Welcome to the user page for editor David Charles Weber
Main interests:
Relativity theory
Vulcanism caused by meteor impacts.
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- this is a work in progress, so please do not discuss this
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D c weber (talk) 13:09, 23 December 2010 (UTC)
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Recent calculation of the Perihelion precession of Mercury
There have been more recent calculations of the motion of the planet Mercury by Russian scientists. These calculations use the same multi-body calculations used in the past,
but also using a eight step to calculate the precession of the perihelion of Mercury:
1) differential equations of motion and their solution method. [1][2][3][4][5][6][7][8]
2) developed a computer program (Galactica).[9]
3) derived formulae for geometric transformations.[10]
4) velocity of perihelion rotation relative to motionless space. .[11][12]
5) exact solution of axisymmetrical problem of n-bodies. [13]
6) developed a compound model of body rotation (i.e. rotation of axisymmetrical masses).[14][15][16][17]
7) calculated the action of compound model of rotating mass body on a satellite.[18]
8) calculated the action of the Solar System on Mercury's orbit.[19]
Amount (arcsec/Julian century) | Explaination |
---|---|
Based on Observational Data | |
-5028.82 [20] | Velocity of movement of vernal equinox point relative to motionless space |
5603.0 [21] | Velocity of perihelion rotation relative to the mobile vernal equinox point with including velocities changes of ecliptic and of Mercury orbit |
582.53 [22] | Velocity of perihelion rotation relative to motionless space |
By results of interaction under the Newton law of gravity. Velocity of rotation of a perihelion relative to motionless space | |
529.86 – [23](table 1 above) | Planets and the Sun interact as material points |
582[24] | Planets interact as material points, and the oblateness and rotation of the Sun is taken into account as compound model |
Conclusions | |
0.53 [25] | Discrepancy with just Newtonian Mechanics (calculated difference between Newton theory and actual precession) |
42.98 ±0.04 [26][27] | General relativity |
42.45 | Discrepancy with General Relativity (calculated difference between GR theory and actual precession) |
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Therefore, the observed velocity of perihelion rotation relative to motionless space is a solely determined interaction using Newton's law of universal gravitation.
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- ^ Melnikov,V.P., Smulsky,J.J., Krotov O.I., Smulsky,L.J. Orbits of The Earth And The Sun And Possible Their Influences On of The Earth Cryosphere (Statement of a Problem And The First Results) // Cryosphere of the Earth. - 2000. - Vol. IV, No. 3, Pp. 3-13. (In Russian).
- ^ Melnikov V. P., Smulsky J.J. The Astronomical Factors Of Influence On The Earth's Cryosphere And The Problem Of Their Research // Earth Cryosphere, 2004 Vol. VIII, No. 1. Pp. 3-14. (In Russian).
- ^ Smulsky J.J., Optimization of Passive Orbit with the Use of Gravity Maneuver // Cosmic Research, 2008, Vol. 46, No. 5, pp. 456–464. Original Russian Text ©, 2008, published in Kosmicheskie Issledovaniya, 2008, Vol. 46, No. 5, pp. 484–492.
- ^ Mel’nikov V.P., Smul’skii I.I., Smul’skii Ya.I., 2008. Compound modeling of Earth rotation and possible implications for interaction of continents // Russian Geology and Geophysics, 49, 851–858.
- ^ Grebenikov E.A., Smulsky J.J. Evolution of the Mars Orbit on Time Span in Hundred Millions Years / Reports on Applied Mathematics. Russian Academy of Sciences: A.A. Dorodnicyn Computing Center. Moscow. - 2007. 63 p.(In Russian ).
- ^ Melnikov V.P., Smulsky J.J.Astronomical theory of ice ages: New approximations. Solutions and challenges. - Novosibirsk: Academic Publishing House "GEO", 2009. - 84 p. The book in two languages. On the back side in Russian: Mel'nikov V.P., Smul'skiy I.I. (aka J.J. Smulsky) Astronomicheskaya teoriya lednikovykh periodov: Novye priblizheniya. Reshennye i nereshennye problemy. - Novosibirsk: Akademicheskoe izdatel'stvo "Geo", 2009. - 98 stranitz.
- ^ Smulsky J.J. (book) Numerical modeling of evolution of the satellite of a rotating body / In Col. The Theoretical and Applied tasks of the Nonlinear Analysis. Russian Academy of Sciences: A.A. Dorodnicyn Computing Center. Moscow. - 2008. Pp. 100-117. (In Russian).
- ^ Smulsky J.J., Compound model of rotation of the Sun and displacement of Mercury perihelion / The Fundamental and Applied Problems of the Mechanics: Proceeding of the VI All-Russian scientific Conference, devoted 130-th anniversary of Tomsk state university and 40-th anniversary NII of Applied Mathematics and the Mechanics of Tomsk State University. Tomsk, September 30 - October 2, 2008 - Tomsk: University Publishing House. – 2008 - Pp. 433-434 (in Russian)
- ^ see all 8 references of "1) differential equations"
- ^ Grebenikov E.A., Smulsky J.J. Evolution of the Mars Orbit on Time Span in Hundred Millions Years / Reports on Applied Mathematics. Russian Academy of Sciences: A.A. Dorodnicyn Computing Center. Moscow. - 2007. 63 p.(In Russian).
- ^ Grebenikov E.A., Smulsky J.J., ibid
- ^ Smulsky J.J., Compound model of rotation of the Sun and displacement of Mercury perihelion, ibid
- ^ Smulsky,J.J. Axisymmetrical problem of gravitational interaction of N-bodies //Mathematical modelling. - 2003, Vol. 15, No 5, Pp. 27-36 (in Russian)
- ^ Mel’nikov V.P., Smul’skii I.I., Smul’skii Ya.I., 2008. Compound modeling of Earth rotation and possible implications for interaction of continents // Russian Geology and Geophysics, 49, 851–858.
- ^ Melnikov V.P., Smulsky J.J.Astronomical theory of ice ages: New approximations. Solutions and challenges. - Novosibirsk: Academic Publishing House "GEO", 2009. - 844p. The book in two languages. On the back side in Russian: Mel'nikov V.P., Smul'skiy I.I. Astronomicheskaya teoriya lednikovykh periodov: Novye priblizheniya. Reshennye i nereshennye problemy. - Novosibirsk: Akademicheskoe izdatel'stvo "Geo", 2009. - 98 stranitz
- ^ Smulsky J.J. Numerical modeling of evolution of the satellite of a rotating body / In Col. The Theoretical and Applied tasks of the Nonlinear Analysis. Russian Academy of Sciences: A.A. Dorodnicyn Computing Center. Moscow. - 2008. Pp. 100-117. (In Russian).
- ^ Smulsky J.J. Compound model of rotation of the Sun and displacement of Mercury perihelion / The Fundamental and Applied Problems of the Mechanics: Proceeding of the VI All-Russian scientific Conference, devoted 130-th anniversary of Tomsk state university and 40-th anniversary NII of Applied Mathematics and the Mechanics of Tomsk State University. Tomsk, September 30 - October 2, 2008 - Tomsk: University Publishing House. – 2008 - Pp. 433-434. (In Russian).
- ^ Smulsky J.J. Numerical modeling of evolution of the satellite of a rotating body / In Col. The Theoretical and Applied tasks of the Nonlinear Analysis. Russian Academy of Sciences: A.A. Dorodnicyn Computing Center. Moscow. - 2008. Pp. 100-117. (In Russian).
- ^ Smulsky J.J., Compound model of rotation of the Sun and displacement of Mercury perihelion / The Fundamental and Applied Problems of the Mechanics: Proceeding of the VI All-Russian scientific Conference, devoted 130-th anniversary of Tomsk state university and 40-th anniversary NII of Applied Mathematics and the Mechanics of Tomsk State University. Tomsk, September 30 - October 2, 2008 - Tomsk: University Publishing House.
- ^ J.L. Simon, P. Bretagnon, J. Chapront, et. al., “Numerical Expression for Precession Formulae and Mean Elements for the Moon and the Planets”, Astron. Astrophys, vol. 282, pp. 663-683 (1994).
- ^ J.L. Simon, P. Bretagnon, J. Chapront, et. al., “Numerical Expression for Precession Formulae and Mean Elements for the Moon and the Planets”, Astron. Astrophys, vol. 282, pp. 663-683 (1994).
- ^ J.L. Simon, P. Bretagnon, J. Chapront, et. al., “Numerical Expression for Precession Formulae and Mean Elements for the Moon and the Planets”, Astron. Astrophys, vol. 282, pp. 663-683 (1994).
- ^ Smulsky J.J., Compound model..., ibid
- ^ Smulsky J.J., Compound model...ibid
- ^ Smulsky J.J., Compound model of rotation of the Sun and displacement of Mercury perihelion , cited above
- ^ L. Iorio "On the possibility of measuring the solar oblateness and some relativistic effects from planetary ranging" (2004)
- ^ Myles Standish, Jet Propulsion Laboratory (1998)