sci fi reality……the opposites work

the opposites work

but have not done so in 39 years

By Henryk Szubinski

freedoom of knowledge law 5th framework in E.U 20

In mathematics, a function is a relation between a given set of elements called the domain and a set of elements called the codomain. The function associates each element in the domain with exactly one element in the codomain. The elements so related can be any kind of thing (words, objects, qualities) but are typically mathematical quantities, such as real numbers.

An example of a function with domain {A,B,C} and codomain {1,2,3} associates A with 1, B with 2, and C with 3. An example of a function with the real numbers as both its domain and codomain is the function f(x) = 2x, which associates every real number with the real number twice as big. In this case, we can write f(5) = 10.

There are many ways to represent or visualize functions: a function may be described by a formula, by a plot or graph, by an algorithm that computes it, by arrows between objects, or by a description of its properties. Sometimes, a function is described through its relationship to other functions (for example, inverse functions). In applied disciplines, functions are frequently specified by tables of values or by formulae.

the continuous formulations of a sequence where the descriptive is a affirmation of the categories and sections of their process functional status = functions and then directed onwards to a =predefine basis of opposed exit..

An opposed-piston engine is one in which the cylinders are double-ended, with a piston at each end and no cylinder head.

Shown (at top) is the layout of a two-stroke engine similar to the one developed by engineer Kurt Bang at the Prüssing Office on the basis of the prewar DKW race engine. There existed two versions: one with a displacement of 250 cm³, and one with 350 cm³ displacement. The engine had two cylinders with four pistons, two crankshafts and a supercharger. The crankshafts were connected by gears. The fuel-air mixture was produced by a carburetor. This resulted in a high fuel consumption.

by having a gap in your life as a projective estimated value of the process to which free release would make your feet not find footing enough to make you make a situation as a format for survival, the data on a human individual incrsanated in a half life as the piston without a gravity head is still bound to the same law that the position of the subsequent half of the life duration would be only as such a format for influencing conceptuality by the half way point in ones own life…….

when you are in a thought- lock down ,the projected data is on the basis of using intelligence , shure the concepts work, you can get along pretty well but the system that started the formats of cooperation between the designers

the feel for a mashine that will do the head work while you are in full safety of the mashine operation driving the flying car.

so what would you have to do when the models are gone and a whole new ballgame is discovered where your role play is like sci fi because , it is a thought that works but in perhaps a movie show that few people would associate with.

the conceptuality might make

the concept of a vechicle that functions by human users as the type UNIVERSE or multi UNIVERSE functionings to just see it this way

well because the concetuality of the system that keeps you in the facility of mind in constraint is based on the concept nr 1 = the doors are there to get through: so by this sounding a bit odd it might be because you understand mental complications to get to the work at hand and say that you understand. So why is it only 1 out of a few billion people on the planet that gets a clear break from being freed from the situations of a system that would not have given you such a chance …well basically because the lim x = the angle of approach

as x approaches a format where the workers in their system start to try to use the same system . This system is a format of denail..when a system worker uses the same denial, there is no cause for that worker to continue…….the antagonism is forgotten ..which is quite a impossible situation…so to do or die seems not such a difficult challange but without the basis of the highest level of a flying car up at 20 000 metres on the right as some type of right response as the scientific format of concerted counter denails of a system or the premise of a lower drop down to be dropped without anti matter backup that would tear you apart..is not what a sane person would want with his life..

If ƒ is a function from X to Y then an inverse function for ƒ, denoted by ƒ⁻¹, is a function in the opposite direction, from Y to X, with the property that a round trip (a composition) returns each element to itself. Not every function has an inverse; those that do are called invertible. The inverse function exists if and only if ƒ is a bijection.

As a simple example, if ƒ converts a temperature in degrees Celsius C to degrees Fahrenheit F, the function converting degrees Fahrenheit to degrees Celsius would be a suitable ƒ⁻¹.

$\begin{align} f(C) &= \frac {9}{5} C + 32 \\ f^{-1}(F) &= \frac {5}{9} (F - 32) \end{align}$

The notation for composition is similar to multiplication; in fact, sometimes it is denoted using juxtaposition, gƒ, without an intervening circle. With this analogy, identity functions are like the multiplicative identity, 1, and inverse functions are like reciprocals (hence the notation).

For functions which are injections or surjections, generalized inverse functions can be defined, called left and right inverses respectively. Left inverses map to the identity when composed to the left; right inverses when composed to the right.

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sci fi reality….thermal horizon vechicularity

new thermal directions

By Henryk Szubinski

freedoom of knowledge law 5th framework

In computer networking, RWIN (TCP Receive Window) is the amount of data that a computer can accept without acknowledging the sender. If sender has not received acknowledgement for the first packet it sent, it will stop and wait and if this wait exceeds a certain limit, it may even retransmit. This is how TCP achieves reliable data transfer.

Even if there is no packet loss in the network, windowing can limit throughput. Because TCP transmits data up to the window size before waiting for the packets, the full bandwidth of the network may not always get used. The limitation caused by window size can be calculated as follows:

$\mathrm{Throughput} \le \frac {\mathrm{RWIN}} {\mathrm{RTT}}$ ,

where RWIN is the maximum receive windows size and RTT is the round-trip time for the path.

At any given time, the window advertised by the receive side of TCP corresponds to the amount of free receive memory it has allocated for this connection. Otherwise it would take the risk to have to drop received packets by lack of space.

A related principle, Newton’s law of cooling, states that the rate of heat loss of a body is proportional to the difference in temperatures between the body and its surroundings. The law is

$\frac{d Q}{d t} = h \cdot A( T_{\text{env}}- T(t)) = - h \cdot A \Delta T(t)\quad$

Q = Thermal energy in joules

h = Heat transfer coefficient

A = Surface area of the heat being transferred

T = Temperature of the object’s surface and interior (since these are the same in this approximation)

T_env = Temperature of the environment

ΔT(t) = T(t) − T_env is the time-dependent thermal gradient between environment and object

This form of heat loss principle is sometimes not very precise; an accurate formulation may require analysis of heat flow, based on the (transient) heat transfer equation in a nonhomogeneous, or else poorly conductive, medium. An analog for continuous gradients is Fourier’s Law.

The following simplification (called lumped system thermal analysis and other similar terms) may be applied, so long as it is permitted by the Biot number, which relates surface conductance to interior thermal conductivity in a body. If this ratio permits, it shows that the body has relatively high internal conductivity, such that (to good approximation) the entire body is at the same uniform temperature throughout, even as this temperature changes as it is cooled from the outside, by the environment. If this is the case, these conditions give the behavior of exponential decay with time, of temperature of a body.

In such cases, the entire body is treated as lumped capacitance heat reservoir, with total heat content which is proportional to simple total heat capacity C , and T, the temperature of the body, or Q = C T. From the definition of heat capacity C comes the relation C = dQ/dT. Differentiating this equation with regard to time gives the identity (valid so long as temperatures in the object are uniform at any given time): dQ/dt = C (dT/dt). This expression may be used to replace dQ/dt in the first equation which begins this section, above. Then, if T(t) is the temperature of such a body at time t , and T_env is the temperature of the environment around the body:

$\frac{d T(t)}{d t} = - r (T(t) - T_{\mathrm{env}}) = - r \Delta T(t)\quad$

where

r = hA/C is a positive constant characteristic of the system, which must be in units of 1/time, and is therefore sometimes expressed in terms of a characteristic time constant t₀ given by: r = 1/t₀ = ΔT/[dT(t)/dt] . Thus, in thermal systems, t₀ = C/hA. (The total heat capacity C of a system may be further represented by its mass-specific heat capacity c_p multiplied by its mass m, so that the time constant t₀ is also given by mc_p/hA).

Thus the above equation may also be usefully written:

$\frac{d T(t)}{d t} = - \frac{1}{t_0} \Delta T(t)\quad$

The solution of this differential equation, by standard methods of integration and substitution of boundary conditions, gives:

$T(t) = T_{\mathrm{env}} + (T(0) - T_{\mathrm{env}}) \ e^{-r t}. \quad$

Here, T(t) is the temperature at time t, and T(0) is the initial temperature at zero time, or t = 0.

If:

$\Delta T(t) \quad$ is defined as : $T(t) - T_{\mathrm{env}} \ , \quad$ where $\Delta T(0)\quad$ is the initial temperature difference at time 0,

then the Newtonian solution is written as:

$\Delta T(t) = \Delta T(0) \ e^{-r t} = \Delta T(0) \ e^{-t/t_0}. \quad$

Uses: For example, simplified climate models may use Newtonian cooling instead of a full (and computationally expensive) radiation code to maintain atmospheric temperatures.

the cannister functions would be to utilise the thermal inversions of a cooler type of thermal value in the flat horizon process

the universe as a cannister in its empty state and influenced by thermally regulated space time into the 180 degree basis of its gravity objects such as stars planets galaxies…the basis of the regulations of the cooler regions of spacetime where dark matter exists and the black holes are predominant formats of the cool side of the universes connection to a multi universal value comparative where conservations of space time = areas

is not the end of the spacetime argument ,the implication being that the levels are arranged into a barrel of the whole process being slaon gerat wall of galaxies ORIENTATED into a common shared value of space time:

THIS SYSTEM WILL WORK ,BASED ON VECTOR ALTERNATIONS THAT ARE FORCE PULL FRIENDLY BUT IN ONE DIRECTION OF FORCE WHEREAS A ENERGY HAS ONLY RELATIVE SPACETIME IN THE BACK AND FORWARDS DIRECTIONS

this type of value by height of the data in the process as a ctive access into the spacial dynamics of work values / decimal value = increased formats as the basic definition of a string in a waveform theory such as

x/ deciamal = larger than x value

as a type

wavelength / frequency = amplitude

the values in their process & / or processor types

as the values of a system in which prcessed data on the full functionings of sci fi concepts are redefined on bulk of defined values in a system = a bsic reference wastage format of the full use of sci fi possibilities in their redefined dimensionality of a

A , F = x space definition of the height to lift to from a base level in sustainement or in alterations of vector unrestrictions

Data is values by the referenced usage of outputs on a basis in view of the capture formats of energy expansive force in place of dangerous energy.

Data as such has the value references of a tubular influence on the system dynamics controlled from inside the complex interactions off a type cobe internal alterations of weights and their angle of alterance = influence

the formats of the connections of a bowel system comprised of large empty caskets that are pressure related by a motion controll system dependant on the size relations of

3= difficulty level of a upwards directional rail problem

2= the basis of the mid sized canister as the type level that has control of the connections of the mid line vector that is common to all 3

1= the basis of the largest cannister being the one that is heaviest and also the one that mooves the slowest:

The multiverse (or meta-universe, metaverse) is the hypothetical set of multiple possible universes (including our universe) that together comprise everything that physically exists: the entirety of space and time, all forms of matter, energy and momentum, and the physical laws and constants that govern them. The term was coined in 1895 by the American philosopher and psychologist William James.^[1] The different universes within the multiverse are sometimes called parallel universes

what the relational exmple is representative of is the basis by which a system of currents the type thermally active in a vertical angle of 90 degrees and to try to do this on a 180 degree horizon as common to the exchanges of the volumes by a vector similarity tube type flow delivery system that will do the primary cause of thermals as they are originative of the decomposing vegetable formats of the ground level heat dissipations as using a type open petal system of a new influence in the horizontal thermal possibilities of a vechicle controll system that will act as a brake system and also of a velocity drive regulator.

Less CPU and memory usage (because fewer connections are open simultaneously)
Enables HTTP pipelining of requests and responses
Reduced network congestion (fewer TCP connections)
Reduced latency in subsequent requests (no handshaking)
Errors can be reported without the penalty of closing the TCP connection

According to RFC 2616 (page 47), a single-user client should not maintain more than 2 connections with any server or proxy. A proxy should use up to 2×N connections to another server or proxy, where N is the number of simultaneously active users. These guidelines are intended to improve HTTP response times and avoid congestion.

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sci fi reality………..artificial anti gravity

the vechicle artificial anti gravity and control

By Henryk Szubinski

freedoom of knowledge basis 5th framework Chordis6

type vechicle stabilisations when given a boost upwards or without specific boosting the format will maintain artificial anti gravity

as in a universal type hyperspace in 10 Dimensions:

where the brane interactions of compression &/or seperations = I.R as a type of voltage boosting that can be used in a multiple booster section in their side turbines to deliver a type kick in the mid pod sectional string user

the forwards cbvector pannel needs a solidification &/or a dissonace length of its structual characteristics as dense and altered into a minimal density while the minimal budge on the vechicle while the state is less dense = the pannel will emit a string waveform area kick similat to the basic density of its waveform force value: the vechicle mooves forwards, the pannel is solidified = the minimal displacement of the vechicle kicks the string ahead but as all formats of emission the signal is a bit off course so to get the direct 90 degree ange on boost values into the forwards utilisations of the vector…the usage of a angular x,y value suystem turned on its side by a dissbalnce type trick in a dice that will alter the flow in generation of the string into its specific calculations for a inferrance of the frontal turbine to do the z axis value computations to utilse the string flowing through it by the same values of x and y

as x/ y

the branes will do the compression and seperational computations for the usage of the interval in the kick back as the formats for computations of a similar solifd / fluid density format and the defined x,y,z values for boosting

In elementary mathematics, physics, and engineering, a Euclidean vector (sometimes called a geometric^[1] or spatial vector^[2], or – as here – simply a vector) is a geometric object that has both a magnitude (or length) and direction. A Euclidean vector is frequently represented by a line segment with a definite direction, or graphically as an arrow, connecting an initial point A with a terminal point B,^[3] and denoted by

$\overrightarrow{AB}.$

A vector is what is needed to “carry” the point A to the point B; the Latin word vector means “one who carries”.^[4] The magnitude of the vector is the distance between the two points and the direction refers to the direction of displacement from A to B. Many algebraic operations on real numbers such as addition, subtraction, multiplication, and negation have close analogues for vectors, operations which obey the familiar algebraic laws of commutativity, associativity, and distributivity. These operations and associated laws qualify Euclidean vectors as an example of the more generalized concept of vectors defined simply as elements of a vector space.

when the vector direction is closely simulated by a incline of the usage of a open and closed state of relations with the input of a string, the super hyperspace of the angle of fall down the incline would be opposed to the 90 degrees by a

force = 90 – ( 45+ tan x.y)/2

this can be used to alter the angle of incline like a occilations prrogramme of a specific frequency and also of a faster or slower rate of fall of the object down the incline

as a multiple vector direction in the up vectro the resultant usage of a multiple =to the angle of alteratiuon as 90 degrees-x = 2 F

implying that the vector has a mid vector value = 1/2 S

on a tan x value = to the similarity of the objects fall angle down the incline

a type x limit = y +( angle 1 + angle 2) /<—>S Ds

where the angles are =z axis the usage of a 3rd angle /tan <–>dt

the value resultance of the usage of a density alteration = 1 molecule /m cubed of molecularity :

alterator = x +S( y/z-S )<—> dS

STRING then = S .(INV 1/z).waveform frequancy<—->df

where the inversion is the existance of a z value that can penetrate both formats of x and y density:

meaning that density is a function of incline alterations:

It is this value that accounts for the usage of a string boost by the density alterations with a kick inbetween the process displacement to use a density format on the string stability to boost it..

and that the more vertical it gets, the more the angle to the horizon is effected by the lift.

Compensations of the usage of a vector type 1 =upwards would have to have mass by its reduced gravity value from the vector angle and the positive interactions with the multi vector possibilities which would reduce it to a measurment system type shown below:

basically giving the vector mass in a monitor a.i as the value of its circuits, the value = 1 unit might be usable on the whole a.i computator with its angle alteration and gravity influence monitoring as the processing of data on the quantal values of a vector upwards without any angle of reduction.

brane space can be compressed by dynamical interactions of a contained value of pressuriusations in a sequence of such compact states of relations in the simulations of kick back from a string value simulation on the sections of the brane that are opened and then closed in a type

h 2 .t =3 waveforms

to use a string the wave form value must be 4 sided and the 2 branes used imply that 2 .5 brane waveforms are left ovver in a situation where the frequency of a string = 3-2.5

or 0.5 waveform value of the string which can be subsequently recombined or projected as the kick in the alternations of a minimal buddge on the pod racer as = a forwards implied interaction of string force

the usage of a similar brane compaction can have a computative function as usage of the signal values to simulated branes in the side assists of a type pod racer:

So that in a basic x,y positionality the computer could be used in a pod race car that has lift by artificial anti gravity by controlloing the seperations of branes into the z value and to maintain this as the perimeter where 2 D = 3D

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sci fi reality…universal republic on the moove

comparatives of Chordi6 and the 5th framework

By Henryk Szubinski

the political scientist and / or the scientific politician in a system type Jedi worker:

E.U 20 is basically a fformat of IOnian capital basis defined by the freedoom of knowledge as having expanded outwards and not been afiliated with the capitols of helena: the 5th framework is a integration of all formats of seperation as based on the data that the expansion was singular and that this law followed Thales and was not seperated from his person , much like the way of the force, there was no real centre, in any format outside of Ionia , it was based on knowledge as the 5th format of representation of the ancient republic to the whole world and would have had many representatives without any danger inhibited to them by being able to make the accertion and disscertions of knowledge without the format of who was bad and who was good: the basics of E.U is just this type of freedoom in every facet of the republican representations by free motion oof its varied representants:

the law mooves into the positive arena as a type of competition for the direct access into 5th law frameworks where the ultimate states of universal republics are usable as the 1 be it the ancient greek or its direct affiliation with the democracy of Judea as the type of universal republic.

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sci fi reality…. Mars and beyond … vechicularity

m a r s and beyond

on the waffer vector replicator of temp events

By Henryk Szubinski

Chordis6 freedoom of knowledge basis 5th framework

type simulated temp situations implies the functionings of universes by the following data:

artificial waffer temp alterations of 10 D models of situation replications:

ANY POSITIONAL GRID IN ITS SECTION OF A platform = mars hemisphere as the basics of the grid usage on the zoom in as = to continuiim sections of the Mars surface by the usage of a geo warping grid that is the divisive of the platform scann / geo warp = geo grid root:

basically HERE THERE HAVE BEEN NO PREVIOUS HUMAN INFLUENCE THE FORMATS OF THEIR BASIS ON A FISRST RESPONSE COULD MAKE THE ASTRONAUTS ON MARS connect by a certainty of the future basis of a positional computator as certain as the resources on Mars surface..

For an explanation of the notation used, see Bra-ket notation.

The Quantum state, or wave function, of a physical system at some time can be expressed in Dirac or bra-ket notation as:

$|\psi \rang = \sum_i |i\rang \psi_i$

where the $\scriptstyle |i \rang$ s specify the different quantum “alternatives” available (technically, they form an orthonormal eigenvector basis, which implies $\scriptstyle \lang i | j \rang = \delta_{ij}$ ). An observable or measurable parameter of the system is associated with each eigenbasis, with each quantum alternative having a specific value or eigenvalue, e_i, of the observable.

The $\scriptstyle \psi_i = \lang i|\psi \rang$ are the probability amplitude coefficients, which are complex numbers. For simplicity we shall assume that our wave function is normalised, which means that

$\lang \psi|\psi \rang = \sum_i |\psi_i|^2 = 1.$

With these definitions it is easy to describe the process of collapse: when an external agency measures the observable associated with the eigenbasis then the state of the wave function changes from $\scriptstyle |\psi\rang$ to just one of the $\scriptstyle |i\rang$ s with Born probability $\scriptstyle | \psi_i | ^ 2$ , that is:

$|\psi \rang \Rightarrow |i\rang$ .

This is called collapse because all the other terms in the expansion of the wave function have vanished or collapsed into nothing. If a more general measurement is made that detects the system in a state $\scriptstyle | \phi \rang$ then the system makes a “jump” or quantum leap from the original state $\scriptstyle | \psi \rang$ to the final state $\scriptstyle | \phi \rang$ with probability of $\scriptstyle |\lang \psi | \phi \rang|^2$ . Quantum leaps and wave function collapse are therefore opposite sides of the same coin.

In quantum mechanics, wave function collapse (also called collapse of the state vector or reduction of the wave packet) is the process by which a wave function, initially in a superposition of different eigenstates, appears to reduce to a single one of the states after interaction with an observer. In simplified terms, it is the condensation of physical possibilities into a single occurrence, as seen by an observer. It is one of two processes by which quantum systems evolve in time according to the laws of quantum mechanics as presented by John von Neumann.^[1] The reality of wave function collapse has always been debated, i.e., whether it is a fundamental physical phenomenon in its own right or just an epiphenomenon of another process, such as quantum decoherence.^[2] In recent decades the quantum decoherence view has gained popularity. Collapse may be understood as a change in conditional probabilities.

1) the primary values of a external platform format to the indications of a vechicularity in the conservations of a processed sequence with limited amounts of usage by the vectorisations into mars.

2) the data on the usage of dipod values = 500 as the process by which a multiple value = to a minimal jump speed or warping of space time into the data on values of a non declarative value:

3) the usage of the values as a subset of the data on the high levels of the amount to make it with = Force of the data on the basics of vectors and thei seperated sections as the data on the connective sequences of a responsive data in usage by memory of a.i combinations as are in the process of the values being combined into a string theory of the value process of a gap in the memory A.I as the usage of delay or slow motiion indications of a reversed time complexity in the universes primary locations of motivvated vectorisations in their combined fased values = 3

as lim x = 1/3+t

data on the subsequent usage of connective spacial parameters with the same implications of a use = indicate :

by the processess which are active in the process of the data on the force of the data algorithms and their responsive value enviroenments of the data on certainty = 100 % of the specified non projective certainty of Shrödinger type computations where the basics of a motion indication is basically the process by which the value of comm signalings = the basics of a divided process:

1/3 +t = S /frequency

as the data continuiim of a bsis in the retro effects of the motivated usage of a spacetime vechicularity in its super transporter fase with multi fuinctionality of its sectioned flying car types to get to the Mars surface by the usage of the general conceptuality of the processed effects of a dynamics report in exchanged formats of the data being in the responsive of a parametrer in the forwards vector value =waveform of the specifics in which the data on the high effects of the process in its definitions by the values of inclusive type special relativity = a process in which the multiples = are referenced to as the values of specific data interactions:

This article explains a technology called Geo Warping in the context of real time visualization of geo-referenced radar video data. Geo Warping allows displaying radar video consistently with any geographical projection and thus avoids any restrictions when displaying it together with video from multiple radar sources or together with any other geographical data like scanned maps or satellite images which are provided in a particular projection. There are many areas where Geo Warping has unique benefits:

One radar video signal displayed together with maps of different geographical projections. E.g.
Multiple radar video signals displayed simultaneously:
- Having the computing power to do so on one computer.
- Adapting the projection of all radar signals allowing the geographically correct display and accurate superimposition of those videos.
Slant range Correction: a modern 3D radar system can measure the height of a target and hence it is possible to correct the radar video by the real corrected range of the target. Slant Range Correction also allows to compensate the radar tower height e.g. for maritime surveillance radars.

using the type comparative of geo warping with the side views on the generator gap section and pocket formats of the data in its side view of a platform——increased value of the compress section with a type mean value = to the lower level HOW on the basis of a linear lim x =1/x

as the formats are combined into a dynamics system:

the WHERE ,WHY , HOW : of the 3 states of a relation on Mars.

To read here, some of the many meanings of platform, imagine a completely new computer hardware. It needs a software platform in order to run applications. Assembly language could be written directly, but usually software developers target the new hardware platform using a cross compiler. The cross-compiler itself with all it’s attendant APIs becomes a new platform running on the developer’s architecture which already contains the many software platforms that developers need to be productive with such as a GUI, a programming language, and libraries. Eventually the target platform gets its own operating system and software platforms and is complete; however, its development may continue from a different platform by using a virtual machine, a simulated platform on a platform. Virtualization and Paravirtualization platforms can target other platforms. One virtual platform simulates a hardware platform (for development) and all its software platforms (for running the targeted applications).

Here are some more examples of the use of the phrase “computer platform”.

From the Linux File Hierarchy Standard:[1]:

The /usr/share directory is intended to sharable among all architecture platforms of a given OS; thus, for example, a site with i386, Alpha, and PPC platforms might maintain a single /usr/share directory that is centrally-mounted.

At times platform refers to hardware, at other times to various abstraction levels of software.

Processing the values in a consequnous definition of the reasons why the sectionality of a motivated vector process is the basis of displacement by the simulations of situations where the basics in vectorisations are based on the processed

value gap = resitance in a circuit type reference to the motion as indicated = stopp.

as turbine developments:

geo warping

geo warping grid

Values are then a usage of the definitions of the stop rates of a vechicularity in which the basics of the motion by waveforms as are in the data of specific reasons for the cause of the problem in a divisive reason of the vector values remainimg as the motivations for motion continuiims on Mars:

this type of waffer will compute any thermal situation be it temperature increase or cooling in decrease or in any vector as a format for combining specific astrophysical evvenets into a type vector diagramm for the simulations of thoose values by connecting the waffer levels:

the connections to heat simulations are nodes controlled by a computer that will simulate any temperature relationship by digitalö data controll to combine the levels into specific 3 D models which can then be trial simulated in dynamics situations and also rotated or altered by the planar angles of each level:

the implications of eco systems being redefined and the problems remooved can also simulate vechicularity and the parameters on planets and stars.

so that a simulation of earths data can be simply used to define the specifics as they are and use a differencial calculation or a quantal value computation to remoovehe problems .

the repilcational mesh work on the temperature specifics of the spacetime environments of warping by gravity as :

sectionality of the waffer process = and the usage of minimalisations by nodal / x= q

as the type accuracy work on the planarities by detail increases the nodes can then have parameters of minimal alterations such as a 1/3 radial influence by combining the radia LCD type deliveries of electron heat .

using locatorial problems by the interactions of temp nodes in a occilation by their interactions which can simulate disruptive proccesses and also the angles of rotation of the nodes by a type 1 computation of the interactions of nodal involvements in minimal lift angles of their computative controllance on using planar relations at angles to the horizon:

In mathematics, a multiple is the product of any quantity by an integer.^[1]^[2]^[3] In other words, for the quantity a such as integer, real number, or complex number, b is a multiple of a if b = na for some integer n. The n is also called coefficient or multiplier. Additionally, if a is not zero, this is equivalent to saying that b / a is an integer with no remainder.^[4]^[5]^[6]

Some said the multiple is the product of an integer by another integer^[7] so it is called integer multiple. When a and b are both integers, a is also called a factor of b.

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M	T	W	T	F	S	S
	1	2	3	4	5	6
7	8	9	10	11	12	13
14	15	16	17	18	19	20
21	22	23	24	25	26	27
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SCIFIre@lismQuest.com

Day: December 30, 2009

sci fi reality……the opposites work

sci fi reality….thermal horizon vechicularity

sci fi reality………..artificial anti gravity

sci fi reality…universal republic on the moove

sci fi reality…. Mars and beyond … vechicularity