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Journal articles on the topic 'Sun Saturn'

Author: Grafiati
Published: 5 June 2025
Last updated: 16 July 2025

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1

Locatelli, Ugo, and Antonio Giorgilli. "Invariant tori in the Sun--Jupiter--Saturn system." Discrete & Continuous Dynamical Systems - B 7, no. 2 (2007): 377–98. http://dx.doi.org/10.3934/dcdsb.2007.7.377.

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2

Sheth, Dhwani, Niraj M. Pathak, V. O. Thomas, and Elbaz I. Abouelmagd. "Periodic Orbits Analysis of Elliptical Sun–Saturn System." Astronomy Reports 67, no. 5 (2023): 520–35. http://dx.doi.org/10.1134/s1063772923050104.

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3

Jackman, Caitríona M., and Christopher S. Arridge. "How does the Sun Influence the Magnetospheres of Jupiter and Saturn?" Proceedings of the International Astronomical Union 13, S335 (2017): 109–13. http://dx.doi.org/10.1017/s1743921317011620.

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AbstractSpacecraft have visited Jupiter and Saturn at all phases of the solar cycle and thus we have a wealth of data with which to explore both upstream parameters and magnetospheric response. In this paper we review upstream parameters including interplanetary magnetic field strength and direction, solar wind dynamic pressure, plasma beta and Mach number. We consider the impact of changing solar wind on dayside coupling via reconnection. We also comment on how solar UV flux variability over a solar cycle influences the plasma and neutral tori in the inner magnetospheres of Jupiter and Saturn
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4

Pathak, Niraj, R. K. Sharma, and V. O. Thomas. "Evolution of Periodic Orbits in the Sun-Saturn System." International Journal of Astronomy and Astrophysics 06, no. 02 (2016): 175–97. http://dx.doi.org/10.4236/ijaa.2016.62015.

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5

Donnison, J. R., and D. F. Mikulskis. "The orbital stability of the Sun-Jupiter-Saturn system." Symposium - International Astronomical Union 172 (1996): 53–56. http://dx.doi.org/10.1017/s0074180900127123.

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Kuiper(1973) suggested that the stability of the Solar System may be meaningfully investigated by studying the stability of the Sun-Jupiter-Saturn system. Numerical investigations by Nacozy(1976) showed that mass enhancement of the two planets beyond a factor of 29.25 led to instabilities in the system. In this new investigation similar mass enhancements were studied in detail numerically and compared with the analytical values derived from the c2H method. In addition, the eccentricities of the two planets were varied as well as their masses. It was found that the system soon showed signs of i
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6

Orobitg, Christine. "La astrología, una clave para leer la literatura del Siglo de oro: la temática de Saturno y sus hijos." JANUS. Estudios sobre el Siglo de Oro, no. 11 (November 23, 2023): 507–29. http://dx.doi.org/10.51472/jeso20221121.

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RESUMEN: El presente artículo examina las representaciones de Saturno y de sus hijos en diversos manuales de astrología de finales de la Edad Media hasta principios del siglo XVIII, mostrando su funcionamiento y significación. La segunda parte del artículo analiza cómo estas representaciones se transmiten a la literatura áurea mostrando cómo la temática de Saturno y de sus hijos constituye una clave de lectura para diferentes textos literarios. La última parte del artículo se centra más concretamente en el universo poético original desarrollado por Francisco de la Torre, mostrando que este esp
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7

Harnetty, Brian. "Multi-Voiced Archival Performances and Sun Ra/ El Saturn Collection." SoundEffects - An Interdisciplinary Journal of Sound and Sound Experience 7, no. 3 (2018): 3–19. http://dx.doi.org/10.7146/se.v7i3.105226.

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This article critically explores creative reinterpretations of a sonic archive. It focusses on the Sun Ra/El Saturn Collection, a catalogue of the experimental jazz composer Sun Ra (born Herman Poole Blount, 1914-93). In 2010 the collection’s caretakers commissioned visual artists, writers and musicians, including myself, to create new works based on the recordings. Each resulting work acts as an archival performance, understood here as any embodied reimagining and recontextualisation of the archive. Together, the works suggest a process of listening to and remixing the archive ‘from below’, r
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8

Weigt, D. M., W. R. Dunn, C. M. Jackman, et al. "Searching for Saturn’s X-rays during a rare Jupiter Magnetotail crossing using Chandra." Monthly Notices of the Royal Astronomical Society 506, no. 1 (2021): 298–305. http://dx.doi.org/10.1093/mnras/stab1680.

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ABSTRACT Every 19 yr, Saturn passes through Jupiter’s ‘flapping’ magnetotail. Here, we report Chandra X-ray observations of Saturn planned to coincide with this rare planetary alignment and to analyse Saturn’s magnetospheric response when transitioning to this unique parameter space. We analyse three Director’s Discretionary Time (DDT) observations from the High Resolution Camera (HRC-I) on-board Chandra, taken on 2020 November 19, 21, and 23 with the aim to find auroral and/or disc emissions. We infer the conditions in the kronian system by looking at coincident soft X-ray solar flux data fro
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9

Zhan, Chaojin, Yu Jiang, Hengnian Li, and Yongjie Liu. "Dynamics and Control of Typical Orbits around Saturn." Applied Sciences 12, no. 3 (2022): 1462. http://dx.doi.org/10.3390/app12031462.

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This paper investigates the dynamics of some typical orbits around Saturn, including sun-synchronous orbits, repeating ground track orbits, frozen orbits, and stationary orbits, and corresponding control methods mainly based on the mean element theory. The leading terms of Saturn’s aspheric gravitational field, J2 and J4 terms, are used when designing the orbits around Saturn. Two control methods of sun-synchronous orbits, including initial inclination-biased method and periodic inclination-biased method, are used to damp the local time drift at the descending node, which is caused by solar gr
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10

Broucke, R. A. "Numerical Simulations of Planetary Systems of the Jupiter-Saturn Type." Symposium - International Astronomical Union 152 (1992): 33–36. http://dx.doi.org/10.1017/s0074180900090902.

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We made a numerical study of the General Three-Body Problem in two dimensions, with the intention to obtain some statistical estimates of the outcome of the system after a long time. Two different sets of masses were used. In the first series of experiments we use masses in the ratio of 0.95, 0.04 and 0.01. In the second series, we use masses that are exactly in the Sun-Jupiter-Saturn ratio. To facilitate the discussion, we use the names Sun, Jupiter and Saturn for the three masses, in both cases. In all our experiments, the orbit of Jupiter starts with zero eccentricity and with a unit radius
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11

A., Jagadeesan* &. Dr. K. Jothimani**. "CAREER CAUSED BY THE CONJUNCTION OF OTHER PLANETS WITH SATURN." International Journal of Engineering Research and Modern Education (IJERME) 7, no. 2 (2022): 14–19. https://doi.org/10.5281/zenodo.7496312.

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In this Article  to learn about the profession caused by the conjunction of other planets with Saturn, and  the combination of two planets with Saturn, also the wealth caused by the conjunction of other planets with Venus, and the  combination of two planets with Venus in Bhrigu Nandi Nadi System.
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12

Coker, Christine E., Patricia R. Knight, and John M. Anderson. "Landscape Performance of Sun Coleus in Southern Mississippi." HortTechnology 15, no. 3 (2005): 690–93. http://dx.doi.org/10.21273/horttech.15.3.0690.

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Sun coleus (Solenostenum scutellarioides) are commonly used in the southern landscape. However, with the introduction of new cultivars, producers and consumers may be unaware of the selection and landscape performance of sun coleus. Sun coleus cultivars were trialed under landscape conditions at the South Mississippi Branch Station in Poplarville, Miss., in 2000 and 2001. The objective of this study was to evaluate sun coleus cultivars based on landscape performance criteria including flowering, durability, vigor, uniqueness, and insect and disease resistance. Cultivars performing well over bo
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13

Vidmachenko, Anatoliy. "SEASONAL CHANGES ON SATURN’S MOON TITAN." Sworld-Us Conference proceedings, usc21-01 (November 30, 2023): 48–53. http://dx.doi.org/10.30888/2709-2267.2023-21-01-011.

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During its rotation around the Sun due to the inclination of the equator to the plane of the orbit at 26.73° Saturn has significant differences in the flow of solar energy to the opposite hemispheres. Due to the orbital eccentricit, the southern hemispher
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14

Pashkevich, Vladimir V., and Andrey N. Vershkov. "Geodetic Precession of the Sun, Solar System Planets, and their Satellites." Artificial Satellites 57, no. 1 (2022): 77–109. http://dx.doi.org/10.2478/arsa-2022-0005.

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Abstract The effect of the geodetic precession is the most significant relativistic effect in the rotation of celestial bodies. In this article, the new geodetic precession values for the Sun, the Moon, and the Solar System planets have been improved over the previous version by using more accurate rotational element values. For the first time, the relativistic effect of the geodetic precession for some planetary satellites (J1–J4, S1–S6, S8–S18, U1–U15, N1, and N3–N8) with known quantities of the rotational elements was studied in this research. The calculations of the values of this relativi
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15

Pashkevich, Vladimir V., and Andrey N. Vershkov. "Geodetic Precession of the Sun, Solar System Planets, and their Satellites." Artificial Satellites 57, no. 1 (2022): 77–109. http://dx.doi.org/10.2478/arsa-2022-0005.

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Abstract The effect of the geodetic precession is the most significant relativistic effect in the rotation of celestial bodies. In this article, the new geodetic precession values for the Sun, the Moon, and the Solar System planets have been improved over the previous version by using more accurate rotational element values. For the first time, the relativistic effect of the geodetic precession for some planetary satellites (J1–J4, S1–S6, S8–S18, U1–U15, N1, and N3–N8) with known quantities of the rotational elements was studied in this research. The calculations of the values of this relativi
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16

Lee, Allan Y. "Risk Assessment of Hypervelocity Impact of Saturn Dust on Cassini Sun Sensors." Journal of Spacecraft and Rockets 54, no. 4 (2017): 892–98. http://dx.doi.org/10.2514/1.a33821.

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17

van Veen, tobias c. "Destination Saturn: Sun Ra's Afrofuturist Utopias in the Art of Stacey Robinson." TOPIA: Canadian Journal of Cultural Studies 39 (April 2018): 145–66. http://dx.doi.org/10.3138/topia.39.07.

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18

Verma, S. D. "Tidal Force of Sun Due to Planetary Radial Alignment and Sun-Spot Cycle." International Astronomical Union Colloquium 132 (1993): 407–14. http://dx.doi.org/10.1017/s0252921100066306.

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AbstractIt is well known that the Sun’s radiation and a large number of phenomena occurring on the sun have influence on the Earth’s near environment i.e. Atmosphere, Ionosphere, Magnetosphere, etc. These manifest themselves as day-night, seasons, tides and many changes in the neutral atmosphere; changes in meteorological parameters. These changes are directly or indirectly related to variations in solar parameters, such as solar flares, magnetic storms, variations in sunspot number occurring in solar photosphere. Sunsports are observed, their number counted and their accurate records maintain
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19

Yang, Biao, Yu Jiang, Hengnian Li, et al. "Semi-Analytical Search for Sun-Synchronous and Planet Synchronous Orbits around Jupiter, Saturn, Uranus and Neptune." Mathematics 10, no. 15 (2022): 2684. http://dx.doi.org/10.3390/math10152684.

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With the development of aerospace science and technology, more and more probes are expected to be deployed around extraterrestrial planets. In this paper, some special orbits around Jupiter, Saturn, Uranus, and Neptune are discussed and analyzed. The design methods of some special orbits are sorted out, considering the actual motion parameters and main perturbation forces of these four planets. The characteristics of sun-synchronous orbits, repeating ground track orbits, and synchronous planet orbits surrounding these plants are analyzed and compared. The analysis results show that Uranus does
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20

Belenkaya, E. S., S. W. H. Cowley, and I. I. Alexeev. "Saturn's aurora in the January 2004 events." Annales Geophysicae 24, no. 6 (2006): 1649–63. http://dx.doi.org/10.5194/angeo-24-1649-2006.

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Abstract. Differences in the solar wind interaction with the magnetosphere of Saturn relative to the Earth result from the decrease in the solar wind plasma density and magnetic field strength with distance from the Sun, and from the change in the average angle of the IMF at Saturn's orbit. Other reasons are related to Saturn's rapid rotation and internal magnetospheric plasma sources. Moreover, the IMF structure observed by Cassini in 2003–2004 during the approach to Saturn is consistent with corotating interaction regions (CIRs) existing during the declining phase of the solar cycle. Two cas
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21

Bretagnon, P., and G. Francou. "General Theory for the Outer Planets." Symposium - International Astronomical Union 152 (1992): 37–42. http://dx.doi.org/10.1017/s0074180900090914.

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An iterative method for the construction of planetary theories has been developed in order to determine the high order perturbations with respect to the masses. These perturbations are indeed needed to enlarge the validity span of analytical theories up to some million years. The application to the simplified Sun-Jupiter-Saturn problem gives a solution accurate over several ten million years. Throughout the study of the four outer planets we meet with convergence difficulties especially in the determination of fundamental frequencies. One of the results of this study is it shows evidence of lo
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22

Standish, E. M. "Testing alternate gravitational theories." Proceedings of the International Astronomical Union 5, S261 (2009): 179–82. http://dx.doi.org/10.1017/s1743921309990354.

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AbstractThe planetary ephemerides are used to examine different suggested forms of the gravitational equations of motion which could possibly cause the observed Pioneer Anomaly. It is shown that most of the forms would be unacceptable, including that generally assumed – a constant acceleration directed toward the Sun. The tests show that three other forms could not exist within 10 au's of the Sun. Only one suggested form would be compatible with the Pioneer Anomaly affecting Saturn or any other more inward planet. Additional planetary observations in the future may possibly eliminate this form
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23

Prangé, Renée, Laurent Pallier, Kenneth C. Hansen, et al. "An interplanetary shock traced by planetary auroral storms from the Sun to Saturn." Nature 432, no. 7013 (2004): 78–81. http://dx.doi.org/10.1038/nature02986.

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24

Arlot, J. E., W. Thuillot, F. Colas, et al. "First Results of the PHESAT95 Campaign of Observation of the Phenomena of the Satellites of Saturn." International Astronomical Union Colloquium 165 (1997): 531–34. http://dx.doi.org/10.1017/s0252921100047060.

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From 1992 to 1999, the satellites of Saturn are involved in several phenomena: eclipses or occultations by the planet, transits in front of Saturn, or transits of their umbra. These phenomena occur thanks to the geometrical circumstances in 1995 when the Earth and the Sun went through the plane of the Saturnian ring and consequently through the orbital planes of the main satellites. These circumstances are also favorable to the observation of mutual phenomena occurring when the satellites eclipse or occult each other. These mutual phenomena and the eclipses by Saturn are rare as they occur onl
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25

M., Murugarajan* &. Dr. G. Subramanian**. "SPIRITUALITY AND ASTROLOGY." International Journal of Computational Research and Development (IJCRD) 7, no. 2 (2022): 51–53. https://doi.org/10.5281/zenodo.7497294.

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Our saints have given more explanation about soul. Each planet donotes a particular god to worship. Trine darma 1/5/9 bhavas shows one's spiritual achievement. Sun, Jupiter, Saturn and Kethu are very important planets to achieve spirituality. There are three types of Karma. There areSanchitha karma. Proptha Karma and Agaamiya Karma. Some planetery combinations make one to shine in spiritual world.
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26

Tlatov, Andrey G. "Impact of the solar magnetic cycle on a protoplanetary disk." Proceedings of the International Astronomical Union 5, S264 (2009): 401–3. http://dx.doi.org/10.1017/s1743921309992985.

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AbstractWe consider the influence of the periodic magnetic field of the Sun on the protoplanetary disk. Solar magnetic cycle may create a special orbit, which were formed main planets of the solar system. In orbits on which magnetic field accumulation occurs most effectively, there is a substance replacement. The Keplerian orbit with the period close to the period of solar magnetic cycle T ~ TM is most unstable for material accumulation. Two most close orbits where there is an accumulation of substance have periods T = 1/2TM and T=5/4TM. These orbits on are close to orbits of Jupiter and Satur
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27

Burne, Sofía, César Bertucci, Nick Sergis, et al. "Space Weather in the Saturn–Titan System." Astrophysical Journal 948, no. 1 (2023): 37. http://dx.doi.org/10.3847/1538-4357/acc738.

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Abstract New evidence based on Cassini magnetic field and plasma data has revealed that the discovery of Titan outside Saturn’s magnetosphere during the T96 flyby on 2013 December 1 was the result of the impact of two consecutive interplanetary coronal mass ejections (ICMEs) that left the Sun in 2013 early November and interacted with the moon and the planet. We study the dynamic evolution of Saturn's magnetopause and bow shock, which evidences a magnetospheric compression from late November 28 to December 4 (at least), under prevailing solar wind dynamic pressures of 0.16–0.3 nPa. During this
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28

Kwok, Johnny H., and Paul E. Nacozy. "Periodic orbits of the general three-body problem for the Sun-Jupiter-Saturn system." Celestial Mechanics 35, no. 3 (1985): 289–303. http://dx.doi.org/10.1007/bf01227658.

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29

Lowenthal, Michael. "Face the Music: My Improbable Trip to Saturn (Or Close Enough) with Sun Ra." Ploughshares 43, no. 3 (2017): 1–27. http://dx.doi.org/10.1353/plo.2017.0054.

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30

Ipatov, S. I. "Migration of Celestial Bodies in the Solar System." Symposium - International Astronomical Union 202 (2004): 190–92. http://dx.doi.org/10.1017/s0074180900217816.

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Migration of planetesimals and embryos of forming planets was investigated on the basis of computer runs of the evolution of disks of gravitating bodies orbiting the Sun. Our results obtained earlier with the use of the spheres' method are close to the results obtained recently by other authors by numerical integration. Due to the interaction with migrating planetesimals, the embryos of Uranus and Neptune, which acquired most of their masses near the orbit of Saturn, could migrate to the present distances from the Sun moving all time in nearly circular orbits. Each of the terrestrial planets i
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31

IORIO, L., and M. L. RUGGIERO. "HOŘAVA–LIFSHITZ GRAVITY: TIGHTER CONSTRAINTS FOR THE KEHAGIAS–SFETSOS SOLUTION FROM NEW SOLAR SYSTEM DATA." International Journal of Modern Physics D 20, no. 06 (2011): 1079–93. http://dx.doi.org/10.1142/s0218271811019281.

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We analytically work out the perturbation Δρ induced by the Kehagias–Sfetsos (KS) spacetime solution of the Hořava–Lifshitz (HL) modified gravity at long distances on the two-body range ρ for a pair of test particles A and B orbiting the same mass M. We apply our results to the most recently obtained range residuals δρ for some planets of the solar system (Mercury, Mars, Saturn) ranged from the Earth to effectively constrain the dimensionless KS parameter ψ0 for the Sun. We obtain [Formula: see text] (Mercury), [Formula: see text] (Mars), and [Formula: see text] (Saturn). Such lower bounds are
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32

Banik, Indranil, and Pavel Kroupa. "Solar System limits on gravitational dipoles." Monthly Notices of the Royal Astronomical Society 495, no. 4 (2020): 3974–80. http://dx.doi.org/10.1093/mnras/staa1447.

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ABSTRACT The gravitational dipole theory of Hadjukovic (2010) is based on the hypothesis that antimatter has a negative gravitational mass and thus falls upwards on the Earth. Astrophysically, the model is similar to but more fundamental than Modified Newtonian Dynamics (MOND), with the Newtonian gravity $g_{_\mathrm{ N}}$ towards an isolated point mass boosted by the factor $\nu = 1 + \left(\alpha /x \right) \tanh \left(\sqrt{x}/\alpha \right)$, where $x \equiv g_{_\mathrm{ N}}/a_{_0}$ and $a_{_0} = 1.2 \times 10^{-10}$ m s−2 is the MOND acceleration constant. We show that α must lie in the r
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Pathak, Niraj, and V. O. Thomas. "Evolution of the “f” Family Orbits in the Photo Gravitational Sun-Saturn System with Oblateness." International Journal of Astronomy and Astrophysics 06, no. 03 (2016): 254–71. http://dx.doi.org/10.4236/ijaa.2016.63021.

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34

Gaulme, P., S. Deheuvels, W. W. Weiss, et al. "HD 46375: seismic and spectropolarimetric analysis of a young Sun hosting a Saturn-like planet." Astronomy & Astrophysics 524 (November 23, 2010): A47. http://dx.doi.org/10.1051/0004-6361/201014142.

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35

Sansottera, M., U. Locatelli, and A. Giorgilli. "On the stability of the secular evolution of the planar Sun–Jupiter–Saturn–Uranus system." Mathematics and Computers in Simulation 88 (February 2013): 1–14. http://dx.doi.org/10.1016/j.matcom.2010.11.018.

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36

Cohen, I. Bernard. "Newtons Determination of the Masses and Densities of the Sun, Jupiter, Saturn, and the Earth." Archive for History of Exact Sciences 53, no. 1 (1998): 83–95. http://dx.doi.org/10.1007/s004070050022.

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37

Hong, Soon-Tae. "Rough Estimates of Solar System Gravitomagnetic Effects in Post-Newtonian Gravity." Universe 11, no. 3 (2025): 90. https://doi.org/10.3390/universe11030090.

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In order to properly describe the gravity interactions, including the mass currents, in gravitomagnetism, we construct four Maxwell-type gravitational equations that are shown to be analogs of the Maxwell equations in electromagnetism. Next, exploiting the Maxwell-type gravitational equations, we explicitly predict the mass magnetic fields for both the isolated system of the spinning Moon orbiting the spinning Earth and that of the Sun and solar system planets orbiting the spinning Sun, whose phenomenological values have not been evaluated in the preceding Newtonian gravity formalisms. In grav
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38

Encrenaz, Thérèse. "Jupiter and the other Giants: A Comparative Study." Proceedings of the International Astronomical Union 6, S269 (2010): 155–64. http://dx.doi.org/10.1017/s1743921310007362.

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AbstractThe four giant planets - Jupiter, Saturn, Uranus and Neptune - have common properties which make them very different from the terrestrial planets: located at large distances from the Sun, they have big sizes and masses but low densities; they all have a ring system and a large number of satellites. These common properties can be understood in the light of their formation scenario, based upon the accretion of protosolar gas on an initial icy core. Giant planets have been explored by space missions (Pioneer 10 and 11, Voyager 1 and 2, Galileo and Cassini) but also by Earth-orbiting satel
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Simonenko, Sergey V. "The Linkage of the Different Distinct Great Volcanic Eruptions of the Thera (Santorini) in the Range (1700÷1450 ±14) BC and the Related Subsequent Intensifications of the Global Seismicity and Volcanic Activity in the End of the 19TH Century and." JOURNAL OF ADVANCES IN PHYSICS 4, no. 2 (2014): 484–516. http://dx.doi.org/10.24297/jap.v4i2.2038.

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The article presents the development of the cosmic geophysics (representing the deterministic thermohydrogravidynamic theory based on the author’s generalized differential formulation of the first law of thermodynamics) by taking into account the non-stationary energy gravitational influences on the Earth of the Sun (owing to the gravitational interaction of the Sun with the outer large planets) along with the non-stationary energy gravitational influences of the system Sun-Moon, the Venus, the Mars and the Jupiter. The author presents the evidence of the founded ranges of the fundamental
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40

Johnson, Ancy, and Ram Krishan Sharma. "Locations of Lagrangian points and periodic orbits around triangular points in the photo gravitational elliptic restricted three-body problem with oblateness." International Journal of Advanced Astronomy 7, no. 2 (2019): 25. http://dx.doi.org/10.14419/ijaa.v7i2.29377.

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Locations of the Lagrangian points are computed and periodic orbits are studied around the triangular points in the photogravitational elliptic restricted three-body problem (ER3BP) by considering the more massive primary as the source of radiation and smaller primary as an oblate spheroid. A new mean motion taken from Sharma et al. [13] is used to study the effect of radiation pressure and oblateness of the primaries. The critical mass parameter that bifurcates periodic orbits from non-periodic orbits tends to reduce with radiation pressure and oblateness. The transition curves defining stabl
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Perminov, A. S., and E. D. Kuznetsov. "Orbital Evolution of the Sun–Jupiter–Saturn–Uranus–Neptune Four-Planet System on Long-Time Scales." Solar System Research 52, no. 3 (2018): 241–59. http://dx.doi.org/10.1134/s0038094618010070.

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P., Chinnadurai* &. Dr. N. G. Kumaran**. "MARRIAGE LIFE THROUGH "BHRIGU NANDI NADI"." International Journal of Computational Research and Development (IJCRD) 8, no. 1 (2023): 4–7. https://doi.org/10.5281/zenodo.7509169.

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In this article, it is to learn about the “Marriage Confirmation by Bhrigu Nandi Nadi” method. Whether a person will get married or not can be answered very simply in this method.  In this method, only four planets are taken into account to check the marriage confirmation of a person. Jupiter: Jupiter is the life governing planet for Male so Jupiter is taken as Lagna for Male. Venus: Venus is the life governing planet for Female.So, Venus is taken as Lagna for Female and In male horoscope Venus should be taken as wife Saturn: Saturnis a Karmic (Karaka of karmic) planet for bot
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Kharin, A. S., and Yu B. Kolesnik. "On the Errors of the Ephemerides Derived From Optical Observations of Planets." Symposium - International Astronomical Union 141 (1990): 189–90. http://dx.doi.org/10.1017/s0074180900086770.

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On the basis of about 40 000 optical observations of the Sun and major planets obtained with 33 meridian and photographic instruments during last 3 decades a comparative consistency analysis of old and new ephemerides with these observations has been made.For the inner planets significant improvement in RA is confirmed while in DEC it is less apparent. For outer planets the improvement is strongly marked in DEC for Jupiter and Saturn and espesially for Neptune in both coordinates. Significant systematic differences between meridian and photographic observations are detected.
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Hui 許, Man-To 文韜, Paul A. Wiegert, Robert Weryk, et al. "2019 UO14: A Transient Trojan of Saturn." Astrophysical Journal Letters 975, no. 1 (2024): L3. http://dx.doi.org/10.3847/2041-8213/ad84ef.

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Abstract Saturn has long been the only giant planet in our solar system without any known Trojan members. In this Letter, with serendipitous archival observations and refined orbit determination, we report that 2019 UO14 is a Trojan of the gas giant. However, the object is only a transient Trojan currently librating around the leading Lagrange point L 4 of the Sun–Saturn system in a period of ∼0.7 kyr. Our N-body numerical simulation shows that 2019 UO14 was likely captured as a Centaur and became trapped around L 4 ∼ 2 kyr ago from a horseshoe co-orbital. The current Trojan state will be main
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45

Kukanova, Viktoria V. "Астрономическая терминология монгольских языков: материалы к этимологическому словарю". Oriental studies 13, № 6 (2020): 1652–66. http://dx.doi.org/10.22162/2619-0990-2020-52-6-1652-1666.

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Introduction. The system of astronomical terms in Mongolic languages is structurally complicated due to multiple layers of both pre-Buddhist and Buddhist beliefs adopted by proto-Mongols. The latter had tended to revere celestial bodies and elaborated a number of cults still traceable in spiritual and material culture of descending nations. Goals. The work aims at identifying Mongolic astronomical terms and provides preliminary analyses of their semantics and etymologies. Materials and methods. The paper focuses on dictionaries of Mongolic languages, examines etymological studies and Turkic di
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Owen, Tobias, and H. B. Niemann. "The origin of Titan's atmosphere: some recent advances." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 367, no. 1889 (2008): 607–15. http://dx.doi.org/10.1098/rsta.2008.0247.

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It is possible to make a consistent story for the origin of Titan's atmosphere starting with the birth of Titan in the Saturn subnebula. If we use comet nuclei as a model, Titan's nitrogen and methane could have easily been delivered by the ice that makes up approximately 50 per cent of its mass. If Titan's atmospheric hydrogen is derived from that ice, it is possible that Titan and comet nuclei are in fact made of the same protosolar ice. The noble gas abundances are consistent with relative abundances found in the atmospheres of Mars and Earth, the Sun, and the meteorites.
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Kuznetsov, E. D., and K. V. Kholshevnikov. "Dynamical evolution of weakly disturbed two-planetary system on cosmogonic time scales: The Sun-Jupiter-Saturn system." Solar System Research 40, no. 3 (2006): 239–50. http://dx.doi.org/10.1134/s0038094606030087.

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Haghighipour, Nader, Morris Podolak, and Esther Podolak. "Detailed Calculations of the Efficiency of Planetesimal Accretion in the Core-accretion Model. III. The Contribution of Planetesimals beyond Saturn." Astrophysical Journal 977, no. 1 (2024): 124. https://doi.org/10.3847/1538-4357/ad9003.

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Abstract Continuing our initiative on advancing the calculations of planetesimal accretion in the core-accretion model, we present here the results of our recent study of the contributions of planetesimals around and beyond the orbit of Saturn. In our first two papers, where our focus was on the effects of the Sun and Saturn, the initial distribution of planetesimals was limited to the regions around the accretion zone of a growing Jupiter. In this paper, we expanded that distribution to regions beyond the accretion zone of Saturn. We integrated the orbits of a large ensemble of planetesimals
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Bretagnon, P. "Construction of a planetary solution with the help of an n-body program and analytical complements." Symposium - International Astronomical Union 114 (1986): 69. http://dx.doi.org/10.1017/s0074180900148004.

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Up to now we have been dealing with the construction of entirely analytical planetary theories such as VS0P82 (Bretagnon, 1982) and T0P82 (Simon, 1983). These theories take into account the whole of the newtonian perturbations of nine point masses: the Sun, the Earth-Moon barycenter, the planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus and Neptune. They also take into account perturbations due to some minor planets, to the action of the Moon and the relativistic effects. The perturbations of these last three types are in a very simple way under analytical form but they considerably increa
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Ga, Dheebakaran, Kokilavani S, Santosh Ganapati Patil, et al. "Planet activeness: a new concept to enhance the accuracy of Astromet weather forecast." F1000Research 13 (July 5, 2024): 746. http://dx.doi.org/10.12688/f1000research.149941.1.

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Background Astrometeorology is an ancient science, that deals the relationship between planet position and weather events. Several Indian studies proved that Astrometeorology could be a complementary method to improve numerical weather forecast accuracy. Since 2011, Tamil Nadu Agricultural University is conducting astrometeorological research and devised a novel concept “Planet Activeness Chart”. The principle is that “planets’ influence on a location’s weather varies throughout the day and may be negative, inactive, active, highly active and rule depending on their angle to that location”. Mo
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