Global Journal of Researches in Engineering, A: Mechanical & Mechanics, Volume 22 Issue 1

Newtonian form when the velocities are zero but only if the speed of light is taken to be infinite. This new approach does not undermine the General Theory of Relativity but because it is a simpler method it leaves less room for misinterpretation. Many of the extensions of GR are very complex mathematically, making errors more likely. R éférences 1. Newton, I. Philosophiae naturalis principia mathematica. London 1687. 2. Einstein, A. The Meaning of Relativity, 6th ed., Chapman and Hall 1967. 3. Dugas R., A History of Mechanics, Dover 1988. 4. Hertz, H. R. The Principles of Mechanics Presented in a New Form. MacMillan 1899 p. 11. 5. d'Alembert, J. Traité de Dynamique. Paris 1758. 6. Will, C.M. Theory and experiment in gravitational physics, Cambridge, 1993 p. 333. 7. Ohanian, H. C. Classical Electrodynamics, Allyn & Bacon. 1988. p. 256. 8. Goldstein, H. Classical Mechanics, 2 nd ed., Addison Wesley 1980. 9. Everitt, C. W. Francis. Stanford Relativity Gyro Experiment. SPIE 1986. 10. Ciufolini and Wheeler. Gravitation and Inertia. Princeton Series in Physics. 1995. 11. Rainer Weiss. Gravitational radiation, Rev. Mod. Phys. Vol. 71 No. 2, 1999. 12. Thorne, Kip. Applications of classical physics, Ph 136, Caltech. Ch 26, 2003. 13. Misner, Thorne and Wheeler. Gravitation. Freeman 1973. 14. Harrison, H. R. and Nettleton, T. Advanced Engineering Dynamics. Arnold (Wiley) 1997. 15. Will, C. M. Space-based Gravity Tests, Nature Vol. 347 p516 11/10/1990. 16. Longair, M. S. Theoretical Concepts in Physics, Cambridge 1984. 17. Heaviside, O. A Gravitational and Electromagnetic Analogy. The Electrician, 31 1893. 18. Symon, K. R. Mechanics, 3 rd ed., Addison Wesley 1971. 19. Harrison, H. R. Gravity, Galileo to Einstein and Back. (Revised) U.P. 2016. 20. Davies, P. C. W. The Search for Gravity Waves. Cambridge U. P. 1980. 21. Will, C. M. Space-based Gravity Tests, Nature Vol. 347 p516 11/10/1990. 22. Taylor, Fowler and McCulloch. Binary Pulsar PSR1913+16. Nature Vol. 277 8 th Feb. 1979. 23. Adams, E.R. et al. Six High-Precision Transits of OGLE-TR-113b. Astrophysical Journal 721:1829- 1834, 2010 Oct 1. 24. Ferreira, Pedro. Instant Expert, General Relativity. New Scientist 3 rd July 2010. 25. Peters and Mathews. Physical Review, Vol. 131, 1963. 26. Weisberg and Taylor. arXiv:astro-ph/0407149v1. 2004. 27. Everitt, C. W. F. et. al, Gravity Probe B: Final Results. Phys.Rev. Lett. 106.221101. May 2011. 28. Ciufolini, I. et al. Detection of the Lense-Thirring Effect due to Earth/s Spin. arXiv:gr-qc/9704065v1 23 Apr. 1997. 29. Iorio, L. et al. Phenomenology of the Lense-Thirring effecting the Solar System. arXiv:1009.3225v2 [gr- qc] 30 Sept 2010. 30. Binary Pulsars. Orbital Precession and Decay. H. Ron Harrison. January 2011. http://vixra.org/abs/ 1101.0031. 31. Gravitomagnetics, a Simpler Approach Applied to Rotating Bodies. H. Ron Harrison. June 2011. http://vixra.org/abs/1106.0048. Global Journal of Researches in Engineering (A ) Volume XxXII Issue I Version I 11 Year 2022 © 2022 Global Journals Gravitomagnetics a Simpler Approach Applied to Dynamics within the Solar System 32. H. Ron Harrison. Post Newtonian gravity, a new simpler approach. Int. J.Space Science and Engineering. Vol, 4, No. 2, 2016.