Graceli geometry and transverse quantum calculation of voids and no wave .





Movement of cross peaks followed by depressions in a plan system and that these peaks are followed by depressions are produced after voids , that is, as a map of the heart rate, but only between a peak and depression occurs space empty .



Where it is not curved or straight, or wave .

Cross geometry and quantum computation does not wave graceli .

And that varies in scope and enlargement, and meaning and direction as the intensity of beats and actions by time.

Some electrons in their path and also in its workflow experience this , or this quantum geometry graceli , oscillations and irregularities and instabilities .

Where the dimensions shall be measured by not being straight and not curved but irregular and transverse negligible .

This we see a tiny universe that we not straight and not curved , but peaks and troughs .

See calculation and unstable and irregular graceli infinitesimal geometry.

If you look at any straight or curved or wave we see that are formed from tiny infinitesimal parts .

The electrons oscillate in higher flows and lower intensities , as well as all particles and their electric field.

This irregularity of the tiniest also confirmed in all fields - strong, weak , gravitational and magnetic , or even graceli supergravity of bright white holes within galaxies .






Transdimensional and photoelectric energy holes Graceli system. Hole Graceli bright and white .

Holes photoelectric energy and concave dimensions and dimensional universe of variable values ​​within holes photoelectric energy and cosmic rays , gamma and x .


A black hole is not actually black , but super bright and intense activity of production of thermal , electric and photoelectric energy.

So what we have is a particular universe of cosmic radiation graceli that is produced within the bright graceli holes .

Where dimensions are not straight but , as concave curved movement within the bright white graceli holes .

That is, we now have another dimensional universe and values ​​that vary the energy is processed in its immense intensity and propagates inside the black hole in concave and not straight movements .

Where energy production causes have another dimensional universe , with curved and concave .

And another way of looking at black holes , thus being Graceli black holes of intense production of electricity and light .

And being that within these holes have the graceli rays passing through huge walls and through the very stuff with his immense speed and dynamics. That reaches the speed of light [ c ] .

















Spatial geometry Graceli to Graceli series of spaces between peaks and troughs [ added or subtracted , or multiplied , or divided , or logarithms , or potentiated series of layers [ as onions ever infinitesimal decimal series within series ] and all, or multiplied , or divided , or logarithms , or a potentiated any variable .


Series spaces between peaks and troughs + series of layers each point within + [/ ] of variable flow .

S [ + ] CS [ / ] V.

SERIES [ + ] layers of series [ / ] variable.

With this we have a system of statistics and probabilities that can be used for a spatial geometry , infinitesimal calculus , or statistics.




The infinite, the finite limit and the series of Graceli series system.


The finite and the infinite in Graceli system.

The limit system graceli have finite .


And infinity in graceli system we have:

And the series elevated the n ... times have infinite in series within series .



Graceli series of infinitesimal geometry for waves of peaks and troughs .

Infinitesimal series Graceli .

Author ; Ancelmo Luiz Graceli .


Series and cells and infinitesimal gaps .

Limit Graceli system.
Where every part divided by x leads to the result , and divided by the whole will always be lower between 1 and greater than zero. And the result is g .

Averages of infinitesimal series .

With this we have sums of an equation y , z , and n ... divided the whole of each equation for y , z and c , n .... with this we must summations of equations and equalization [ averages of series ] series between them .

Gaps between infinitesimal , which is divided into 1 , second, third , n ... infinitesimal .

G where the result becomes the first series gap and , oh another subsequent gap. Thus gradually .

G divided by t = 1 i1 infinitesimal .
H divided by the result of g and t [ i1 ] = i2 .

Thus successively .
4/8 = 0.5 0.5 / 8 = i1 .

I1 / t = h . thus successively infinitesimal series forms .

Thus, we have results for sums , multiplication , fractions , potentiation , proportionalities of Graceli infinitesimal series .

for example range from 1 to 9 .

Where in each series has always values ​​a smaller number than one digit in the proportion that the next series until the ninth .

So have results for each series , and the sum of all until the ninth . Or even a few pairs or odd according to the equation so requires . Ie after the result they are divisible from last to first , ie , from ninth to first .






Graceli series of infinitesimal geometry for waves of peaks and troughs .


With the series being higher successive peaks and troughs to form a geometry irregularities , or even increasing it or decreasing progressive depressions , or even a row with each other.

In micro and even quantum flows and tiny world we have is not a straight and perfect curves or , rather, peaks and troughs within the lines and curves .

The shortest distance between two points for an infinitesimal geometry is a depression or a peak .


The shortest distance between two points that are closest to is the diametrical distance which is formed in series inside diameter of diameters , such as onion layers so indefinitely.

Ie , a universe of diametric series is impossible to know what is the distance and its final form . Or distance and shape relates to a infinitesimal limit.


Therefore, the minimum distance between two points is the infinitesimal layers each diametrical extent by which they may be closer .

That is, each point in question being treated.


Ie , it is like an onion of layers under layers .

Where the subtracted or divided throughout the part , has an outcome x , and the result divided aser passes the whole. Thus , infinitely .









Theory Graceli limit .
LG - OR = T / p = x
x / t = g .

subtracted from the whole or split the part where the result of the whole is divided .



And being elevated to several subdivisions have the series of boundaries within the limits decimal divisible irrational .

Where we have g = li , l2/l1 / l3 / 2 n .....


Ie we graceli infinitesimal series graceli within limits .


DF / dx [ ln ... x ] = f ¨ [ XLN ... ]


Statistics and potentialities in the series Graceli system.
The Graceli limits may be raised to reasons of uncertainties and improbabilities , and statistics when the high potential .



Spatial geometry for Graceli series of spaces between peaks and troughs [ added or subtracted , or multiplied , or divided , or logarithm , or potentiated series of layers [ as onions ever infinitesimal decimal series within series ] and added or multiplied or divided , or logarithm , or a potentiated any variable .


Series spaces between peaks and troughs + series of layers each point within + [/ ] of variable flow .

S [ + ] CS [ / ] V.

SERIES [ + ] layers of series [ / ] variable.








Numbers Graceli variational [ rotational quantum ] .

In one set of values ​​systems in rotation , and is expelled into slits radiation with approximate values.

Ie a rotation x , y we have slots , with ejections R [ radiation ] .

To meet radiation [ or not ] .
On the set of a system rotating x , s time , with ejections R , a meeting between radiation systems occur as the number of systems taking into account the elements of the systems above.


Graceli Calculation of derivatives and succession stages using mathematics and quantum .

Phase 1 - For all the variables has baz derivative with multiple values ​​from successive values ​​of b .

Phase 2 - And the result of each has fractional values ​​of { x } = 1/3 .

Phase 3 - And that the result of each phase has fractional exponential values ​​of [ y ] = 1.15.

That is, this path has an exponential progressive calculation and continuous flows , ie , each interval has exponential variational values ​​as ray releases , explosions , etc. .

That is, one can build successional stages and phases intervals as streams of pulses to use for oscillatory as the physical gas flows of electrons as quantum and quantum Graceli .

Phase 4 - and that alternative values ​​may build or even all of which result is raised to the exponential becomes successive fractional and fractional successive becomes exponential , or have a great increase in value and a decrease in another instant and steep. And since it can be considered high values ​​seconds and even minutes , or is replaced by temporal and or acceleration and power surges or variable phenomena .

The outcome is found for values ​​after phases b , x , y baz , and others all come to vary predetermined variables .

Phase 5 - the variables that may have alternate sequences of which can baz
 successions have repeated values ​​with two or more fractional and exponential or .






Graceli Calculation of derivatives and succession stages using mathematics and quantum .

Phase 1 - For all the variables has baz derivative with multiple values ​​from successive values ​​of b .

Phase 2 - And the result of each has fractional values ​​of { x } = 1/3 .

Phase 3 - And that the result of each phase has fractional exponential values ​​of [ y ] = 1.15.

That is, this path has an exponential progressive calculation and continuous flows , ie , each interval has exponential variational values ​​as ray releases , explosions , etc. .

That is, one can build successional stages and phases intervals as streams of pulses to use for oscillatory as the physical gas flows of electrons as quantum and quantum Graceli .

Phase 4 - and that alternative values ​​may build or even all of which result is raised to the exponential becomes successive fractional and fractional successive becomes exponential , or have a great increase in value and a decrease in another instant and steep. And since it can be considered high values ​​seconds and even minutes , or is replaced by temporal and or acceleration and power surges or variable phenomena .

The outcome is found for values ​​after phases b , x , y baz , and others all come to vary predetermined variables .


Phase 5 - the variables that may have alternate sequences where the baz may have repeated values ​​succession with two or more and fractional or exponential .




Infinitesimal series Graceli .


Series and cells and infinitesimal gaps .

Limit Graceli system.
Where every part divided by x leads to the result , and divided by the whole will always be lower between 1 and greater than zero. And the result is g .

Averages of infinitesimal series .

With this we have sums of an equation y , z , and n ... divided the whole of each equation for y , z and c , n .... with this we must summations of equations and equalization [ averages of series ] series between them .

Gaps between infinitesimal , which is divided into 1 , second, third , n ... infinitesimal .

G where the result becomes the first series gap and , oh another subsequent gap. Thus gradually .

G divided by t = 1 i1 infinitesimal .
H divided by the result of g and t [ i1 ] = i2 .

Thus successively .
4/8 = 0.5 0.5 / 8 = i1 .

I1 / t = h . thus successively infinitesimal series forms .

Thus, we have results for sums , multiplication , fractions , potentiation , proportionalities of Graceli infinitesimal series .

for example range from 1 to 9 .

Where in each series has always values ​​a smaller number than one digit in the proportion that the next series until the ninth .

So have results for each series , and the sum of all until the ninth . Or even a few pairs or odd according to the equation so requires . Ie after the result they are divisible from last to first , ie , from ninth to first .





Numbers Graceli variational [ rotational quantum ] .

In one set of values ​​systems in rotation , and is expelled into slits radiation with approximate values.

Ie a rotation x , y we have slots , with ejections R [ radiation ] .

To meet radiation [ or not ] .
On the set of a system rotating x , s time , with ejections R , a meeting between radiation systems occur as the number of systems taking into account the elements of the systems above.


Graceli Calculation of derivatives and succession stages using mathematics and quantum .

Phase 1 - For all the variables has baz derivative with multiple values ​​from successive values ​​of b .

Phase 2 - And the result of each has fractional values ​​of { x } = 1/3 .

Phase 3 - And that the result of each phase has fractional exponential values ​​of [ y ] = 1.15.

That is, this path has an exponential progressive calculation and continuous flows , ie , each interval has exponential variational values ​​as ray releases , explosions , etc. .

That is, one can build successional stages and phases intervals as streams of pulses to use for oscillatory as the physical gas flows of electrons as quantum and quantum Graceli .

Phase 4 - and that alternative values ​​may build or even all of which result is raised to the exponential becomes successive fractional and fractional successive becomes exponential , or have a great increase in value and a decrease in another instant and steep. And since it can be considered high values ​​seconds and even minutes , or is replaced by temporal and or acceleration and power surges or variable phenomena .

The outcome is found for values ​​after phases b , x , y baz , and others all come to vary predetermined variables .

Phase 5 - the variables that may have alternate sequences where the baz may have repeated values ​​succession with two or more and fractional or exponential .







Quantum uncertainty in the transmutation and transfenomenalidade .

Ie , it is not possible to determine accurately the flow accurately , particle structure , shares loads and fields , geometrization , time and particle position and neither his next transformation , ie transfenomenalidade becomes uncertain and indeterminate .



Graceli quantum theory of universal and cosmic .
Where quantum phenomena produce macros and interact on each other .

That is, the parameters Following phenomenal universe and not in relation to dimensions and geometrization .

Where we have a universe of phenomena acting on each other , Which produces what we call graceli supergravity and superenergy graceli where all agents are essential including dynamic because the movement has action on the production of electricity , and on this action and internal motion of the particles .



Graceli uncertainty principle between pulse pressure , internal, shape , and structure , action loads , rotation [ spin ] and position of particles in quantum instability .

The quantum universe is determined by instabilities and not like oh Planck constant , because all phenomena Tends to be more intense and less intense in some vary the limits of phenomena to phenomena , but all follow the general instability .

And this instability is Also an uncertainty , since one can not determine with certainty the flow pulse , spin , time , position between the extremes of the diameter of the particle , Therefore , When measuring the diameter of an extreme the other side has another landing and flow more or less intense .

So , what we have are natural and phenomenal quantum uncertainties . And not only for relativistic observers , but the phenomenon itself is in unstable , wavering , uncertain and indeterminate , and relativistic .







Universe transfenomênico Graceli . Effect Graceli and trans - phenomenal transmutable [ beyond the natural and progressive transformation ] .


Which states que the universe is not based on quantum and relativity , but in physical and chemical processes with the potential variability transmutable .

Where the phenomena is Also a process of interaction phenomena acting on each other to the intensity of energy production and transmutation Graceli .

Where have all the fundamental phenomena of action on each other , where the dynamics and physical and chemical structures and determine actions are determined on each other .

As an example we have the electricity we need metal, magnetism and dynamic to be produced .

That is , a set of physical and chemical phenomena in interactions Which act on each other forming a complete and universal.

Que and does not follow the universal proportionality , but own particular and intensities varies.

Therefore we chemicals and families with variations with large differences between Them and other elements , and between families and each other .


Graceli procedural theory of the universe .
Effect Graceli trans - phenomenal transmutable [ beyond the natural and progressive transformation ] .


Involving gravity , supergravity Graceli , radiation , dynamic super activated as in black holes and radiation cone Graceli que exists at the poles of the galaxies , constant production of electricity and magnetism , fusions and fissions .

The universe is divided by the intensity of processes that is where the phenomena of energy and condensation of energy and matter produces superenergy Graceli in intense activities , and this we see in systems que degrees below zero have the physical universe different from above zero degrees Celsius Within stars , plasmas , and black holes , etc. . .

Namely , the physical universe is relative to the intensity of production of physical phenomena , where we ordered movements of electrons Within the ice forms and well defined gases and particles in oscillatory and activated with immense heat production , electrons and activated dilation of irons , black holes and radiation cones Graceli galaxies Which produces movements of the anomalous rotation of galaxies , and produces Also cosmic inflation .

Ie , dark energy is actually the energy procedural universe itself .

Ie energy intensity produces the universe of phenomenality particular variable r .

Effect Graceli transfenomênico transmutable [ beyond the natural and progressive transformation ] .


The effect transmutable graceli based que phenomena do not follow the progression of cause and effect in the same proportionality , the conditions and effects Appear completely different and new , and change , relativity , particular uncertainties own .

Graceli phenomenal universe .






And even que does not follow the progressive parameters , ie to follow different fenomenalidades different intensities .

Ie , less than zero degrees and have a procedural phenomenal universe with 1 degree above zero. And que goes to higher values ​​.

The same happens with variations with mercury , iron , hydrogen , helium , etc. . .

This variation Also Occurs and decay isotopes , or even with the barrier graceli iron .

The same is true of plasmas and black holes , or even for radiation cones graceli pole of galaxies , stars and particles .

Thus we have the phenomenal universe graceli effect .










Graceli quantum theory for sequence variable to particular systems .

The sequence and intensity flux quantum in scope and intensity variation and sequence varies among chemicals , particles , loads of action , etc. . .

That is , the quantum phenomena do not follow universal parameters for all elements particulate matter forms , the intensity of power generation , electric charges fields , temperature , black holes in particle energy interconnections between particles Which is formed tubes energy and swirls of energy , etc. . .

Theory of quantum phenomena Graceli Pipe swirls of energy into matter .

Even the photoelectric effect goes through this variability as well oh Planck


Uncertainties Graceli quantum theory.
Also this changes the quantum probabilities and uncertainties , that is graceli have the variational probability , and the uncertainty Within the quantum uncertainty graceli own position and team , or energy intensity and the shape and structure this energy is processed and moves and spreads in space and Within the energy and matter .

Ie the quantum phenomena do not follow the universality in Their functionality .

Even the transformations to the isotopes decay and quantum phenomena follow the patterns Themselves to the functional chemicals , particles , charges and fields , and even the energy in question to the intensity thermal electricity production by phenomena in magnetism and rotation , etc. . .


Graceli quantum principle of organization of unstable quantum jumps of electrons and pulses and flares .

Ie , the electron event instantly jumping from one orbit to another , or variations of electric and magnetic actions with loads of functions and varieties has reversed an order que this quantum instability happen .

Ie , follows an order of cause and time for these quantum phenomena happen .

The quantum phenomena follow an order of placement [ place and space Where They happen ] , and has the tendency to always happen que placement Within particles and radiation , and intensity and time interval Following repetitive flows between extremes and limits .

The very principle of quantum uncertainty graceli follows this order quantum .

And que follows the theory of limits graceli between extremes .

That is :
The whole divided by the part where the result is divided by the whole . Where the results [ y ] will never be less than zero nor greater than one .

a / b = X
X / a = y .



Universe transfenomênico Graceli . Effect Graceli and trans - phenomenal transmutable [ beyond the natural and progressive transformation ] .


Which states que the universe is not based on quantum and relativity , but in physical and chemical processes with the potential variability transmutable .

Where the phenomena is Also a process of interaction phenomena acting on each other to the intensity of energy production and transmutation Graceli .

Where have all the fundamental phenomena of action on each other , where the dynamics and physical and chemical structures and determine actions are determined on each other .

As an example we have the electricity we need metal, magnetism and dynamic to be produced .

That is , a set of physical and chemical phenomena in interactions Which act on each other forming a complete and universal.

Que and does not follow the universal proportionality , but own particular and intensities varies.

Therefore we chemicals and families with variations with large differences between Them and other elements , and between families and each other .


Graceli procedural theory of the universe .
Effect Graceli trans - phenomenal transmutable [ beyond the natural and progressive transformation ] .


Involving gravity , supergravity Graceli , radiation , dynamic super activated as in black holes and radiation cone Graceli que exists at the poles of the galaxies , constant production of electricity and magnetism , fusions and fissions .

The universe is divided by the intensity of processes that is where the phenomena of energy and condensation of energy and matter produces superenergy Graceli in intense activities , and this we see in systems que degrees below zero have the physical universe different from above zero degrees Celsius Within stars , plasmas , and black holes , etc. . .

Namely , the physical universe is relative to the intensity of production of physical phenomena , where we ordered movements of electrons Within the ice forms and well defined gases and particles in oscillatory and activated with immense heat production , electrons and activated dilation of irons , black holes and radiation cones Graceli galaxies Which produces movements of the anomalous rotation of galaxies , and produces Also cosmic inflation .

Ie , dark energy is actually the energy procedural universe itself .

Ie energy intensity produces the universe of phenomenality particular variable r .

Effect Graceli transfenomênico transmutable [ beyond the natural and progressive transformation ] .


The effect transmutable graceli based que phenomena do not follow the progression of cause and effect in the same proportionality , the conditions and effects Appear completely different and new , and change , relativity , particular uncertainties own .

Graceli phenomenal universe .






And even que does not follow the progressive parameters , ie to follow different fenomenalidades different intensities .

Ie , less than zero degrees and have a procedural phenomenal universe with 1 degree above zero. And que goes to higher values ​​.

The same happens with variations with mercury , iron , hydrogen , helium , etc. . .

This variation Also Occurs and decay isotopes , or even with the barrier graceli iron .

The same is true of plasmas and black holes , or even for radiation cones graceli pole of galaxies , stars and particles .

Thus we have the phenomenal universe graceli effect .










Graceli quantum theory for sequence variable to particular systems .

The sequence and intensity flux quantum in scope and intensity variation and sequence varies among chemicals , particles , loads of action , etc. . .

That is , the quantum phenomena do not follow universal parameters for all elements particulate matter forms , the intensity of power generation , electric charges fields , temperature , black holes in particle energy interconnections between particles Which is formed tubes energy and swirls of energy , etc. . .

Theory of quantum phenomena Graceli Pipe swirls of energy into matter .

Even the photoelectric effect goes through this variability as well oh Planck


Uncertainties Graceli quantum theory.
Also this changes the quantum probabilities and uncertainties , that is graceli have the variational probability , and the uncertainty Within the quantum uncertainty graceli own position and team , or energy intensity and the shape and structure this energy is processed and moves and spreads in space and Within the energy and matter .

Ie the quantum phenomena do not follow the universality in Their functionality .

Even the transformations to the isotopes decay and quantum phenomena follow the patterns Themselves to the functional chemicals , particles , charges and fields , and even the energy in question to the intensity thermal electricity production by phenomena in magnetism and rotation , etc. . .


Graceli quantum principle of organization of unstable quantum jumps of electrons and pulses and flares .

Ie , the electron event instantly jumping from one orbit to another , or variations of electric and magnetic actions with loads of functions and varieties has reversed an order que this quantum instability happen .

Ie , follows an order of cause and time for these quantum phenomena happen .

The quantum phenomena follow an order of placement [ place and space Where They happen ] , and has the tendency to always happen que placement Within particles and radiation , and intensity and time interval Following repetitive flows between extremes and limits .

The very principle of quantum uncertainty graceli follows this order quantum .

And que follows the theory of limits graceli between extremes .

That is :
The whole divided by the part where the result is divided by the whole . Where the results [ y ] will never be less than zero nor greater than one .

a / b = X
X / a = y .
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Transfenomênico Graceli universe . and Graceli Effect transmutable phenomenal trans - [ besides the natural and progressive transformation ] .


Where determines that the universe is not based on quantum and relativity, but in physical and chemical processes with the potential variability transmutable .

Where the phenomena is also a process of interaction phenomena acting on each other as intensity of energy production and transmutation Graceli .

Where has all the vital phenomena of action on each other , where the dynamics and the physical and chemical structures determine and are determined actions on each other .

As an example we have the electricity we need metal, magnetism and dynamics to produce.

That is, a set of physical and chemical phenomena in interactions where some act on others forming a complete and universal system .

And they do not follow a universal, but very private and proportionality and that varies with varying intensities .

Why we have chemicals and families with variations with large differences between them and other elements , and between families and each other .


Graceli theory of procedural universe.
Graceli effect -shifting trans - phenomenal [ besides the natural and progressive transformation ] .


Involving gravity, supergravity Graceli , radiation, dynamic super activated as black holes and radiation Graceli cone that exists at the poles of galaxies , constant production of electricity and magnetism , fusions and fissions .

The universe is divided by the intensity of processes that is where the energy phenomena and condensation of energy and matter produces superenergy Graceli in intense activities, and this we see that in systems below zero have a different physical universe above zero degrees Celsius within stars, plasmas , and blacks , etc. holes .

Ie , the physical universe is relative to the intensity of production of physical phenomena , where we ordered movements of electrons within the ice and well defined shapes and oscillatory and activated in gas production with immense thermal particles , electrons and activated in dilation of irons , black holes and radiation cones Graceli galaxies that produces anomalous movements of the rotation of galaxies , and also produces cosmic inflation .

Ie , dark energy is actually the processual energy of the universe itself .

Ie , the intensity of energy produces a particular universe of variable r phenomenality .

Transfenomênico Graceli -shifting effect [ besides the natural and progressive transformation ] .


The ever-shifting effect graceli based phenomena that do not follow a progression of cause and effect in the same proportionality , and that conditions appear as completely different and new effects , and variation , relativity , and individuals own uncertainties .

Graceli phenomenal universe .






And even that does not follow the progressive parameters , namely fenomenalidades follows different for different intensities.

Ie , less than zero degrees and have a procedural phenomenal universe with 1 degree above zero . And that goes to higher values ​​.

The same applies to variations with mercury , iron , hydrogen, helium , etc. .

This variation also occurs and isotopes decay , or even the barrier graceli iron.

The same is true of plasmas and black holes , or even for graceli radiation cones of the poles of galaxies , stars and particles .

Thus we have the phenomenal universe graceli effect.










Graceli variable theory for quantum sequence for particular systems .

The sequence and intensity of quantum flows with intensity and scope and sequence variation varies with the chemicals , particles , loads of action , etc. .

Ie , quantum phenomena do not follow universal standards for all elements , particles , forms of matter , intensity of energy production , electric charges , fields , temperature , black holes within particles , energy interconnections between particles which formed tubes energy and swirls of energy, etc. .

Graceli theory of quantum phenomena swirls of energy into matter Tubes .

Even the photoelectric effect goes through this variability as well oh Planck ,


Uncertainties Graceli quantum theory .
This also alters the quantum probabilities and uncertainties , ie we have the variational quantum probability and uncertainty graceli graceli within their own uncertainties of position and time , or even energy intensity and structure shape and how this energy is processed and walks and propagates in space and within your own energy and matter .

Ie , quantum phenomena do not follow a universality in their functionality .

Even the transformations as the isotopes decay and quantum phenomena follow own standards as the functional chemicals , particles , fields and loads , and even the energy in question as thermal intensity , electricity production by phenomena with magnetism and rotation, etc. .


Quantum principle Graceli organizing instability jumps of electrons and quantum pulses and flares .

Ie , the electron even jumping instantaneously from one orbit to another , or variations of magnetic and electrical functions and actions with varieties of loads has reversed an order that this quantum instability happen .

Ie , follows an order of cause and time for these quantum phenomena happen .

The quantum phenomena follow an order placement [ place and space where they happen ] , and has a tendency to always happen at that position within particles and radiation, and intensity and time interval following repetitive flows between extremes and limits .

The very principle of quantum uncertainty graceli follows this quantum order.

And that follows the theory of limits graceli between extremes .

That is :
The whole divided by the section where the result is divided by the whole. Where the results [y] will never be less than zero nor greater than one.

a / b = X
X / a = y .




Calculating geometric and exponential infinitesimal Graceli unlikely and uncertainty . Dimensional and statistical . Variable and relativistic .

For all x g high , with g fractions of fractions.

[ Go being all divided by the section where the result is divided by all ] .
 [ graceli limit calculation , where not every number reaches 0 nor 1 ] .

Values ​​can be straight to the point or value and from that point be reversed , as if to latitude, can be reversed to go for length or height or vice versa . We have squares and cubes , or straight shapes , or even triangles .

And if the weather or other variables have dimensions is obeyed and unlikely ways .

Ie we have a geometry that is not curved nor straight , but an exponential and unlikely dimensional geometry.

And that this geometry can follow statistical variables . Ie , can happen between approximate and between limits .

Or even have uncertain and unpredictable results .

Thus we have a dimensional geometry and statistics.

 And in uncertain ways .

And even be based on forms of quantum uncertainties of time and position , form and structure , intensity and density , space and time , matter and energy , and even all these dimensional grounds together.

And even be based on a geometry of waves that vary intensity that vary time, longitudinal or latitudinal range , or even in height.

Or even be variable with actions under the phenomena above or below where the waves are occurring , in this case waves in water .

But this can also be expressed in wavelengths of light or radiation in space , and thermal radiation when we move up under microwave radiation in the asphalt days of high temperatures.

In forming a rotational diameter which starts with 0 to 10 and 10 0. Ie we have two inverted cones .

And since the rotation is more intense 0 to 7 and 7 to 10, and inverting have a spherical ball. Where variables exponential values ​​can also be included .

 Inasmuch as follows where peak values ​​in exponential fractions turn inward and outward have depressions and elevations in ways.
Imagine heartbeat peaks on a graph . Ie we have exponential peaks with median range and also micro as in quantum phenomena , which are high uncertainty of events in time , in space , scope and intensity , shape and structure.


Graceli relativistic calculation for observers .

The phenomenon is seen by the observer variation with x p , and another farther , or to another position, sees the same phenomenon with variation y , ie they are different realities of the same phenomenon or form, or even the phenomenon of distortion of how the waves of the water , or waves of thermal radiation as visible in the asphalt or in the desert during the hot sun .

Variational geometry distortion and relative distortion in relation to observers Graceli .

The same can be considered in relation to time and position , form and structure , or even the porosity of structures .

The same is taken into account the variational distortion limits between being a statistic or geometry points .

The distortion occurs naturally , but each observer has a different view of the distortion waves of the water, as thermal radiation or luminescence.

geometria Graceli e cálculo quântico transversal de espaços vazios e não ondulatória.

Sistema de movimento de picos seguidas de depressões transversais em relação a um  plano, e sendo que estes picos seguidos de depressões são produzidos após espaços vazios, ou seja, é como um mapa dos batimentos cardíacos, mas só que entre um pico e depressão ocorre espaço vazios.

Onde não é curva, nem reta e nem ondulatória.

geometria e cálculo quântica transversal graceli não ondulatória.

E que varia de alcance e alargamento, e sentido e direção conforme a intensidade de batimentos e ações pelo tempo.

Alguns elétrons no seu percurso e também no seu fluxo de funcionamento passam por isto, ou seja, por esta geometria quântica graceli, de oscilações e irregularidades, e instabilidades.

Onde as dimensões passam a ser medidas por não serem retas e nem curvas, mas de ínfimos irregulares e transversais.

Isto vemos que num universo ínfimo não temos retas e nem curvas, mas sim picos e depressões.

Ver cálculo e geometria infinitesimal instável e irregular graceli.

Se olharmos qualquer reta ou curva, ou onda veremos que são formadas de partes ínfimas infinitesimais.

Os elétrons oscilam em fluxos de intensidades maiores e menores, assim como em todas as partículas e seu campo elétrico.

Esta irregularidade dos ínfimos também se confirma em todas os campos – forte, fraco, magnético e gravitacional, ou mesmo a supergravidade graceli dos buracos brancos luminosos dentro das galáxias.

Sistema Graceli transdimensional e de buracos de energia fotoelétrica. Buraco Graceli luminoso e branco.

Buracos de energia fotoelétrica e dimensões côncavas, e universo dimensional de valores variáveis dentro de buracos de energia fotoelétrica e de raios cósmicos, gama e x.

Um buraco negro na verdade não é negro, mas sim super luminoso e de intensa atividade de produção de energia térmica, elétrica e fotoelétrica.

Assim, o que temos é um universo particular de radiação cósmica graceli que é produzida dentro dos buracos luminosos graceli.

Onde as dimensões não são retas, mas sim, côncavas conforme o movimento curvo dentro dos buracos luminosos brancos graceli.

Ou seja, passamos a ter outro universo dimensional e de valores que variam conforme a energia é processada na sua imensa intensidade e se propaga dentro do buraco negro em movimentos côncavos e não retos.

Onde a produção de energia faz com que tenhamos outro universo dimensional, sendo curvo e côncavo.

E outra forma de ver os buracos negro, sendo assim, buracos Graceli branco de intensa produção de eletricidade e luminosidade.

E sendo que dentro destes buracos temos os raios graceli que atravessam imensas paredes e atravessa a própria matéria com  a sua imensa velocidade e dinâmica. Que chega até a velocidade da luz [c].

Geometria espacial Graceli para séries Graceli entre espaços de picos e depressões [somado, ou subtraído, ou multiplicado, ou dividido, ou logaritimo, ou potencializado de séries de camadas [como nas cebolas de séries sempre infinitesimais dentro de séries decimais] e somado, ou multiplicado, ou dividido, ou logaritimo, ou potencializado de uma variável qualquer.

Séries entre espaços de picos e depressões + séries de camadas dentro de cada ponto + [ / ] de variável de fluxo.

S [+] CS [ / ] V.

SÉRIES [ + ] camadas de séries [ / ] variável.

Com isto temos um sistema de estatística e probabilidades que pode ser usado para uma geometria espacial, um calculo infinitesimal, ou estatística.

O infinito, o finito, limite e séries no sistema de séries de Graceli.

O finito e o infinito no sistema Graceli.

O sistema de limite de graceli temos o finito.

E o infinito no sistema de graceli temos:

E as séries elevadas a n... vezes temos o infinito dentro de séries dentro de séries.

Geometria Graceli das séries infinitésimos para ondas de picos e depressões.

Séries infinitesimais Graceli.

Autor  ; Ancelmo Luiz Graceli.


Séries e celas e lacunas de infinitésimos.

Sistema de limite Graceli.
Onde a parte dividido pelo todo leva ao resultado x, e dividido pelo todo sempre será entre menor de 1 e maior de zero. E o resultado é g.

Médias de séries infinitesimais.

Com isto temos somas de uma equação y, z, c n...  divididas pelo todo de cada equação para y, z e c, n....   com isto temos séries de somatórias de equações e equalização [médias de séries] entre elas.

Lacunas entre infinitésimos, que se divide em 1, segunda, terceira, n... infinitésimo.

Onde o resultado g passa a ser a primeira serie e lacuna, o h outra lacuna subsequente. Assim progressivamente.

G divido por t = i1 infinitésimo 1.
H dividido pelo resultado de g e t [i1] = i2.

Assim, sucessivamente.
4/8= 0,5    0,5/8   = i1.

I1 / t = h. assim, sucessivamente se forma series infinitesimal.

Assim, temos resultados para somas, multiplicação, frações, potencialização, proporcionalidades  de séries infinitesimais Graceli.

exemplo para série de 1 a 9.

Onde em cada série se tem valores sempre numa série menor do que um dígito na proporção que da serie seguinte até a nona.

Assim temos resultados para cada série, e a somatória de todas até a nona. Ou mesmo algumas pares ou impares conforme a equação assim exigir. Ou seja, após o resultado elas serem fracionáveis da ultima para a primeira, ou seja, da nona para a primeira.

Geometria Graceli das séries infinitésimos para ondas de picos e depressões.

Com as séries sendo elevadas a picos e as sucessivas a depressões se forma uma geometria de irregularidades, ou mesmo de depressões progressivas crescentes ou mesmo decrescentes, ou mesmo umas sendo seguidas das outras.

Num mundo micro e mesmo quântico e de fluxos ínfimos o que temos não é uma reta e nem curvas perfeitas, mas sim, picos e depressões dentro das retas e das curvas.

A distância menor entre dois pontos para uma geometria infinitesimal é uma depressão ou um pico.

A menor distância entre dois pontos por mais próximos que estejam é a distância diametral, que se forma nas series de diâmetros dentro de diâmetros, como camadas de cebola, assim infinitamente.

Ou seja, num universo de séries diametrais é impossível de saber qual é a distância e sua forma final. Ou a distância e forma ser relativo a um limite infinitésimo.

Assim, a distância mínima entre dois pontos é o infinitésimo de camadas diametrais de cada ponto, por mais próximos que possam estar.

Ou seja, é cada ponto em questão a ser tratada.

Ou seja, é como uma cebola de camadas sob camadas.

Onde o todo subtraído ou dividido da parte, se tem um resultado x, e o resultado passa aser dividido do todo. Assim, infinitamente.

Teoria do limite Graceli.

LG = T- OU / p = x

x/t = g.

o todo subtraído ou dividido da parte, onde o resultado é divido do todo.

E sendo elevada a varias subdivisões temos as séries de limites dentro de limites nos decimais irracionais fracionáveis.

Onde temos g= li, l2/l1/   l3/2 n.....

Ou seja temos séries infinitesimais graceli dentro de limites graceli.

DF/dx  [x ln...] = f¨ [xln...]

Estatísticas  e potencialidades no sistema de séries Graceli.

Os limites Graceli podem ser elevados a razões de incertezas e improbabilidades, e estatísticas quando elevadas a potencialidades.

Geometria espacial para séries Graceli entre espaços de picos e depressões [somado, ou subtraído, ou multiplicado, ou dividido, ou logarítimo, ou potencializado de séries de camadas [como nas cebolas de séries sempre infinitesimais dentro de séries decimais] e somado, ou multiplicado, ou dividido, ou logarítimo, ou potencializado de uma variável qualquer.

Séries entre espaços de picos e depressões + séries de camadas dentro de cada ponto + [ / ] de variável de fluxo.

S [+] CS [ / ] V.

SÉRIES [ + ] camadas de séries [ / ] variável.

 

Números Graceli variacionais [quânticos rotacionais].

Num conjunto de valores com sistemas em rotação, sendo que em fendas é expelida radiação com valores aproximativos.

Ou seja, numa rotação x, temos fendas y, com ejeções R [radiações].

Para encontro de radiação [ou não].
No conjunto de um sistema em rotação x, no tempo s, com ejeções R, ocorrerá um encontro de radiação entre sistemas conforme o número de sistemas levando em consideração os elementos dos sistemas acima.


Cálculo Graceli de fases derivativos e sucessórios com uso na matemática e na quântica.

Fase 1- Para todo a se tem variáveis de b a z derivativas com valores múltiplos de valores sucessivos a partir de b.

Fase 2 - E que o resultado de cada um se tem valores fracionais de {x} =  1/3.

Fase 3 - E que o resultado de cada FASE se tem valores exponenciais fracionais de [y]  = 1.15.

OU SEJA, Por este caminho se tem um cálculo progressivo exponencial e de fluxos continuados, ou seja, em cada intervalo variacional se tem valores exponenciais como lançamentos de raios, explosões, etc.

Ou seja, se pode construir fases sucessórias de fases e intervalos como fluxos de pulsos com uso para física oscilatória como a de gases, fluxos de elétrons, como a quântica e a quântica Graceli.

Fase 4 – sendo que pode construir valores alternativos, ou mesmo sendo que todo resultado que for elevado a exponencial o sucessivo se torna fracionário, e do fracionário o sucessivo se torna exponencial, ou seja, temos uma grande elevação num valor e noutro um decréscimo instantâneo e íngreme. E sendo que se pode ser considerado valores elevados a segundos e mesmo a minutos, ou seja, se passa a ter variáveis temporais e de aceleração e ou de picos de energia ou de fenômenos.

O resultado a que for encontrado para valores após as fases b, x, y de b a z, e outros, todos passam a variar conforme variáveis pré-determinados.

Fase 5 -  as variáveis que se alternam pode ter sucessões onde de b a z pode

 ter valores sucessórios repetidos com dois ou mais fracionários e ou exponenciais.

Cálculo Graceli de fases derivativos e sucessórios com uso na matemática e na quântica.

Fase 1- Para todo a se tem variáveis de b a z derivativas com valores múltiplos de valores sucessivos a partir de b.

Fase 2 - E que o resultado de cada um se tem valores fracionais de {x} =  1/3.

Fase 3 - E que o resultado de cada FASE se tem valores exponenciais fracionais de [y]  = 1.15.

OU SEJA, Por este caminho se tem um cálculo progressivo exponencial e de fluxos continuados, ou seja, em cada intervalo variacional se tem valores exponenciais como lançamentos de raios, explosões, etc.

Ou seja, se pode construir fases sucessórias de fases e intervalos como fluxos de pulsos com uso para física oscilatória como a de gases, fluxos de elétrons, como a quântica e a quântica Graceli.

Fase 4 – sendo que pode construir valores alternativos, ou mesmo sendo que todo resultado que for elevado a exponencial o sucessivo se torna fracionário, e do fracionário o sucessivo se torna exponencial, ou seja, temos uma grande elevação num valor e noutro um decréscimo instantâneo e íngreme. E sendo que se pode ser considerado valores elevados a segundos e mesmo a minutos, ou seja, se passa a ter variáveis temporais e de aceleração e ou de picos de energia ou de fenômenos.

O resultado a que for encontrado para valores após as fases b, x, y de b a z, e outros, todos passam a variar conforme variáveis pré-determinados.

Fase 5 -  as variáveis que se alternam pode ter sucessões onde de b a z pode ter valores sucessórios repetidos com dois ou mais fracionários e ou exponenciais.

Séries infinitesimais Graceli.


Séries e celas e lacunas de infinitésimos.

Sistema de limite Graceli.
Onde a parte dividido pelo todo leva ao resultado x, e dividido pelo todo sempre será entre menor de 1 e maior de zero. E o resultado é g.

Médias de séries infinitesimais.

Com isto temos somas de uma equação y, z, c n...  divididas pelo todo de cada equação para y, z e c, n....   com isto temos séries de somatórias de equações e equalização [médias de séries] entre elas.

Lacunas entre infinitésimos, que se divide em 1, segunda, terceira, n... infinitésimo.

Onde o resultado g passa a ser a primeira serie e lacuna, o h outra lacuna subsequente. Assim progressivamente.

G divido por t = i1 infinitésimo 1.
H dividido pelo resultado de g e t [i1] = i2.

Assim, sucessivamente.
4/8= 0,5    0,5/8   = i1.

I1 / t = h. assim, sucessivamente se forma series infinitesimal.

Assim, temos resultados para somas, multiplicação, frações, potencialização, proporcionalidades  de séries infinitesimais Graceli.

exemplo para série de 1 a 9.

Onde em cada série se tem valores sempre numa série menor do que um dígito na proporção que da serie seguinte até a nona.

Assim temos resultados para cada série, e a somatória de todas até a nona. Ou mesmo algumas pares ou impares conforme a equação assim exigir. Ou seja, após o resultado elas serem fracionáveis da ultima para a primeira, ou seja, da nona para a primeira.

Números Graceli variacionais [quânticos rotacionais].

Num conjunto de valores com sistemas em rotação, sendo que em fendas é expelida radiação com valores aproximativos.

Ou seja, numa rotação x, temos fendas y, com ejeções R [radiações].

Para encontro de radiação [ou não].
No conjunto de um sistema em rotação x, no tempo s, com ejeções R, ocorrerá um encontro de radiação entre sistemas conforme o número de sistemas levando em consideração os elementos dos sistemas acima.


Cálculo Graceli de fases derivativos e sucessórios com uso na matemática e na quântica.

Fase 1- Para todo a se tem variáveis de b a z derivativas com valores múltiplos de valores sucessivos a partir de b.

Fase 2 - E que o resultado de cada um se tem valores fracionais de {x} =  1/3.

Fase 3 - E que o resultado de cada FASE se tem valores exponenciais fracionais de [y]  = 1.15.

OU SEJA, Por este caminho se tem um cálculo progressivo exponencial e de fluxos continuados, ou seja, em cada intervalo variacional se tem valores exponenciais como lançamentos de raios, explosões, etc.

Ou seja, se pode construir fases sucessórias de fases e intervalos como fluxos de pulsos com uso para física oscilatória como a de gases, fluxos de elétrons, como a quântica e a quântica Graceli.

Fase 4 – sendo que pode construir valores alternativos, ou mesmo sendo que todo resultado que for elevado a exponencial o sucessivo se torna fracionário, e do fracionário o sucessivo se torna exponencial, ou seja, temos uma grande elevação num valor e noutro um decréscimo instantâneo e íngreme. E sendo que se pode ser considerado valores elevados a segundos e mesmo a minutos, ou seja, se passa a ter variáveis temporais e de aceleração e ou de picos de energia ou de fenômenos.

O resultado a que for encontrado para valores após as fases b, x, y de b a z, e outros, todos passam a variar conforme variáveis pré-determinados.

Fase 5 -  as variáveis que se alternam pode ter sucessões onde de b a z pode ter valores sucessórios repetidos com dois ou mais fracionários e ou exponenciais.

Incerteza quântica em relação a transmutação e a transfenomenalidade.

Ou seja, não é possível determinar com exatidão o fluxo, forma exata, estrutura de partículas, ações de cargas e campos, geometrização, momento e posição de partículas e nem a sua transformação seguinte, ou seja, a transfenomenalidade se torna incerta e indeterminada.

Graceli quantum theory of universal and cosmic .
Where quantum phenomena produce macros and interact on each other .

That is, the following parameters phenomenal universe and not in relation to dimensions and geometrization .

Where we have a universe of phenomena acting on each other , which produces what we call supergravity graceli and superenergy graceli where all agents are essential including dynamic because the movement has action on the production of electricity, and on this action and internal motion of the particles .



Graceli uncertainty principle between pulse pressure, internal , shape, and structure, action loads , rotation [ spin ] and position of particles in quantum instability .

The quantum universe is determined by instabilities and not like oh Planck constant , because all phenomena tends to be more intense and less intense as some vary in limits of phenomena to phenomena , but all follow the general instability .

And this instability is also an uncertainty , since one can not determine with certainty the flow pulse , spin , time , position between the extremes of the diameter of a particle , therefore, when measuring the diameter of an extreme the other side has another landing and flow more or less intense .

So , what we have are natural and phenomenal quantum uncertainties . And not only for relativistic observers , but the phenomenon itself is in unstable , wavering , uncertain and indeterminate , and relativistic .







Universe transfenomênico Graceli . Effect Graceli and trans - phenomenal transmutable [ beyond the natural transformation and progressive ] .


Which states that the universe is not based on quantum and relativity, but in physical and chemical processes with the potential variability transmutable .

Where the phenomena is also a process of interaction phenomena acting on each other as the intensity of energy production and transmutation Graceli .

Where have all the phenomena of fundamental action on each other , where the dynamics and physical and chemical structures determine and are determined actions on each other .

As an example we have the electricity we need metal, magnetism and dynamic to be produced .

That is, a set of physical and chemical phenomena in interactions which act on each other forming a complete and universal .

And that does not follow a universal proportionality , but own particular and varies intensities .

Therefore we chemicals and families with variations with large differences between them and other elements , and between families and each other .


Graceli procedural theory of the universe .
Effect Graceli trans - phenomenal transmutable [ beyond the natural transformation and progressive ] .


Involving gravity, supergravity Graceli , radiation, dynamic super activated as in black holes and radiation cone Graceli that exists at the poles of the galaxies , constant production of electricity and magnetism , fusions and fissions .

The universe is divided by the intensity of processes that is where the phenomena of energy and condensation of energy and matter produces superenergy Graceli in intense activities , and this we see that in systems below zero degrees have a physical universe different from above zero degrees Celsius within stars, plasmas , and black holes , etc. .

Namely , the physical universe is relative to the intensity of production of physical phenomena , where we ordered movements of electrons within the ice forms and well defined particles and gases in oscillatory and activated with immense heat production , electrons and activated dilation of irons , black holes and radiation cones Graceli galaxies which produces movements of the anomalous rotation of galaxies , and also produces cosmic inflation .

Ie , dark energy is actually the energy processual universe itself .

Ie energy intensity produces a universe of phenomenality particular variable r .

Effect Graceli transfenomênico transmutable [ beyond the natural transformation and progressive ] .


The effect transmutable graceli based phenomena that do not follow a progression of cause and effect in the same proportionality , as conditions and effects appear completely different and new , and change , relativity , uncertainties own particular .

Graceli phenomenal universe .






And even that does not follow the progressive parameters , ie to follow different fenomenalidades different intensities.

Ie , less than zero degrees have a procedural and phenomenal universe with 1 degree above zero. And that goes to higher values ​​.

The same happens with variations with mercury , iron , hydrogen, helium , etc. .

This variation also occurs and isotopes decay , or even with the barrier graceli iron .

The same is true of plasmas and black holes , or even for radiation cones graceli pole of galaxies , stars and particles .

Thus we have the phenomenal universe graceli effect .










Graceli quantum theory for sequence variable to particular systems .

The sequence and intensity flux quantum in scope and intensity and variation sequence varies among chemicals , particles , loads of action , etc. .

That is, the quantum phenomena do not follow universal parameters for all elements particulate matter forms , the intensity of power generation, electric charges fields , temperature, black holes in particle energy interconnections between particles which is formed tubes energy and swirls of energy, etc. .

Theory of quantum phenomena Graceli Pipe swirls of energy into matter .

Even the photoelectric effect goes through this variability as well oh Planck ,


Uncertainties Graceli quantum theory .
This also changes the quantum probabilities and uncertainties , that is graceli have the variational probability , and the uncertainty within the quantum graceli own position and time uncertainty , or energy intensity and shape and structure as this energy is processed and moves and spreads in space and within the energy and matter .

Ie the quantum phenomena do not follow a universality in their functionality .

Even the transformations as the isotopes decay and quantum phenomena follow the patterns themselves as the functional chemicals , particles , charges and fields , and even the energy in question as the intensity thermal electricity production by phenomena in magnetism and rotation , etc. .


Graceli quantum principle of organization of unstable jumps of electrons and quantum pulses and flares .

Ie , the electron even jumping instantly from one orbit to another , or variations of electric and magnetic actions with functions and varieties of loads has reversed an order that this instability quantum happen .

Ie , follows an order of cause and time for these quantum phenomena happen .

The quantum phenomena follow an order of placement [ place and space where they happen ] , and has a tendency to always happen that placement within particles and radiation , and intensity and time interval following repetitive flows between extremes and limits .

The very principle of quantum uncertainty graceli follows this order quantum .

And that follows the theory of limits graceli between extremes .

That is :
The whole divided by the part where the result is divided by the whole. Where the results [y] will never be less than zero nor greater than one.

a / b = X
X / a = y .

Universe transfenomênico Graceli . Effect Graceli and trans - phenomenal transmutable [ beyond the natural transformation and progressive ] .


Which states that the universe is not based on quantum and relativity, but in physical and chemical processes with the potential variability transmutable .

Where the phenomena is also a process of interaction phenomena acting on each other as the intensity of energy production and transmutation Graceli .

Where have all the phenomena of fundamental action on each other , where the dynamics and physical and chemical structures determine and are determined actions on each other .

As an example we have the electricity we need metal, magnetism and dynamic to be produced .

That is, a set of physical and chemical phenomena in interactions which act on each other forming a complete and universal .

And that does not follow a universal proportionality , but own particular and varies intensities .

Therefore we chemicals and families with variations with large differences between them and other elements , and between families and each other .


Graceli procedural theory of the universe .
Effect Graceli trans - phenomenal transmutable [ beyond the natural transformation and progressive ] .


Involving gravity, supergravity Graceli , radiation, dynamic super activated as in black holes and radiation cone Graceli that exists at the poles of the galaxies , constant production of electricity and magnetism , fusions and fissions .

The universe is divided by the intensity of processes that is where the phenomena of energy and condensation of energy and matter produces superenergy Graceli in intense activities , and this we see that in systems below zero degrees have a physical universe different from above zero degrees Celsius within stars, plasmas , and black holes , etc. .

Namely , the physical universe is relative to the intensity of production of physical phenomena , where we ordered movements of electrons within the ice forms and well defined particles and gases in oscillatory and activated with immense heat production , electrons and activated dilation of irons , black holes and radiation cones Graceli galaxies which produces movements of the anomalous rotation of galaxies , and also produces cosmic inflation .

Ie , dark energy is actually the energy processual universe itself .

Ie energy intensity produces a universe of phenomenality particular variable r .

Effect Graceli transfenomênico transmutable [ beyond the natural transformation and progressive ] .


The effect transmutable graceli based phenomena that do not follow a progression of cause and effect in the same proportionality , as conditions and effects appear completely different and new , and change , relativity , uncertainties own particular .

Graceli phenomenal universe .






And even that does not follow the progressive parameters , ie to follow different fenomenalidades different intensities.

Ie , less than zero degrees have a procedural and phenomenal universe with 1 degree above zero. And that goes to higher values ​​.

The same happens with variations with mercury , iron , hydrogen, helium , etc. .

This variation also occurs and isotopes decay , or even with the barrier graceli iron .

The same is true of plasmas and black holes , or even for radiation cones graceli pole of galaxies , stars and particles .

Thus we have the phenomenal universe graceli effect .










Graceli quantum theory for sequence variable to particular systems .

The sequence and intensity flux quantum in scope and intensity and variation sequence varies among chemicals , particles , loads of action , etc. .

That is, the quantum phenomena do not follow universal parameters for all elements particulate matter forms , the intensity of power generation, electric charges fields , temperature, black holes in particle energy interconnections between particles which is formed tubes energy and swirls of energy, etc. .

Theory of quantum phenomena Graceli Pipe swirls of energy into matter .

Even the photoelectric effect goes through this variability as well oh Planck ,


Uncertainties Graceli quantum theory .
This also changes the quantum probabilities and uncertainties , that is graceli have the variational probability , and the uncertainty within the quantum graceli own position and time uncertainty , or energy intensity and shape and structure as this energy is processed and moves and spreads in space and within the energy and matter .

Ie the quantum phenomena do not follow a universality in their functionality .

Even the transformations as the isotopes decay and quantum phenomena follow the patterns themselves as the functional chemicals , particles , charges and fields , and even the energy in question as the intensity thermal electricity production by phenomena in magnetism and rotation , etc. .


Graceli quantum principle of organization of unstable jumps of electrons and quantum pulses and flares .

Ie , the electron even jumping instantly from one orbit to another , or variations of electric and magnetic actions with functions and varieties of loads has reversed an order that this instability quantum happen .

Ie , follows an order of cause and time for these quantum phenomena happen .

The quantum phenomena follow an order of placement [ place and space where they happen ] , and has a tendency to always happen that placement within particles and radiation , and intensity and time interval following repetitive flows between extremes and limits .

The very principle of quantum uncertainty graceli follows this order quantum .

And that follows the theory of limits graceli between extremes .

That is :
The whole divided by the part where the result is divided by the whole. Where the results [y] will never be less than zero nor greater than one.

a / b = X
X / a = y .

Postado por astrofísico Ancelmo luiz Graceli às 05:32 Nenhum comentário:

Universo transfenomênico Graceli. e Efeito Graceli trans-fenomênico transmutável [além da transformação natural e progressiva].

Onde determina que o universo não se fundamenta em quântica e em relatividade, mas em processos físicos e químicos com potencialidade a variabilidades transmutáveis.

Onde também os fenômenos se processam numa interação de fenômenos de uns agindo sobre os outros conforme intensidade de produção de energia e transmutação Graceli.

Onde todos os fenômenos tem ação fundamental de uns sobre os outros, onde a dinâmica e as estruturas físicas e químicas determinam e são determinadas de ações de uns sobre os outros.

Como exemplo temos a eletricidade que precisa de metal, magnetismo e dinâmica para ser produzida.

Ou seja, é um conjunto de fenômenos físico e químico em interações onde uns agem sobre os outros formando um sistema completo e universal.

E que não seguem uma proporcionalidade universal, mas própria e particular e que varia conforme intensidades variadas.

Por isto que temos elementos químicos e famílias com variações com grandes diferenças entre uns elementos e outros, e entre umas famílias e outras.

Teoria Graceli do universo processual.

Efeito Graceli trans-fenomênico transmutável [além da transformação natural e progressiva].

Que envolve a gravidade, a supergravidade Graceli, radiação, dinâmica super ativada como em buracos negro e cone de radiação Graceli que existe nos polos das galáxias, produção constante de eletricidade e magnetismo, fusões e fissões.

O universo se divide pela intensidade de processos em que se encontra onde os fenômenos de energia e condensação de energia e matéria produz superenergia Graceli em intensas atividades, e isto vemos que em sistemas abaixo de zero grau temos um universo físico diferente de acima de zero graus Célsius, dentro de astros, plasmas, e buracos negros, etc.

Ou seja, o universo físico é relativo à intensidade de produção de fenômenos físicos, onde temos movimentos ordenados de elétrons dentro do gelo e formas bem definidas, partículas bem oscilatórias e ativadas em gases com imensa produção térmica, elétrons bem ativados em dilatação de ferros, buracos negros e cones de radiação Graceli das galáxias que produz os movimentos anômalos da rotação das galáxias, e também a produz a inflação cósmica.

Ou seja, a energia escura é na verdade a energia dinâmica  e processual do próprio universo.

Ou seja, a intensidade de energia produz um universo de fenomenalidade variável r particular.

Efeito Graceli transfenomênico transmutável [além da transformação natural e progressiva].

O efeito transmutável graceli fundamenta que os fenômenos não obedecem a uma progressão de efeito e causa na mesma proporcionalidade, e que conforme condições aparecem efeitos completamente diferentes e novos, e com variação, relatividade, incertezas próprias e particulares.

Universo fenomênico graceli.

E que não segue os mesmo parâmetros progressivos, ou seja, segue fenomenalidades diferentes para intensidades diferentes.

Ou seja, a menos de zero grau temos um universo processual e fenomênico com 1 grau acima de zero. E que segue até valores maiores.

O mesmo acontece com variações com o mercúrio, ferro, hidrogênio, hélio, etc.

Esta variação também acontece os isótopos e os decaimentos, ou mesmo com a barreira graceli do ferro.

O mesmo acontece em relação a plasmas e buracos negro, ou mesmo em relação a cones graceli de radiação dos polos de galáxias, astros e partículas.

Assim, temos o universo fenomênico de efeito graceli .

Teoria Graceli para sequência quântica variável para sistemas particulares.

A sequência e intensidade de fluxos quântico com alcances e intensidades e variação de sequencia varia conforme os elementos químicos, partículas, ação de cargas, etc.

Ou seja, os fenômenos quânticos não seguem parâmetros universais para todos elementos, partículas, formas de matéria, intensidade de produção de energia, cargas elétricas, campos, temperatura, buracos negro dentro de partículas, interconexões  de energia entre partículas onde se forma tubos de energia e redemoinhos de energia, etc.

Teoria Graceli de fenômenos quânticos de Tubos de redemoinhos de energia dentro da matéria.

Mesmo o efeito fotoelétrico passa por esta variabilidade como também o h de Planck,

Teoria de Incertezas quântica Graceli.

Isto altera também as probabilidades e incertezas quânticas, ou seja temos a probabilidade variacional graceli e a incerteza quântica graceli dentro das próprias incertezas de momento e posição, ou mesmo de intensidade de energia e forma e estrutura como esta energia se processa e caminha e se propaga no espaço e dentro da própria energia e matéria.

Ou seja, os fenômenos quânticos não seguem uma universalidade em suas funcionalidades.

Mesmo nas transformações como nos isótopos e nos decaimentos os fenômenos quânticos seguem padrões funcionais próprios conforme os elementos químicos, partículas, cargas e campos, e mesmo a energia em questão como a intensidade térmica, a produção elétrica por fenômenos com magnetismo e rotação, etc.

Princípio quântico Graceli da organização de instabilidade de saltos de elétrons e pulsos e alargamentos quânticos.

Ou seja, o elétron mesmo saltando instantaneamente de uma orbita para outra, ou variações de ações magnética e elétrica com funções variedades e invertidas de cargas se tem uma ordem para que esta instabilidade quântica aconteça.

Ou seja, segue uma ordem de causa e tempo para que estes fenômenos quânticos aconteçam.

Os fenômenos                 quânticos seguem uma ordem de posicionamento de [lugar e espaço onde acontecem], e tem uma tendência a sempre acontecerem naquele posicionamento dentro de partículas e radiação, e com intensidade e intervalo de tempo que seguem fluxos repetitivos entre extremos e limites.

O próprio princípio da incerteza quântico graceli segue este ordem quântica.

E que segue a teoria de limites graceli entre extremos.

Que é:

O todo dividido pela parte, onde o resultado é dividido pela pelo todo. Onde o resultado [y] nunca será menor que zero e nem maior que um.

a/b = X

X/a = y.

Cálculo Graceli infinitesimal geométrico exponencial e improvável e de incerteza. Dimensional e estatístico. Variável  e relativística.

Para todo x elevado a g, sendo g frações de frações.

[ sendo g o todo dividido pela parte, onde o resultado é dividido pelo todo].

 [cálculo de limite graceli, onde todo número não chega a 0 e nem a 1].

Os valores podem ser retos até um ponto ou valor e a partir daquele ponto ser invertido, pois se for para latitude, pode ser revertido para, ir para longitude ou altura ou vice-versa. Temos quadrados e cubos, ou formas retas, ou mesmo triângulos.

E se for obedecido o tempo ou outras dimensões temos formas variáveis e improváveis.

Ou seja, temos uma geometria que não é curva e nem reta, mas uma geometria dimensional exponencial e improvável.

E que esta geometria pode seguir variáveis estatísticas. Ou seja, pode acontecer entre valores aproximados e entre limites.

Ou mesmo ter resultados incertos e imprevisíveis.

Assim, temos uma geometria dimensional e estatística.

 E de formas incertas.

E mesmo ser fundamentado em formas de incertezas quânticas de momento e posição, forma e estrutura, intensidade e densidade, tempo e espaço, matéria e energia, e mesmo todos estes fundamentos dimensionais juntos.

E mesmo ser fundamentado em uma geometria de ondas que variam conforme intensidade que variam conforme tempo, alcance longitudinal ou latitudinal, ou mesmo em altura.

Ou mesmo ser variável com ações sob o fenômenos acima ou abaixo onde as ondas são ocorrem, neste caso em ondas em água.

Mas isto também pode ser expresso em ondas de luz ou radiação no espaço, como a radiação térmica quando vemos subir sob asfaltos ondas de radiação nos dias de grandes temperaturas.

Numa rotação formando um diâmetro que tem inicio com 0 a 10, e de 10 a 0. Ou seja temos dois cones invertidos.

E sendo que a rotação pode ser mais intensa de 0 a 7 e de 7 a 10, e invertendo temos uma bola esférica. Onde também pode ser incluído valores exponenciais variáveis.

 E sendo que obedece a picos onde os valores em frações exponenciais voltam para dentro e para fora  temos depressões e elevações nas formas.

Imagine picos de batidas do coração num gráfico. Ou seja, temos picos exponenciais com alcance mediano e também micro como nos fenômenos quânticos, onde são elevados a incerteza de acontecimento no tempo, no espaço, alcance e intensidade, forma e estrutura.

Cálculo graceli relativístico para observadores.

O fenômeno a é visto pelo observador x com a variação p, e outro mais distante, ou em outra posição se vê o mesmo fenômeno com a variação y, ou seja, são realidades diferentes para o mesmo fenômeno ou forma, ou mesmo o fenômeno de distorção da forma como as ondas da água, ou de ondas de radiação térmica como se vê no asfalto ou no deserto durante o sol quente.

Geometria Graceli variacional de distorção e relativa distorção em relação a observadores.

O mesmo pode ser levado em consideração em relação ao momento e posição, forma e estrutura, ou mesmo da porosidade de estruturas.

O mesmo é levado em consideração da geometria de distorção variacional sendo uma estatística entre limites ou pontos.

A distorção ocorre naturalmente, porém cada observador tem uma visão diferente da distorção de ondas tanto da água, quanto de radiação térmica ou de luminescência.