Message from @Earth
Discord ID: 574418019241951232
@der fuhrer's face i already told you what happens
The floor always meets the ceiling and their is a point u can’t see past
@✧Mike Flatbird (Mike Blackbird)✧ idk how basic physics is bs but ok
i see no curve
can you see past that end of hallway?
does that GROUND RISE/RAMP> UP
like in the pictures
an the ceiling LOWERS?
the
--its simple
Because of relative angles, yes
@✧Mike Flatbird (Mike Blackbird)✧ You're basically using a ruler to measure a skyscraper
now, here's convergence CONVERGENCE ... hallway pic .. https://prnt.sc/g2ug63
how does the sun bent
light
Same logic proves sun couldn't set on a flat earth unless it went under or light bends
What happens if you zoom in?
If u are on the floor u will see more of he ceiling
That’s how angular resolution works
Yes not imagine that hallway went for miles
Now
Just because a hallway is flat does not mean the planet is flat
@✧Mike Flatbird (Mike Blackbird)✧ on a flat earth, we'd see the same stars no matter where you are on earth because light travels in a straight line but we don't see that we see different astronomical objects depending on our position on earth and that can only happen on a globe earth and also that hallways is nothing compared to the horizon because the horizon is way farther away then that
The planet shape doesn't have to correspond with our infrastructure
He is pointing out that the floor meets the ceiling and eventually their is a point u can’t see past
@Etzie visual aids/apparatuesus have "vanishing points" too
--just like the human eye
-- but visual instruments that can zoom, can see farther, thats all
but as said. they still have > vanishing points
they are limited too
The globe model has u thinking u can see 300 light years away but it doesn’t work like that
Human eyes can't see an object miles away in clear detail
also i meant globe earth my bad
@jeremy you can see stars depending on how bright and big they are
yes
true
it does work like that, that's basic physics
How do day/night cycles work?
No, optical limit of resolution is limited by objective lens diameter.
So Polaris fits the inverse square law ur saying
on a flat earth