Why is the air on the earth's surface not sucked in by the vacuum of space?


Why is the air on the earth's surface not sucked in by a vacuum in space, what keeps air or oxygen from moving into empty space.

It is known that there are 3 three conditions of space:
1. High pressure chamber (+psi)
2. Chamber pressure chamber (0psi)
3. Vacuum (-psi)

Each room condition has an identified force/power, among others, a high-pressure room has a thrust and has a thrust that is pushing anything under certain conditions towards room pressure (0psi) and the greater the thrust into a vacuum.

The pressure chamber of the chamber is relatively quiet and the direction of pressure flows into a low pressure chamber with a small psi scale difference

Vacuum has an attraction with the force of pulling any particle towards the core of the pressurized space.

Each power has a power proportional to the difference in scale (psi)

The three conditions of space cannot coexist without a solid and strong barrier above the earth's surface.

Why does the air on the earth's surface coexist with a large vacuum above?

The concept of flat earth states that there is an essential dome that holds it back. That's fine according to their theory regarding the shape of the earth.

However, understanding global earth is quite complicated because it requires a detailed explanation to understand.

Some people would answer because of gravity and with evidence the higher the air the thinner. And the statement is true but gravity doesn't play much of a role in this.

Because it is known that the three conditions of the space are able to defy gravity, for example a glass bottle if we put the lips on the surface of the water and then we pump out the air in it, the water will rise to the top to fill the space of the bottle.

If we learn that air or oxygen has sensitivity to temperature, namely hot temperatures will have a higher density and pressure than cold temperatures, it can be concluded that oxygen flows not only from high to low pressure but stronger air will flow from cold temperatures to hot temperatures.

So the answer to the statement above is that the most important role in keeping the air on the earth's surface is the super cold temperature of the vacuum or space.

That's about the answer that I can understand if anyone wants to correct it, please comment.
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