Challenging General Relativity: The Magnetism Theory and Charge Admittance

Introduction

Albert Einstein's theory of General Relativity remains one of the most influential theories in physics. However, as our understanding of the universe deepens, the need to refine or even replace key tenets of this theory has become more evident. One such competing theory, the Magnetism Theory, offers a promising alternative and challenges the established framework with a quantum-based approach that unites macro and micro phenomena.

The Magnetism Theory: A New Paradigm

The Magnetism Theory posits that the electromagnetic fields permeating the cosmos predate big bangs and big crunches. These fields are considered the fundamental cause of the spin of all objects within the cosmos, from macroscopic structures like planets to microscopic entities like atoms. The theory suggests that all objects possess N and S poles, with their attractive and repulsive forces being vibratory balanced. This analogy brings a new dimension to our understanding of how the universe operates, aligning macro and microcosmic forces.

Revisiting Einstein's General Relativity

Einstein's General Relativity has undergone several refinements over the years. A notable shift involves the substitution of mass with energy, grounded in the equation Emc2. This transformation aligns with contemporary quantum mechanics, where energy serves as the primary component of gravitational dynamics. The revised theory integrates the principles of charge and energy more effectively, expanding the explanatory power of the theory.

The Role of Maxwell's Equations

A key component of the Magnetism Theory is the integration of Maxwell's equations, particularly c1/√μ0ε0. These equations elucidate the underlying mechanisms that govern the observed acceleration, now understood as a result of vibratory balancing of attractive and repulsive forces. By adopting this perspective, the revised theory offers a more nuanced understanding of the gravitational force, addressing theoretical discrepancies and aligning with Einstein's original conceptualizations of the cosmos.

The Paradigm Shift in Cosmology

The Magnetism Theory introduces a significant paradigm shift by framing gravity as a quantum phenomenon based on energy. This approach allows the universe to be viewed as an open system capable of self-organization without the need for a singular event like the Big Bang. This theory effectively addresses the limitations of traditional General Relativity in explaining certain phenomena.

Charge Admittance and Testable Predictions

Unlike traditional Relativity theories, the Magnetism Theory, also known as Charge Admittance, remains compatible with the established proofs of General Relativity while making new, testable predictions. These predictions are in alignment with observations from groundbreaking experiments such as those conducted by LIGO and the James Webb Space Telescope (JWST).

Conclusion

The Magnetism Theory, or Charge Admittance, presents a compelling alternative to Einstein's General Relativity. By adopting a quantum-based approach and integrating electromagnetic fields, this theory not only challenges but also enriches our understanding of the universe. Further research and experimentation will be crucial in validating these new concepts and determining their place in the ever-evolving field of gravitational physics.

Keywords: General Relativity, Magnetism Theory, Charge Admittance