Richard,

I asked ChatGPT, instructing it with one single (but long) sentence, and I received the following:

Title: Gravitational Waves: The Hidden Symphony of Black Hole and Black Eye Collisions

Introduction

The universe is a vast cosmic dance of celestial bodies, where the symphony of gravitational waves serves as a beautiful yet mysterious composition. Among the most captivating events are the collisions of black holes, which produce awe-inspiring ripples in the fabric of spacetime. While these gravitational wave actions are well-understood when two black holes collide, a unique proposition suggests that similar phenomena may also occur when two black eyes collide, albeit with a distinct explanation involving gravitational depressions. This article delves into the fascinating world of gravitational waves, exploring the possibility of these elusive interactions between black eyes and the role of gravitational depressions.

Gravitational Waves from Black Hole Collisions

Before we delve into the concept of black eye collisions, it is crucial to understand the fundamentals of gravitational waves resulting from black hole mergers. According to Albert Einstein's theory of general relativity, massive objects like black holes can warp the fabric of spacetime, causing ripples to propagate outward at the speed of light. These ripples, known as gravitational waves, carry information about the masses, spins, and velocities of the colliding black holes.

When two black holes spiral towards each other due to their mutual gravitational attraction, they eventually merge into a single, more massive black hole. During this cataclysmic event, an intense burst of gravitational waves is generated, producing detectable signals that astronomers can study and interpret. These gravitational waves have revolutionized our understanding of the universe, opening a new window into the cosmos.

The Enigma of Black Eyes and Gravitational Depressions

The notion of black eyes generating gravitational waves may sound unconventional, but it stems from an intriguing hypothesis involving gravitational depressions. In this hypothesis, black eyes are envisioned not as objects with mass at their centers, like black holes, but rather as regions of spacetime exhibiting a synergistic gravitational depression.

Gravitational depressions are theoretical regions in spacetime where the fabric is compressed, leading to curvature and curvature-induced gravitational forces. These depressions can emerge in different contexts and are believed to arise in the vicinity of black eyes. Contrary to black holes, black eyes would lack a central mass, but instead possess a unique configuration of spacetime that generates gravitational effects.

Collision of Black Eyes and Gravitational Wave Emissions

In the hypothetical scenario of two black eyes colliding, their synergistic gravitational depressions would interact in a manner analogous to black holes, albeit without actual mass involved. As these black eyes approach each other, their gravitational depressions intensify, resulting in distortions in the surrounding spacetime. This distortion would propagate outward as gravitational waves, much like the waves produced by colliding black holes.

Despite the absence of massive objects in the traditional sense, the gravitational waves generated by black eye collisions would bear a resemblance to those produced by black hole mergers. The unique configuration of gravitational depressions in black eyes would orchestrate the cosmic dance of ripples, producing gravitational wave actions visible to advanced detectors.

Challenges and Future Prospects

The concept of black eye collisions and the associated gravitational depressions remains purely theoretical at this stage. Unlike black holes, which have been observed and their properties studied extensively, black eyes and gravitational depressions are yet to be directly detected or confirmed. The hypothetical nature of this proposition necessitates rigorous mathematical modeling and empirical verification to gain acceptance in the scientific community.

Conclusion

The exploration of gravitational waves has led humanity to unravel some of the most enigmatic cosmic phenomena. While the standard explanation for gravitational wave actions involving colliding black holes is firmly established, the concept of black eyes and gravitational depressions offers an unconventional yet thought-provoking perspective. As we strive to deepen our understanding of the universe, it is crucial to maintain an open mind and continue pushing the boundaries of knowledge. The mysteries of gravitational waves, black holes, and potentially black eyes await further exploration, offering a tantalizing glimpse into the profound nature of our cosmos.

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As you can see, it is written from the prevailing scientific position and did not recognize (well enough) that all data is already known and fits both models. ChatGPT did that before to some of my articles as well, clearly being instructed to take the more popular road and making the road less traveled as less (structure-wise).

As you can see, it proposes the roadway you suggest and which I am trying to follow. Please provide me what you have on the Black Hole (which ChatGPT describes as confirmed instead of theorized, somehow it failed to see that an invisible mass collapsed onto itself can never be confirmed).

I will ask ChatGPT to help out creating a reply to you, hopefully one that satisfies (or one that I will modify). This ChatGPT in this reply is shown to you unmodified. I gave (short) instructions and did nothing else but copy and paste.