Algemetria dimensional physical graceli [logical theory mathematics AFDG].
Three different ways of calculating to find infinitesimal.
1] Function relationship multiplication and division. [wherein the infinitesimal are also found above 1, that is, No. 1 is not the maximum.
2] Relationship between functions. And their results. Sequential results of a function q now have a relationship with media sequences or sequences of another w function.
Sequential average and statistics [estatistical] parts become part of this new form of mathematics, where not only has integral and differential, but also means, of estatisticiais, and relationships between parts or all of the sequence numbers.
3] and physical dimensional algemetria graceli.
Comes to represent algebraic and geometric shapes that are determined by physical phenomena and physical media that are founded as algemétricas dimensions graceli.
4] E. the union of these three types and forms algmétricas.
X. y .w . [P / p P]. [EGR [.. ..] mmt] ..
And matrix and estatisticiais. Which represent values and variables as statistical functions through partial or in arrays.
Unknown function.
The larger the numbers x and y, and the more distant from 1, the smaller will be the result.
And when you have the two largest numbers 1 and close to 1, the infinitesimal will be greater than 1.
That is, if we use 1 to 10, 1000000 1 and the result is almost the same. That is, the result is not in the size of the number, but the more distant of 1, most will have a more clear of 1 result.
Ie we have two parts, the number size by 1. And the other tamnho of the infinitesimal number will be less.
Ways to find an infinitesimal.
x * y = 6.
3/2 = 1.5.
2/3 = 0.6666
Sum of sections divided by multiplying = 0.361111.
x⇔y = 3⇔2 = 6,
1.5 +0.6666 ... = 2.16666 / 6 = 0.36111 ....
What is interesting about this type of function when one of the elements E1, or is closer to 1 progressively, what we have is a result of close one, regardless of how much is the other number.
With other numbers, where all are further apart than 1, the result is always an infinitesimal farthest 0.
X .y .w .q. ..... [. N].
And any of these numbers can be a progressive and sequential function with varying results.
graceli theory of infinitesimal sequential functions.,
sequential results [RS] function w multiplied or divisible by sequential results [RS] the function h.
Or the sum of sequences [SS] to x, by the sum of sequences y to the function h.
or average, or statistical parts, or completeness of all sequences of each function and its multiplicity or division.
.Fh [SS] .fy [SS]. .
algemetria graceli physics. It is a mathematical and logical theory that uses elements of physics, algebra, reasoning, chemistry and geometry.
Where physical, chemical, dimensional phenomena, media, chemical, biological and psychological phenomena determine variables for algemetria [as the mind flows, growth of plants and flowers, branches, and leaves, chemical transformations and chemical experiences, anxieties psychological and graphics that can be represented by flows and maps and graphs.
And statistics and statistics and partial means of these phenomena [logical theory matrix math and estatistical].
It's a new language of mathematics, logic, physics and cosmology and chemistry. Or even biological, or psychological processes.
And an algebra presentation of completeness with geometry and these physical coma. Biology, cosmology and psychology. And the metaphysical theory of numbers [numbers of non-existent, transcendent [as quantum and switching], and functions without meaning [when at zero, or zero exponent and a divisible function by function x, and x = 1.
The graceli space.
The graceli space is not curved, not flat. It is transcendent, dynamic, changeable. Imagine a beam of radiation that pierces and modify objects, bodies and energy, and waves. ie acts on its own waves.
During a gravitational or magnetic wave system, or photons, a radiation system can alter the shapes and dimensions of same and transformations and also pierces them.
[ie we see the physical dimensional algemétrico under a prism, and phenomenal structural and geometric].
At the time of a radiation beam on a body part shapes and dynamic sounds and structures altered by radiation. And this is one of the spaces graceli [a space and transformational geometry of forms and algebra].
Imagine a laser radiation, or heat as we see on the hot asphalt we see the same wave. That is, the radiation produces in the pavement distorted images.
Water also has a modifying effect, that we see the light when it enters the water. Or even deflation this occurs in the images between water eao space.
Graceli interaction between dimensional space, and density-time.
That is, two space that interact [the water, the space, and the variation of density between the two when very close], we see that also the thermal radiation and gases under pressure. And a laser photon will also change and be changed me their structures, geometries and phenomena according to these variables.
The gases also produce these deformations, and light also produces these geometric modifications.
Changing, modifying and transpassador.
.edGrr [.. ..] mmt.
..] mmt.
edGrr = dimensional space graceli and relativistic interactions. Mmt = changeable, modifier and transpassador.
There is also the dimensional space [see the four dimensional categories of graceli].
Involving elements of algebra, physics and chemistry and produces other geometry.
Dimensions, progressions, infinitesimal, dynamics, structures, interactions, relationships, transformations, heels, transcendence, sequences, switches ,.
General function.
fgd mfdG
mfdG
phenomena, geometry, dynamic physical environment, graceli dimensions.
Chemical Algemetria.
Potential chemical transformation [progression] that tends to infinity [x] that tends potential interactions, the potential of which tends transnormalização loads and the potential for progression transvibrações.
PPX [x progression potential.
.ptq [p] [. ..] [ppx] [piy] [. ..] NCCT] [....] PPTV [.] ip.
..] [ppx] [piy] [. ..] NCCT] [....] PPTV [.] ip.
[progressive infinitesimal].
Trans-Algemetria graceli.
Imagine a flag that is flat and turns to wave bend with the wind.
fp .ddG.
Primary form. Dimension dynamic graceli involving wind velocity / time.
[see on the internet, the flowmetry and transmetria graceli].
the space graceli cuts.
Imagine waves propagate and make transversal cuts to these waves, which have ranges according to thickness of the cut, ie to have a complete picture of a curve is to unite [integrate all bodies to have a complete picture of cuts, dots and parts.
Unlike a point system, we have a partial system parts to be joined by time, longitude, latitude and time.
The same applies to a cheese, or even with a boiled egg which is formed by making transverse cuts in the egg layers. And the cheese appears the holes.
The same with an onion.
What we actually have is a calculation forms and partial curves that can turn into complete forms [whole], medians, temporal, and varying dimensional statistics over time, and other variables.
In dimensional algemetria graceli we see that the reality of shapes and numbers and functions are processed according to the dimensions of nature.
Angles a network that open and close modifying their n-dimensional shapes while at sea and in waves. And these variations may occur in relation to observers, rising to a algemetria dimensional relativistic graceli.
The graceli dimensional space [EDG].
Densities [changing forms as they move from one density to another, as the light that pierces the water]. And density variations.
From geometry, the shapes deform forms, such as vortexes that produces centrifugal action out. That is, a tape will go off as the intensity of the dynamic centrifugal movement.
The size dynamically altering the forms when or against the flabby objects, such as tapes, and others.
The dimension of time and space. where space is marked by time and by this space.
Transformation. It produces and has the potential to transform as potential modifier [quality dimension], eg uranium that has the quality of produce radioactivity and modify structures, dynamics, forms and energies.
.dd [. ] Dg [. ] Dd [. ] ET [. ] Dt.
. ] Dg [. ] Dd [. ] ET [. ] Dt.
P = progression.
X * / p [n] [] log w / w [n] [] [p / p P [n]
] log w / w [n] [] [p / p P [n]
P = progression.
X * / p [n] [+, -, / *] log w / w [n] [+, -, /, *] [p / p P [n]
U [] X * / p [n].
And we can do statistical averages of parts, or summation of the whole.
Algemetria transcendent dimensional graceli.
The graceli space is a transcendent and dynamic dimensional space.
The four dimensions of categories [geometric space graceli].
The water which deforms the light. The waves that deforms the fishing nets, the shoals that alter their movements as the currents [imagine a school of fish as if they were points in movements that produce various forms in the sea], the winds that change the shapes of leaves.
Other dimensional space system graceli are the spaces of physical media such as temperature, radiation, wind, thermal, typhoons, vortices that distort the nature and forms. Imagine a sheet of paper in the wind, a typhoon or a tree, or a particle in a plasma system as is their flows and vibrations.
Imagine a person casting a tape out [vortex and centrifugal action] while rotating, and has a wind changes this action wearing the tape, but the person scale tape buckling. Ie we have a geometry with various forms as changes the intensity of dimensions.
The same applies to turtles at sea, and leaves in the wind.
Imagine a sheet lying on the sea and on the waves, where as the oscillating flow of the waves the sheet accompanies these movements in relation to the flow and time, and as it becomes smaller in place curves have plans, or transcends curved curling to a flat algemetria.
P [fo]
TGagcp = Fo + p [Fo] / p [Fo] / t. =
Transcendence graceli algemétrica curved to plane waves = flows + progressions time.
Here we see four categories of graceli dimensional space.
The space time.
The physical dimensions of graceli.
The dimensions of physical means.
And the dimensions of elements and dynamic agents as above in graceli space.
Theory dissipation beams of light or pencil falling during a fall. Or even palettes open placed in bundles at every moment and has a formation relative to the speed and time.
Or a bag of water that opens and the water falls or bursts producing forms of water splashing each momentum.
Or frequency sounds variations, or even disintegration of matter in space. Ie transcends all times.
Or a bag with papers bursting.
Or even artifacts artifice bursting in space, which opens the momentum has every variety of images and sounds. In other words, we also have the algemtria sounds, not just the images. For following algebraic sound varied flows, and even the thermal radiation, eg gamma ray, and others.
Here we see four categories of dimensional space.
The space time.
The physical dimensions of graceli.
The dimensions of physical means.
And the dimensions of elements and dynamic agents as above in graceli space.
And that acts on the physical and geometric nature.
Thus we have the transcendent dimensional algebraic geometry and physics. For this changes the elements, particles and energy and dynamics, inertia, etc. structures and dynamics, interactions and transformations.
Here we have the dimensional algebraic calculation.
Dimensional algebra graceli [dimensional algemetria graceli].
The sequential math graceli.
The dance of sequential irrational graceli.
[as graceli cousins launches another category numbers: sequential and functions that produce these sequential, like its geometry not -plana paradox in algebra to geometry, the sequential numbers of graceli to find the value of pi, repetitive sequential . And other.].
Commutative algebra graceli.
The relativist geometric space graceli. And oscillatory wave flows.
Imagine fisherman various networks being thrown up and down, and on each other. And where they have observers who see this rise networking and down a movement of waves. Thus each observer will see square shapes and triangles in each small part of the network and according to their positions, or the geometry in question is curved, with differential points that vary according to the movements of the networks, their diameters and positions and accelerations of each observer.
So does one net floating on the sea, where you have people bathing and watching the network monitor the movements of the waves, and where your squares are transformed into n-dimensional triangles.
Includes within graceli precession, side stretches as progressive perihelia, recession, rotation, translation, waves and flows, and changes in relation to observers.
Ie see, as is an imaginary sphere, or even as a soap bubble is spread in an area of this, or even how to form a spiral.
Thus, we have graceli space dimensions dimensional geometry.
{(x, y, z [NDG]) ∈Rn; + x2n-z2n y2n + 1n = 0 + n}
NDG = nth dimension graceli.
That is, the dimensions determine the nature of the shapes according to their situations. As the gases that are determined by pressure and temperature and these determine the vibrations.
The degree of transcending is in the proper dimension and with respect to time of each variable space dimensional elements graceli.
Precession has its acceleration time, as well as all other dimensions.
Namely, transcendence is already in the framework that determines and deforms objects, geometric curves and algebraic curves, angles and tangents and sines and cosines. And differential variables.
[NDG] R + p / p P R.
Dimensions graceli temporal space. R = radius, w = progression.
Since you can use the root, or logarithmic.
Another dimensional space system graceli are the space of physical media such as temperature, radiation, wind, thermal, typhoons, vortices that distort the nature and forms. Imagine a sheet of paper in the wind, a tree or a typhoon or a particle in a plasma system as is their flows and vibrations.
Imagine a person casting a tape out [vortex and centrifugal action] while rotating, and has a wind changes this action wearing the tape, but the person scale tape buckling. Ie we have a geometry with various forms as changes the intensity of dimensions.
The same applies to turtles at sea, and leaves in the wind.
Here we see four categories of dimensional space.
The space time.
The physical dimensions of graceli.
The dimensions of physical means.
And the dimensions of elements and dynamic agents as above in graceli space.
And that acts on the physical and geometric nature.
Thus we have the transcendent dimensional algebraic geometry and physics. For this changes the elements, particles and energy and dynamics, inertia, etc. structures and dynamics, interactions and transformations.
Here we have the dimensional algebraic calculation.
Commutative algebraic geometry.
1 / p / p P [n]
X
To each side and position of a leaf, petal, or in relation to the observer, has
Transcendent algebra. Quality with values that transcend according to their characteristics and qualities.
With the plane geometry [see Pythagoras and graceli theorem for peccaries and hypotenuse].
3 3 3 3
1+ 1+ 1 + 1 = 1
3
4 = 64.
The same applies to 0. differences between sums of numbers, and the AL square cube.
To the cube of the hypotenuse, ranging system for the legs [increase in size].
And the same for increasing numbers sums.
See for n-dimensional system, watch movements for trees, flowers and birds, and in relation to observers movement.
See regarding transquânticos phenomena and interactions and renormalizations positions and loads.
Variations from moving observers. And also for switching numbers values.
Math transcendental qualitative weights and variational.
Making equations with variable weight values that change ratios and progressive variant or alternate data.
The function from a to b x has a variability progression w multiplied by x has a switching function of weight variability and w 0, w / pP.
That is, a system in which each function agents have different weights, and diamonds in relation to dimensional variables relative to other variables dilation, and other relative positions of variables and dynamic watchers.
Transcendent qualitative mathematics.
Xb * different * ya Yb x
A mixture of 1 liter of water and 1 liter of oil. We will have two liters of liquid. But if the oil is 1.2 denser than water, how many liters regarding the density? 1.2 oil density, water density 0.8. Regarding the density of the two.
The paradox of graceli and school of dog is an example of qualitative algebraic geometry, and can also vary with respect to observers. Ie, differential and relativist.
The same goes for the flowmetry and quantum algebra graceli toggle values as there are variations.
And so does the paradox of dog and shoal on a system of oscillations flows, and the above dimensional system above.
X / Fo / t [a, r, w log y / y [n ~, 0].
The same is true of irrational numbers and the hypotenuse of a paradox when it is always irrational number when the hubs peccary add up to find the hub of the hypotenuse.
So does the paradox of the tree and the wind changes as positions and movements of observers and the intensity of winds.
So we do not have the primes, but progressive and equal sequence numbers. As seen in this equation.
P
1/3 = sequential graceli.
Paradox of the irrational.
Where the higher the square or cube, of a greater number is possible to be irrational.
Graceli divides the numbers into categories
:
0, 1.
2, 4, 5, 8.
3,6,9.
E 7.
Where 1 when divisible by each category always brings the same results.
And seven is a number with great particularity. That alone has its own sequences house when any number is divisible by it. That is, it is unique.
And the 0, 1 are numbers that complement each other because, when the 0 exponent turns the score 1...
