Flat Earth: Gravity

Question: If Gravity Doesn’t Exist, What Holds Us Down?


As a force, “gravity” or “the force holding us down” does exist. Though not as round earth theory imagines. One of the most basic facts of demonstrable intuition is that large spinning objects would necessarily eject smaller objects from their surface. Simply put: a round spinning earth would fling us off. The force that keeps us “glued to earth’s surface” is the upward motion of the disk of the Earth through space. Called Universal Acceleration, a current of continuous magnetism flows through the universe, carrying objects of sufficient surface area upward in its path. Due to Earth’s immense surface area, the Universal Accelerator (UA for short) acts upon its underside propelling it upwards through space. Universal Acceleration makes more sense than gravity, the supposed attractive force exhibited by objects of sufficient mass on smaller objects.

So how does Universal Acceleration work where gravity conceptually fails?

Early spherists showed a strong tendency to over-explain the universe in terms of cause and effect. Of course, every effect does have a cause, but early spherists quickly assumed that such causes existed in the most readily available object: the Earth itself. It was outside the ken of their conceptualizations to search for causes beyond the immediately observable. Their science could not ask any questions bigger than itself. Acting in tandem with Universal Acceleration – “the obligate tendency towards downward motion” – generates the observed effects that spherist call “gravity”.

Inherently, there is no reason to assume that “down” would not exist in space, especially within a finite universe. Consequently, all unsupported objects tend to fall through space at a constant rate of 9.8m/sec. When you jump, being unsupported in space causes you to begin falling downward at a rate of 9.8m/sec. Due to the UA, the earth accelerates up into you. Both the “inherent tendency towards downward motion” through space, and the upward push of the UA against that force, causes objects on earth to remain firmly in place. While the name is slightly misleading, “Universal Acceleration” does not mean that the disk of the earth is continuously accelerating: otherwise it would have reached light speed over 300 years ago. In reality, the obligate tendency counters the upward acceleration of the earth, keeping its momentum constant.

“Well”, you might ask, “If the Earth is Flat, and the sun, moon, planets, and stars are all smaller and orbit above its surface; how does an “orbit” even work in the first place?”

The UA to acts on any given object dependent upon an its surface area and propulsion. For very large objects (like the earth or the sun) extensive surface area allows the UA to act, moving said objects upwards at a constant rate. For smaller objects (like airplanes or birds), a given amount of propulsion proportional to surface area is necessary for the object to be acted upon. An orbit is caused by the UA. The sufficient surface area of the sun, moon, planets, and stars (even though they are smaller and closer), is enough to be acted upon by the UA.

7 thoughts on “Flat Earth: Gravity

  1. So if UA only acts on objects with enough surface area, “carrying objects of sufficient surface area upward in its path. Due to Earth’s immense surface area, the Universal Accelerator (UA for short) acts upon its underside propelling it upwards through space.” How does the sun and moon stay in the same place above us? What prevents them from crashing into our “disk planet?” Surely do to the much smaller surface area than the earth in your demonstration, does UA affect them at all?

    Liked by 1 person

    • Good questions. Thank you for the response. Perhaps I should reword my original definition to “as the earth has a very large surface area, the UA is able to act upon its underside, propelling it upwards”. Smaller objects, such as the sun, still have sufficient surface area. The Flat Earth Wiki estimates that the sun is 32 miles in diameter, and 3000 miles away. http://www.theflatearthsociety.org/tiki/tiki-index.php?page=The+Sun

      While I do not see this as the last word on the size of the sun, it is a matter of perspective (estimating matters of perspective is hard without direct observation) and without real space travel exact estimates will be tentative. That being said, an object with a diameter of 32 miles is definitely large enough to be acted upon by the universal accelerator. In the case of small objects, such as airplanes, lack of total surface area is compensated for by thrust.


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