Observations

From Flat Earth Community Wiki
Revision as of 05:24, 10 April 2020 by Indio007 (talk | contribs)
Jump to navigation Jump to search
XYZ Projective Coordinates

Because we are given specific dimensions for the globe model, we can use those to calculate and predict how far we should be able to see objects in the distance. There are many long-distance observations that are considered "globe killers" because they would be impossible to see if the WGS-84 globe model were an indication of reality.

Flat Earth Claim #1: We See Too Far, from the 24/7 Flat Earth Discord Livestream podcast: https://open.spotify.com/episode/4BEhuEtWK2R971gtqMkicw


Visible Light Flat Earth Observations

Observation Distance Observer Height Target Height Globe Predicted Horizon Distance Globe Predicted Hidden by Horizon Relevant Axis Mismatch
Finestrelles Pyrenees to Pic Gaspard 443 kilometres (275 mi) 2,826 metres (9,272 ft) 3,883 metres (12,740 ft) 188.3 kilometres (117.0 mi) 5,096 metres (16,719 ft) Y-axis & Z-axis
Canigó Pyrenees to Barre des Écrins Alps 412 kilometres (256 mi) 2,785 metres (9,137 ft) 4,102 metres (13,458 ft) 189.7 kilometres (117.9 mi) 3,882 metres (12,736 ft) Y-axis & Z-axis
Black Swan Example Example Example Example Example
Brighton to Worthington Example Example Example Example Example
Dover From Calais Example Example Example Example Example
Chicago Skyline Example Example Example Example Example
Dover From Calais Example Example Example Example Example
Salton Sea Example Example Example Example Example
Wisconsin_From_Michigan Example Example Example Example Example
Worthing To Brighton Example Example Example Example Example
Ice Swan - Rock Lake Manitoba (Frozen) Example Example Example Example Example
Utah Lake Example Example Example Example Example
Wales to the Lake District Example Example Example Example Example
Oceanside Pier to Catalina Island Example Example Example Example Example