Graceli Calculation System Frequency physical and transcendent .
r(Q)=R eQ cot a +
And transcendent holes .
Between points and intervals have spaces that change position and also that disappear and reappear in another position .
r(Q)=R eQ cot a +
This physics in the thermal radiation Kendo we see waves of radiation during hot days as are common in the deserts . Where we visually voids between the soil warm and radiation inches above spaces .
This also happens on the heels of electrons in atamosferas , and inside black holes , in this case become transcendent holes where an object reappear in another position with another chemical and physical structural stage and in different ways .
This is common to happen in the actions of both fields the weak, strong , electromagnetic , and gravitational .
Graceli Spirals wavelike oscillatory functions .
The wavelike espiriais happen with irregular and unsteady movement and is based on the calculation Graceli transcendent .
r(Q)=R eQ cot a +
Graceli wave function with infinitesimal and Frequency variable.
A] Fx / [ logx / x n ... * 0 ] / t / c / t ]
B ] Fx / [ log x / x n ... * X ] / t / c / t ]
C ] Fx / [ log x / x n .... * - Y ] / t / c / t ]
wave function with infinitesma and Frequency graceli variable.
A] Fx / [ logx / x n ... * 0 ] / t / c / t ]
B ] Fx / [ log x / x n ... * X ] / t / c / t ]
C ] Fx / [ log x / x n .... * - Y ] / t / c / t ]
Frequency Graceli statistical calculation .
Graceli infinitesimal oscillatory function of frequency fx / [ logx / x n ... / t / c / t ]
Infinitesimal frequency oscillatory alternanciadade .
=
That is, the alternate operations of the function to form a statistical frequency of alternating values , or even disappear .
Where we have waves that vary with time and disappear when multiplied by zero [0].
Ie transcendent . That disappear and reappear with different values .
Examples .
The system alternancidade fits in sudden jumps of electrons and cease to constantly empty the quantum of radiation , and the empty spaces that are in fields and dust clouds of galaxies and stars . These voids also see the thermal radiation in the asphalt and deserts , where we see the the radiation above the asphalt and a gap between the asphalt and radiation . The same happens cnas desert sands during hot days and solar radiation on the ground .
Oscillatory geometry and statistical undetermined .
Side. 1 , 2, 3 .
Angle. A, b, c .
Side 1 = angles between the b .
Side 2 = angles between the b c .
Side 3 = angle between the c .
H = height of the oscillatory wave.
AC = acceleration.
D = distance from the side between the angles
Log h / h .
Log AC / AC / t .
Side 1 =
B ] Fx / [ log x / x n ... * X ] / t / c / t ]
C ] Fx / [ log x / x n .... * - Y ] / t / c / t ]
Side 2 =
B ] Fx / [ log x / x n ... * X ] / t / c / t ]
C ] Fx / [ log x / x n .... * - Y ] / t / c / t ]
Side = 3 =
B ] Fx / [ log x / x n ... * X ] / t / c / t ]
C ] Fx / [ log x / x n .... * - Y ] / t / c / t ]