01 January 1970 3 6K Report

As the light particle moves away from the light source

The central core of each light particle:

The temperature of the core decreases, the internal rotation of the core and the rotation of the waves decrease. Magnetic waves become weaker. The energy of the particle decreases. The number of its waves gradually decreases. It gradually becomes just one wave (red). Finally, it becomes waveless and becomes a gamma particle (no electric charge). At this moment, the light intensity in that space is close to zero.

Factors of observing matter in space: 1- Direct exposure to light (it has not yet turned into gamma particles).

2- For some reason, light reaches it from other sources and the material reflects it (if there is no obstacle).

3- When the light particle turns into a gamma particle: light radiation occurs only from the collision of light gamma particles with matter (when there is no obstacle in the way).

Result:

When matter is where all three do not occur, matter appears dark

But with the passage of time: the obstacles on the way are removed and the collision of particles and the reflection of light become reversible.

As a result, the darkness of matter will not be permanent.

As a result, dark space does not exist forever.

Important note: Every place in space will be dark for a while.

Some spend less time and some spend more time in the dark. And there is no way to avoid it.

Full description and proof of them soon

Light particles along with the waves inside them: undergo many changes along the way.

At the end of the path and the last changes: light particles turn into gamma particles. Gamma particles collide with obstacles and are reflected in three modes.

1- X-ray with high range.

2- High-range gamma rays.

3- Low range and surface rays.

Waves of light particles undergo many changes along the way. It will be explained soon.

Suppose we go outside the solar system. And we look at the sun somewhere outside the system. Sunlight reaches us. important question:

Is the source of this light the sun? Is the sunlight that reaches us the light of some stars around the solar system that is reflected from the surface of the sun? And how many percent?

Have the characteristics of the light that reaches us from the sun changed? What percentage of the changed light from the sun reaches us?

How do the percentages change as our distance from the sun increases?

The light of the planet Venus reaches us. important question:

Is the source of this light the planet Venus? What percentage?

Is the light of the planet Venus that reaches us the sunlight that is reflected from the surface of the planet Venus? And how many percent?

If we look from the planet Neptune to the planet Venus, how do these percentages change?

If we look at the planet Venus from a place far from the solar system: How do these percentages change?

What is your opinion?

We will be surprised soon.

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