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Difference between revisions of "Atmolayer Lip Hypothesis"

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'''Q.''' From some sources is appears that Antarctica at sea level is quite a high pressure area, which doesn't play well with the idea of beyond it being increasingly lower pressure areas.  
 
'''Q.''' From some sources is appears that Antarctica at sea level is quite a high pressure area, which doesn't play well with the idea of beyond it being increasingly lower pressure areas.  
  
'''A.''' It has been demonstrated through a number of experiments that in a closed system there is a correlation between heat and barometric pressure. However the atmosphere is not a container. Air is free to rise, cool, fall, ect. Over a greater distance, beyond the influences of the sun's light, the behavior would eventually more closely match that seen in a closed system.
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'''A.''' It has been demonstrated through a number of experiments that in a closed system there is a correlation between heat and barometric pressure. However, the atmosphere is not a container. Air is free to rise, cool, fall, ect. Over a greater distance, beyond the influences of the sun's light, the behavior would eventually more closely match that seen in a closed system.
  
 
== See also: ==
 
== See also: ==
 
*[[Atmolayer]]
 
*[[Atmolayer]]

Revision as of 18:38, 4 December 2017

The Flat Earth does not necessarily need to be physically infinite in order to contain the atmosphere. Just very big. Often we might hear "infinite earth" from Flat Earth proponents as an analogy for what exists beyond the 150 foot wall of ice at the Antarctic coast; a stretch of land incomprehensible by human standards.

In order for barometric pressure to rise and fall, an element of heat must be present. Heat creates pressure. A lack of heat results in a drop in pressure. These two elements are tightly correlated in modern physics.

In our local area the heat of the day comes from the sun, moving and swashing around wind currents from areas of low pressures to areas of high pressures with its heat. The coldness of the Antarctic tundra keeps the pressure low. Beyond the known world, where the rays of the sun do not reach, the tundra of ice and snow lays in perpetual darkness. If one could move away from the Antarctic rim into the uncharted tundra the surrounding temperatures would drop lower and lower until it nears absolute zero. Defining the exact length of the gradient would take some looking into, but at a significant distance past the edge of the Ice Wall temperatures will drop to a point where barometric pressure nears the zero mark. At this point, whether it be thousands or millions of miles beyond the Antarctic rim, the environment will gradually match that of background space, and the world can physically end without the atmosphere leaking out of it.

The atmosphere may very well exist as a lip upon the surface of the earth, held in by vast gradients of declining pressure.

Questions and Answers

Q. From some sources is appears that Antarctica at sea level is quite a high pressure area, which doesn't play well with the idea of beyond it being increasingly lower pressure areas.

A. It has been demonstrated through a number of experiments that in a closed system there is a correlation between heat and barometric pressure. However, the atmosphere is not a container. Air is free to rise, cool, fall, ect. Over a greater distance, beyond the influences of the sun's light, the behavior would eventually more closely match that seen in a closed system.

See also: