quest :universe computations law

theories of universe astrophysics computations

BY HENRYK SZUBINSKI
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.the basics are taken from a summary on overself pollinations and can be used to define the anti gravity functionings of flying cars
by multiple vectorisations
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basically this theory will define the total UNIVERSE SINGULARITY AS RELATED TO DEFINITE VALUES OF SUPER OCCILATORY DISPLACEMENTS AND THEIR HIGHER THAN TOTAL AVERAGES OF UNIVERSE FORCE FIELDS IN THE BASICS OF THE TOP TOTAL VALUES BETWEEN THE TYPES OF STATES IN WHICH BIO FUNCTIONS ARE A FORCE
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using cartesian coordinates in a EUCLIDEAN system of measurement of VERGANCES related to by multiple vectorisations

multi sided advantage
non

locus saturations

hemisphere x,y,z

S U B T R A C T I O N S

( x+y+z ) – (x2+y2+z2)- ( X3+ Y3 + Z 3)

BASIC OCCILATIONS RELATED TO THE DEFINITIONS OF A CONTINUIIM = THE MAINTAINEMENTS OF DISPLACEMENT

basics of the types of curvatures and their parameter stabilisations
work by the general area as a format for the right angle rule in inversed
quadrances and their curvature
uncertainties of the variance by curvatures to maintain the law of INV by
stabilisations in 360 / 4 INV =angle of curvature as
(x y z ) x 4 to the 4 S
as a basic vector computation the data will basically cover one quadrance
in invertive formats of the types of LINKED parameters
meaning that the basics of the 3 rd quad + invertion + 4 th quadrance is
actually a 90 degree / 3 moove on the basics of the
types of type 1,2,3 where the
parameters can be
1 quadrance + 2 nd quadrance (INVERTING BOTH ) = the x value horizon as
the value of the rotatability of 90 x 2 angle as the amount of compressions
on the curvature variance used in a subsequent application of the data as
displacable in any vector by pressure points = 4 S
this will qualify for a degree value of displacement by such pressure over
the lim x = S 4 pressure
the basis of the pressure brange being applied by the data on dimensional
formats in work by the motion and its computations of where to go
based on the types of multi values > 4 pressure
and the quadrance resultant to the basics of the LABIRINTH complex of the

BASIC PROJECTIVES AHEAD INTO THE DATA WHERE THE BASIS OF FORMAT 1 IS IN THE BOOST ACTIVITY
OF THE BASIS IN WHICH HIGH VALUE JUMP SPACE CAN BE GENERATED BY RESPONSE RESISTANCE

O P P O S I T I O N S

(x1 + x2 + x 3 ) / ( y1+y2+y3)

(Y1 + Y2 + Y3 ) / ( Z 1 + Z 2 + Z 3)

basic locatability of the differences in the quad computations by a computer
search on the 90 degree values used as +1+2+3+4 quadrances and the basis of
the combined field values of the labirinth = to the data on the types of flow
values used in the dynamics of fluid relations of the prime value on one side
of quad 1 = the H2= ( f ) values for motion dynamics in the fill rate or its
reductions rate as based on the rest of
quad 2 = the fill values and their solidifiacations of the types of gain in
the stability of the quad data searching for more vector alterations into
quad 3 = the basics of gas values in H2= and the data on which values are
quad 1 / quad 2 = state 3 of H2O as the values in their dissipations over
the basics of the amount of volume of H2O used and the plasma state
as the basics on the types of definite values remaining the total area can
be used to define the sum of quad value vectors in 4 S spacetime
as well as the total area l.b.h
as relates to the common value divisive between the xyz values used as the definite
uncertainty of the data being

VALUES THAT ARE HEIGHT WILL DEFINE THE BASIS OF THE GRAVITY BASIS WHERE THE DATA
ON BOOSTING A HYPERSPACE JUMP WILL HAVE SECTIONS THAT DEFINE THE NON REPEAT LAW

S I N G U L A R I T Y

x1 /y2
y1/z2
z1/y2
y2/z2

‘in the type of definition that will function with new data the usage of a temperature
gradiant
and the values of the basic motion on the data being in the basic value deficite of
prolongations of the data and
the LINK to the general levels of any angle incline so that the force values can be
defined by the crucial LINK context of getting the
values on any sequence of possibilities into the working definitions
of one event subsequent to another event as the definite certainty of the projectives
working as well as with minimal
amounts of vector linkages but in a greater value array of data choice and definite
values of the types of oriantations towards one vector away from the general divisive context
of non inclusions of specific values over the mid values
as being the types related to as away from any value divisive problems
the basics of theis value systems are that the whiole value continuiim field of the EARTH can
be defined as the values of the data in good context to the general laws of the total and the
data
on the types of values that define the relations by the curvature of 1/2 event horizons
where the event horizon takes the upright value
in relativity to the motion to the right but

R E A L A T I V E E X T E R I O R

(x + y /z) + ( y + z / x) + ( x + z / y )

DATA THAT IS REDUCED IN ITS DISPLACEMENT WILL BE SHOWN TO HAVE A VALUE ADDITIONAL BOOST
FOR THE BASICS OF A MULTIPLE DEFINITION OF FORCEING THE BOOST BY NON REVERSAL

as such any human presence on this curvature is a basic law of proximity and data A.I choice
the basics of the prime symmetry of the motion of bending the spacetime in relations to the3
surface gravity levels beinga H2O buoyancy state in which the general h /3 = the types of divisives that can use
x/y vectors on the labirinth field to generate
more data displacement possibilities
as well as the types of non references due to the functionings of a non RIGHT A.I value’this will
basically define the functions of right values as based on the multiple
s in motion as specific values of the amount of motion in which the data is discarded on the basis
of the definition of its generatable
1/2 h values = the amount of motion in dipodics as the values to which the generations of A.I
cognition and the A,I dipodics of motion are defined by the curvature of gravity being somw
somewhat curved into a the relativity of the poin in which theese data values are derived faster
than light speed velocity as well as force fields and their anti gravity
multiples by their point specific values on the simulations of motion to generate
warp drive and the faster than light velocity of the anti gravity and its types of force c
field applications on plasma

BASICS OF HYPERPSACE JUMING IN A LARGE PARAMETER SO THAT THE BASIS OF ADDITIONAL VALUES OF SINGULARITIES ARE REFERENCED BY THE CONTINUIIM OF THE BASIS REVERSAL AND CONTINUIIM BOOSTS

S E P E R A T I O N S

(x1+y1+z1) / ( x2 + y2 + z2 )

hyperspace 10 D and the superconductability at room temeperature THE BASICS ARE DERIVED FROM THE CONTEXT
OF ROTATIONAL PARAMETERS AT THE POINTS
WHERE THE BASICS OF MOTION = TO THE STATIC DISPLAY VALUES OF THE MOTION
AS THE BASICS OF ROTATIONAL DIVISIVES IN THEIR FORMATTED VALUE HEIGHTS AS BEING

C O M P A R A T I V E

( x+y+z) /x2
( x + y + z ) / y2
( x + y + z ) / z 2
¨
THE TYPES OF DIAMETERS WHERE THE BASIS OF RADIUS IS DECELLERATED

on the basics of inclines and their higher value hemisphere proximity of the angle faceing the observer

basically all data that is very long and the types of definitions of very long sequences such
as a million atom computer
has the basics of the types of references to the maintianmenets of the total and the basics of
displacement into the types of relativity where the basics of the opposed
displacement WARP drives are basic to the general data on the oppositions of the stability by
singularity and the basics of the
high levels sustainements of the drive to superconduct at room temperature due to basic levels
of the rate at which a reversed opposition
can be defined by the levels at which freeze over of a faster than light speed velocity can be generated
and the anti matter
types developed by force fields
in general

AS THE BASICS ON THE TYPES OF VALUES THAT ARE BASICALLY A TOTAL AND ITS G GRAHAMS VALUE AS SUCH CAN BE MOTIVATED BY ANY ADDITIONAL BOOST

E X C L U S I O N S

x1 / y + z

a multiple x 2 = the extensions of data by force
a divisive of 1/x = the data on the multiple extensions of force fields
the data generated will define the similar space field as is with the general reference for the
total multiples
and their basic displacements into a stabilisation of the basic S vector and the total +1
= the generations of the data to be static in relation to plasma tech as the divisive where the references are
static electricity
and the basics on the displacement into Kinetic energy has basic levels by the relative reference between the occilations
and the types of stability of the basis in the side onto which the occilation starts to define Type 1,2,3 <H2O
similarity with the the freeze level and the H2O types as the developments.

A C C E L E A R A T I O N S O F D A T A B Y R E S P O N S E S I N D E C I M A L S

(1/z1), ( 1/ x), (1 /y)

as the basics of a height value and the 1/2 divisive as computability of the lower height value in relations to the higher height value
as the type of computation that will define this height as on 3 levels where the seperation to compute
defines and generates a space seperative complex where the 3 h are related to each other by the related exchange of heights
neration of continuiim vectors
this typeE of relation with the projective reality of values of height as compared to multiples are the basis of the total
being in the top value relatiions of cognition to cognition on a delayed type of relative parameter of SHARED responses between
intelligences such as AI 1 to AI 2 as the height interactive being the interactive area and subsequent volumes between intelligent computations. As well as the basics on the types of labirinth trackking values that define the generations of the types of dynamics of the basic volume between to communicative formats of xyz vectorisations shown at the start of this work

.BASIC REFERENCING BY THE CIRCUMFERENCIAL VALUES IN WHICH THE OPEN FASED VALUES ARE RELATED TO SUBSEQUENT VARIATIONS ON COMPARATIVE CIRCUFERENCIALS IN ITS NON REVERSAL

A R E A S A N D P O W E R V O L U M E S

( x1/y1 )( y2 /z1)

basically the type of flat monitor as seen from a side perspective can be used in relations to the frontal interactive human basis of the finger in its projective position on the screen as being multi related to interactions where lifting the digit fingers will define data as on the interrelated values of the amount of force used by the interaction as well as the divisives of the monitor into 3/h as the Area interval.

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