What’s in the middle of a Black Hole?

What’s in the middle of a Black Hole?

The famous scientist Erwin Schrödinger found that atoms are made of light-speed energy, swirling around in shells, in spherical resonance. Each shell is like a tennis ball. The electron shell is on the outside of the atomic tennis ball. Nuclear shells are on the inside. Each shell is made of energy resonating at a different wavelength. All the energy of each wavelength is confined to its own shell. Shorter wavelengths make up smaller shells inside larger shells and so on. At the center, Stephen Hawking found a magical place called “Singularity.”

Singularity is also at the center of Black Holes. So if we find out what’s in Singularity, we’ll know what’s in the middle of a Black Hole.

Einstein showed us that mass and energy are the same thing. So because atoms have finite mass, they must contain finite energy. And thus there exists a smallest shell containing energy at its shortest wavelength. And like all energy in spherical resonance, it is confined to its shell. It doesn’t go waddling around some place else. That’s what resonance is all about. It concentrates energy into its resonant shape. So what’s at the very center, at Singularity? Well, what’s in the center of a tennis ball? Nothing! Nothing! Nothing!

Black Holes are not so mysterious. They are merely objects that resonate in a cylindrical or funnel-shape instead of a sphere. In their case, Singularity is not a point, but a line through the center of the object. And what’s in there? Nothing! Nothing! Nothing!

It’s amazing how so logical an approach solves so many mysteries. Many people imagine all sorts of strange things happening inside the event horizon of a Black Hole. And it’s all imagination without a shred of actual evidence to support their fantasies!

When a photon is absorbed by an atom, what happens to the photon? It becomes part of the shell it was absorbed into. It is no longer a photon, but part of that shell, in spherical resonance rather than the linear resonance of the photon. The photon does not exist within the shell. Only its energy exists, but in this new field-flow configuration called “matter.”

Large Black Holes are sufficiently strong to absorb light, atoms, and anything else that might happen by. At the event horizon, absorption takes place. The energy that made up the object is dismantled and reorganized into the energy circulation pattern of the Black Hole.

A Black Hole does not have to be so strong that even light cannot escape. It doesn’t escape, simply because light entering it is no longer light. In order for light to exit a Black Hole, it must be manufactured by an internal flow pattern, just as an atomic shell must manufacture a new photon in order to emit it. Singularity is simply dark! It has little or nothing to do with gravity!

If a spaceship were to fall into a Black Hole, its crew would not be stretched into some relativistic hell, like is often shown. They would simply be absorbed into the field pattern of the shell. That is, they would all simply die and go out of existence, right there at the event horizon…the same as if they had crashed into the Sun. Nothing more magical than that!

Many scientists labor to find out why the “laws of physics” go bananas at Singularity. They calculate the energy there to be infinite. But when you have a formula where something in the denominator goes to zero, the result usually goes to infinity. So don’t blame the laws of physics!

Like all resonant fields, the simple and logical approach to understanding them is both intuitive and satisfying. So what’s in the middle of a Black Hole? Nothing! Nothing! Nothing! And that’s why nothing usually comes out! (John N. Hait)

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