The Big Bang: A New Perspective on the Origin and Evolution of the Universe
The Big Bang theory, while widely accepted, remains a topic of much debate and exploration among scientists. In this article, we delve into the concept of the Big Bang and present an alternative framework, the Shell Sphere of Black Holes (SSOBH) model. This new perspective challenges conventional ideas about the origin and evolution of the universe, providing explanations for observations and questions that the current model struggles to address.
What is the Big Bang?
The Big Bang theory suggests that the universe began approximately 13.8 billion years ago as a highly dense and hot state. However, this theory is based on several assumptions that may not fully capture the true nature of the universe's origins and evolution. Let us examine some of these core concepts.
No Before the Big Bang
One of the critical assumptions in the Big Bang theory is that time itself began at the moment of the Big Bang. This implies that there was no time before the Big Bang. However, this notion raises philosophical and scientific questions about what existed prior to that moment. The concept of time as we understand it may not be applicable in the context of the universe's origins. Thoughts like the one presented here from the Vedic tradition suggest that the universe's origins are beyond our current understanding and not limited by time.
The SSOBH Model: An Alternative Perspective
The SSOBH model proposes a radical new approach to understanding the universe's structure and dynamics. According to this model, the universe continuously cycles through a process of expansion and collapse driven by black holes. This model challenges traditional concepts and offers a fresh viewpoint.
Key Attributes of the SSOBH Model
1. **Critical Mass and Momentum**: The SSOBH model posits that black holes achieve a critical mass and possess significant momentum. As these black holes move outward, they carry the universe with them, creating a new observable universe (KU) after a period of collapse.
2. **Cyclical Process**: The SSOBH model suggests that this cycle of expansion and collapse is ongoing, providing a closed, cyclic, and sustainable universe.
3. **Explanation of Observations**: This model explains various observed phenomena, including cosmic inflation, dark matter, and the large-scale structure of the universe. For instance, the incredible thermal energy of the collisions between SSOBH and the KU creates inflation, similar to what is observed in the universe.
A New Framework for Understanding the Universe
The SSOBH model provides a comprehensive framework to explain many of the unanswered questions left by the Lambda-CDM model. Here are some specific explanations:
1. Cosmic Inflation
The inflation observed in the universe can be attributed to the incredible thermal energy generated by the collisions of SSOBH with the KU. In addition, as SSOBH move away rapidly, the released gravity causes further inflation.
2. Normal Expansion and Acceleration
The normal expansion and acceleration observed over the past 5 billion years can be explained by SSOBH turning around and collapsing toward KU, causing KU to accelerate.
3. Universal Inflation
The rapid expansion and acceleration of the universe can be explained by gravity waves of SSOBH traveling at portions of the speed of light, causing collapsing and expanding gravity waves. These waves affect spacetime and light waves, producing red and blue shifts.
Conclusion
The SSOBH model offers a new perspective on the universe's structure and dynamics, challenging some of the core assumptions underlying the Big Bang theory. While further review and validation are needed, this model presents a compelling alternative that may explain numerous observed phenomena in the universe. As science continues to evolve, our understanding of the universe's origins and evolution may also continue to expand.