In the expansive landscape of scientific progress, humanity has witnessed unprecedented growth across numerous fields, from the revolutionary developments in aviation and automobiles to the transformative impact of electricity, electronics, and pharmaceuticals. These advancements have not only reshaped our daily lives but have also given birth to spin-off technologies like computers and semiconductors, propelling us into the era of information and connectivity. Moreover, the advent of powerful particle accelerators and sophisticated space-based observatories has ushered in a new age of exploration, providing us with invaluable tools to probe the depths of gravity and the cosmos.

Despite the remarkable achievements of modern science and technology, our understanding of gravity, particularly within the framework of Einsteinian science, has lagged behind. While we have soared to new heights in engineering feats and technological prowess, the puzzle of gravity remains largely unsolved, prompting the need for a comprehensive and scalable theory that can withstand the rigors of scientific scrutiny.

As we stand at the intersection of scientific inquiry and cosmic wonder, the question persists:

What is gravity?

It is within this inquiry that we embark on a journey to uncover the underlying mysteries of the universe, offering a possible answer that not only addresses the enigma of gravity but also sets the stage for further exploration within the realm of Charge Admittance. Through this endeavor, we aim to chart a course toward a deeper understanding of the fundamental forces that shape our reality and pave the way for future scientific discovery and innovation.