I made the WORD for "FREE ENERGY" into a letter, number energy translation that gave me the following results by channeling the Energy of the universe into some basic data.
by Henryk Szubinski
This free energy system uses only blue metal wires in a centered, radius diagonality system with rotation of the circumference to give it the Impulse when rotated so that the blue current will become angular momentum of free energy.
The current starts the rotation and will keep the free energy in the remaining circuit when it continues to rotate on it's own free energy.
by Henryk Szubinski
This free energy system uses only blue metal wires in a centered, radius diagonality system with rotation of the circumference to give it the Impulse when rotated so that the blue current will become angular momentum of free energy.
The current starts the rotation and will keep the free energy in the remaining circuit when it continues to rotate on it's own free energy.
NEXT ARTICLE
ABout aliens and longevity and Telomera as immortal cells of the human body.
by Henryk Szubinski
The alignement of the wave, linearity and the quater are done so because the telomera head acts as a slider along the length of the wrinkles, defining the amount of inertial balance and the fact that the epidermis wrinkle will keep on moving with the motion of the head or cranius of the human. This defines the angular momentum that when a mass object is pushed beyond some velocity it will keep on moving.
When you get old, the face starts to become an INTELLIGENT EXPRESSION that bases the motion of wrinkles as new synaptics of the loose tissue being in motion whenever the head moves to the sides as effecting the Inertia or angular momentum making the wrinkles move on with their inertial mass .
Here i found some more uses of the telomera as might actually be happening with amobea and their compacted state in water so they actually get denser and act as polarization of light into blueness.
EXTRA NOTES:
more data on TELOMERA as the head has extra oxygen in it. The effect of bathing when being over 100 years old would float the wrinkles at a greater amount of buoyancy than without any wrinkles. The ability of the wrinkle that is solid as compared to the empty wrinkle that has been folded, basically simulates the wave effect when immersed in water. The wrinlle will float on top of the water and as such it will move with greater inertia . The telomera as a balloon would lift upwards, may be that it has some helium functions. The oxygen saturated unts of the tloemra heads as having the specific amount of 3,4,5,6,7 units O2 forwards as compared to the 7,6,5,4,3 units in reverse as oxygen simulation that may depend on the blood being oxidised and then un oxidised so that the head will float on the level above and in contact with the surface. Probably there exist some water vegetations that are always growing in water to above its surface as throughout the years and as water height changes. This type of vegetation keeps the oxygen throughout the oceans and where there exist blue zones.
In reference to the continuous growth of vegetation as the requirement of them being also oxygenated ( by reference of keeping oxygen within them) the result of the search led me to the BAMBOO. It grows continuously and also has some space inside it where oxygen is stored.
The bamboos i/bæmˈbuː/ are a subfamily (Bambusoideae) of flowering perennial evergreen plants in the grass family Poaceae.
Giant bamboos are the largest members of the grass family. In bamboo, the internodal regions of the stem are usually hollow and the vascular bundles in the cross section are scattered throughout the stem instead of in a cylindrical arrangement. The dicotyledonous woodyxylem is also absent. The absence of secondary growth wood causes the stems of monocots, including the palms and large bamboos, to be columnar rather than tapering.[3]
Bamboos include some of the fastest-growing plants in the world,[4] due to a unique rhizome-dependent system. Certain species of bamboo can grow 91 cm (3 ft) within a 24-hour period, at a rate of almost 4 cm (1.5 in) an hour (a growth around 1 mm every 90 seconds, or one inch every 40 minutes).[5] Bamboos are of notable economic and cultural significance in South Asia, Southeast Asia and East Asia, being used for building materials, as a food source, and as a versatile raw product. Bamboo has a higher specific compressive strengththan wood, brick, or concrete and a specific tensile strength that rivals steel.[6][7]
That the bamboo has water vascularity of the inner water level and the outer water level means it puts the whole cycle of H2O to O2 to test as the inner insulation and the oxygen that behaves as ARCHIMEDES principle with the ARCHIMEDES outer H2O changes.
The fact that blue zones may have had BAMBOO growth in these regions would indicate that when bamboo decomposes, it creates some type of blue spectra effect.
I made SOME SEARCH ON THE DECOMPOSITION OF BAMBOO:
Biological resources include agriculture, forestry, and biologically-derived waste, and there are many other renewable bioresource examples. One of the scientific terms used to denote renewable bioresources is lignocellulose. Lignocellulosic tissues are biologically-derived natural resources containing some of the main constituents of the natural world. 1) Holocellulose is the carbohydrate fraction of lignocellulose that includes cellulose, a common building block made of sugar (glucose) that is the most abundant biopolymer, as well as hemicellulose. 2) Lignin is the second most abundant biopolymer. Cellulose and lignin are two of the primary natural polymers used by plants to store energy as well as to give strength, as is the case in woody plant tissues. Other energy storage chemicals in plants include oils, waxes, fats, etc., and because these other plant compounds have distinct properties, they offer potential for a host of different bioproducts [4][5]
Cellulose is an organic compound with the formula (C
6H
10O
5)
n, a polysaccharide consisting of a linear chain of several hundred to many thousands of β(1→4) linked D-glucose units.[3][4] Cellulose is an important structural component of the primary cell wall of green plants, many forms of algae and the oomycetes. Some species of bacteria secrete it to form biofilms.[5] Cellulose is the most abundant organic polymer on Earth.[6] The cellulose content of cotton fiber is 90%, that of wood is 40–50% and that of dried hemp is approximately 57%.[7][8][9]
Cellulose is mainly used to produce paperboard and paper. Smaller quantities are converted into a wide variety of derivative products such as cellophane and rayon. Conversion of cellulose from energy crops into biofuels such as cellulosic ethanol is under investigation as an alternative fuel source. Cellulose for industrial use is mainly obtained from wood pulp and cotton.[6]
Some animals, particularly ruminants and termites, can digest cellulose with the help of symbiotic micro-organisms that live in their guts, such as Trichonympha. In humans, cellulose acts as a hydrophilic bulking agent for feces and is often referred to as a "dietary fiber".
POSSIBILITY THAT TELOMERA ARE DERIVED FROM ALPHA CELLULOSE AS THE OXYGEN DELIVERY SYSTEM OF THE HUMAN BODY THAT DISPLACES THROUGH THE CELLULOSE OPENINGS.
EXTRA NOTES:
more data on TELOMERA as the head has extra oxygen in it. The effect of bathing when being over 100 years old would float the wrinkles at a greater amount of buoyancy than without any wrinkles. The ability of the wrinkle that is solid as compared to the empty wrinkle that has been folded, basically simulates the wave effect when immersed in water. The wrinlle will float on top of the water and as such it will move with greater inertia . The telomera as a balloon would lift upwards, may be that it has some helium functions. The oxygen saturated unts of the tloemra heads as having the specific amount of 3,4,5,6,7 units O2 forwards as compared to the 7,6,5,4,3 units in reverse as oxygen simulation that may depend on the blood being oxidised and then un oxidised so that the head will float on the level above and in contact with the surface. Probably there exist some water vegetations that are always growing in water to above its surface as throughout the years and as water height changes. This type of vegetation keeps the oxygen throughout the oceans and where there exist blue zones.
In reference to the continuous growth of vegetation as the requirement of them being also oxygenated ( by reference of keeping oxygen within them) the result of the search led me to the BAMBOO. It grows continuously and also has some space inside it where oxygen is stored.
The bamboos i/bæmˈbuː/ are a subfamily (Bambusoideae) of flowering perennial evergreen plants in the grass family Poaceae.
Giant bamboos are the largest members of the grass family. In bamboo, the internodal regions of the stem are usually hollow and the vascular bundles in the cross section are scattered throughout the stem instead of in a cylindrical arrangement. The dicotyledonous woodyxylem is also absent. The absence of secondary growth wood causes the stems of monocots, including the palms and large bamboos, to be columnar rather than tapering.[3]
Bamboos include some of the fastest-growing plants in the world,[4] due to a unique rhizome-dependent system. Certain species of bamboo can grow 91 cm (3 ft) within a 24-hour period, at a rate of almost 4 cm (1.5 in) an hour (a growth around 1 mm every 90 seconds, or one inch every 40 minutes).[5] Bamboos are of notable economic and cultural significance in South Asia, Southeast Asia and East Asia, being used for building materials, as a food source, and as a versatile raw product. Bamboo has a higher specific compressive strengththan wood, brick, or concrete and a specific tensile strength that rivals steel.[6][7]
That the bamboo has water vascularity of the inner water level and the outer water level means it puts the whole cycle of H2O to O2 to test as the inner insulation and the oxygen that behaves as ARCHIMEDES principle with the ARCHIMEDES outer H2O changes.
The fact that blue zones may have had BAMBOO growth in these regions would indicate that when bamboo decomposes, it creates some type of blue spectra effect.
I made SOME SEARCH ON THE DECOMPOSITION OF BAMBOO:
Biological resources include agriculture, forestry, and biologically-derived waste, and there are many other renewable bioresource examples. One of the scientific terms used to denote renewable bioresources is lignocellulose. Lignocellulosic tissues are biologically-derived natural resources containing some of the main constituents of the natural world. 1) Holocellulose is the carbohydrate fraction of lignocellulose that includes cellulose, a common building block made of sugar (glucose) that is the most abundant biopolymer, as well as hemicellulose. 2) Lignin is the second most abundant biopolymer. Cellulose and lignin are two of the primary natural polymers used by plants to store energy as well as to give strength, as is the case in woody plant tissues. Other energy storage chemicals in plants include oils, waxes, fats, etc., and because these other plant compounds have distinct properties, they offer potential for a host of different bioproducts [4][5]
Cellulose is an organic compound with the formula (C
6H
10O
5)
n, a polysaccharide consisting of a linear chain of several hundred to many thousands of β(1→4) linked D-glucose units.[3][4] Cellulose is an important structural component of the primary cell wall of green plants, many forms of algae and the oomycetes. Some species of bacteria secrete it to form biofilms.[5] Cellulose is the most abundant organic polymer on Earth.[6] The cellulose content of cotton fiber is 90%, that of wood is 40–50% and that of dried hemp is approximately 57%.[7][8][9]
Cellulose is mainly used to produce paperboard and paper. Smaller quantities are converted into a wide variety of derivative products such as cellophane and rayon. Conversion of cellulose from energy crops into biofuels such as cellulosic ethanol is under investigation as an alternative fuel source. Cellulose for industrial use is mainly obtained from wood pulp and cotton.[6]
Some animals, particularly ruminants and termites, can digest cellulose with the help of symbiotic micro-organisms that live in their guts, such as Trichonympha. In humans, cellulose acts as a hydrophilic bulking agent for feces and is often referred to as a "dietary fiber".
POSSIBILITY THAT TELOMERA ARE DERIVED FROM ALPHA CELLULOSE AS THE OXYGEN DELIVERY SYSTEM OF THE HUMAN BODY THAT DISPLACES THROUGH THE CELLULOSE OPENINGS.
FROM WIKIPEDIA
DATE, 26,11,2016
TIME 13:50
Lignin is a class of complex organic polymers that form important structural materials in the support tissues of vascular plants and some algae.[1] Lignins are particularly important in the formation of cell walls, especially in wood and bark, because they lend rigidity and do not rot easily. Chemically, lignins are cross-linked phenolic polymers.[2]
AS THE 2 SIES OF THE TELOMERA HEAD AND THE INTERVAL:
Lignin fills the spaces in the cell wall between cellulose, hemicellulose, and pectin components, especially in vascular and support tissues: xylem tracheids, vessel elements and sclereid cells. It is covalently linked to hemicellulose and therefore cross-links different plant polysaccharides, conferring mechanical strength to the cell wall and by extension the plant as a whole.[13] It is particularly abundant in compression wood but scarce in tension wood, which are types of reaction wood.
Lignin plays a crucial part in conducting water in plant stems. The polysaccharide components of plant cell walls are highly hydrophilic and thus permeable to water, whereas lignin is more hydrophobic. The crosslinking of polysaccharides by lignin is an obstacle for water absorption to the cell wall. Thus, lignin makes it possible for the plant's vascular tissue to conduct water efficiently.[14] Lignin is present in all vascular plants, but not in bryophytes, supporting the idea that the original function of lignin was restricted to water transport. However, it is present in red algae, which seems to suggest that the common ancestor of plants and red algae also synthesised lignin. This would suggest that its original function was structural; it plays this role in the red alga Calliarthron, where it supports joints between calcified segments.[1] Another possibility is that the lignins in red algae and in plants are result of convergent evolution and not of a common origin.[1]
That the head of the telomera has left and right hemispheres just like our own human brain may indicate the non convergence of human evolution.
The Lignin starts to function when the muscles of old peole need the functoning of telomera as SUPPORT TISSUE (seen below as the telomera and the Lignin molecule)..
DATE, 26,11,2016
TIME 13:50
Lignin is a class of complex organic polymers that form important structural materials in the support tissues of vascular plants and some algae.[1] Lignins are particularly important in the formation of cell walls, especially in wood and bark, because they lend rigidity and do not rot easily. Chemically, lignins are cross-linked phenolic polymers.[2]
AS THE 2 SIES OF THE TELOMERA HEAD AND THE INTERVAL:
Lignin fills the spaces in the cell wall between cellulose, hemicellulose, and pectin components, especially in vascular and support tissues: xylem tracheids, vessel elements and sclereid cells. It is covalently linked to hemicellulose and therefore cross-links different plant polysaccharides, conferring mechanical strength to the cell wall and by extension the plant as a whole.[13] It is particularly abundant in compression wood but scarce in tension wood, which are types of reaction wood.
Lignin plays a crucial part in conducting water in plant stems. The polysaccharide components of plant cell walls are highly hydrophilic and thus permeable to water, whereas lignin is more hydrophobic. The crosslinking of polysaccharides by lignin is an obstacle for water absorption to the cell wall. Thus, lignin makes it possible for the plant's vascular tissue to conduct water efficiently.[14] Lignin is present in all vascular plants, but not in bryophytes, supporting the idea that the original function of lignin was restricted to water transport. However, it is present in red algae, which seems to suggest that the common ancestor of plants and red algae also synthesised lignin. This would suggest that its original function was structural; it plays this role in the red alga Calliarthron, where it supports joints between calcified segments.[1] Another possibility is that the lignins in red algae and in plants are result of convergent evolution and not of a common origin.[1]
That the head of the telomera has left and right hemispheres just like our own human brain may indicate the non convergence of human evolution.
The Lignin starts to function when the muscles of old peole need the functoning of telomera as SUPPORT TISSUE (seen below as the telomera and the Lignin molecule)..
The Lignin as the straightest path of the SUPPORT TISSUE and the Direct way and it's balance by length as wave or vector directness as harmonious with the mid point of weight inclinations.
new article on CRYSTAL LATTICES and their sudden change.
The salt NaCl may be whats being pressed together in the salty water of the blue zones so that the new configuration of the NaCl ability to act as separate polarization filters or new crystal lattices that act as polarization lensing in the sheer plane of Na and Cl being enough to polarize the sun light.
These crystal lattices may also be able to configure into the crystal lattice of OPAL as the reason for the BLUENESS. The Na Cl lattices orient themselves into the crystal lattice angle of separation found in OPAL.
image blow of OPAL crystal lattice.
Salt or Na Cl may be able to mimmik many types of spectral compositions of the jewels in any range of color because they are easily soluble with the micro organisms that exist in the oceans and on land. It acts as an INERTIAL BINDER making any soluable matter displace with the motion of any wave or by creating winds that have the Inertial momentum at a high enough velocity to keep on moving.
conclusion: The wrinkles and their Inertia may then be related to the motion of solutes that are bound together by the signalling elements of Na and Cl as NaCl that lets them displace in groupings of many hundreds of thousands of nerve synapses and effect the memory trace to the amobea .as the first INertialy moving organisms that displaced with the change of crystaline motion of NaCl.
Here are some questions related to the functions of slat water or NaCl and H2O as from long ago, actually billions of years ago and the role of NaCl as the mover of the minerals needed to form the special blue crystals.
conclusion: The wrinkles and their Inertia may then be related to the motion of solutes that are bound together by the signalling elements of Na and Cl as NaCl that lets them displace in groupings of many hundreds of thousands of nerve synapses and effect the memory trace to the amobea .as the first INertialy moving organisms that displaced with the change of crystaline motion of NaCl.
Here are some questions related to the functions of slat water or NaCl and H2O as from long ago, actually billions of years ago and the role of NaCl as the mover of the minerals needed to form the special blue crystals.