In modern physics, gravitational waves are treated as oscillations in spacetime curvature, propagating at the speed of light and carrying energy away from massive accelerating bodies. Entire observatories have been built to detect them. However, within a corrected Newtonian framework …where gravity is expressed not as curvature, but as a structural field with a negative constant of acceleration …the concept of gravitational waves collapses.

1. The Gravitational Constant Is Negative

In this system, the gravitational constant G is not merely a scalar magnitude. It reflects the essential nature of gravity: an attractive, unidirectional, irreversible acceleration. As such, G carries a negative sign:

G < 0

This is not optional or aesthetic …it is structurally required. The negative sign represents: - The direction of gravitational acceleration (always inward), - The loss of separation between masses (always decreasing), - The absence of a restoring force (no oscillation or recoil possible).

2. Waves Require a Restoring Force

All wave mechanics …whether mechanical, electromagnetic, or fluid-based …require a restoring field. There must be some elastic medium or field tension that allows energy to move as an oscillation.

But a purely attractive field governed by G < 0 cannot oscillate: - It pulls inward, unidirectional. - There is no rebound, no equilibrium displacement. - It has no medium to support propagation.

Thus, no gravitational wave can exist within this system. The field cannot "ripple" because it cannot push back.

3. General Relativity’s Wave Equation Fails Under Collapse

Einstein's field equations reduce to wave equations under linearized approximations around empty space. But these assumptions: - Ignore structural density (such as iron nuclei), - Neglect the directionality of gravitational force, - Impose coordinate conditions that mask the actual physical gradient.

Within a structurally dense mass-limit object, the assumptions of general relativity are invalidated. The real system is not curved space …it is collapsed time. And time does not propagate …it flows inward.

4. Observational Claims Are Methodologically Fragile

Much of the experimental support for gravitational waves relies on: - Pattern matching in noisy data, - Heavy model-based filtering, - Predefined waveform templates derived from general relativity.

But if gravitational waves cannot exist in principle, these signals are either: - Coincidence, - Artifacts of electromagnetic or seismic interference, - Or interpretations locked into a funding-driven theoretical framework.

5. Scientific Resistance and Institutional Bias

Gravitational waves are now an industrial fact. They drive: - Billion-dollar observatories, - Prestigious publications, - Career tracks and Nobel prizes.

To suggest that gravitational waves are mathematically and physically impossible under corrected gravity is not just controversial …it is economically dangerous. But that danger is institutional, not scientific.

Conclusion

In a gravitational framework based on real structure, negative acceleration, and collapse behavior, gravitational waves are impossible. There is no restoring mechanism, no propagation medium, and no oscillation dynamics. The concept is not just flawed …it is fundamentally incompatible with the very nature of gravity.

This realization may not be welcomed. But it is required …by consistency, by dimensional logic, and by the physical meaning of the force we call gravity.