sexta-feira, 7 de março de 2014


Graceli mechanical oscillatory transcendent sequential pulses . Relativity sequential Graceli transcendent.



Author :  Ancelmo Luiz Graceli .


Imagine a jellyfish opening and closing constantly.

Imagine an electron beating constantly.

Imagine the variation of the field of radiation that produces electrons .

Imagine the atmosphere around a star , with all variables and oscillatory it passes .

Or even where we have a higher flow at the equator than at the poles or tropics .



Every system of energy and particles at high temperatures as in plasmas and dilations have sequential oscillatory flows transcendent .

Ie , occur in discrete sequences that take place in space and time lapse disappearing and reappearing back in another time and place with varying intensities .


 E = h \nu = \hbar \omega  +  i\hbar\frac{d}{dt}|\psi(t) \rangle =\hat{H}|\psi(t) \rangle    


E / x Log [ PP ] / x [ PP ] n ...* [ + A = , R , 0,-R [ osc . fp ] ] / [ c / t ] .

E = energy.
The alternating = positive , negative and zero real .
[ Osc . fp ] = oscillation pulse flows .
c / t = speed of light divided by time .
X = PP = potential energy pulse material.

For each sequence we have a multiplication of positive real numbers , the following sequence of multiplication of zero , the following negative real numbers . And these numbers can be raised to the same exponents and progressions . Or other equations and functions .



E = h \nu = \hbar \omega + i\hbar\frac{d}{dt}|\psi(t) \rangle =\hat{H}|\psi(t) \rangle  


+Log x [pp]/ x [pp] n ...* [ + A =  R,0, R [ osc . fp ] ] / [ c / t ] + Iarcr .


Iarcr = intensity and scope and range of field and radiation.

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