Relativistic matter compresses space, bending light is a joke, and black holes can capture light even more.

The nucleus produces a force that slows down photons. I call it "photon resistance"

Atoms form a uniform space.

"Photons are linear structures"

I haven't consulted any literature. Please let me know if there is the first one. )

Speaker: Li Tan.

Date of submission: April 2022 12 at 5: 00 am.

Carbon is black.

Carbon dioxide gas is colorless and transparent.

Silicon is grayish brown

Silicon dioxide is colorless and transparent (crystal)

The nucleus has not changed, but the electron shell has changed, indicating that it is the electron shell (not the electrons) that absorbs light, and the nucleus has a low adsorption capacity for photons.

High-voltage static electricity and electromagnetic field will not darken the color of the object, nor will they deflect the light, indicating that the light is not affected by electrons.

When light enters the glass from the air, it will deflect downward, and then when it enters the air, it will deflect upward. The reason for this phenomenon is called photon resistance (which can only be produced by the nucleus)

When photons enter the glass interface from the air, the photon resistance increases, the head slows down, and the tail runs at the original speed, resulting in photon deflection. "So photons must have a linear structure", and photons do not constantly change direction between atoms, indicating that photon resistance "exceeds the atomic boundary" and is evenly distributed in the object.

Similarly, when the photon head shoots out of the glass interface, the resistance decreases the recovery speed, while the tail speed remains unchanged and deflects upward.

I don't think it's necessary to go into details. )

Therefore, when light enters the photon resistance range of large celestial bodies in outer space, the head is resisted and the tail is deflected in the same direction, rather than the space compression caused by matter, so the theory of relativity is wrong. (It shows that the photon resistance of large celestial bodies exceeds the atmosphere, and refraction can occur without entering the atmosphere)

To sum up, the ability of the nucleus to absorb light is far less than that of the electron layer, let alone directly capture photons. Because black holes are made up of nuclei, they have strong photon resistance. When the photon approaches this region, it will be severely refracted, making the photon shine directly on the black hole and be absorbed. To put it bluntly, anyone with a little brain can know that the celestial body in the center of the Milky Way cannot travel around the black hole beyond the speed of light, so why didn't it fall into the black hole?