The Blue Sky, Blue Water
The
sky is blue looking up, but when flying by airplane looking down it's
not. However, even though the density of air is less on top than at
the bottom and is moving more slowly than the air closer to the
earth, the molecular structure is the same, though its molecules
cannot be directly ontop-of one another because of the curvature of
the atmosphere, which slants them, creates an eclipse of the atomic
nucleus of the electron orbitals of both the bottom and the top
layers of molecules which causes a light blue color. The light blue
color is of air is caused when the atoms of one row eclipse the space
between the the rows of stoms on the bottom of it.
The same
can be said of w ater on the earth. The curvature of the earth causes
the molecular layers of water molecules on the top rows to eclipse
those on the bottom rows, a this is only one factor which creates a
darker blue than the color of the sky. We can see a blue ocean from a
plane or from a cliff, or even from the sea-side, however not when
put in a glass and removed from the curvature of the earth, nor when
examined up close when the amount of curvature of the earth becomes
negligible from our perspective thereby angles by which we see the
water.
Red Sky
The colour of the atmosphere doesn't vary with
the wavelength of light from the sun, but the angle of the sun
changes the the gravitational pull on the atmosphere which varies the
angle of the on-the-top-of-each-other layers molecules, and therefore
the shape of the atmosphere as well as the heat of it.
Because
the colour red of the atmosphere is flushed by darkness making it
seem darker (though this is only the case because less light is
shined onto it) than the when its color is light blue, the color blue
still means more of an angle of the rows of on-the-top-of-each-other
molecules respectively than the color red, meaning a contraction of
the angle of the on-the-top-of-each-other air molecules is caused
when sun pulls them away by its gravity, and this is what makes the
different lighter color, though it seems darker because it's toward
nighttime when there's no yellow/white sun light shining between the
air molecules.
Clarity is Uniformity of the
ontop-of-each-other-layers and the sideby-side-layers, and Shininess
is Density
When there is clarity of a substance there is
no atomic nuclei eclipsing the space between the the molecular layers
of the on-top-of-each-other rows of atoms. All the rows are uniform,
or at least close too, and so are the side by side rows.
Crystals,
Diamonds, Glass, Ice, Cellophane Plastic Wrap, Air
ice,
glass, water as metal
Water is shinier than glass because the side-by-side atoms and
on-the-top-of-each other atoms are closer together than glass but
are continually pushed apart by electron light from the surrounding
air, because water is, basically, a metal and attracts electron
light all the time from the surrounding oxygen, or else it turns to
ice, whereas glass doesn't and is more neutrally spaced and has so
has more density of the on-the-top-of-each-other-atoms most of
the time because it doesn't have electron light going over it
The
on-the-top-of-each-other molecules of glass are usually denser than
water because water has electron energy flowing over its orbitals,
which pushes it apart, but glass keeps the density it formed when
grains of sand, which were originally parts of rocks, formed from
cooled magma. The rocks' density of the on-the-top-of-each-other
atoms never really changes that much from the density of their
original formation even when melted and then cooled.
Even
when sand is melted to make glass, the natural density which the
rocks that sand broke off of never changes and is still with the
glass when it cools, though the molecular layers of glass are almost
completely uniformly spaced and see through and have had all their
impurities melted away by the molting of the sand.
Ice is clear but not as clear as
crystals or water and will melt to water which is more clear. The
addition of electrons to make it more clear as well as water's
ability to conduct electricity means that it's uniform but negativly
charged. Negativity means less clarity and so
clarity means
something close to neutrality or the uniformity of positively charged
rows of side-by-side atoms and on-the-top-of-each-other atoms.
Plastic cellophane wrap is clear and shiny but not the
on-the-top-of-each-other molecules are not dense because they are
easily ripped apart, however they are denser than water.
Difference
between Colors, Angles, Length of Angles, Darkness of Colors
If
all colors not shininess are the refraction of the atomic nuclei of the
on-the-top-or-bottom-of-each-other-rows of molecules which eclipse
the electron orbitals above or below them, then the difference between
colors is the angle and amount of the electron's refractive ability
eclipsed by the atomic nuclei above or below a row of
side-by-side-atoms and the length below or above the row of
side-by-side-atoms the atomic nuclei of the angle that causes the color
is.
The Darkness of Colors
When more of a molecular
layer is eclipsed by an atomic nuclei from a bottom or top row of
atoms, the darker the color will be, as well as closer. However, this
is only true for positive charged atoms because when they are
negative, all that is added to the material is more shininess.
The
Color Black
Therefore the color black is the most
eclipsed of all the positive colors and the lighter are least
eclipsed.
The Color White
Usually the color
white is the uniformity of slightly negatively charged, or slightly
positively charged molecules such as frost, ice, or clouds.
Burning
Water, Black Ash, White Ash
Water
goes from less shiny to more white when burned and turned to a vapor.
The remnants of most burned things is black because the pre-existing
non-uniformity of the side-by-side and
on-the-top-of-each-other-molecules of the material burned is
exacerbated by the release of light particles from the electron
orbitals unevenly by the addition to fire to the material at specific
points; and particularly the elementary particles on the outermost
orbitals, and so the material condenses and that which is left allows
little light, .
The White ash
is the in between process of the black ash becoming a gaseous vapor,
and concomitantly, more positively charged.
On-Top-Of-One-A
nother Angles and Colors and Molecular Densities
When
atoms are ontop of one another they have no light particles of an
atomic orbit holding them fast to the atoms above or below them.
Rejuvenation of Interstitial Light on Atomic Orbitals
If the light of an atomic orbital which is positively charged
slows down it will absorb the velocity of the elementary forms of
intermediate speed onto it and will slowly re-gain momentum.
Likewise the electron orbitals of atoms will absorb the slowness of
the elementary forms onto them.
Gravity of Stars Stronger
than Light
If the gravity of the sun is strong enough to
hold the earth on orbit, then that gravity is stronger than sun-light
pushing against the earth.
The earth is tugged by the gravity
of the planets surrounding it and our solar system's gravity is held
even-keeled by the collective gravity of the stars of the Milky Way.
Those Milky way stars are affected by the gravity of the next nearest
galaxy Andromeda, and then the next galaxy Callisto.
Otherwise
the gravity of the sun would pull every puney planet like Earth or
Mercury onto it.
Shape of Atomic Orbitals Varies
Slightly based Upon Pressure of the Surrounding Elementary Forms
The elementary forms of electron light traveling onto an
atomic sphere will vibrate based upon the vibrations of the elec tron
light of other atoms, as well as any interstitial light that hits
upon them. These vibrations cause the overall shape of the electron
orbital to vary slightly based upon the intertia of particular
vibrations.
Oxidation of Electronlight Particles by Metal
The electron light of an atomic orbital of air can be
transmitted to a metal and retain the features of the overall shape
it had on the atoms of the element of oxygen.
Oxidation of
Electron-Heat by Positive Molecules, by Less Positive Molecules but
Still Positive All the Same - Heat Conduction/Oxidation
Electron
energy will flow from one molecule which is positive to another
that's less positive, but still positive all the same. This is how
heat is conducted
Light that Can be Seen and Not Seen
Light, or interstitial light - as this text refers to it as -
travels by waves but cannot be seen if those waves consist of
particles that are not contiguous; and follow each other by a
uniformity of varying speeds - sequential speeds
Radio
Wave Frequencies
Different radio wave frequencies are
made by shining light or electricity at different amounts on a
transmitter of a certain molecular form - usually crystal - and size
Shape of the Earths Gravitational Field
The
earth's gravitational field will be wider at the middle than the top
and so there is a gravitational field on the earth that reflects the
size of the radius of the latitudinal circle of the different parts
of it.
Expansion of the Earth Occurs Mainly at the Equator
and is Caused by the Accumulation of Interstitial Darkness at its
Core. The Earth's Continents Are Pushed Toward the Poles
The
history of the earth is such that a star formed and then cooled, yet
was tempered by the energy of the sun and took on interstitial
darkness and the inability to rejuvenate the light on its electron
orbitals; eventually forming the different elements. Because of the
earth's shape it spews
forth its energy close to the equator and
therefore the earth expands to a greater degree there, forming new
land and pushing the continents toward the poles.
Humans
Lose Muscle Mass the Closer to the Poles they go Rather than at the
Equator
Because there is more gravity and sun light at
the equator the humans upon it will gradually increase in muscle mass
over their bodies and form differently depending upon where they are.
More Women Born at Poles than Men
Because all
fetuses appear to begin as females, the weaker the carrier of the
fetuses the more women would be born if pregnancy at the poles were
unhindered.
Explanation of the Formula for Spherical and Shape Formation,
the Equivalents of Both by the Standards of Contemporary Scientific
Notation as well as a Brief Exegesis of Spherical Ontology for the
Reader 's Pleasure
The reader may have questioned the
necessity for two of the variables of the s = o/n / n/o formula and
may think the simplest expression of the formula s = o/n. The logic
of this position is that if there are two actions, equal and opposite
and onto each other, then 1/1 / 1/1 is equal to 1 and therefore, 1/1
= 1. However this summation of the formula is not useful for geometry
because no form is completely spherical. Forms can approach
sphericality more or less than other forms, however they cannot be
completely spherical, and this is so for two glaring reasons: 1)
elementary forms are not spherical, and do not combine to form
spheres having smooth edges because if they did elementary forms
would not be, logically, the most elementary forms and therefore
negate the process of geometry, 2) If the logic of geometry says that
elementary forms have different and distinct speeds and trajectories
from each other over two instants of time, then there can be no equal
and opposite reactions, only those which are close to.
As for
the scientific equation for spherical formation it can be put to the
reader, as s = F/-F / -F/F, using Newton's law of force, F=ma.
However, to explain the idea of spherical and shape formation
entirely by using contemporary scientific notation, Newton's law of
force must be varied or have trajectory added to it. If force equals
a form multiplied by acceleration, and the acceleration of each form
is distinct and so is trajectory so that no elementary form travels
by a straight line, then the acceptable variables and variants to
Newton's law of force is F=ma^t or F=mat and the equation by the
standards of contemporary physics becomes ma^t/-ma^t / -ma^t/ma^t or
mat/-mat / -mat/mat. T = (f1-f2)+f3 because the trajectory of an
elementary form at its simplest is equal to the negation of two
elementary forms against each other with the force of a third
elementary form added. Logically, if elementary forms are onto other
elementary forms, then the force of three forms are consistently
acting upon each elementary form.
However, to put the formula
to the reader by the standards of contemporary physics oversteps the
bounds of geometry, and is therefore an ancillary concern of geometry
and falls to the reader's own exegesis to continue such a pursuit.
As for the particular case of the human hand, nowhere can
nature replicate a form approaching sphericality as by the force
applied by the human hand. Let the reader perform an exegesis of the
simplest example of the formation of a rubberball. Rubber from trees
cannot form rubber balls if no extant force from a human hand is
applied to it. The ratios of the elementary forms of the rubber onto
the trees and air and water vapor, with all the elementary spherical
forms of the atoms of each element matched up and subtracted - as has
been explained - are far too distant from sphericality unless the
force of the human hand is applied.
