I sent this to Steven Greer today
date, 01,04,2017
time 16:54
you can also send in concepts for free energy by going to the SIRIUS DISCLOSURE
<[email protected]>
date, 01,04,2017
time 16:54
you can also send in concepts for free energy by going to the SIRIUS DISCLOSURE
<[email protected]>
THE VOLUME MEASURE OF a CUBIT of VACUUM
and DARK ENERGY
by HEnryk Szubinski
This theory will define the dark energy of the universe as the
example of "fruits that are made into cubes so that they will fit the cubic space more efficiently" this example wil be compared to space itself
and how space does not need the "fruit example " but which may in fact define space as cubic and spaces as the smaller cubes as "all of the
vector surfaces of a cube and their variable combinations that change in space by motion from large cubes to smaller ones (or as surfaces and sides and
smaller and more efficiently combined cubes of energy and the vector space in motion between "the cubic fruits".
First the data on the weight specifics of the microgram and then how this small number will relate to computations of volume of cubes of fluid and then solid matter as the difference between the two when taken together as the difference between the units of water on Earth and the units of measure used to compute 1 kg of matter.
They are not currently the same, so I'm going to show you how they may be the same so that the vacuum energy may be computed.
In the metric system, a microgram or microgramme (μg; the recommended symbol in the United States when communicating medical information is mcg) is a unit of mass equal to one billionth (1×10−9) of a kilogram, one millionth (1×10−6) of a gram, or one thousandth (1×10−3) of a milligram. The unit symbol is μg according to the International System of Units. In μg the prefix symbol for micro- is the Greek letter μ (Mu).
Abbreviation and symbol confusion[edit]When the Greek lowercase “μ” (Mu) in the symbol μg is typographically unavailable, it is occasionally—although not properly—replaced by the Latin lowercase “u”.
The United States-based Institute for Safe Medication Practices (ISMP) and the U.S. Food and Drug Administration (FDA) recommend that the symbol μg should not be used when communicating medical information due to the risk that the prefix μ (micro-) might be misread as the prefix m (milli-), resulting in a thousandfold overdose. The non-SI symbol mcg is recommended instead.[1][2] However, the abbreviation mcg is also the symbol for an obsolete CGS unit of measure known as millicentigram, which is equal to 10 μg.
In the UK, because serious medication errors have been made from the confusion between milligrams and micrograms when micrograms has been abbreviated, the recommendation given in the Scottish Palliative Care Guidelines is that doses of less than one milligram must be expressed in micrograms and that the word ‘microgram’ must be written in full, and that it is never acceptable to use “mcg” or “μg”.[3]
Gamma (symbol: γ) is a deprecated non-SI unit of mass equal to one microgram.[citation needed]
when related to the 1 meter cubed as the volume of mass, the usual answer is that it = 1 kg because there is no other way than to multiply the 1m x 1m x1m = 1 m cubed = 1 unit weight.
When related to the measure of water, the usual weight is quite suprising in that it = 1000 liters as the cubic volume.
There is some discrepancy in that the microgram as being 1/billionth of the kilogram as the weight of the 1 meter cubed meaning that to define the 1 kg in terms of the billionth of the billionth as = 1 trillionth of the weight of it as an indiscrepancy equal to the basic matter weight unit of the mass of the Earth as the reference to it as some percentage of
units of the trillionth = 100 % and as such certain in it's weight definition as the cube as the certainty of the micrograme function.
When referenced to the volume of the Earth and the sphere, the water on Earth has the discrepancy of the 1000 kg = 1 liter or 1000 liters for every cubic meter, meaning that the indiscrepancy = 1000 th of 1000 th or 1000 x 1000 = 1 millionth as the function that displaces the 1 millionth of the microgram , the basis of the amount of water on Earth as being =as measured
1,260,000,000,000,000,000,000 liters or as 1,26 x 10 to the 26. This range weight
as between the septillion and octillion. So that this means that the whole scale change of the
micro gramme as 1 billion in relation to the septillion or octillion = between quadrillion and quintillion or about 1 x10 to the 17
in about the cubic when using each side as the billlion or as the cube
length =billion x the width of 1 billion x height of 1 billion = the amount of water as related to the true measure of the 1,26 x 10 to the 26
So then, the basis of the measure as this cube changes from water into a matter measure of weight, the trillionth of the mass of Earth being the
cubic representation of the
length = 10 000 and the height = 10 000 and the width = 10 000 units measure.
So that when comparing the volume of water as the unit of 1 billion with the measure of the weight of the Earth as solid by the units of 10 000.
This difference will = 1 billion / 10 000 = 100 000 units and should define the weight of 1 cubic of water as the amount of similarity with the amount
of solid cubic weight as the 100 000 micrograme unit that has similarity in both.
So when thinking in terms of the common weight between water and Earth, this microgram of the 100 000 = vacuum weight needed to keep the water in place
in the cube because it will start to action reaction with the walls of the container , so that in space this weight of action reaction = the microgram effect of the
vacuum of space on the water.
This =1 millionth of a gram (as seen in the equation where the:
In the metric system, a microgram or microgramme (μg; the recommended symbol in the United States when communicating medical information is mcg) is a unit of mass equal to one billionth (1×10−9) of a kilogram,
one millionth (1×10−6) of a gram, "the specific amount of the 1 /100 000 as being between the 1/1000 000 has between it the 10 multiple so that it may function with the multiples of the cubic measurement by using the units of 1/ 1000 th (shown below) as the 100 units of the 100 % measurement without any flaws between water and solid cubic weight calculations.
......
the shown below :"or one thousandth (1×10−3) of a milligram.")
continuing on,
as of the 1 gram that has the 1/1 000 000 as the gap to the next measure as the 1/ 1000 000 000 of 1 kg
so that the missing measure = 1 kg +- 1 gram
and defines the action reaction potential of the fluid cubic volume weight as the volume of fluid in space as the amount of vacuum units being used to keep an object in zero gravity .
This may have many applications such as the cubic volume of fluidity in space as the 3
interactions of vacuum energy being
1kg length x 1gram height x 1 milligram = the action reaction potentials in space as zero gravity so that the "pulling of energy" from the vacuum on the volume of such computations may be the cube measure of an object in space or how to simulate cubic vacuum space on Earth with the zero mass of zero gravity interactions of the free energy result between them on Earth whwere they will interact with Earth's gravity.
as vacuum space x zero mass =zero gravity on Earth's gravity as free energy.
As such then, the action reaction of the cube may have any fluid volume of the :
1kg x 1 gram x 1 milligram as the height x width x length of any square that simulates the effect of weightlessness in weightlessness by being used as an action, reaction potential in space that simulates the cube as the free energy potential of the vacuum as
=1 x 1/10 x 1/ 100 =1/10 000 th of the cube and may displace faster in zero gravity than light displaces matter of any specific weight function as this square will define
1m height x 1/10 m width x 1/100 m length for example as = the cubic square that has some flatness and displaces as 10 000 x faster than any other cube.
and DARK ENERGY
by HEnryk Szubinski
This theory will define the dark energy of the universe as the
example of "fruits that are made into cubes so that they will fit the cubic space more efficiently" this example wil be compared to space itself
and how space does not need the "fruit example " but which may in fact define space as cubic and spaces as the smaller cubes as "all of the
vector surfaces of a cube and their variable combinations that change in space by motion from large cubes to smaller ones (or as surfaces and sides and
smaller and more efficiently combined cubes of energy and the vector space in motion between "the cubic fruits".
First the data on the weight specifics of the microgram and then how this small number will relate to computations of volume of cubes of fluid and then solid matter as the difference between the two when taken together as the difference between the units of water on Earth and the units of measure used to compute 1 kg of matter.
They are not currently the same, so I'm going to show you how they may be the same so that the vacuum energy may be computed.
In the metric system, a microgram or microgramme (μg; the recommended symbol in the United States when communicating medical information is mcg) is a unit of mass equal to one billionth (1×10−9) of a kilogram, one millionth (1×10−6) of a gram, or one thousandth (1×10−3) of a milligram. The unit symbol is μg according to the International System of Units. In μg the prefix symbol for micro- is the Greek letter μ (Mu).
Abbreviation and symbol confusion[edit]When the Greek lowercase “μ” (Mu) in the symbol μg is typographically unavailable, it is occasionally—although not properly—replaced by the Latin lowercase “u”.
The United States-based Institute for Safe Medication Practices (ISMP) and the U.S. Food and Drug Administration (FDA) recommend that the symbol μg should not be used when communicating medical information due to the risk that the prefix μ (micro-) might be misread as the prefix m (milli-), resulting in a thousandfold overdose. The non-SI symbol mcg is recommended instead.[1][2] However, the abbreviation mcg is also the symbol for an obsolete CGS unit of measure known as millicentigram, which is equal to 10 μg.
In the UK, because serious medication errors have been made from the confusion between milligrams and micrograms when micrograms has been abbreviated, the recommendation given in the Scottish Palliative Care Guidelines is that doses of less than one milligram must be expressed in micrograms and that the word ‘microgram’ must be written in full, and that it is never acceptable to use “mcg” or “μg”.[3]
Gamma (symbol: γ) is a deprecated non-SI unit of mass equal to one microgram.[citation needed]
when related to the 1 meter cubed as the volume of mass, the usual answer is that it = 1 kg because there is no other way than to multiply the 1m x 1m x1m = 1 m cubed = 1 unit weight.
When related to the measure of water, the usual weight is quite suprising in that it = 1000 liters as the cubic volume.
There is some discrepancy in that the microgram as being 1/billionth of the kilogram as the weight of the 1 meter cubed meaning that to define the 1 kg in terms of the billionth of the billionth as = 1 trillionth of the weight of it as an indiscrepancy equal to the basic matter weight unit of the mass of the Earth as the reference to it as some percentage of
units of the trillionth = 100 % and as such certain in it's weight definition as the cube as the certainty of the micrograme function.
When referenced to the volume of the Earth and the sphere, the water on Earth has the discrepancy of the 1000 kg = 1 liter or 1000 liters for every cubic meter, meaning that the indiscrepancy = 1000 th of 1000 th or 1000 x 1000 = 1 millionth as the function that displaces the 1 millionth of the microgram , the basis of the amount of water on Earth as being =as measured
1,260,000,000,000,000,000,000 liters or as 1,26 x 10 to the 26. This range weight
as between the septillion and octillion. So that this means that the whole scale change of the
micro gramme as 1 billion in relation to the septillion or octillion = between quadrillion and quintillion or about 1 x10 to the 17
in about the cubic when using each side as the billlion or as the cube
length =billion x the width of 1 billion x height of 1 billion = the amount of water as related to the true measure of the 1,26 x 10 to the 26
So then, the basis of the measure as this cube changes from water into a matter measure of weight, the trillionth of the mass of Earth being the
cubic representation of the
length = 10 000 and the height = 10 000 and the width = 10 000 units measure.
So that when comparing the volume of water as the unit of 1 billion with the measure of the weight of the Earth as solid by the units of 10 000.
This difference will = 1 billion / 10 000 = 100 000 units and should define the weight of 1 cubic of water as the amount of similarity with the amount
of solid cubic weight as the 100 000 micrograme unit that has similarity in both.
So when thinking in terms of the common weight between water and Earth, this microgram of the 100 000 = vacuum weight needed to keep the water in place
in the cube because it will start to action reaction with the walls of the container , so that in space this weight of action reaction = the microgram effect of the
vacuum of space on the water.
This =1 millionth of a gram (as seen in the equation where the:
In the metric system, a microgram or microgramme (μg; the recommended symbol in the United States when communicating medical information is mcg) is a unit of mass equal to one billionth (1×10−9) of a kilogram,
one millionth (1×10−6) of a gram, "the specific amount of the 1 /100 000 as being between the 1/1000 000 has between it the 10 multiple so that it may function with the multiples of the cubic measurement by using the units of 1/ 1000 th (shown below) as the 100 units of the 100 % measurement without any flaws between water and solid cubic weight calculations.
......
the shown below :"or one thousandth (1×10−3) of a milligram.")
continuing on,
as of the 1 gram that has the 1/1 000 000 as the gap to the next measure as the 1/ 1000 000 000 of 1 kg
so that the missing measure = 1 kg +- 1 gram
and defines the action reaction potential of the fluid cubic volume weight as the volume of fluid in space as the amount of vacuum units being used to keep an object in zero gravity .
This may have many applications such as the cubic volume of fluidity in space as the 3
interactions of vacuum energy being
1kg length x 1gram height x 1 milligram = the action reaction potentials in space as zero gravity so that the "pulling of energy" from the vacuum on the volume of such computations may be the cube measure of an object in space or how to simulate cubic vacuum space on Earth with the zero mass of zero gravity interactions of the free energy result between them on Earth whwere they will interact with Earth's gravity.
as vacuum space x zero mass =zero gravity on Earth's gravity as free energy.
As such then, the action reaction of the cube may have any fluid volume of the :
1kg x 1 gram x 1 milligram as the height x width x length of any square that simulates the effect of weightlessness in weightlessness by being used as an action, reaction potential in space that simulates the cube as the free energy potential of the vacuum as
=1 x 1/10 x 1/ 100 =1/10 000 th of the cube and may displace faster in zero gravity than light displaces matter of any specific weight function as this square will define
1m height x 1/10 m width x 1/100 m length for example as = the cubic square that has some flatness and displaces as 10 000 x faster than any other cube.