A Comprehensive Model of the Physical Cosmos from the Smallest to the Largest Scales

To define the smallest structures to the largest ones, we must first look to planets and the moons that orbit them. Next are the stars and planets that form star systems (or solar systems). After that come the galaxies, in which stars orbit a central black hole. Above the galaxies are galaxy clusters, which are formed by the aggregation of several galaxies. Following the clusters are superclusters, which are themselves collections of clusters.

A collection of superclusters makes up the Universe, and then a collection of Universes together forms the Meta-Universe. At the final level, Meta-Universes, when combined, create the Great World.

Based on the preceding points, Saleh Research Group proposes that the Universe has an elliptical shape and, according to Hubble's Law, possesses a constant rotational motion and constant angular velocity. Its “X” and “Y” axes (the horizontal plane) are twice that of its “Z” axis (the vertical direction).

Given this point, the same shape can be considered for the meta-universe, since meta-universes have volume and rotational motion. Due to its greater volume, its rotational speed is higher, and consequently, its centrifugal force is greater, and the ratio of the horizontal “X” and “Y” axes to the vertical “Z” axis will be approximately 4 to 1.

Considering that the Great World constitutes the entire material existence, its volume and the plane of rotation, and thus its speed, will be greater, and its centrifugal force will be higher. The ratio of the “X” and “Y” axes to the “Z” axis here will be approximately 8 to 1.