d a t a   u n i v e r s e   f o r c e

                                                                    using 20 20 vision in a.i

                                                                      By Henryk Szubinski

 

 20 / 20 vision in androids, in hubble telescope types as the hyperpsace location and resultants of dark matter etc….as the anti gravity environments of direct circuitry in droids making full perspective data as equal to gravity..

 

using the theory of everything to retreive data:

 

 

 

From the law of universal gravitation, the force on a body acted upon by Earth’s gravity is given by

F = G \frac{m_1 m_2}{r^2}=\left(G \frac{m_1}{r^2}\right) m_2

where r is the distance between the centre of the Earth and the body (see below), and here we take m1 to be the mass of the Earth and m2 to be the mass of the body.

Additionally, Newton’s second law, F = ma, where m is mass and a is acceleration, here tells us that

F = m_2g\,

Comparing the two formulas it is seen that:

g=G \frac {m_1}{r^2}

So, to find the acceleration due to gravity at sea level, substitute the values of the gravitational constant, G, the Earth’s mass (in kilograms), m1, and the Earth’s radius (in metres), r, to obtain the value of g:

g=G \frac {m_1}{r^2}=(6.6742 \times 10^{-11}) \frac{5.9736 \times 10^{24}}{(6.37101 \times 10^6)^2}=9.822 \mbox{ m} \cdot \mbox{s}^{-2}

Note that this formula only works because of the mathematical fact that the gravity of a uniform spherical body, as measured on or above its surface, is the same as if all its mass were concentrated at a point at its centre. This is what allows us to use the Earth’s radius for r.

The value obtained agrees approximately with the measured value of g. The difference may be attributed to several factors, mentioned above under “Variations”:

 

 

the earths gravity: 

                A ARTIFICIAL INTELLIGENCE SYSTEM TO INCLUDE

                                      9.8 M-3SEC-2 in a 23 /10 system

this then increases to a 33 D =66 D format of continued 2x ,3x format of the 23 x basis of height as dimensional in a sequence comparative as :

 

 

            9.8—————-10————23———–33——————-66

 

the sum value =142 x

or the horizon of escape velocities by the

 dimensional height 10 D < 180

degrees =180-142

=38 degrees Dimensionality 10 of h 23

as the 20 20 angle of observation

 

 

 

AS THE GAUGE OF HEIGHT WHICH IS A ALTERANT DIMENSIONAL           

                                                                     STABILITY

one universe as under the level or above it as the alternate universe as not.

Height is the measurement of vertical distance, but has two meanings in common use. It can either indicate how “tall” something is, or how “high up” it is. For example one could say “That is a tall building”, or “That airplane is high up in the sky”. These can both be referred to as the height of the object, as in “The height of the building is 50 m” or “The height of the airplane is 10,000 m”. When used to describe how high something like an airplane or mountain peak is from sea level, height is more often called altitude. Height is measured along the vertical (y) axis between a specified point

 

 

 

 

 

 

 h=2 in a 10D+23D universe

h=2(33D)

how is this value calculated:

UNIVERSE: process 1/10 x (1 + h) as the vector displacement of the 1,2, and 3 reversals by the process.

10D = h d/d 10

 

 

 

 

under the level:-B(1/h+1)h : as the data on point transferrance of =1/3

-2/h

3x.root 1(h root.-x root).x+1

3 x squ 3 root h.x +1

as process alterations by enthropy increases

above it as alternate: 1/B as the sequence 3x

=h cubed .root h

root 3 .x +1(h squared)root 2 x.

2 root 6 x squared . h squared.+1

24 x .h squ+ 1

general formulation  of a high accellerated process

B(1/h+1)h =3 ( dB/d3x)—-

reversals of the data on 3 root x.x cubed.

=9x

 

 

 

 

data on the value of 3 sequences :non alternate universe :x ( B+1))B/x

=-2 (-1+2h)

x squared . x.root x.xroot.

2 root x cubed

=6x

as the general formulational

height being to dissinclude  the only inclusive value of the process of gravity as in multi positionality of a fase

 

 

 

 hyperspace

10 D.by 6x.9x=h squ+1.24x

54x.10D/24 x  = h squ+1

23 D =h squ+1

 

 

 

as a basic dimesional value of stakking the processess of height as a value predefined higher dimensional value than the 10 D.as the standard example.

——–1

——–2

——–3

——–4

——–5

——–6

——–7

——–8

——–9

——–10 the standard measure of dimensional stakking as secondary

——–11

——–12

——–13

——–14

——–15

——–16

——–17

——–18

——–19

——–20

——–21

——–22

——–23= the level stakking of a resultant interactions by predictives of

dimensional height .

 

 

 

 

 

 

10 D hypespace =23 D .h

0.5 approiximates of a dimensional level as the general height where a 2  seperates into a 3 D format by 1/2 the height being the spacetime where 2 seperates

2=h

 as the divisions of android height = gravity by its instant circuit gauge.

 

 

 

In science, a process is every sequence of changes of a real object/body which is observable using scientific method. Therefore, all sciences analyze and model processes.

Processes are always properties of dynamic systems, they are characterized by such system attributes as variables and parameters. Every process model has distinguished input and output variables, it can be autonomous or controlled.

The recognition of a process is an arbitrary subjective mental operation/event because it depends on different circumstances, observer’s goal, perception and conceptualization tools.

There are numerous taxonomies of processes, roughly speaking, they are divided on: continuous and discrete, stable and not stable, convergent or not convergent, cyclic and not cyclic, linear and not linear, as well as they are grouped according to the name of the domain where they are analyzed.

Some example of physical, technological and biological processes

combustion, crystallization, centrifugation, diffraction, dispersion, distillation, electrolysis, electrophoresis, emulsification, evaporation, hydrolysis, nuclear fission, nuclear fusion, oxidation, phosphorescence, pyrolysis, reduction, reflection, refraction, scattering, sedimentation, sublimation, birth, cell division, fermentation, fertilization, germination, growth, geotropism, heliotropism, hybridization, metamorphosis, photosynthesis, transpiration

 

 

 

a 33d process can also be a 1/2 process or a -13 process

inclusively the sum value dimension 20.5 D = h