sci fi reality..ZOOM VELOCITY AS THE NEW HIGHER THAN LIGHT SPEED FOR DARK MATTER..on the very small amount of galactic clouds

 

the basic galaxy solar relationship

ZOOM VELOCITY LIMITS

 

By Henryk Szubinski

images courtesy of Mitaka

freedoom of knowledge moovement E.U four freedooms

Returning human use of natural resources to within sustainable limits will …. Sustainability is studied and managed over many scales (levels or frames of ….. social and economic impacts at the scale or context under investigation 

 

ENVIRONMENT:

 

 DEFINING THE EXIT FASED VECTOR OUT OF THE GALAXY BY A ZOOM ZONE MAINTAINEMENT OF THE SAME ZONE WITH THE STELLAR CLOUDS IN THE BACKGROUND AS THE ZONES OF MOTION OF THE STAR SYSTEMS AND GENERAL POSITIONS OF A LARGER VIEW into the size of 100 000 light years does not basically alter the positionality of relation to the background spacetime

the theory presents the images and the type of 10 x value common to all galaxies upto the parameter of the digital sky survey;

POPULATION:

 

if the universe has a 100 billion galaxies the size of the motion exit possibilities of galactic clouds = 1000  billion: the veocity of the remaining 3 /4 of the galactic material would be a 3000 billion  sized value of the basic 1/2 of the universe as compared to the digital sky survey = 60 000 billion light years in 10 000  billion light years ; meaning the velocity of spacetime = 600 000 billion light years large;

you do not need to keep this value as the general size of everything; basically 3D motion is 3 x larger as the quantality of space time in continuous expansion of a cool death universe so the size in 3D interactions with the universal force =600 000 billion cubed

the universe=120 000 000 billion light years large:

as the approximate 1/3 of the earth value in mass; the positioning of a magnetic field in the same relations of distance would mean you would bneed to zoom out of the universe in a 10 year period before the general size of the universes magnetic field could be located:

the theory poses a problem of ZOOM velocity which might actually be as slow as traveling to a nearby star:

 

 

with all its clouds ,all of the space time, all of the force and all of the energy in its galaxies;

 

 

the theory will go into some general data on magnetic interactions:

AFFLUENCE:

as well as magnetic as attractive:

 

The term magnetic field is used for two different vector fields, denoted B and H. …… The poles even periodically reverse direction, in a process called …

Data extraction is a GIS process similar to vector overlay, though it can be …

In the vector-update-process B notices that its once very short route of 1  

 

 

Magnetic fields surround magnetic materials and electric currents and are detected by the force they exert on other magnetic materials and moving electric charges. The magnetic field at any given point is specified by both a direction and a magnitude (or strength); as such it is a vector field.^[1]

 

 

 

 

Magnetic field lines form in concentric circles around a cylindrical current-carrying conductor, such as a length of wire. The direction of such a magnetic field can be determined by using the “right hand grip rule” (see figure at right). The strength of the magnetic field decreases in inverse proportion to the square of the distance from the conductor (inverse-square law).^{[citation needed]}

 

 

 

The magnetic field of a magnetic dipole is depicted on the right. From outside, the ideal magnetic dipole is identical to that of an ideal electric dipole of the same strength. Unlike the electric dipole, a magnetic dipole is properly modeled as a current loop having a current I and an area a. Such a current loop has a magnetic moment of:

where the direction of m is perpendicular to the area of the loop and depends on the direction of the current using the right hand rule. An ideal magnetic dipole is modeled as a real magnetic dipole whose area a has been reduced to zero and its current I increased to infinity such that the product m = Ia is finite. In this model it is easy to see the connection between angular momentum and magnetic moment which is the basis of the Einstein-de Haas effect “rotation by magnetization” and its inverse, the Barnett effect or “magnetization by rotation”.^[36] Rotating the loop faster (in the same direction) increases the current and therefore the magnetic moment, for example.

 

 

 

 

 

 

 

TECHNOLOGY:

with the universe as small as it is, would you give it away to be lost  for keeping the touch of a billion as powerfull as the maintained touch.

basic argumentations of the flow of data on the variance possibilities of the force as a format of proximla human digit usage in the forwards oriented argumentations of the adhesive contact vector values of force in a very minimal group conglomerate of universes in the process of contexting the value systems of the data on the basic usage of vechicularity on the basis of non space time argumentations that result in the similarity of digit usage contextuality to derive a value of the universe in every positional foreground value basis as the same recall of theoretical astrophysics as the basis of a model that functions:

By the similarity of processess in their variance of a human relation to the minimal size of gluons and muons and basic particle models the whole variance computations on the basis of a proximal zoom out level of a few long durational approximations of a mean value system ; the context of the whole field f universes as a far of problem dealing with the resonings of context in the emotive mottivations of 2 or 3 type digit manouvres in a system of simialr repsonsive reflexing; the whole value of the univers in their spectral values as existant in a universe where the basis of a gluon perspective = a universe on the farthest reaches of the multiple format and in such a position to make sense of the work = F.S of a vector vale and the context similarity of motiveted REACHING outwards by the availability of force possibilities of a YODA type or a OBIWAN:

the basics on their resystemised value finite levels of data on the connective systems of data as being in the whole contextual order of the basics in flow by the flexability of a digit value = a 1 cm seperated context relation of the digit function as well as of human means as of the android types.

 

Sustainability is the capacity to endure. In ecology the word describes how biological systems remain diverse and productive over time. For humans it is the potential for long-term maintenance of wellbeing, which in turn depends on the wellbeing of the natural world and the responsible use of natural resources.

Sustainability has become a wide-ranging term that can be applied to almost every facet of life on Earth, from a local to a global scale and over various time periods. Long-lived and healthy wetlands and forests are examples of sustainable biological systems. Invisible chemical cycles redistribute water, oxygen, nitrogen and carbon through the world’s living and non-living systems, and have sustained life for millions of years. As the earth’s human population has increased, natural ecosystems have declined and changes in the balance of natural cycles has had a negative impact on both humans and other living systems.^[

The overall driver of human impact on Earth systems is the consumption of biophysical resources. Human consumption can be divided into three key components: population numbers, levels of consumption (affluence), and impact per unit of resource use (which depends on the technology used). This has been expressed through an equation:

I = P × A × T

Where: I = Environmental impact, P = Population, A = Affluence, T = Technology^[49]

Historically, humanity has responded to a demand for more resources by trying to increase supply. As supplies inevitably become depleted sustainable practices are encouraged through demand management for all goods and services — by promoting reduced consumption, using renewable resources where possible, and encouraging practices that minimise resource intensity while maximising resource productivity. Careful resource management can be applied at many scales, from economic sectors like agriculture, manufacturing and industry, to work organisations, the consumption patterns of households and individuals and to the resource demands of individual goods and services.^[50][51

^1]

sci fi reality…on plasma light sabres

 

m i d i   f o r m a t s

of plasma light sabres LI

By Henryk Szubinski

the fifth framework; the freedoom of knowledge moovement E.U 20

USING 3 CELLULAR DECOMPOSITIONS WITH THE VECTOR DECOMPOSITIONALITY AS LEVELS OF odd / even sequences on both the height and the levels of light babre constructs as using the decomp values in response to the dark side:

Biodegradation can be measured in a number of ways. The activity of aerobic microbes can be measured by the amount of oxygen they consume or the amount of carbon dioxide they produce. Biodegradation can be measured by anaerobic microbes and the amount of methane or alloy that they may be able to produce.

1. Disintegration, the ability to fragment into non-distinguishable pieces after screening and safely support bio-assimilation and microbial growth;
2. Inherent biodegradation, conversion of carbon to carbon dioxide to the level of 60% and 90% over a period of 180 days for ASTM D6400-04 and EN 13432 respectively;
3. Safety, that there is no evidence of any eco-toxicity in finished compost and soils can support plant growth; and
4. Toxicity, that heavy metal concentrations are less than 50% regulated values in soil amendments

 

Vector decomposition refers to decomposing a vector of Rⁿ into several vectors, each linearly independent (in mutually distinct directions in the n-dimensional space).

[edit] Vector decomposition in two dimensions

In two dimensions, a vector can be decomposed in many ways. In the Cartesian coordinate system, the vector is decomposed into a portion along the or and the or directions.

One of the most common situations is when given a vector with magnitude and direction (or given in polar form), it can be converted into the sum of two perpendicular vectors (or converted to a Cartesian coordinate).

data on basic nummerical usage of the value in systems defined as motion = vector value x resistance by multiple motion derived values upto the data on the force of the sequenced usage by definitions of problems in variance spacetime by usage of data on the force on locative parameters of universal force = spacetime in the process of usage of the variant basic limitations of the process located values of light sabres as data on the advancive formats for forced relationships into the data diemensionality of designate hand control of the variance value in the process to jump hyperpsace into the formats of data that are sustained by the power of the force in process of singularity in definition = resistance by universal values on the data on the decompositions of the process usage to inferr a value input on non decomposed value resistance in the process of usage of the data on the values of force in composite pressure zones of the bio life force of the universe as the data on the functions to use the basics of universal force on maintainements of the data = the values of process in which the basics of symmetry in the advances of nano technology by the process of processor data chip usage on the formats of data that is projectively usble on the basis of the process acces to levels of height in the rotationality of the function of the process in which the formats for durational expenditure on the values of resistance = to basic maintainments of the projective plasma force =of the maintainements of resistance by the power of the life force on the basics of data on multiples as the spacetime delays input into the functionality of data on the process of bio kinetic energy in the force zone of the capacity for the availability of the light sabre force in the process of durationality in the exacted data levels of force flow;

Basis of the responsive data of the formats for maintaining multiple levels of force in bio cellular MIDI formats.

In linear algebra, the singular value decomposition (SVD) is an important factorization of a rectangular real or complex matrix, with many applications in signal processing and statistics. Applications which employ the SVD include computing the pseudoinverse, least squares fitting of data, matrix approximation, and determining the rank, range and null space of a matrix

The singular value decomposition can be used for computing the pseudoinverse of a matrix. Indeed, the pseudoinverse of the matrix M with singular value decomposition M = UΣV ^* is

where Σ⁺ is the pseudoinverse of Σ, which is formed by replacing every nonzero entry by its reciprocal. The pseudoinverse is one way to solve linear least squares problems.

Truncated SVD

Only the t column vectors of U and t row vectors of V* corresponding to the t largest singular values Σ_t are calculated. The rest of the matrix is discarded. This can be much quicker and more economical than the thin SVD if t<<r. The matrix U_t is thus m×t, Σ_t is t×t diagonal, and V_t* is t×n’.

Of course the truncated SVD is no longer an exact decomposition of the original matrix M, but as discussed below, the approximate matrix is in a very useful sense the closest approximation to M that can be achieved by a matrix of rank t.

sci fi reality…..shwartzchilds approach

 

s p a c e   t i m e   q u a n t a l i t y

By Henryk Szubinski

pressurisation of 2 planes of hemispherical value x and x 1

compress the dimensions of space time:but what if the spacetime has altered its position to be in the compressive region of 2 gravity events mooving ever closer together at the peripheral vies on the side as being the type spacetime solid dimension that had to opt for the larger space quantality:

According to Jeans’s theorem, the phase-space density of stars f must be expressible in terms of the isolating integrals of motion, which in a spherical stellar system are the energy E and the angular momentum J. The Osipkov-Merritt ansatz is

where r_a, the “anisotropy radius”, is a free parameter. This ansatz implies that f is constant on spheroids in velocity space since

where v_r,v_t are velocity components parallel and perpendicular to the radius vector rand Φ(r) is the gravitational potential.

The density ρ is the integral over velocities of f:

which can be written

or

This equation has the form of an Abel integral equation and can be inverted to give f in terms of ρ:

 

as a section of a full force value: the swartzchild radius and the circumeference gain both gravity and force: at the polar regions or on the ecliptic region:

as such force modellation is faster than the normal full spherical force in developing the rotational constructs of a process in solid state gravity = spacetime planarities and the vertical radius .

 

Galaxies are made of stars

Stars move on orbits

Assuming steady state, galaxies can be regarded as collections of orbits

 

 

 

 

Osipkov-Merritt models are mathematical representations of spherical stellar systems (galaxies, star clusters, globular clusters etc.). The Osipkov-Merritt formula generates a one-parameter family of phase-space distribution functions that reproduce a specified density profile (representing stars) in a specified gravitational potential (in which the stars move). The density and potential need not be self-consistently related. A free parameter adjusts the degree of velocity anisotropy, from isotropic to completely radial motions. The method is a generalization of Eddington’s formula for constructing isotropic spherical models. ^[1]

data courtesy of

Departments of galaxies<<& cosmology >>

and Wikipedia

sci fi reality…..electroplateing with the lunar effect of hydroxyle

electroplateing the hydroxyle relations  of the moon

By Henryk Szubinski

5th framework ;the freedoom of knowledge moovement ; E.U four freedooms

 

the discovery of SOH or hydroxyle on the moon could be used as a electroplateing technology to make the thin layer of hydroxyle work on a H2O plate or surface : basic interactions with the plates and the presence of hydroxyle on the moon can go a long way to combine the effects of gravity with attraction and multi applications such as the lim x = of the solid state projections in usage with the universal force as a type system in spaceships ,flying cars and much more:

 

 

basics of H2O AND HOW TO USE IT IN RELATION TO HYDROXYLE:

basic freeze of the H2O waffer or its plasma state simulative state of what a plasma in full usage without restrictions might look like with magnetic electroplateing:

usability of the spherical formats vectors and electrode nodality

inclusion fields of the general non directional specific vector values in envelopment as a particle vector force plasma field:

 

 

 

Electroplating is a plating process that uses electrical current to reduce cations of a desired material from a solution and coat a conductive object with a thin layer of the material, such as a metal. Electroplating is primarily used for depositing a layer of material to bestow a desired property (e.g., abrasion and wear resistance, corrosion protection, lubricity, aesthetic qualities, etc.) to a surface that otherwise lacks that property. Another application uses electroplating to build up thickness on undersized parts.

The process used in electroplating is called electrodeposition. It is analogous to a galvanic cell acting in reverse. The part to be plated is the cathode of the circuit. In one technique, the anode is made of the metal to be plated on the part. Both components are immersed in a solution called an electrolyte containing one or more dissolved metal salts as well as other ions that permit the flow of electricity. A rectifier supplies a direct current to the anode, oxidizing the metal atoms that comprise it and allowing them to dissolve in the solution. At the cathode, the dissolved metal ions in the electrolyte solution are reduced at the interface between the solution and the cathode, such that they “plate out” onto the cathode. The rate at which the anode is dissolved is equal to the rate at which the cathode is plated, vis-a-vis the current flowing through the circuit. In this manner, the ions in the electrolyte bath are continuously replenished by the anode.^[1]

Other electroplating processes may use a nonconsumable anode such as lead. In these techniques, ions of the metal to be plated must be periodically replenished in the bath as they are drawn out of the solution.^[2]

^{data research courtesy of Wikipedia}

sci fi reality…Jones vectors.polaroid particles &.photon vector alterance

p h o t o n   v e c t o r   a l t e r a t i o n s

polaroid particles

By Henryk Szubinski

4 freedooms E.U

Photon polarization is the quantum mechanical description of the classical polarized sinusoidal plane electromagnetic wave. Individual photons are completely polarized. Their polarization state can be elliptical, circular, or linear.

The description contains many of the physical concepts and much of the mathematical machinery of more involved quantum descriptions, such as the quantum mechanics of an electron in a potential well, and forms a fundamental basis for an understanding of more complicated quantum phenomena.

Much of the mathematical machinery of quantum mechanics, such as state vectors, probability amplitudes, unitary operators, and Hermitian operators, emerge naturally from the classical Maxwell’s equations in the description.

PHOTON POLARISATIONS WOULD NEED A PARTICLE DEFINED AS THE POLAROID AS :

the ionic particle model with 2 x internal magnetic flux fileds similar to a bar magnet and lines of force by basic indications of the angle of inclination of the particle that can never be exactly vertical:

The ions are then transported by magnetic or electric fields to the mass analyzer. …. A tandem mass spectrometer is one capable of multiple rounds of mass …

If magnetic ions are present, a coexisting magnetic order can be established …
en.wikipedia.org/wiki/Multiferroics

a type of mass spectronomy on the very small scale:

1. a sample is loaded onto the MS instrument, and undergoes vaporization.
2. the components of the sample are ionized by one of a variety of methods (e.g., by impacting them with an electron beam), which results in the formation of positively charged particles (ions)
3. the positive ions are then accelerated by an electric field
4. computation of the mass-to-charge ratio (m/z) of the particles based on the details of motion of the ions as they transit through electromagnetic fields, and
5. detection of the ions, which in step 4 were sorted according to m/z.

 

The quantum polarization state vector for the photon, for instance, is identical with the Jones vector, usually used to describe the polarization of a classical wave.

Unitary operators emerge from the classical requirement of the conservation of energy of a classical wave propagating through media that alter the polarization state of the wave. Hermitian operators then follow for infinitesimal transformations of a classical polarization state.

Many of the implications of the mathematical machinery are easily verified experimentally. In fact, many of the experiments can be performed with two pairs (or one broken pair) of polaroid sunglasses.

the basis of photon polarisations of the process to define influences that could alter a photon vector by the polarisations of a top polar to base polar value influence by POLAROID  particles that alter the polarity and any subsequent value of the angle of polar opposition as the effect contributed to POLAROID   particles altering the vector diameter that is a effect of the process generating a image multiple when refracted through a prisom such a solid H2O:

the basics are the implications of using polarisations signals in type H2O solid fase prisims upto a level of 10 such formats: to locae the reasons for the altered refractions by the photon diameter in its multiple fase values = levels of height as polar vector expansions:

In computing, a fixed-point number representation is a real data type for a number that has a fixed number of digits after (and sometimes also before) the radix point (e.g., after the decimal point ‘.’ in English decimal notation). Fixed-point number representation can be compared to the more complicated (and more computationally demanding) floating point number representation.

Fixed-point numbers are useful for representing fractional values, usually in base 2 or base 10, when the executing processor has no floating point unit (FPU) or if fixed-point provides improved performance or accuracy for the application at hand. Most low-cost embedded microprocessors and microcontrollers do not have an FPU.

 

A fixed-point number is essentially an integer that is scaled by a certain factor. For example, the real number 1.23 can be seen as 123/100; here, the scaling factor is 100. It is important to note that the scaling factor is determined by the type; it is the same for all values of a certain fixed-point type. Floating-point types, on the other hand, store the scaling factor as part of the value, which allows them to have a wider range of values.

The upper bound of a fixed-point type is simply the upper bound of the underlying integer type, divided by the scaling factor. Similarly, the lower bound is the lower bound of the integer type, divided by the scaling factor. For example, a binary fixed-point type in two’s complement format, with f fractional bits and a total of b bits, has a lower bound of − (2^{b − 1}) / 2^f and an upper bound of (2^{b − 1} − 1) / 2^f, where 2^f is the scaling factor and b − 1 is the number of bits not counting the sign bit.

the image multiple is actually a divisive are monitor resultant divided by

10 as the photon polarisations energy / 10 = area

resultant multiple imagery of lets say a photon image connection on the plane of the data representation of the

 photon double: c x

by using vector trakking point signals on the prism multi level;

=10 h

 the process of vectorising the photon string direction = is basic to the

solid H2O prism used as a 10 level differencial =

10 x h dh

of the comparative  of the resultant vector and the photon representation in real time as a H2O molecule:

The initial polarization state is transformed into the final state with the operator U. The dual of the final state is given by

where is the adjoint of U, the complex conjugate transpose of the matrix.

[edit] Unitary operators and energy conservation

The fraction of energy that emerges from the crystal is

In this ideal case, all the energy impinging on the crystal emerges from the crystal. An operator U with the property that

where I is the identity operator and U is called a unitary operator. The unitary property is necessary to ensure energy conservation in state transformations.

sci fi reality…proceed.shumann..resonance..on the gravitational lensing strings

 

t h e  e m p i r i c a l   s c a l e

freedoom of knowledge law: fifth framework , the freedoom of knowledge moovement: four freedooms E.U

using shumann resonances of a gravitational lensing format:

The Schumann resonances (SR) are a set of spectrum peaks in the extremely low frequency (ELF) portion of the Earth’s electromagnetic field spectrum. Schumann resonances are global electromagnetic resonances, excited by lightning discharges in the cavity formed by the Earth surface and the ionosphere.

of the string that combines the vector directionality of (x,y,z ) values in a convexity of force:

A CONTINUOUS DEVELOPMENT OF

1) frontal view of the major lens =><>>=>=<= as a type definition of the amount of degree alterances unified by BLOBB STRING vector motion

2)the side view as warped into both sides of a common focal point:

<<<<>>>>><<==<=<<=<<==<<<<

generally any continuiim that will define the motion of the string unifier of the views used:

3)data on motion by vector displacements:——S1——->=<<<—–S2—–>=<<<<<<—————S3

as combined lensing on a vector:

each level platform as a total height value might actually be combined on top of each other:

basics of the side view defining the level height of each lens as starting from the largest to a string warp on the side to define the height levels of interactive height convexities as the black hole does a warp displacement over the horizon of its own lens side view:

basically indicating the amount of lenses that are defined by the source in motion over the plane of the horizon as a envelopment in 3 x or 4 x as a general amount of warp envelopments on the frontal view planarity:

 

In general relativity, light falls down. So light passing around a massive object will fall towards it. This means that the light from an object on the other side will be bent towards your eye, just like an ordinary lens. Since light always moves at a constant speed, lensing changes the direction of the velocity of the light, but not the magnitude.

Light rays are the boundary between the future, the spacelike, and the past regions. The gravitational attraction can be viewed as the motion of undisturbed objects in a background curved geometry or alternatively as the response of objects to a force in a flat geometry. The angle of deflection is:

toward the mass M at a distance r from the affected radiation, where G is the universal constant of gravitation and c is the speed of light in a vacuum. Some care needs to be taken in defining this distance because gravity is not instantaneous: like light, it propagates at speed c. The path of the gravitational wave and the electromagnetic radiation intersect at specific space-time coordinates, and the lensing is determined by the component of the incident gravitational wave perpendicular to the direction of the electromagnetic radiation’s motion.

types of vechicles that will do the force by a pressure effect inside each convex lens format as a background area platform inside each lens as the type force lift propulsions.

Lightning discharges are considered to be the primary natural source of Schumann resonance excitation; lightning channels behave like huge antennas that radiate electromagnetic energy at frequencies below about 100 kHz.^[15] These signals are very weak at large distances from the lightning source, but the earth-ionosphere waveguide behaves like a resonator at ELF frequencies and amplifies the spectral signals from lightning at the resonance frequencies.^[15]

In an ideal cavity, the resonant frequency of the n-th mode f_n is determined by the Earth radius a and the speed of light c.^[6]

The real Earth-ionosphere waveguide is not a perfect electromagnetic resonant cavity. Losses due to finite ionosphere electrical conductivity lower the propagation speed of electromagnetic signals in the cavity, resulting in a resonance frequency that is lower than would be expected in an ideal case, and the observed peaks are wide. In addition, there are a number of horizontal asymmetries – day-night difference in the height of the ionosphere, latitudinal changes in the Earth magnetic field, sudden ionospheric disturbances, polar cap absorption, etc. that produce other effects in the Schumann resonance power spectra.

sci fi reality……the super force…using the power of the force….as a flying car

 

s u p e r   f o r c e

By Henryk Szubinski

fifth framework ; the freedoom of knowledge E.U four freedooms.

HOW A H2O MOLECULES WEIGHT RELATION CAN BE USED IN A META MATERIALS RELATIONSHIP WITH THE X 10 relationship of a internal H2O molecularity as measured to computative power of a 10 x being divisive but also a multiple this is the complexity  of 10 Dimensions and what it uses to drive the computative power:

THE NANO SECOND in usage with a meta materials weight value lower than the H2O mass it contains measures and uses while the nano device mass is lower than 10 divisions of the mass being lower than the H2O

Metacognition is classified into three components:

1. Metacognitive knowledge (also called metacognitive awareness) is what individuals know about themselves and others as cognitive processors.
2. Metacognitive regulation is the regulation of cognition and learning experiences through a set of activities that help people control their learning.
3. Metacognitive experiences are those experiences that have something to do with the current, on-going cognitive endeavor.

 

data on 2 x as the basics planar = value on cognitive response = process in data definitions by basic altered form = multiple force in excess ( data ) by force in process of sequenced data : process = progress on values:flying car( extracted values ) ——–>from parameter fly  real in ( data of force)

spacial values on data nodality: altered formats of connect to cognitions ( off the spacetime value flow) R.c.h= data on force of data in connect response = value reversals of process / excess inputs ( values of data on height gravity )

Process to vectorise horizon reversals of the data on definition ( = actual vector horizon —–> lift to data ) On  F / flow of frequencies in data  force / process = x / function.

Basis implied to develop inter motorics:

the fastest way to oppose hemispheres by knowing the data response on droid protocols as usagee of the definitions of any and every format of protocol in a process to continue data on the knowledge basis of what caused the data and how to respond:

META MATERIALS RELATIONSHIPS WITH FORCE AS A COLLECTIVE LOWER THAN SPECIFIC MASS OF H2O

looking at the H2O atomic cause of float or boyancy values:

basic data on a force field generator in the process of projecting solid type plasma values in a real solid state as the type warping of the dimensionality = to the translations of protocol droids that can super aquire any data in any position of the universe by basic break vector relationships with the translative functions of the process by which the nodality of the usage of the non image facilitation is based on data in the process of defining its minimal alterations by the protocols of the motion divisive sections of gravity = data on enthropic states of the externality of a simultaneous process of usage as the basis data on the stemm value from which the process of definite occilations with the interpretator is derived:

the basics are that by reducing the meta size of a measurement device in nano size that measures H2O: the resultant boyancy effect =

THE INTERACTIVE RESULTANT NODE TUBE ALSO HAS A BREAK VECTOR type in opposition.of the H2O molecularity

TYPE ENVELOPMENT BY 1 FORCE that surounds all the  volumes

the break into 2 planes as a type of device measurement while using the nano scale x 2 = < H2O in its reflective value; meaning that the meta material weight x 2 or x 3 or even 10 x scale relationship of its divisive lower mass resultant is still lower than H2O in atomic mass.

Metacognition is defined as “cognition about cognition”, or “knowing about knowing.”^[1] It can take many forms; “it includes knowledge about when and where to use particular strategies for learning or for problem solving.”^[1] “Metamemory, individuals’ knowledge about memory, is an especially important form of metacognition.”^[1] Differences in metacognitive processing across cultures have not been widely studied, but could provide better outcomes in cross-cultural learning between teachers and students.^[2] Some evolutionary psychologists hypothesize that metacognition is used as a survival tool, which would make metacognition the same across cultures.^[2] Writings on metacognition can be traced back at least as far as De Anima and the Parva Naturalia of the Greek philosopher Aristotle

scif i reality…..force compression

 

t h e   f o r c e  o f   c o m p r e s s i o n

By Henryk Szubinski

basic force field and its compression in a isolated state with the vector resultant horizons and the effect of a frequency range occilation with its own specific wave frontal expansion and collapse : as the data on the basic triangulational resultant of the measurements:

for a string calculation you would need 2 values: frequency and amplitude, to compute a wavelength;

but with this type of computation a string value can be computed by only knowing the frequency; the basic advantage to artificial intelligence computations of a type dimensionality of rotative sectioons where the topography of the string is already there= a very fast way to compute and to derive the advantage on .