Author(s)

Ardeshir Irani

The Dark Energy Research Institute, Downey, California, USA.

The loss of Baryonic Matter through Black Holes from our spatial 3-D Universe into its 4th dimension as Dark Matter, is used along with the Conservation of Angular Momentum Principle to prove theoretically the accelerated expansion of the 3-D Universe, as has already been confirmed experimentally being awarded the 2011 Nobel Prize in Physics. Theoretical calculations can estimate further to indicate the true nature of the acceleration; that the outward acceleration is due to the rotation of the Universe caused by Dark Energy from the Void, that the acceleration is non-linear, initially increasing from zero for the short period of about a Million years at a constant rate, and then leveling off non-linearly over extended time before the outward acceleration begins to decrease in a non-linear fashion until it is matched by the gravitational attraction of the matter content of 4D Space and the virtual matter in 3-D Vacuum Space. m = m(4D) + m(Virtual). The rotation of our 3D Universe will become constant once all 3D matter has entered 4D space. As the 3-D Universe tries to expand further it will be pulled inward by its gravitational attraction and will then keep on oscillating about a final radius r_f while it also keeps on oscillating at right angles to the radius r_f around final angular velocity ω_f, until it becomes part of the 4-D Universe. The constant value of the Angular Momentum of our Universe is L = .

3-D Baryonic Matter, 3-D Virtual Matter, 4-D Dark Matter, Non-Linear Acceleration, Final Radius, Final Angular Velocity, Conservation of Angular Momentum Principle

Irani, A. (2024) A Theoretical Analysis of the Acceleration and the Angular Momentum of the Universe. Journal of High Energy Physics, Gravitation and Cosmology, 10, 101-105. doi: 10.4236/jhepgc.2024.101009.