the horizon the horizon to the observer
is where the earth in the sky apparently
meet it is the neutral line on level
with the eye which retains the same
position even though the observer has
ascended to lofty heights above the
surface of the earth figuratively there
are two horizons one for the observer on
the surface of the earth and another for
the observer at any height above it the
distance on the surface of the earth
that the eye can see from either
location is fixed by certain geometrical
principles when the observers view of
the horizon is unobstructed Bunny
objects on the surface of the earth it
then appears to be a horizontal plane in
as much as the maximum curvature in
comparison to its circumference is
relatively small therefore it's not
necessary to consider this curvature
when delineating perspective as the
subsidence from a fixed point increases
with the square root of the distance on
a comparative level section of ground
the surface of the earth will partially
disappear at 3 miles and any moving
object upon it would be lost sight of a
distance of 4 miles the prevailing
conditions of the atmosphere while at
all times limit the distance the eye can
see on the surface of the earth also
topographic contours of the Earth's
surface the horizon of the observer that
has ascended to lofty heights above the
surface of the earth in a balloon that
is fixed to the earth or mechanical
device that are propelled through the
air the horizon will always be on level
with their eyes the Earth's surface then
appears like a huge saucer or a shallow
bowl the rim of the bowl is the horizon
and a point directly below the observer
is the geometric center of the universe
the horizon on the ocean or large bodies
of water is known as the visible horizon
and as much as there's no permanent
object to obstruct obstruct the view as
the mass of the first part of the ship
to appear on the horizon followed by the
hull also the mass of the last portion
was a ship to disappear below the
horizon conveying the impression that it
had sunk below the waves or went over
the edge as the curvature of
earth is not apparent to the eye however
all moving objects on the bodies of
water will appear or disappear in the
same manner in the bird's eye view
perspectives the horizon will be the
dividing line between the foreground in
the background though the more distant
objects may be delineated as enveloped
in atmosphere case it can hardly be said
that they are in the background of the
picture in a picture it will be often
difficult to determine where the
dividing line between the foreground and
the background occurs figuratively
there is no dividing line as the motives
in the background are blended into those
of the foreground also the details in
the motives are more defined as they
approach the picture plane the motives
in the background that are partially
obscured by the atmosphere case which
lends to the picture its aerial
perspective are also back of those in
the immediate foreground therefore it's
a matter of the artist to decide all
observations have a geometrical center
point that geometrical Center Point has
a geometrical fixed principle that fixed
principle is the angular resolution of
our eye which is one point two two when
using our vision at six feet tall we
will appear to see a horizon line three
miles away from your eyesight before you
are to move forward you all have to
understand that there is geometric
principles with our eye these
geometrical principles influence our
vision our distance and the way we
perceive things depth of perception
three dimension
when we are looking at objects
particularly the horizon
one must realize that line is a cause of
diffraction
it is indeed the light bouncing off of
the waves of the ocean at a distance too
great to resolve this is cooperated by
an observer elevating his height thereby
increasing his distance along the plane
and creating a larger radius of vision
this is one of the basic geometrical
principles of our eye one other
geometrical principle is our eye
standing on the shore is divided from a
60 degree angle into two separate 30
degree angles 30 degree above the
horizon 30 degree below the horizon this
is also another geometrical principle
the cooperating and substantiating
evidence for that is looking down a
hallway in construction plans and
blueprint plans you can see that all
material are rectangular straight plane
pieces combined together looking down a
hallway we will see a converging point
we will also notice the observer
standing down the hallway the the vision
will be 30% above and 30% below applying
this knowledge I've gone and created a
radius for the observers geometrical
center point being that this geometrical
center point is elevated at 6 feet you
will have a radius of 3 miles away this
is where our angular resolution or
diffraction point gives us the apparent
horizon it's not a real horizon as
there's nothing to obstruct it's the
angles of light becoming too acute to
resolve
hence diffraction modern science in 2020
suggests for evidence of a sphere take
binoculars stand at the shore and you
will appear to see about move over
curvature this is a complete and utter
lie
I hope this illustration shows you scale
I hope seeing the zenith position and
seeing how tiny the actual radius or the
apparent horizon of the observers Center
geometrical point is it's a very short
extremely short distance claiming at
four miles there's an apparent edge that
both disappear down is also at the
zenith position a ridiculous position to
take globe heads maintain this position
the heliocentric model has pumped this
down your throat I help viewing this in
scale and at the zenith position we'll
put it in your mind that it is literally
physically impossible and only in your
imagination can the edge of the earth
exist at four miles standing on the
shore
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