In the quantum vacuum there are lots of temporary acceleration vectors of mean degree a randomly oriented. I discovered galaxy note 4 case by searching books in the library. If the vacuum is considered from an frame, the vectors going with the frame appear reduced, and the vectors going against the frame appear increased, causing a net polarization of the vacuum. If the frame's acceleration g is small, the effect is linear, and if the vacuum is filled up with vectors the coefficient of the polarization will undoubtedly be unity. The conventional exponential term for controlling high-energy changes must also be employed. Thus the vacuum polarization is h exp (g/a). The terms of the exponent when multiplied by the dipole moment have the dimensions of energy.

The rest frame of the universe, like, is multiplied regarding local inertial frames that fall under the center. In this rest frame the machine looks polarized and enhances the galaxy's gravitational field g. So we've

g= -GM/r2 + g exp (g/a)

where g is understood to be bad. For g much greater than a, the exponential is minimal and Newton's law benefits. However for g less than a, the exponential may be expanded to at least one + g/a and we get

g2 = aGM/r2

This really is exactly the method found empirically by Milgrom to spell out the motion of stars and galaxies in the weak-field area, except the law of gravity is altered, perhaps not the law of motion (Scientific American, August 2002). He sees that an is approximately one Angstrom per second squared, which can be close to the surface gravity of an, the field of a mass at one meter, or the field of a galaxy in its outer parts. Also, the square of a isn't far from the worthiness of the cosmological constant, in units where c=1. In this model, a may be viewed as the saturated field energy of the quantum vacuum.

The findings could be acceptably explained by using the correct quantum law of gravity and assuming a probable amount of common matter M. There's no importance of dark matter.

The resulting clear polarization would enhance the acceleration, and indeed might cause the acceleration, when the process has begun, due probably to some disturbance sometime ago, as place accelerates far from us. In the event you desire to get further about galaxy note 4 cases, we know of many on-line databases you should investigate. The collapse would be enhanced by the same process, if space is collapsing in some distant area. So the cosmos might consist of spaced regions of collapse and development. A large bang would result as digital particles are ripped from the vacuum, when expansion becomes serious. A crumbling place could create a big crisis, where matter is crushed back into the machine. The complete process is possibly eternal and infinite..