Importantly these equations allow further accurate tests of gravitation

Importantly these equations allow further accurate

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Importantly these equations allow further accurate tests of gravitation, particularly in the vicinity of black holes. 3: Conclusions and Discussion The principal findings in this paper are, that using a dynamic reformulation of gravity, we can formulate the equations in a way which technically agrees exactly with gravitational experiment. This is particularly applies to the timing of GPS systems. Here we also present the generic formulae for time dilation, which allow these equations to be used in instances including that of black hole gravitational systems. Here we further show, in extreme cases such as at the Schwarzschild radius of black holes, these dynamic advanced equations can be applied to gravitational time dilation . Equation (9), indicates that time dilation at the Schwarzschild radius, where time is slowed, is not infinitely slowed but slows by a factor of 1.5. Thus, using this Eq. (9), in the DNAg model the time dilation is not infinite, and does not result in a black hole singularity. In previous publications we have already calculated the advance in the perihelion of Mercury and other planets and astronomical objects in the solar system, to a very high degree of accuracy [3]. A reformulation of the equations shows that advanced gravitational equations are also very accurate for binary pulsars, using recent data for PSR B 1534+12 from Straumann [6, 7]. Here, it has also been shown that theses equations are accurate for observations of Cygnus X-1 [12-14]. These results suggest a 12
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straight line correlation between dynamic advanced gravitation, for low and medium mass and high density gravitational bodies. These dynamic advanced equations, can also help explain the apparent missing mass of the galaxy, due to the presence of (primordial) black holes in the galactic halo [1, 2], and to the indirect effects that an increased force of gravity has on the galactic rotation curve. Dynamic advanced gravity can explain the presence of dark matter at the galactic level because of an increase in gravity that is predicted, but goes beyond this in the prediction of observations from the bullet cluster [2, 3]. In this paper, it has been demonstrated that dynamic advanced gravity can also explain the physical phenomena of time dilation, and technically agrees accurately with gravitational experiment. It explains the recent findings of increased gamma rays emanating from the supermassive black hole at the centre of the galaxy [15]. By resolving infinite time dilation it also resolves the difficulties that arise from the formation of infinite density singularities. Overall, Dynamic Newtonian Advanced gravity (DNAg), de facto technically gives exactly the same answers as gravitational experiment, but it is also offers a solution to a number of contemporary gravitational anomalies.
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