Observations/Gas Pressure container: Difference between revisions
Observations/Gas Pressure container (view source)
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== Gas Pressure requires a container ==
[[File:Balloon-clipart-free-clip-art-images-115x170.jpg|150px|right]]
This is not a theory, it is an observable fact. Gas pressure in nature does not exist without a container.
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===Globe beliefs===
[[File:MonkeyDemonstratingColumnOfAir.jpg|200px|left|McToon holding his hands out like a monkey, expecting us to believe there's a column of air between his hands. (wait, strike that, reverse it)]]
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It bothers the globe believers enough to degrade themselves into making up imaginary stories, because the fact is, earth's atmos is a gas pressure system and they believe [[Agencies/NASA|NASA]]'s story that there is no container separating us from the ever expanding vacuum of space. According to the [[Misc/BibleVerses|scriptures]], the earth has a firmament over it, which would act as a container.
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[[File:GrabbityDemo.gif|right|230px|gas pressure and Gravity demo]]
The globe model necessitates gravity to "hold" everything down. It has been suggested that gravity holds gasses down to the surface on the earth in a gradient manor. The heavier gasses like air remain closer to the surface while the thinner/lighter gasses like helium are higher up. The higher up you go, the thinner gasses become. Eventually the thinnest gasses are adjacent to a vacuum that becomes stronger the further out in space you travel.
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It is even suggested that gravity was created from the mass of earth, yet it is also believed that earth itself was made by gravity pulling space debris into a ball shape. this is called circular reasoning.
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There has been no examples of gas pressure maintaining in a vacuum. In fact the opposite has been demonstrated. Upon further understanding you will realize that lighter gas pressure would be vacuumed away and the next layer down, and the next, etc. until there is no more gas pressure. An Infinite, ever expanding vacuum would ultimately consume all uncontained gas pressures within the vacuum.
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It may take a while for this to sink in, but once you realize the laws of physics of pressure and vacuum, these apposing states of matter would eventually equalize. If gravity can't hold a butterfly or a cloud made of dust and moisture, then how would it fight an ever expanding vacuum? This is truly a nail in the glove coffin.
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===Container===
[[File:BasketOfEggs.jpg|200px|right]]
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There are exceptions to the rule, for example, a balloon can hold gas pressure in containment; However over time the balloon might deflate because the gas might slowly escape, thus not being a good container. Another example is a bucket may hold water, but heat may make the water convert to gas and evaporate. The bucket is excellent at holding water but not suitable for holding gas.
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Definitions of Container:
# A receptacle, such as a carton, can, or jar, in which material is held or carried.
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# One who or that which contains.
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Synonyms & Similar Words: bin, holder, receptacle, vessel, box, bottle, basket, carrier, crate
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===Containment===
When something is contained, you could say it has containment.
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# the act of containing; keeping something from spreading or escaping
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Synonyms & Similar Words: isolation, segregation, restraint, constraint, confinement, restriction
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===Gallery===
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