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| viXra.org > Astrophysics > 2309 |
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[6] viXra:2309.0157 [pdf] submitted on 2023-09-30 22:40:43
Authors: Tony Yuan
Comments: 8 Pages. (Note by viXra Admin: Real author name is required - Please conform!)
The relative velocity between objects will affect the effect between them. The effect caused by the chase between objects is called the general Doppler effect. The speed of gravitational field energy transmission is limited, so there is also a chase relationship between the gravitational field energy and the object. This paper explores whether the Doppler effect of the gravitational field can cause the slow expansion of planetary orbits, and then thinks whether the accelerating expansion of the universe also comes from the Doppler effect of this gravitational field.
Category: Astrophysics
[5] viXra:2309.0150 [pdf] submitted on 2023-09-29 20:47:20
Authors: Tony Yuan
Comments: 23 Pages.
Applying Newton’s universal gravitational equation, we have been able to calculate the orbit and orbital precession data of the planets in the solar system more accurately, but there are deviations between these data and astronomical observations. For example, the orbital precession of Mercury has a deviation of 43" per century. LIGO has discovered gravitational waves (GWs) from the depths of the universe, confirming that GWs are real, which brings us some new ideas for studying planetary orbits. We know that the disturbance of the gravitational field(GF) will cause GWs, then the sun’s shuttle in the Milky Way will also cause disturbances to the GF of the Milky Way, thus forming GWs around the sun, although it is very weak. But because the planets in the solar system are not far from the sun, the planets will feel the influence of GWs, which will affect the orbits of the planets. This article will analyze the specific distribution of GWs around the sun, and derive the dynamic gravitational equation under the influence of GWs, and apply it to the calculation of planetary orbits, and verify the correctness of the dynamic gravitational equation by comparing it with the astronomical observation data released by NASA, and the dynamic gravitational equation shows the anisotropic nature of gravity.
Category: Astrophysics
[4] viXra:2309.0099 [pdf] submitted on 2023-09-19 21:09:50
Authors: Jose J. Astorkia
Comments: 6 Pages.
An eigenexperiment shows systematic byass and miscalculation in celestial mechanics when relative velocity is greater than escape velocity. Evidences and consequences are presented.
Category: Astrophysics
[3] viXra:2309.0074 [pdf] submitted on 2023-09-15 03:01:57
Authors: Haijun Liu
Comments: 6 Pages.
The motion trajectories of planets are divided into static trajectories and dynamic trajectories. It was proposed that planets revolve around the center of mass of stars and other planets. It suggests that the center of mass of a planet, or the center of mass of an entire galaxy, is not a closed curve in the plane of the galaxy, but a solid spiral curve around that closed curve. It was proposed that the planet and its orbiting moons were a whole. It was proposed that the orbit of the planets around the star is a closed, irregular spiral curve around the center of mass of the planets and moons, around the center of mass of the stars and other planets. Similarly, the orbit of the satellite around the planet is also a circle of irregular spiral curves. The curve in the closed irregular galactic plane is static, and is the projection of the threaded center of the dynamic spiral curve onto the galactic plane. The closed irregular spiral curve is dynamic. It was proposed that the trajectory of the planets around the star was not an elliptic curve in the galactic plane, but a three-dimensional spiral curve around this irregular flat curve that resembled an ellipse. It turns out that Kepler's third law describes the dynamics of planets. In other words, Kepler's second law, which is a static description of planets, follows the area law. Kepler's third law, which describes the dynamics of planets, also follows the area law and is in perfect agreement with Newton's law of gravitation.
Category: Astrophysics
[2] viXra:2309.0067 [pdf] submitted on 2023-09-13 13:57:19
Authors: Herbert Weidner
Comments: 4 Pages.
A star — about the size of the Sun — orbits the nearby black hole BH1. The duo emits a gravitational wave that affects Earth's atmospheric pressure. With this receiving antenna and an extremely narrow-band receiver, we measure and evaluate the signal of the binary system. It is phase modulated with seven different frequencies that obey a simple formation law. The parameters of the PM allow the orbital periods, masses and positions of the planets to be estimated. The unexpectedly high values of the modulation index suggest that gravitational waves propagate slower than the speed of light.
Category: Astrophysics
[1] viXra:2309.0009 [pdf] submitted on 2023-09-01 12:59:14
Authors: Dmitriy S. Tipikin
Comments: 6 Pages.
Recent observations of unusual appearance of galaxies at high Z may be not due to unusual history of them, but rather because the light itself demonstrates a new type of interaction, leading to the unusually weak scattering. This extra-weak scattering only reveal itself on very large distances like 13 billions of light years and possibly means the presence of a new, non-electromagnetic type of interaction of light quanta. Reasons for such conclusion are outlined in the paper.
Category: Astrophysics
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