The Earth from the start as the scillicate NaCl and the developements of it's oceans and geology as sperating in time as Na and Cl and then the
explanation of the Oxyegn and Hydrogen in Water as H2O in reference to our human developement and knowledge of which conects to which.
The Sodium oxide as used in ceramics and glasses and the Bleach as related to Eye related problems of the human Eyes ability or innability to be able to
see through colored glass and through bleached Eyes as the zone where the Alien vision may be related to ALIEN and HUMAN CONTACT.
by Henryk Szubinski
Starts the Earth and it's water as the NaCl of the slat water oceans that our Planet still maintians. So how were the first water relations and how did Life evolve to be aware of this development and how did we become humans.
explanation of the Oxyegn and Hydrogen in Water as H2O in reference to our human developement and knowledge of which conects to which.
The Sodium oxide as used in ceramics and glasses and the Bleach as related to Eye related problems of the human Eyes ability or innability to be able to
see through colored glass and through bleached Eyes as the zone where the Alien vision may be related to ALIEN and HUMAN CONTACT.
by Henryk Szubinski
Starts the Earth and it's water as the NaCl of the slat water oceans that our Planet still maintians. So how were the first water relations and how did Life evolve to be aware of this development and how did we become humans.
the ANCIENT CONNECTIONS:
On the basis that the Na could be height related, it would be the lighter element oxygen that it used to be prior to the NaCl separation as O2Na = the commets, asteroids and rock that created the Earth s Surface , and that the Hydrogen would be the heavier element in relation to the Cl as the first core of the Earth = HCl ,
The logic is however that H is light so it would be less high meaning that the Na would have combined from the H as HNa as the thing that asteroids have in them.
and the Cl as deeper and heavier, would = the Oxygen as O2Cl as the gravity core of Earth.
THE ALIEN CONNECTION:
So then, the Sodium oxide used in ceramics may be the Earth and the use of it in glasses may be the Atmsphere as the LENSING by which aliens are able to freely displace through by using the BLEACHING of the EYES.
GLASS COLOR and BLEACH SPACE of the UNIVERSE:
For some reason the Heavier O2 would be the most abundant factor in Cl breaking the Na so it has more space in empty vacuum and has greater repulsion of other elements.
The Na would be the element that attracts space meaning there is less of this element in the universe and the other elements as the H+ that are fragile and will break more easily .So then, these are the reasons of the salt water and the H2O as existing in the universe and their effect on each other.
The medium between the hard and soft and the plentiful and rare are the elements that made water out of the Earth's matter together with the astroids that shaped it.
The HCl = bleach
and the NaO2 as a metal oxide =sodium oxide used in glasses and in Ceramics.
The EARTH and the BLEACH GLASS EFFECT:
Could be that the most plentifull thing in the universe = bleach and that it basically makes colorlessness that is visable as empty space as the result of bleach and it's attraction by gravity to metal planet cores and that then, the
resulting REMAINING thing =the metal oxide. So the universe could be bleaching every type of Planet geology to the Point where there are only metals left ,or their oxides. Probably our planet Earth would, after Another 2 billion or 3 billion years be totally bleached so that only the metal oxides are present on it's Surface topography at a lower height than the current Earth layer of geology.
Could be that the metal oxide has some attractive force to other metal oxides in space and that bleach = to weakest substance in the universe while the metal oxide NaO has the greatest strength.
In any case the fact that water is a substance like any other but is totally transparent ,means that there must be an interval susbstance that is reduceing water clarity into ever and ever clearer amounts. There has to be bleach doing this and that it ressonantes with the metal oxides that shape the beach sand and the inner core of Earth as these metals are also bleached into a level of transparent metal as the possibility of molten lava having been the fluid or solid substance with the highest "non trasparency".
Every living organism has this mix of the water H2O and the NaCl as the origins of pre dated NaO and HCl. This defines the whiteness of the Alien beings and the experience of them being able to see through the space where theese elements are combined on every planet with Life on it.
Humans are somewhat immersed in the awareness of other humans so that when aliens, appear from a state of awareness that makes their use of metal and oxides for Medical use and the development of the new thought medicine languages, they are still unoticable to anything but the Eye that knows them. To train the Eye to have Contact with aliens may be as easy as saying that H2O exists in the fluid around the Eye ball, and that the Salt exists as the NaCl of the synaptic nerves conected tot he brain, but also that the bleaching of the Eye by the HCl and the NaO(sodium oxide related to making color in glass making).
The ESP sense of extra sensory perception as the language of Alien thought medicine: the bleaching sense perception as directly Visual as through glass pigmentation of perception.
From Wikipedia on the bleaching of the Eye;
date 18,10,2016
time 18:00
Thousands of rhodopsin molecules are found in each outer segment disc of the host rod cell. Retinol is produced in the retina from Vitamin A, from dietary beta-carotene. Isomerization of 11-cis-retinal into all-trans-retinal by light induces a conformational change (bleaching) in opsin, continuing with metarhodopsin II, which activates the associated G protein transducin and triggers a Cyclic Guanosine Monophosphate, second messenger, cascade.[5][8][9]
from
http://www.cvrl.org/database/text/intros/introbleaches.htm
date ,18,10,2016
time, 18:00
The human photopigments are photolabile and undergo bleaching at moderate and high light intensities. The amount of pigment bleached is proportional to the quantum catch of the pigment. Bleaching the photopigment reduces the effective pigment concentration of the photoreceptor and, consequently, affects its spectral sensitivity (see also Photopigment optical density and Photoreceptor outersegment length). As more pigment is bleached, the effective pigment density decreases and the spectral sensitivity becomes narrower (though the λmax does not change). In the rods, the effects of bleaching on spectral sensitivity are relatively insignificant because only very small changes in rhodopsin density accompany the very large adaptive changes in rod sensitivity: Less than 5% of rhodopsin is bleached at the level at which the photoreceptor completely saturates (ca 3.0 log scotopic trolands), which ends the dynamic range of the rods. In the cones, however, the effects of bleaching on pigment concentration can have large effects on spectral sensitivity and must be taken into account when evaluating chromatic adaptation and color-matching data. Formulae are available for calculating the amount of photopigment present for both long- (equilibrium) and short-duration bleaching conditions. They rely on knowing the half-constant of bleaching (i.e. the intensity for which the fractions of bleached and unbleached pigment are 0.5). Estimates of the half-constant of bleaching have been determined from fundal reflectometry for the rods (Rushton, 1972) and for the combined M- and L-cones (Rushton & Henry, 1968). Separate estimates of the half-bleaching constants of the M-cones (Rushton, 1963) and of the L-cones (Rushton, 1965) have also been obtained, but these are questionable.
A reliable estimate of the half-bleaching constant of the S-cones has not been obtained. This is problematic because there is evidence that the S-cones may be vulnerable to photic damage, even at relatively moderate levels of blue light. Exposing the S-cones to blue lights that bleaches between 50 - 75% of their photopigment on an intermittent schedule may cause a long-lasting or permanent loss of sensitivity (e.g., Harwerth & Sperling, 1971; 1975; Sperling, 1986).
Im referring to this type of Sodium oxide as the:Use of aliens for optical technology to be able to visually displace through the fazes of EYE BLEACHING.
Sodium oxide (SOX) is a chemical compound with the formula Na2O. It is used in ceramics and glasses, though not in a raw form. It is the base anhydride of sodium hydroxide, so when water is added to sodium oxide NaOH is produced.
Glass making[edit]Sodium oxide is a significant component of glasses and windows although it is added in the form of "soda" (sodium carbonate). Sodium oxide does not explicitly exist in glasses, since glasses are complex cross-linked polymers. Typically, manufactured glass contains around 15% sodium oxide, 70% silica (silicon dioxide) and 9% lime (calcium oxide). The sodium carbonate "soda" serves as a flux to lower the temperature at which the silica melts. Soda glass has a much lower melting temperature than pure silica, and has slightly higher elasticity. These changes arise because the silicon dioxide and soda react to form sodium silicates of the general formula Na2[SiO2]x[SiO3].
Na2CO3 → Na2O + CO2
Na2O + SiO2 → Na2SiO3
The ESP sense of extra sensory perception as the language of Alien thought medicine: the bleaching sense perception as directly Visual as through glass pigmentation of perception.
From Wikipedia on the bleaching of the Eye;
date 18,10,2016
time 18:00
Thousands of rhodopsin molecules are found in each outer segment disc of the host rod cell. Retinol is produced in the retina from Vitamin A, from dietary beta-carotene. Isomerization of 11-cis-retinal into all-trans-retinal by light induces a conformational change (bleaching) in opsin, continuing with metarhodopsin II, which activates the associated G protein transducin and triggers a Cyclic Guanosine Monophosphate, second messenger, cascade.[5][8][9]
from
http://www.cvrl.org/database/text/intros/introbleaches.htm
date ,18,10,2016
time, 18:00
The human photopigments are photolabile and undergo bleaching at moderate and high light intensities. The amount of pigment bleached is proportional to the quantum catch of the pigment. Bleaching the photopigment reduces the effective pigment concentration of the photoreceptor and, consequently, affects its spectral sensitivity (see also Photopigment optical density and Photoreceptor outersegment length). As more pigment is bleached, the effective pigment density decreases and the spectral sensitivity becomes narrower (though the λmax does not change). In the rods, the effects of bleaching on spectral sensitivity are relatively insignificant because only very small changes in rhodopsin density accompany the very large adaptive changes in rod sensitivity: Less than 5% of rhodopsin is bleached at the level at which the photoreceptor completely saturates (ca 3.0 log scotopic trolands), which ends the dynamic range of the rods. In the cones, however, the effects of bleaching on pigment concentration can have large effects on spectral sensitivity and must be taken into account when evaluating chromatic adaptation and color-matching data. Formulae are available for calculating the amount of photopigment present for both long- (equilibrium) and short-duration bleaching conditions. They rely on knowing the half-constant of bleaching (i.e. the intensity for which the fractions of bleached and unbleached pigment are 0.5). Estimates of the half-constant of bleaching have been determined from fundal reflectometry for the rods (Rushton, 1972) and for the combined M- and L-cones (Rushton & Henry, 1968). Separate estimates of the half-bleaching constants of the M-cones (Rushton, 1963) and of the L-cones (Rushton, 1965) have also been obtained, but these are questionable.
A reliable estimate of the half-bleaching constant of the S-cones has not been obtained. This is problematic because there is evidence that the S-cones may be vulnerable to photic damage, even at relatively moderate levels of blue light. Exposing the S-cones to blue lights that bleaches between 50 - 75% of their photopigment on an intermittent schedule may cause a long-lasting or permanent loss of sensitivity (e.g., Harwerth & Sperling, 1971; 1975; Sperling, 1986).
Im referring to this type of Sodium oxide as the:Use of aliens for optical technology to be able to visually displace through the fazes of EYE BLEACHING.
Sodium oxide (SOX) is a chemical compound with the formula Na2O. It is used in ceramics and glasses, though not in a raw form. It is the base anhydride of sodium hydroxide, so when water is added to sodium oxide NaOH is produced.
Glass making[edit]Sodium oxide is a significant component of glasses and windows although it is added in the form of "soda" (sodium carbonate). Sodium oxide does not explicitly exist in glasses, since glasses are complex cross-linked polymers. Typically, manufactured glass contains around 15% sodium oxide, 70% silica (silicon dioxide) and 9% lime (calcium oxide). The sodium carbonate "soda" serves as a flux to lower the temperature at which the silica melts. Soda glass has a much lower melting temperature than pure silica, and has slightly higher elasticity. These changes arise because the silicon dioxide and soda react to form sodium silicates of the general formula Na2[SiO2]x[SiO3].
Na2CO3 → Na2O + CO2
Na2O + SiO2 → Na2SiO3
The Earths ocean "GREAT CONVEYER " of warm water currrents above the ocean floor and then the Cold water currents in the opposite direction as lower ocean floor.