Relevant bibliographies by topics / Chaya Planets and Orbits/Planetary Positions

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Academic literature on the topic 'Chaya Planets and Orbits/Planetary Positions'

Author: Grafiati
Published: 5 June 2025
Last updated: 2 August 2025

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Journal articles on the topic "Chaya Planets and Orbits/Planetary Positions"

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Dr., P. Thangavel Murugan. "IMPORTANCE OF ASCENDANT AND IT'S LORD TO BE STRENGTH." International Journal of Scientific Research and Modern Education (IJSRME) 7, no. 2 (2022): 8–12. https://doi.org/10.5281/zenodo.7489890.

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It is an astrological theory that man determines his life by the name of destiny. To define this, the planetary positions and combinations in Janana Jatakas/Natal Chart help us to some extent to confirm that. With characters of the planet, they are divided into two groups like Subar and Asubar. And further, within the nine planets there are benefic planets and malefic planets. Benefic and malefic are determined depending of its origin first, Athipatyam as they acquired is next and their placements in the Janana Jataka at the last. There are many times benefic planets doesn’t work with th
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Sharma, Pravesh, Suresh Kumar Sahani, Kameshwar Sahani, and Kritika Sharma. "Modeling Planetary and Stellar Motion Using Differential Equations." ARZUSIN 3, no. 6 (2023): 769–82. http://dx.doi.org/10.58578/arzusin.v3i6.1991.

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The report aims to explore the application of differential equations in modeling the motion of planets and stars within our universe, serving as an introduction to the captivating realm of celestial mechanics. We utilize differential equations to represent the movement and positions of celestial bodies within a gravitational field, grounding our analysis in Newton's laws of motion and gravitation. Moreover, we employ Kepler's laws of planetary motion to elucidate the orbits of planets around the sun. It is important to note that this report offers a simplified perspective, designed for educati
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Lazzoni, C., S. Desidera, F. Marzari, et al. "Dynamical models to explain observations with SPHERE in planetary systems with double debris belts." Astronomy & Astrophysics 611 (March 2018): A43. http://dx.doi.org/10.1051/0004-6361/201731426.

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Context. A large number of systems harboring a debris disk show evidence for a double belt architecture. One hypothesis for explaining the gap between the debris belts in these disks is the presence of one or more planets dynamically carving it. For this reason these disks represent prime targets for searching planets using direct imaging instruments, like the Spectro-Polarimetric High-constrast Exoplanet Research (SPHERE) at the Very Large Telescope.Aim. The goal of this work is to investigate this scenario in systems harboring debris disks divided into two components, placed, respectively, i
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Pitjeva, E. V. "Influence of trans-neptunian objects on motion of major planets and limitation on the total TNO mass from planet and spacecraft ranging." Proceedings of the International Astronomical Union 5, S263 (2009): 93–97. http://dx.doi.org/10.1017/s1743921310001560.

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AbstractPerturbations from asteroids and Trans-Neptunian Objects affect significantly on the orbits of planets and should be taken into account when high-accuracy planetary ephemerides are constructed. On the other hand, from an analysis of motion of the major planets by processing of precise measurements of spacecraft a limitation on the total TNO mass may be obtained. To estimate influence of TNO on motion of planets the largest 21 TNO have been included into the process of simultaneous numerical integration, and positions of planets obtained with taking for TNO have been compared with posit
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Bartram, Peter, Alexander Wittig, Jack J. Lissauer, Sacha Gavino, and Hodei Urrutxua. "Orbital stability of compact three-planet systems – II: post-instability impact behaviour." Monthly Notices of the Royal Astronomical Society 506, no. 4 (2021): 6181–94. http://dx.doi.org/10.1093/mnras/stab1465.

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ABSTRACT Recent observational missions have uncovered a significant number of compact multi-exoplanet systems. The tight orbital spacing of these systems has led to much effort being applied to the understanding of their stability; however, a key limitation of the majority of these studies is the termination of simulations as soon as the orbits of two planets cross. In this work we explore the stability of compact, three-planet systems, and continue our simulations all the way to the first collision of planets to yield a better understanding of the lifetime of these systems. We perform over 25
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McTier, Moiya A. S., David M. Kipping, and Kathryn Johnston. "8 in 10 Stars in the Milky Way Bulge experience stellar encounters within 1000 AU in a gigayear." Monthly Notices of the Royal Astronomical Society 495, no. 2 (2020): 2105–11. http://dx.doi.org/10.1093/mnras/staa1232.

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ABSTRACT The Galactic bulge is a tumultuous dense region of space, packed with stars separated by far smaller distances than those in the Solar neighbourhood. A quantification of the frequency and proximity of close stellar encounters in this environment dictates the exchange of material, disruption of planetary orbits, and threat of sterilizing energetic events. We present estimated encounter rates for stars in the Milky Way bulge found using a combination of numerical and analytical methods. By integrating the orbits of bulge stars with varying orbital energy and angular momentum to find the
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Socas-Navarro, Hector. "On the Connection between Planets, Dark Matter and Cancer: Comment on “Planetary Dependence of Melanoma”." Biophysical Reviews and Letters 14, no. 01 (2019): 1–9. http://dx.doi.org/10.1142/s1793048019200017.

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In a recent paper, Zioutas and Valachovic (2018) claim that dark matter is responsible for a significant fraction of the melanoma skin cancer. This conclusion is drawn from their observation of a significant correlation between skin melanoma incidence in the US and the inner planets positions (especially those of Mercury and Earth). Here, I present a number of objections to their interpretation. Some (but not all) of the counterarguments are based on the analysis of a larger dataset from the same source, considering more cancer types and separating by patient attributes, such as race. One of t
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Gordon, Tyler A., and Eric Agol. "Analytic Light Curve for Mutual Transits of Two Bodies Across a Limb-darkened Star." Astronomical Journal 164, no. 3 (2022): 111. http://dx.doi.org/10.3847/1538-3881/ac82b1.

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Abstract We present a solution for the light curve of two bodies mutually transiting a star with polynomial limb darkening. The term “mutual transit” in this work refers to a transit of the star during which overlap occurs between the two transiting bodies. These could be an exoplanet with an exomoon companion, two exoplanets, an eclipsing binary and a planet, or two stars eclipsing a third in a triple-star system. We include analytic derivatives of the light curve with respect to the positions and radii of both bodies. We provide code that implements a photodynamical model for a mutual transi
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Fienga, A., A. Di Ruscio, L. Bernus, et al. "New constraints on the location of P9 obtained with the INPOP19a planetary ephemeris." Astronomy & Astrophysics 640 (July 28, 2020): A6. http://dx.doi.org/10.1051/0004-6361/202037919.

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Context. We used the new released INPOP19a planetary ephemerides benefiting from Jupiter-updated positions by the Juno mission and reanalyzed Cassini observations. Aims. We test possible locations of the unknown planet P9. To do this, we used the perturbations it produces on the orbits of the outer planets, more specifically, on the orbit of Saturn. Methods. Two statistical criteria were used to identify possible acceptable locations of P9 according to (i) the difference in planetary positions when P9 is included compared with the propagated covariance matrix, and (ii) the χ2 likelihood of pos
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Tang, K., Y. Z. Song, K. X. Shen, et al. "The orbit of Triton with new precise observations and the INPOP19a ephemeris." Astronomy & Astrophysics 641 (September 2020): A108. http://dx.doi.org/10.1051/0004-6361/202038556.

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Aims. The Gaia catalogue brings new opportunities and challenges to high-precision astronomy and astrometry. The precision of data reduction is therefore improved by a large number of reference stars with high-precision positions and proper motions. Numerous precise positions for Triton are obtained from the latest observations using the Gaia catalogue. Furthermore, the new INPOP19a planetary ephemeris, which also fits the observations from the Gaia Data Release 2, has recently become available. In this paper, a new orbit of Triton is calculated using the latest precise charge-coupled device (
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Book chapters on the topic "Chaya Planets and Orbits/Planetary Positions"

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Mee, Nicholas. "The Secret of the Universe." In Gravity: From Falling Apples to Supermassive Black Holes, 2nd ed. Oxford University PressOxford, 2022. http://dx.doi.org/10.1093/oso/9780192845283.003.0003.

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Abstract Astronomy was transformed through the work of Tycho Brahe and Johannes Kepler and this set the stage for the development of modern science. Tycho built enormous instruments to aid his observations and developed techniques for measuring the positions of stars and planets more accurately than ever before. Kepler studied theology and was driven to seek the geometrical architecture of the universe. His early ideas appear strange and mystical today, but following Tycho’s death in 1601, Kepler analysed his data and over the course of several years devised the laws of planetary motion. Keple
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