I'm gonna stop this right here with irrefutable evidence before your get attacked by frogs or the the mods. When you live near either of the poles, the stars have a obvious circular path and you always see the same stars over the course of the night. When you live closer to the equator, the constellations parade across the sky in a linear fashion.
The apparent motion of the stars in the night sky are due to Earth's rotation on its axis. Looking north, the stars form concentric circles around the north celestial pole, near Polaris. Stars closer to the poles form smaller arcs and hardly seem to show any diurnal motion. Looking towards the celestial equator, however, stars begin to move parallel towards each other and only the stars further away begin to form arcs as they come closer to the celestial poles.Here is time lapse imagery of the night sky as seen from near the north pole.
Here's a video that compares the stars trails from both the northern and southern points of view.
Time-lapse and star trail video's compiled into a movie - each clip contains around 500 stills rendered using LightRoom and StarStax. The images were taken in summer on the Island of Guernsey UK for the Northern Hemisphere, and the Warrumbungle Ranges near Siding Springs Australia for the Southern Hemisphere.
You are addressing the 1850's model. This does nothing to address the fact that the most modern Flat Earth model is the Bi-Polar model here - https://wiki.tfes.org/Bi-Polar_Model
I'm gonna stop this right here with irrefutable evidence before your get attacked by frogs or the the mods. When you live near either of the poles, the stars have a obvious circular path and you always see the same stars over the course of the night. When you live closer to the equator, the constellations parade across the sky in a linear fashion.
The apparent motion of the stars in the night sky are due to Earth's rotation on its axis. Looking north, the stars form concentric circles around the north celestial pole, near Polaris. Stars closer to the poles form smaller arcs and hardly seem to show any diurnal motion. Looking towards the celestial equator, however, stars begin to move parallel towards each other and only the stars further away begin to form arcs as they come closer to the celestial poles.Here is time lapse imagery of the night sky as seen from near the north pole.
https://youtu.be/st73OGc9y6Y
Here's a video that compares the stars trails from both the northern and southern points of view.
Time-lapse and star trail video's compiled into a movie - each clip contains around 500 stills rendered using LightRoom and StarStax. The images were taken in summer on the Island of Guernsey UK for the Northern Hemisphere, and the Warrumbungle Ranges near Siding Springs Australia for the Southern Hemisphere.
https://www.youtube.com/watch?v=UNiNJC3UHIo
You are addressing the 1850's model. This does nothing to address the fact that the most modern Flat Earth model is the Bi-Polar model here - https://wiki.tfes.org/Bi-Polar_Model
Also, the video you provided is only a partial rotation and does not even debunk the Monopole explanation here - https://wiki.tfes.org/Southern_Celestial_Rotation#Glass_Dome_Example
Wisdom pursues you, but you are faster.