The BLUE ZONE EFFECT
by Henryk Szubinski
Sodalite crystals and it's SODIUM composition.
by Henryk Szubinski
Sodalite crystals and it's SODIUM composition.
Most ocean water is SALT, meaning NaCl.
Sodalite has the component element Sodium or Na.
Meaning that it has the components of 1/2 Na and 1/2 Cl
So that this divided amount as the amount of Sodium in the salt water, then
relates to the ability of sodium to channel the living energy of the BLUE ZONES
as the light displacing through it will be polarized.
Sodalite has the component element Sodium or Na.
Meaning that it has the components of 1/2 Na and 1/2 Cl
So that this divided amount as the amount of Sodium in the salt water, then
relates to the ability of sodium to channel the living energy of the BLUE ZONES
as the light displacing through it will be polarized.
Sodium and the SODALITE may also be crystals present in the atmosphere as the reason that there is
POLARIZED BLUE LIGHT that may be POLARIZED by the SODIUM acting as the change of angle of
the blue spectrum functioning as the prism effect.
So that other planets with blue oceans or blue atmospheres such as NEPTUNE would also be related to
SODALITE as SODIUM.
POLARIZED BLUE LIGHT that may be POLARIZED by the SODIUM acting as the change of angle of
the blue spectrum functioning as the prism effect.
So that other planets with blue oceans or blue atmospheres such as NEPTUNE would also be related to
SODALITE as SODIUM.
from Wikipedia
date 2018
April 20
Sodalite is a rich royal blue tectosilicate mineral widely used as an ornamental gemstone. Although massive sodalite samples are opaque, crystals are usually transparent to translucent. Sodalite is a member of the sodalite group with hauyne, nosean, lazurite and tugtupite.
First discovered by Europeans in 1811 in the Ilimaussaq intrusive complex in Greenland, sodalite did not become important as an ornamental stone until 1891 when vast deposits of fine material were discovered in Ontario, Canada.
A light, relatively hard yet fragile mineral, sodalite is named after its sodium content; in mineralogy it may be classed as a feldspathoid. Well known for its blue color, sodalite may also be grey, yellow, green, or pink and is often mottled with white veins or patches. The more uniformly blue material is used in jewellery, where it is fashioned into cabochons and beads. Lesser material is more often seen as facing or inlay in various applications.
Although somewhat similar to lazurite and lapis lazuli, sodalite rarely contains pyrite (a common inclusion in lapis) and its blue color is more like traditional royal blue rather than ultramarine. It is further distinguished from similar minerals by its white (rather than blue) streak. Sodalite's six directions of poor cleavage may be seen as incipient cracks running through the stone.
It is sometimes referred to as "poor man's lapis" due to its similar color and the fact that is much less expensive. Its name comes from its high sodium content. Most sodalite will fluoresce orange under ultraviolet light, and hackmanite exhibits tenebrescence.[5]
How would Soladite be made by nature.
The zones where the surface is below the sea level has some pressure effect on the salt in those areas
so that over millions or billions of years, the salt will be FILTERED into it's 2 components Na and Cl
as Sodium and Chloride.
There are many such places on Earth.
In England, in South America and in Israel.
These places are respectively approximately, 2.75 meters, 105 meters and 430.5 meters below the sea level.
Their SUM BEING= 538.25 meters below the sea level.
Sodalite as free energy:
The 1,2,3,4 above define the twisting as the resulting potential of the soladite Sodium in 1) as the shaded regions. The 2) defines the conductivity of space through any sodalite STRING that has the resulting 3)space alterations size of the space and the twisting effect related to how it changes in space.Meaning it will bend slowly but still retain it's resiiiance to bending , so that 4) defines the amount of controllable rotation of the TWIST PLANE as being exactly that of the planets axial tilt, the stars own rotation and it's elasticity together with the SPIRAL GALAXY bending and twisting. So this may be controlled by just rotating the Sodalite in space.
The 1,2,3,4 above define the twisting as the resulting potential of the soladite Sodium in 1) as the shaded regions. The 2) defines the conductivity of space through any sodalite STRING that has the resulting 3)space alterations size of the space and the twisting effect related to how it changes in space.Meaning it will bend slowly but still retain it's resiiiance to bending , so that 4) defines the amount of controllable rotation of the TWIST PLANE as being exactly that of the planets axial tilt, the stars own rotation and it's elasticity together with the SPIRAL GALAXY bending and twisting. So this may be controlled by just rotating the Sodalite in space.