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:*The edge of the sun's circular area of light is approaching the observer from the Eastward from his or her position.
 
:*The edge of the sun's circular area of light is approaching the observer from the Eastward from his or her position.
  
Sunrise will occur from an Eastward direction as a natural consequence of the observer's limited range of vision. The sun's circular area of light generally intersects the observer's area of vision from an Eastward direction. During Equinox the sun's circular area of light is pivoting around it northern and southern poles in a figure eight. The points along the edge of the sun's area of light are close to traveling along the observer's latitude line as it intersects the observer's viewing area, even if the sun is not, and will intersect and appear from near the East in initial bearing–but [https://wiki.tfes.org/Equinox#Myth_I:_Direction_of_Sunrise_and_Sunset not exactly].  
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Sunrise will occur from an Eastward direction as a natural consequence of the observer's limited range of vision. The sun's circular area of light generally intersects the observer's area of vision from an Eastward direction. During Equinox the sun's circular area of light is pivoting around it Northern and Southern poles in a figure eight. The points along the edge of the sun's area of light are close to traveling along the observer's latitude line as it intersects the observer's viewing area, even if the sun is not, and will intersect and appear from near the East in initial bearing–but [https://wiki.tfes.org/Equinox#Myth_I:_Direction_of_Sunrise_and_Sunset not exactly].  
  
 
If a cloud were traveling along the circle of your latitude line, and you only see it when it is close to you, would you see it appear from the east or near the east? The same explanation for this occurrence is given for the local sun and the manifestation of its initial Eastward bearing. The points along the edge of sun's area of light are ''projections'' of the sun which will appear to the observer once in his or her viewing range.
 
If a cloud were traveling along the circle of your latitude line, and you only see it when it is close to you, would you see it appear from the east or near the east? The same explanation for this occurrence is given for the local sun and the manifestation of its initial Eastward bearing. The points along the edge of sun's area of light are ''projections'' of the sun which will appear to the observer once in his or her viewing range.
  
 
For additional details see: [https://wiki.tfes.org/Equinox#A_Flat_Earth_Equinox Equinox - A Flat Earth Equinox]
 
For additional details see: [https://wiki.tfes.org/Equinox#A_Flat_Earth_Equinox Equinox - A Flat Earth Equinox]

Revision as of 21:20, 26 April 2019

The Bi-Polar Model is a model of the earth which was first devised by the Universal Zetetic Society, the precursor to the Flat Earth Society, in the early nineteenth century following reports of further exploration of Antarctica and direct discovery of the South Pole. This model features two poles and an Antarctic continent which exists in standard contexts. An 'Ice Wall' still exists in this model, but it is not Antarctica. It is assumed that beyond the rays of the sun the waters will naturally freeze.

Explanatory Video

Flat Earth Crush has produced content on the Bi-Polar model which showcases some of the benefits of its sun model. It should be noted that the author has mentioned in other videos on the topic that he using the selected map as an example only for his purposes. Runtime: 15m

Related videos by Flat Earth Crush:

Maps

There are a wide variety of continental layout possibilities for Bi-Polar map. The continental layout is unknown and has yet to be fully researched due to ambiguities of jet streams, flight routing, and non-direct flights. The Bi-Polar model is sometimes illustrated with vertical circles, vertical ovals, or with a placeholder map.

BiPolar-Shafto.jpg Bi-Polar-Sea-Earth.png Altmap.png

1. From Bobby Shafto
2. Yearly sun path from p.30 of The Sea-Earth Globe and and its Monstrous Hypothetical Motions (1918) by Zetetes
3. Origin Unknown

Flat Earth proponent Sandokhan is credited with creating the most commonly depicted Bi-Polar map layout.

Circumnavigation

Circumnavigation involves traveling Eastwards or Westwards in relation to the magnetic field lines. On a Bi-Polar model the magnetic field lines would spread out from the North and South poles like the magnetic field lines on a bar magnet.

Bar-Magnet-Field-Lines.gif

The needle of a compass would align with those magnetic field lines in the navigator's local area. Since East and West are at right angles to the field lines, moving East or West in relation to those field lines would take one in a circle around the North or South poles. This also implies that if one were to follow the magnetic field lines North or South that they would eventually get to the Northern or Southern poles.

It should be noted that the magnetic field lines which are produced by a magnet always wrap around and connect to the opposite pole and that none travel forever into space.

Celestial Rotation

In the Bi-Polar model the stars above the earth are rotating in one direction in the Northern Hemiplane and in the opposite direction in the Southern Hemiplane, like a set of interlocked gears.

Spur gears animation.gif

Eastward Sunrise

Q. How the sun can rise from near the east under this configuration?
A. An answer to this query may be that it is similar to its operation in the standard Monopole model. When we observe the sun, we are observing its projection upon the atmolayer. The sun which is seen is local and individual to each observer. Accordingly, the easterly sunrise is a consequence of the following:

  • The points along the edges of the sun's circular area of light are sunrise (or sunset).
  • Our vision is very limited. One cannot see infinitely into the distance.
  • The edge of the sun's circular area of light is approaching the observer from the Eastward from his or her position.

Sunrise will occur from an Eastward direction as a natural consequence of the observer's limited range of vision. The sun's circular area of light generally intersects the observer's area of vision from an Eastward direction. During Equinox the sun's circular area of light is pivoting around it Northern and Southern poles in a figure eight. The points along the edge of the sun's area of light are close to traveling along the observer's latitude line as it intersects the observer's viewing area, even if the sun is not, and will intersect and appear from near the East in initial bearing–but not exactly.

If a cloud were traveling along the circle of your latitude line, and you only see it when it is close to you, would you see it appear from the east or near the east? The same explanation for this occurrence is given for the local sun and the manifestation of its initial Eastward bearing. The points along the edge of sun's area of light are projections of the sun which will appear to the observer once in his or her viewing range.

For additional details see: Equinox - A Flat Earth Equinox