Introduction to Understanding Cosmic Phenomena

The apparent discrepancies between observed and actual positions of stars and other heavenly bodies have long puzzled astrophysicists. A key factor in these discrepancies is the temporal nature of cosmic observation. When we look at the sky, we are actually observing the past positions of celestial objects, as light travels at a finite speed.

Hypergeometrical Universe Theory (HU): The Current Epoch

One of the theories that can estimate the current positions of these celestial bodies is the Hypergeometrical Universe (HU) Theory. HU posits a universe that is shapeshifting and spinning in four-dimensional deformations of space, followed by a dilaton layer resembling a wave. This theory allows us to predict the current positions of stars and other celestial bodies.

The Silver Surfer Paradigm: Understanding Motion in HU

To fully understand the HU theory, we need to delve into the concept of the Silver Surfer Paradigm for motion. In HU, all particles are shapeshifting and spinning, and the universe is observed through a dilaton layer, which acts like a wave. One of the core ideas is the movement of particles along a geometric surface known as the Fabric of Space (FS).

The Silver Surfer Paradigm suggests that when the FS is twisted to the left, a particle will travel along its normal and move to the left. Conversely, when the FS is relaxed, the motion is primarily radial. This paradigm helps explain why the observed positions of stars and other celestial bodies differ from their current positions.

Why Things Move: The Fabrics of Space (FS)

The motion of particles is driven by the aim to relax the Fabric of Space. As particles travel and undergo inertial motion, the torsional angle of the Fabric of Space changes. This process is driven by the need to approach a relaxed state, which is akin to a Hubble position in the HU theory. The Absolute Velocity decays exponentially with time, allowing for constant relative velocity as the particles approach a relaxed state.

Since the origins of the cosmos, all objects, including galaxies and their progenitors, have been moving and relaxing the Fabric of Space for billions of years. As a result, the positions of all structures we see in the sky can be approximated as being on the relaxed portion of the Fabric of Space.

The HU theory, with its emphasis on the relaxed state of the Fabric of Space, has been pivotal in predicting the positions of Supernovae Type Ia (SN1a). The theory accurately predicts the distances of these celestial bodies based on their redshifts, using only two physical parameters: the Hubble Constant and the SN1a Absolute Luminosity G-dependence.

The Hubble Constant is estimated at (69.69 text{km/s/Mpc}), implying that the universe is a 14 billion light-years hyperspherical hypersurface that was created 14 billion years ago. The SN1a Absolute Luminosity G-dependence is described by (G^{-3.33}), a simple and effective model for predicting distances in the universe.

The Silver Surfer Paradigm and the Hypergeometrical Universe Theory provide a coherent framework for understanding the discrepancies between observed and actual stellar positions. Without these ideas, no simulation can accurately predict the positions of celestial bodies in the current epoch.

However, it is regrettable that the Hypergeometrical Universe Theory has been censored since 2005. This censorship threatens to limit our understanding of the cosmos and could jeopardize the continuation of human civilization. It is imperative that we continue to explore and validate these theories to ensure that the mysteries of the universe remain within the reach of scientific discovery.