Graceli symmetric geometry, and desmorfolizante, changing asymmetric.

Friday, October 19, 2012


Graceli symmetric geometry, and desmorfolizante, changing asymmetric.

Super System Unified Graceli [SSUG].

Author. LUIZ ANCELMO GRACELI.
    
Brazilian, professor, researcher, theorist, graduate in philosophy.
Street Itabira - No 5, set Itapemirim, Rose of the rock, Cariacica, Espírito Santo, Brazil.
                
ancelmoluizgraceli@hotmail.com

Work Joined at the National Library. Brazil - copyright.

Contributor - Marcio Rangel Piter.
Part of this work was sent to the Brazilian Journal of Physics, the SBF. For publication.

Fenomenometria graceli and geometry deformativa and twisted, and ricocheteamentos and planificadora and desplanificadora bamboleios to plan for the center of the track graceli.

The fenomenometria determines the geometry graceli.

Deformativa of which is to ellipse and hyperbola ellipse to hyperbola with varying kinking, and jumps ricocheteamentos, to either side, thus forming various shapes, twisted and perfect ellipses for ovaloid.

The planificadora transformed into flattened concave, concave and flattened in lateral movements by forming the concave desplanificados.

The layering produces variations as each layer and each position, as ricocheteamentos cometary bands graceli.

And with layers occur through the summation of variations of values ​​and variables specified by layers and values ​​with variables specified by age and placements.


Calculation and symmetric geometry Graceli [and or asymmetrical].

For every ¨ ¨ has the same distance in the other direction and reverse direction and.

That is, if a variable with a progression that starts from a = 1 and has an increasing progression and geometric, or exponential, it will take with respect to a center plane of these values. And will be considered the same values ​​for direction and reverse direction.

That is,
A = 1 = 1 = a * bb progression = 1 to 20.
And we reversed.
A = 2 = 2 = a * bb progression = 1 to 20.

That is, will be formed a line parallel to a central plan, or a center line, where the values ​​represent distances in a normal direction [a = 1] reversed direction and a = 2.

By this method it is possible to replace the Cartesian graph, form another calculus and analytic geometry and produce varied forms.

Imagine a pear shape, or a spiral, or a threaded or spiral.

And it can also be done as misshapen forms variables to normal and reverse directions and distances that vary for different distances.

Imagine a bitten apple, or a timber with a hole in the middle.

That is, ¨ ¨ represent the sides, the variable for each point of the ¨ ¨ represent the distance from a central line, and as the values ​​go up this axis also attached. And b ¨ ¨ representing the values ​​of the reverse side, to accompany the variations in meaning and direction inverse ¨ ¨.

Thus, with several ¨ ¨ will form various shapes, and variable deferens also have various forms.


Calculation and asymmetrical shapes Graceli.

In the same direction ¨ ¨ the values ​​of the distance b ¨ ¨ will be others. And they may have other variables. Or even inverted to variable distances. That is, we will have a normal shape on one side by the values ​​and variables ¨ ¨, and irregular shapes on the other side of b ¨ ¨ variables and values ​​in relation to distance.

This system can also be used for a fenomenometria symmetrical or asymmetrical. This can be compared with a graph of heart beats.

So we have a calculation Graceli geometry and symmetric and asymmetric.

Geometry Graceli relative and changeable.
The asymmetrical shapes may be related to observers that as the distance from the observer forms have larger or smaller, and that they deform as we move around both symmetric as asymmetric shapes.

That is, relative to the distance and positioning of observers and for the acceleration of observers, where each has a true symmetrical or asymmetrical, relative and changeable in relation to placements and accelerated observers.

That is, for a changeable geometry and relative have three situations that are variable and three positioning, distance, and acceleration.

Observation. You can include an infinite variable geometry changing, variable and relative, where it can become indeterminable regarding observers and accelerations.


Theorem Ancelmo Luiz Graceli.

The squares of the legs increase as the intersection point moves away from the hypotenuse.
And decrease as the intersection point of the hypotenuse approaches.

That is, we have a variable geometry.

The internal angle between the legs decreases as the intersection point of the hypotenuse deviates.
And increases as it approaches the hypotenuse.

The theorem Graceli contradicts the theorem of Pythagoras.


Calculation graceli to desmorfolizantes and changeable geometry [variable].

With the symmetric and asymmetric geometry includes side b ¨ ¨ ¨ over the next ¨.

And a region b ¨ ¨ side starts to suffer as variations that modify values ​​and shifting to a region ¨ ¨ b.

In the same direction ¨ ¨ the values ​​of the distance b ¨ ¨ will be others. And they may have other variables. Or even inverted to variable distances. That is, we will have a normal shape on one side by the values ​​and variables ¨ ¨, and irregular shapes on the other side of b ¨ ¨ variables and values ​​in relation to distance.


Geometry Desmorfolizações.
And that a delimitation between points b ¨ ¨ variations occur as variable acceleration, distance to the nearest depressions forming over ¨ ¨, or even stones and snails over ¨ ¨.

That is, we have a b ¨ ¨ ¨ and ¨ d desmorfolizações.


Desmorfolizações variables.
The acceleration of other variables can mark the time of formation of desmorfolizações.

And a ¨ v ¨ variation in the intensity and time of the change of desmorfolizações.

Thus we have.
The b ¨ ¨ symmetrical and asymmetrical.
A d ¨ ¨ desmorfolizações.
And a v ¨ ¨ variations of desmorfolizações.

That is, we have the b ¨ ¨ ¨ plus a d ¨ desmorfolizações to type in a specific region and graphic symmetrical or asymmetrical.

E can have a ¨ v ¨ to variations of shapes, as time and intensity values ​​¨ v ¨.



Epstemologia, aesthetics and metaphysics graceli.
A epstemologia as strong as that of Kant - graceli in its transcendental epstemologia can unify biology, vitalism, psychology, epstemologia, metaphysics, existentialism and aesthetics.

Aesthetics Graceli - not the beautiful shapes and colors and even sounds, but the programming and transcendental metatranscendental of life that leads to the existence of rationality, emotions and feelings, senses and sensitivity. That is, the aesthetic is metatranscendental. The beautiful is not outside nor inside, but in previous programativo order of reality and functional appliances sensitivity and feelings. That is, they are in existentialism and metaexistencialidade as agents of transcendental life, of reality, of order, programming, rationality, sensitivity and feelings and senses.

The being and aesthetics, and rationality meet and substancializam in power, transcendentalism, in metaexistencial, in order, on schedule, in directing that exist both in the vitality, and in the cosmos.

The aesthetic is not beautiful nor ugly, the symmetrical or asymmetrical, but the above-mentioned parameters. The being is not being temporal or timeless, but the power that be is up the cause and effects, materiality and substantiality, the pure essence. Where the system is the main graceli the transcendental and metaexistencial. And clearly has its origin in materiality.

However, life and biology has its parity symmetry and functional organs and their functions [see biology symmetric graceli].
Symmetry is also the ribs of the sheets, and form hexagonal water in the solid state.

But aesthetics is perfection and perfection is in power and transcendentalism. And that brings us to another perfection that is the uniqueness. Thus, the absolute being is transcendental. The power, uniqueness, perfection and order we found mainly in genetics and chromosomes, or even parity in cell replication.

In other words, be and aesthetics, power and form the transcendental aesthetics, metaphysics and existentialism system Graceli. And in essence also uniificam.

The driver being is being, being is the metaexistencialidade and existentialism. That is, the agent being and action. This leads to produce reality. It is inserted into the power and potential, which transcends the form of power.

The being is not the being of the age, but be of programming, metaexistencialidade, power, capability, of transcendence, of the interaction.

The being is not the time, space or rationality, but in power, programming, vitality, the transcendental, the perpetuation, in interaction, metaexistencialidade.

The rationality itself lies in the vitality and transcendentalism.

The logic is Graceli throughout his work. Where the whole ¨ ¨ ¨ does not lead to any b ¨, but all is well only b ¨ ¨ ¨ because there is a ¨ to base it.


Scaling graceli [fenomenometria Graceli].
Geometry and motion summation of movement, the sum of variations of motion, leading to unknown geometry.

Imagine a cell horse, we have a curvature at this point, but to an observer who sees the inside sees a concavity, and another that sees the outside sees a convexity. And if it is in rotational motion, translational angles will always be variable in its smallest variation, and hence indeterminate.

Imagine this cell under the influence of various movements and observers.

Geometry releases snapshots and explosions, leading to an oscillatory geometry, scale, pulsed and indeterminate.

When we have a release with instant fires, tongue-in-charge, or a rubber band that comes and goes quickly, we now have a geometry of motion releases thus reach scalar [see Scaling graceli - published on the Internet].


Relative descriptive geometry.
When a person sees a far field has a plan view of the same, but when approaching the leaves of grass that way the lawn is shaped like a big relief, ie, the geometry is changeable on, climb, and indeterminate.

The geometry graceli away from the plane geometry and curve and headed for the great phenomena of phenomenal, jumps, swings, explosions and releases snapshots, where we have the scaling geometry graceli.

The geometry graceli accompanies his thirty dimensions phenomenal, and physical and chemical graceli.

Geometry graceli to seven geometric dimensions.

The space and time, of the motion and acceleration.
The potential variations of forms depending potential envergamentos.
The climb where there are large jumps, explosions and giving a connotation exponential instant, jumping intermediate points as data values.


Scaling of jumps and pulses leaving intermediate spaces.

That is, ¨ ¨ is a point in space, time and motion, but as potential variables may appear in another space and time and motion.


Geometry and relativistic Graceli undetermined.

Imagine three springs extended forming a triangle, which has three observers while the triangle is in a moving vehicle.

An observer ago, another in the center, and another in front. As the vehicle moves and moves the spring triangle, the triangle goes forward and backward when the triangle twists springs back behind the observer sees the internal angles decrease, while the front sees increase.
While the center sees the same hundred and eighty degrees.
And the values ​​invert the observers when the vehicle brakes. But this tiny scale variation relative to observers is the relative unknown.

Imagine this triangle springs where the legs suffer the speed and action of accelerations and decelerations, and the hypotenuse undergoes fluctuations of holes along the road with accelerations and decelerations.

That is, the hypotenuse up and down, while the legs go back and forth.
With this we have a geometry where the relative becomes variable, relative and indefinite as the intensity of accelerations and decelerations and oscillations in the holes of the road. That is, this system geometry Graceli the sum of the internal angles of the triangle never come to have one hundred eighty degrees. Therefore constantly increase and decrease.


Calculation Graceli and variable geometries, deforming, and for undetermined.
These variations can be added graceli in differential and integral calculations and analytical geometry.


Is placed between parentheses graceli the variable or variables to the sum signal or sum or multiplication on the variables acceleration, deformation, potential phases and mutual action with respect to observers and or relative positions. This for every kind of calculation, plane geometry, curve, analytical scale, exponential, or movement.

We have over a direct calculation or how to develop a variable geometry, movement, and relative unknown.

Geometry phenomenal exponential [fenomenometria graceli.

One or more triangle with concave sides have a triangle with over 180 degrees of angle. And that varies according to the degree of curvature.

One or more triangle with convex sides have a triangle with less than 180 degrees of angle. And that vary according to the degree of curvature.

With concave and convex sides will depend on how many are concave and convex, and the degree of curvature of each.

A three-dimensional triangle under the action of external or internal pressure and will depend on the intensity of action and resistance of three dimensional triangle.
That is, the internal area becomes variable, and this variation may be oscillating, flow, vibration, or even explosions.

In a system of the area inside a balloon will vibrate as the action of internal pressure and external actions as nudges and even pressure.

That is, will vary according to these actions and as the strength of the material of the balloon.

A burst area of ​​the balloon will scope exponential as the pressure resistance and weather balloon. Ie it makes on all systems and agents.

This phenomenal geometry [fenomenometria] graceli variable and differs from other static geometries both as a flat curve.

Geometric shapes and angles undetermined undetermined.

Imagine an exploding barrel. We share the blast less air resistance.

Action = indeterminate form of the explosion - air resistance.

That is, we do not have a geometry or flat or curved, or mixed. But phenomenal indeterminate and variable.

Where we do not have angles and areas with no fixed limits and predetermined.


But with angles and areas with ranges exponential and varied forms and indeterminate, where the variation and indeterminacy increase the proportion of the action of the explosion - [under] the resistance of the medium [which can be in air, water, or other media ].

Inside the water can have bombs exploding.


Calculus and Geometry Graceli for more than six dimensions.

Imagine a pulley shaft with irregular rotation, translation and displacement, and a balloon which inflates and withers on the shaft end.

With this we have three spatial dimensions.
Three relating to displacement by changing the position and shape positional space.
And one that relies on pressure and flow of the balloon swell and wilting.

That is, we compared the dimensions and benchmarks in relation to time and the phenomenon of swell and fade.

E = a1 + a2 + a3.
D = b1 + b2 + b3.
F = c1.

Where the values ​​can be anyone, and anyone can have rates of change and empowerment [and exponential climb], modifying all or part of a system only when it is measured.

This seems simple, and it is. However, by this method it is possible to simply calculations for this geometry to several dimensions, which range is more than the integral calculus for shapes. For using this method it is possible to include further variations of shapes as each predetermined position for each dimension.

And by this simple method you can make calculations as the orbits of stars, dilations, swings, bamboleios, schedules, etc..

The dimensions can and must spend six, as well as variants thereof.

Graceli oscillating joint geometry, variational and indeterminable.

Geometry graceli changing oscillating systems to curved, flat, scale, vibrating and pulsating.

In relation to a plane which oscillates the distance between two points in relation to a plane parallel never remains in a same distance. While one part is closer to another line or other point moves away. With this we have a changeable oscillating indeterminism. [View flat galaxies concavadas].

Another system is almost fixed with a plan [hardly swing], and another swing. This can be seen when we look at an intense heat to the asphalt above it we see that there is an oscillation of radiation. Still, we have a parallel system oscillating, variable and uncertain and changeable. For two points between each point.

Compared to the same curve geometry is feasible to happen. As also in the geometry and movement scale graceli.

In viewing the physical system oscillating happens parity bands graceli plane magnetic field both inside and outside.

In a system oscillation occurs with curved layers of energy intensities, radiation field and one graceli where oscillations occur variables as the exchange of positions and phases of phenomena, including radiation, thermal variations, one graceli field.

This can also be visualized in the air currents in clouds and gas flows, thermal currents in the sea, at atmospheric belts, etc.. Ie both may be relative to a fixed part and with an oscillating or flow [as Earth fixed to the clouds and atmospheric oscillating], or the two oscillating or flows and [with atmospheric currents with ocean currents].



And the system geometry scaling occurs in ricocheteamentos electron, when comets and stars near Jupiter by comets. Or even in the particles and radiation of the stars.

Or even in fission and radioactive decay.
Also leading to an oscillating variational geometry, indeterminate and changeable.

And the system of vibrations and oscillations geometric flows also occur, this is confirmed in the gases, and the vibrations of electrons in pulsars.

And in one cosmic system and geometric all live together, where some are changed by others. Taking a variational system changeable, relative and indefinite.

As the position will be a meeting where the points form straight, and as the meeting will be in the opposite direction, as well as the angles are always changing, oscillating, variational, condicionativos, relative indeterminate.


Geometry of graceli multiciplicidade and mutational.
Imagine a beam of wood which are on each other, what we have in this system are endless angles and shapes, and these woods are in motion and oscillation, we enter a variational geometric system and indeterminate.

When we walk into a bundle of pens and when we release every moment we have a system variable geometry, with different shapes and angles between the pens.


Thus, if one takes into account the acceleration and the intensities of fluxes of the oscillations will enter a geometry graceli motion, and dimensional phenomenal. And also indeterministic. That is, a fenomenometria and a fenomenodimensionalidade.


Physics and geometry undetermined.
With varying forms a tiny universe we have a world and a geometry undetermined. As in quantum mechanics to determine the energy levels of the hydrogen atom. Oscillations complex and not as complex as the pendulum.

Agglomerates of gaseous atmospheric belts as in the case of Jupiter, or rings in the case of Saturn.

About the supposed superluminal inflation of the universe.
Superluminal [near the speed of light]
That is, if distant galaxies are immense acceleration, so the galaxy that we also should be in acceleration, leading to leave behind all forms of gaseous atmospheres, however, retains his belt Jupiter atmosphere, Saturn retains its rings and the land still retains its atmosphere. Therefore, it has an error.


Fenomenometria graceli and geometry deformativa and twisted, and ricocheteamentos and planificadora and desplanificadora bamboleios to plan for the center of the track graceli.

The fenomenometria determines the geometry graceli.

Deformativa of which is to ellipse and hyperbola ellipse to hyperbola with varying kinking, and jumps ricocheteamentos. To either side, thus forming various shapes, twisted and perfect ellipses for ovaloid.

The planificadora transformed into flattened concave, concave and flattened in lateral movements by forming the concave desplanificados.

The layers form variations as each layer and each position, as ricocheteamentos cometary bands graceli.

And with layers occur the sum of variations of values ​​and variables specified by layers and values ​​with variables specified by age and placements.

Calculation and symmetric geometry Graceli [and or asymmetrical].

For every ¨ ¨ has the same distance in the other direction and reverse direction and.

That is, if a variable with a progression that starts from a = 1 and has an increasing progression and geometric, or exponential, it will take with respect to a center plane of these values. And will be considered the same values ​​for direction and reverse direction.

That is,
A = 1 = 1 = a * bb progression = 1 to 20.
And we reversed.
A = 2 = 2 = a * bb progression = 1 to 20.

That is, will be formed a line parallel to a central plan, or a center line, where the values ​​represent distances in a normal direction [a = 1] reversed direction and a = 2.

By this method it is possible to replace the Cartesian graph, form another calculus and analytic geometry and produce varied forms.

Imagine a pear shape, or a spiral, or a threaded or spiral.

And it can also be done as misshapen forms variables to normal and reverse directions and distances that vary for different distances.

Imagine a bitten apple, or a timber with a hole in the middle.

That is, ¨ ¨ represent the sides, the variable for each point of the ¨ ¨ represent the distance from a central line, and as the values ​​go up this axis also attached. And b ¨ ¨ representing the values ​​of the reverse side, to accompany the variations in meaning and direction inverse ¨ ¨.

Thus, with several ¨ ¨ will form various shapes, and variable deferens also have various forms.


Calculation and asymmetrical shapes Graceli.

In the same direction ¨ ¨ the values ​​of the distance b ¨ ¨ will be others. And they may have other variables. Or even inverted to variable distances. That is, we will have a normal shape on one side by the values ​​and variables ¨ ¨, and irregular shapes on the other side of b ¨ ¨ variables and values ​​in relation to distance.

This system can also be used for a fenomenometria symmetrical or asymmetrical. This can be compared with a graph of heart beats.

So we have a calculation Graceli geometry and symmetric and asymmetric.

Geometry Graceli relative and changeable.
The asymmetrical shapes may be related to observers that as the distance from the observer forms have larger or smaller, and that they deform as we move around both symmetric as asymmetric shapes. That is, relative to the distance and positioning of observers and for the acceleration of observers, where each has a true symmetrical or asymmetrical, relative and changeable in relation to placements and accelerated observers.

That is, for a changeable geometry and relative have three situations that are three variables and the position and distance, and acceleration.

Observation. You can include an infinite variable geometry changing, variable and relative, where it can become indeterminable regarding observers and accelerations.


Theorem Ancelmo Luiz Graceli.

The squares of the legs increase as the intersection point moves away from the hypotenuse.
And decrease as the intersection point of the hypotenuse approaches.

That is, we have a variable geometry.

The internal angle between the legs decreases as the intersection point of the hypotenuse deviates.
And increases as it approaches the hypotenuse.


Calculation graceli to desmorfolizantes and changeable geometry [variable].

With the symmetric and asymmetric geometry includes side b ¨ ¨ ¨ over the next ¨.

And a region b ¨ ¨ side starts to suffer as variations that modify values ​​and shifting to a region ¨ ¨ b.

In the same direction ¨ ¨ the values ​​of the distance b ¨ ¨ will be others. And they may have other variables. Or even inverted to variable distances. That is, we will have a normal shape on one side by the values ​​and variables ¨ ¨, and irregular shapes on the other side of b ¨ ¨ variables and values ​​in relation to distance.


Geometry Desmorfolizações.
And that a delimitation between points b ¨ ¨ variations occur as variable acceleration, distance to nearest depressions forming over ¨ ¨, or even stones and snails over ¨ ¨.

That is, we have a b ¨ ¨ ¨ and ¨ d desmorfolizações.


Desmorfolizações variables.
The acceleration of other variables can mark the time of formation of desmorfolizações.

And a ¨ v ¨ variation in the intensity and time of the change of desmorfolizações.

Thus we have.
The b ¨ ¨ symmetrical and asymmetrical.
A d ¨ ¨ desmorfolizações.
And a v ¨ ¨ variations of desmorfolizações.

That is, we have the b ¨ ¨ ¨ plus a d ¨ desmorfolizações to type in a specific region and graphic symmetrical or asymmetrical.

E can have a ¨ v ¨ to variations of shapes, as time and intensity values ​​¨ v ¨.


Graceli geometry of the relative acceleration and exponential.

Imagine a dog on the side of a field, and the owner on the other side, when the owner begins to run close to lateral the dog is loose. With this forms a bend differential, and variable according to the accelerations and the distance between the two.

 Where the sum of the angles so not 180 degrees.

For it becomes relative distance and acceleration.

And if the owner of the dog moves away from the side of the field variable values ​​will be others.

Imagine someone setting off fireworks, just soltador between the fires and the fires form a distance, forming a triangle, so we have an exponential form and snapshot that has its values ​​and formations angles as the scope of the fires and the exponential each point that the fires have reached a triangle, with a geometry that we have on the scope of the exponential acceleration of the fires.




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Graceli symmetric geometry, and desmorfolizante, changing asymmetric.

Super System Unified Graceli [SSUG].

Author. LUIZ ANCELMO GRACELI.
    
Brazilian, professor, researcher, theorist, graduate in philosophy.
Street Itabira - No 5, set Itapemirim, Rose of the rock, Cariacica, Espírito Santo, Brazil.
                
ancelmoluizgraceli@hotmail.com

Work Joined at the National Library. Brazil - copyright.

Contributor - Marcio Rangel Piter.
Part of this work was sent to the Brazilian Journal of Physics, the SBF. For publication.

Fenomenometria graceli and geometry deformativa and twisted, and ricocheteamentos and planificadora and desplanificadora bamboleios to plan for the center of the track graceli.

The fenomenometria determines the geometry graceli.

Deformativa of which is to ellipse and hyperbola ellipse to hyperbola with varying kinking, and jumps ricocheteamentos, to either side, thus forming various shapes, twisted and perfect ellipses for ovaloid.

The planificadora transformed into flattened concave, concave and flattened in lateral movements by forming the concave desplanificados.

The layering produces variations as each layer and each position, as ricocheteamentos cometary bands graceli.

And with layers occur through the summation of variations of values ​​and variables specified by layers and values ​​with variables specified by age and placements.


Calculation and symmetric geometry Graceli [and or asymmetrical].

For every ¨ ¨ has the same distance in the other direction and reverse direction and.

That is, if a variable with a progression that starts from a = 1 and has an increasing progression and geometric, or exponential, it will take with respect to a center plane of these values. And will be considered the same values ​​for direction and reverse direction.

That is,
A = 1 = 1 = a * bb progression = 1 to 20.
And we reversed.
A = 2 = 2 = a * bb progression = 1 to 20.

That is, will be formed a line parallel to a central plan, or a center line, where the values ​​represent distances in a normal direction [a = 1] reversed direction and a = 2.

By this method it is possible to replace the Cartesian graph, form another calculus and analytic geometry and produce varied forms.

Imagine a pear shape, or a spiral, or a threaded or spiral.