Corpus ID: 128189975

Anisotropic Gravity that Gives an Anisotropic Big G Inside the Codata Error Range

@article{Haug2019AnisotropicGT,
  title={Anisotropic Gravity that Gives an Anisotropic Big G Inside the Codata Error Range},
  author={E. Haug},
  journal={viXra},
  year={2019}
}
At least one observational study has claimed that Newton's gravitational constant seems to vary with the direction relative to the fixed stars, see [1]. We think this is unlikely, but such experiments should be repeated or at least investigated further. If it is the case that gravity is directionally dependent, then how could this be explained, and how could/should our gravity formulas be modified? In this paper, we introduce an anisotropic big G that is dependent on the direction relative to… Expand

References

SHOWING 1-10 OF 17 REFERENCES
Experimental evidence that the gravitational constant varies with orientation
In 1687, Isaac Newton published the universal law of gravitation stating that two bodies attract each other with a force proportional to the product of their masses and the inverse square of theExpand
Planck Quantization of Newton and Einstein Gravitation
In this paper we rewrite the gravitational constant based on its relationship with the Planck length and based on this, we rewrite the Planck mass in a slightly different form (that gives exactly theExpand
A new light-speed anisotropy experiment: absolute motion and gravitational waves detected
Data from a new experiment measuring the anisotropy of the one-way speed of EM waves in a coaxial cable, gives the speed of light as 300,000+/-400+/-20km/s in a measured direction RA=5.5+/-2hrs,Expand
Gravity from the uncertainty principle
It is shown here that Newton’s gravity law can be derived from the uncertainty principle. The idea is that as the distance between two bodies in mutual orbit decreases, their uncertainty of positionExpand
Can the Planck Length Be Found Independent of Big G
In this paper we show how it is possible to measure the Planck length through a series of different methods. One of these measurements is totally independent of big G, but moving from the theoreticalExpand
One-Way Speed of Light Measurements Without Clock Synchronisation
The 1991 DeWitte double one-way 1st order in v/c experiment successfully measured the anisotropy of the speed of light using clocks at each end of the RF coaxial cables. However Spavieri et al.,Expand
Solar system velocity from muon flux anisotropy
absolute velocity v v v o o 2 2 2 2 = ′ + ′ ⋅ + v v , where ′ v is the muon velocity relative to the Earth and v o is the absolute velocity of the solar system. The sea-level muon flux then dependsExpand
Finding the Planck Length Independent of Newton's Gravitational Constant and the Planck Constant
In modern physics, it is assumed that the Planck length is a derived constant from Newton's gravitational constant, the Planck constant and the speed of light, l_p=Sqrt(G*hbar/c^3). This was firstExpand
The Roland De Witte 1991 Experiment (to the Memory of Roland De Witte)
In 1991 Roland De Witte carried out an experiment in Brussels in which variations in the one-way speed of RF waves through a coaxial cable were recorded over 178 days. The data from this experimentExpand
The Gravitational Constant and the Planck's Units: A Simplification of the Quantum Realm
In this paper, I suggest a new way to write the gravitational constant that makes all of the Planck units: Planck length, Planck time, Planck mass, and Planck energy more intuitive and simpler toExpand
...
1
2
...