E Coefficients of the Lense–Thirring Orbital Shifts
- Appendix F Coefficients of the Newtonian J2 Orbital Shifts
- Appendix G Coefficients of the Total Mixed Net Orbital Shifts of the Order of J2/c2
- Appendix H The Coefficients of the Tidal Orbital Precessions
- Appendix I Coefficients of the Power-Law Mass Density Profile Orbital Precessions
- Appendix J Numerical Values of Relevant Astronomical Parameters
- Appendix K Post-Keplerian Orbital Effects: Numerical Values
- Appendix L A Cursory Overview on Some Proposed Spacecraft-Based Missions
- References
- Author Index
- Subject Index
Summary
The impact of the Newtonian quadrupolar acceleration, generalized also to the case of two bodies of comparable amsses and quadrpole moments, is calculated for is calculated for different types of observation-related quantities (Keplerian orbital elements, anomalistic, draconitic and sidereal orbital periods, two-body range and range rate, radial velocity curve and radial velocity semiamplitude of spectroscopic binaries, astrometric angles RA and dec., times of arrival of binary pulsars, characteristic timescales of transiting exoplanets and their sky-projected spin-orbit angle). The results are applied to a test particle orbiting a primary, a Sun-Jupiter exoplanet system, and to a S star in Sgr A*.
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- General Post-Newtonian Orbital EffectsFrom Earth's Satellites to the Galactic Centre, pp. 123 - 145Publisher: Cambridge University PressPrint publication year: 2024