Introduction
The traditional concept of space as a vacuum or a passive fabric fails to explain several cosmic phenomena, including the persistence of orbital balance during universal expansion. This article explores a novel hypothesis: space is not an emptiness, but a liquid-like element that moves in a spiral pattern, which sustains the structure and dynamics of celestial bodies across the cosmos.
Space as a Liquid Element
Unlike the conventional view of space as a vacuum, this theory suggests that space is an element—similar to a liquid in its behavior. The Quranic verse mentioning bodies “floating in the orbit” implies the necessity of a medium. Nothing can float in emptiness, just as no boat floats in air. Liquids allow objects to float and move through waves, making the liquid model of space both practical and observable.
The Spiral Movement of Space
If space is indeed liquid-like, the idea that it is in constant spiral motion becomes critical. The Sun’s own motion, combined with the rotation of planets and stars, seems to create massive cosmic ripples—waves of movement across this medium. This spiral action is what keeps planets in orbit, like objects in a whirlpool being carried in stable paths.
Vertical and Horizontal Expansion
Most models of space expansion describe it as a two-dimensional fabric stretching outward. But a fabric can’t support expansion vertically without tearing or layering. A liquid-like medium, however, can expand in all directions—upward, downward, and outward—without collapsing or splitting. This solves the issue of how the universe expands uniformly.
Whirlpool Dynamics and Orbital Stability
In a whirlpool model, the center pulls everything inward while the spiral motion ensures stable orbits. If the Sun is moving forward and pulling stars with it in a vortex, the planets would naturally follow curved paths due to the inertia of the spiral. Unlike tornadoes that throw objects outward, a whirlpool pulls them inward—creating a paradoxical stability amid chaos.
True Vacuum and the Role of Space
If the Sun were falling through a hole in a fabric-like space, planets would follow but eventually fall into a cavity, losing their orbits. This leads to a true vacuum scenario where gravitational orbits can’t exist. However, a liquid-like space, moving in a spiral, would maintain orbital balance and prevent such collapse.
Asteroids and the Stagnant vs. Dynamic Space
Asteroids, despite being small, continue to move, which indicates that the medium they are in is not still. If space were stagnant, their motion would slow down. The continued movement suggests a dynamic liquid that flows—either due to the spiral movement or the energy emitted from a singularity fueling expansion.
Conclusion
This spiral liquid model of space challenges conventional physics and opens doors to deeper understanding. It proposes that space is not just a backdrop but an active, elemental medium shaping the behavior of everything within it. As the universe expands, this liquid-like space spirals outward, sustaining balance, motion, and cosmic coherence. Further exploration of this theory may bring us closer to understanding the true nature of the universe.