on a spherical earth the horizon would appear as a straight line no matter how high up you go, because it curves away from you at the same angle in all directions. This means it would curve out of view at the same distance no matter which direction you look, which from your perspective would look straight and uniform.
Ironically if the earth was flat then a non-uniform horizon would be necessary and documented, because when you go near the edge, the shape of the horizon would take on the shape of the edge instead of having a uniform and consistent horizon everywhere on the planet.
BTW bud... The horizon is absolutely curved and you can see it with your naked eye.
You can observe it's curve by noting that it (the horizon) wraps around you 360 degrees in a perfect circle, and comes back to where it started.
That's one curve you can observe.
Then you will also be able to observe that the circumference of the circle drawn by the horizon increases the higher up you go, and decreases the closer to the ground you are, but is still always perfectly circular...
This shows that the ground is curving downwards away from you in all directions.
Both curves are that of a perfect circle... Each one curving on a different axis both uniform and identical everywhere on the planet.
On flat earth there would HAVE TO be parts of the planet with a non-uniform horizon in order to account for the edges...
And yet there is no evidence of any part of the world where the horizon isn't uniform and identical to everywhere else, and no-one has observed an edge anywhere.
on a spherical earth the horizon would appear as a straight line no matter how high up you go, because it curves away from you at the same angle in all directions. This means it would curve out of view at the same distance no matter which direction you look, which from your perspective would look straight and uniform.
Ironically if the earth was flat then a non-uniform horizon would be necessary and documented, because when you go near the edge, the shape of the horizon would take on the shape of the edge instead of having a uniform and consistent horizon everywhere on the planet.
I didn't say it appears flat... I said the horizon appears as a straight line...
It still would not appear flat because you could see it curving away from you in all directions...
What you're expecting to see, the horizon bending in an arc right to left, needs an egg shaped earth.
Tell me one other shape besides a sphere that appears identical no matter which location or angle its viewed from?
BTW bud... The horizon is absolutely curved and you can see it with your naked eye.
You can observe it's curve by noting that it (the horizon) wraps around you 360 degrees in a perfect circle, and comes back to where it started.
That's one curve you can observe.
Then you will also be able to observe that the circumference of the circle drawn by the horizon increases the higher up you go, and decreases the closer to the ground you are, but is still always perfectly circular...
This shows that the ground is curving downwards away from you in all directions.
Both curves are that of a perfect circle... Each one curving on a different axis both uniform and identical everywhere on the planet.
On flat earth there would HAVE TO be parts of the planet with a non-uniform horizon in order to account for the edges...
And yet there is no evidence of any part of the world where the horizon isn't uniform and identical to everywhere else, and no-one has observed an edge anywhere.
All shapes have edges bud... Every single one... 2D and 3D.
You're just proving more and more how ridiculous your ideas are if you're going to tell me you believe in an edgeless shape.