Message from @Question For Your Life
Discord ID: 686017796257087529
this is determined by R
this is NOT observed
ergo no R no ball
No. You dot understand the effect refraction has on the apparent position of the physical horizon...
we do, this is the problem
you dont know what types there are
you dont know you NEED a physical horizon
so, what do ships disappear over???
No, you need me to have one to propagate your narrative...
see, a physical water bulge, yeah?
The apparent position of the horizon. This isn't hard. If the horizon is projected to 7 miles away then a boat which tables more than 7 miles away will be seen to disappear.
*moves
you cannot say apparent position and horizon, thats a tautology
thats a flat earth argument
welcome to flat earth Pit 🙂
Only if you utterly fail to understand the point I'm making
oh i understqand, i think you do not though, but hey ho, not all will comprehend 🙂
Refraction is the cause of all those effects
because you dont know what refraction is
Lol
Literslly says that on your link dude, if you don't believe me...
how much refraction is there in a cold climate vs a hot cliamte
do you know?
Depends on the temperature gradient at the location, the air pressure and the temperature at the location of your observation.
& you just can't say refraction you have to speak about witch refraction your referencing to @Pit Droid
So do you mean over land or sea?
over sea
Hey
One type of refraction. Refraction is just a thing. If you are asking what type of 'mirage effect' then I guess superior.
do you know Snells Law?
In both cases over sea you would expect the sea to be a lower temperature than the air. This should extend your sight range in the same way I described above.
Yes
so you know theres a limit to refraction, right?
Indeed
how much?