Message from @jeremy
Discord ID: 569248695900569611
I'll send you a picture
that doesnt look right
the lines are slanted
should be goin straight up
ur tryin to measure the drop from a the lnie coming up from c wouldnt be slanted like that
that picture looks very wrong to me
ur measuring the drop from point a the line should be vertical to the tangent not at a slant why does it slant hows that measuring drop from a
post that picture in here
oh u cant post pics in here
can u post a link to that pic
in ur pic from t to a is 8 inch drop and in reality a to b is an 8 inch drop as well but in ur pic from a to b is a 24 inch drop
how can a to b be an 8 inch drop and a 24 inch drop lol
do u see where im having a problem with this or no ?
It isn't to scale, it is just to depict it in an easy to understand way. In the model, the amount they are slanted is very slight to the point of basically being negligible. Over longer distances, the drop to the surface straight down is more significantly different from the drop to surface pointing to the center, but we just continue to do it straight down
And from a to b, it is an 8 inch drop
they shouldnt be slanted at all why would we point to the center we are on the surface
You have to reposition the line to a
no in ur pic from a to b is a 24 inch drop
ur 8 inches down then it goes 24 inches down
Not if the line is tangent on a, then it is 8 inches from a to b
u have a tangent line on top we are trying to figure out the drop amount as u go around the curve. the lines should be going straight up not slanted i feel
Like I said, this isn't to scale. It should point straight down, you are right, but the 7.98 value is pretty much correct since over one mile, the earth curves a tiny fraction of a degree where straight down and slanted are very nearly the same
u said we have to reposition the line to a but real world scenario we could have people in all spots and dont have to reposition anyone
idk im having doubts about this 8 inches per mile squared thing
@Citizen Z same thing, the text of that image is still wrong
your mind must be making up that you're seeing something that isn't ther
@AstralSentient @jeremy the exact equation for how a circle distances away from a tangent line is R[1-cos(d/R]
But each observer in their own position has their own line. Relative to each observer, 1 mile is 8 inch drop
that is approximately 8*d^2
ok frolic just gave us a different equation for the curvature
8*d^2 is an approximation, tha'ts a parabola
it's close but not exact, exact formula is that of a circle
it's weird taht when flat earhers say "8 inches per mile squared" they can't write the proper equation to describe what they're saying
their words sound like h=8/d^2
ur formula is squared too
dont u have to have an equal amount of curve in each mile though
but what they're trying to say is h=8d^2
What do you mean by "close but not exact"?
compare the two equations, do they give exactly the same result as a function of d?
ur saying their is more curve sometimes in some places if u square it
no i'm saying the equation that flerfers use, is a parabola, not a circle