Our disunified physics, referring to a lack of a unified theory that explains all fundamental forces and phenomena in the universe, presents several problems and challenges. Here are some of the key issues:
1. Incomplete understanding: Without a unified theory, our understanding of the fundamental workings of the universe remains incomplete. Different branches of physics, such as quantum mechanics and general relativity, provide accurate descriptions in their respective domains but are incompatible with each other. This disunity hinders our ability to fully comprehend the fundamental nature of reality.
2. Inconsistencies and contradictions: In the absence of a unified framework, inconsistencies and contradictions arise when attempting to reconcile the different theories. For example, general relativity describes gravity as the curvature of spacetime, while quantum mechanics operates within a flat spacetime. Combining these two theories in a coherent manner has proven to be a significant challenge.
3. Missing fundamental principles: A unified theory would be expected to provide a set of overarching principles that govern the behavior of matter and energy at all scales. Without such principles, there may be gaps in our understanding, preventing us from explaining certain phenomena or making accurate predictions.
4. Lack of a complete picture: A disunified physics may lead to an incomplete picture of the universe. It may fail to explain or integrate certain phenomena, such as dark matter, dark energy, or the behavior of the universe at the earliest moments of the Big Bang. These gaps hinder our ability to construct a comprehensive and cohesive understanding of the cosmos.
5. Technological limitations: The lack of a unified theory also poses challenges for technological advancements. A unified theory could potentially provide insights that lead to the development of new technologies, such as advanced propulsion systems or energy generation methods. The absence of a unified framework may hinder progress in these areas.
6. Limitations in fundamental research: The disunity in physics can create barriers to progress in fundamental research. It may be difficult to design experiments or develop theoretical frameworks that can test or explore the boundaries of existing theories. Without a unifying framework, researchers may face difficulties in advancing their understanding of the underlying principles of the universe.
Addressing these problems requires the development of a theory that unifies quantum mechanics and general relativity, commonly referred to as a theory of quantum gravity. Researchers are actively exploring various approaches, such as string theory, loop quantum gravity, and other frameworks, in the quest for a unified description of the universe.
The Unified Theory of Energy indeed produces the “Theory of Quantum Gravity” by separating Particulate Motion from Gravitation, where Gravitation is simply Radiation stored in a Mass Structure of Particles.
There is not some magical, specific Particle making light or gravity or anti-matter or black holes. There are simply Particles. Since they can’t be completely separated from Gravitation, it is easy for theorists to determine Particles are somehow responsible for everything. It is a logical error on the part of Physics.