The Big Whisper Theory: An Analysis of Entropy at the Beginning of the Universe

The origins of the universe, specifically the Big Bang, have been a subject of much debate and inquiry among scientists. One of the central concepts in this discussion is the entropy of the initial conditions, an aspect that challenges our understanding of the universe's origins. Sothern Leibniz, building upon the work of Ludwig Boltzmann, defines entropy as a measure of the number of microstates W in a system relative to the probability of a particular state, leading to his famous equation Sentropyk ln W. This definition is fundamental to thermodynamics and provides the basis for understanding the degree of freedom of a system.

Challenging the Big Bang Model

The conventional Big Bang model, which seeks to explain the origin of the universe's results through a series of observable outcomes, has inherent logical flaws. It is problematic to approach the origin of the results from the outcomes themselves, a methodology that lacks structural coherence. The following table highlights the crucial discrepancy in the Big Bang model, underscoring the illogical leap from the unknown to the defined.

Big Bang Model (Green) Improved Model (Orange) From an unknown white physicists jump to an explanation about the resulting outcome in green. In orange, the ending of the prior setup is pronounced, making the beginning possible to explain.

The Big Whisper theory, proposed as a plausible alternative to the Big Bang, takes inspiration from the work of Wilson and Penzias. This theory emphasizes the idea that there is a whisper of the materialization process that can be scientifically tested and verified. The Big Whisper theory is a falsifiable hypothesis that predicts observable outcomes, distinguishing it from other theories with less testable verifications.

Energy and Entropy

One of the key arguments supporting the Big Whisper theory is the conservation of energy. Energy does not get lost, meaning the total amount of energy prior to and after the materialization process is the same. This aligns with the known scientific facts that matter appeared some 13.8 billion years ago. However, we have no scientific data regarding the origin of energy, time, or space, and we should not extrapolate beyond these known parameters.

Matter and Energy

Matter and energy are interconvertible, but energy is not automatically matter. Similarly, a dog is an animal, but an animal is not automatically a dog. From a thermodynamic perspective, we cannot determine the total amount of energy, but we know that energy does not get lost. This means that the energy present at the beginning of the Big Whisper theory would need to explain the formation of quarks, as they cannot exist in isolation.

The Eye of the Storm Model

To understand the process of materialization, a model like the Eye of the Storm can be helpful. In this model, the Eye of the Storm (Zone 1) represents a region of minimal disturbance, while the Wall of the Eye (Zone 2) is the point of maximum pressure and turbulence. Zone 3 represents the rest of the storm. Focusing on the materialization process, original energy gets stuck in a collective inward motion, leading to a central zone (Zone 1) where all energy is held in place.

Zone 2, where the first churning begins, becomes the site of the quark soup. The extreme pressure in this zone leads to quark formation, but the heat produced is not necessarily super-hot. The release of pressure in Zone 2 initiates the formation of neutrons and protons, occurring at the Cosmic Microwave Background (CMBR).

Comparison with the Big Bang Model

Compared to the Big Bang theory, the Big Whisper theory avoids a super-hot starting point and does not require cosmic inflation. The energy needed for the formation of matter is present in an extremely dense environment where side-way churning is possible. In the Big Bang model, the source for matter transitions over 380,000 years, necessitating a super-hot starting point due to adiabatic cooling. In the Big Whisper model, the transition of matter takes place over a shorter distance, hence avoiding the need for cosmic inflation.

Therefore, the Big Whisper theory offers a more coherent explanation of the universe's origins, combining thermodynamic principles with a structured approach to understanding the formation of matter. Although challenging, it is hoped that this theory will eventually become widely accepted as scientific understanding evolves.

Keywords: Big Bang, Big Whisper Theory, Entropy