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sci fi reality……burning a impulse moment

November 24, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

impulse burn

By Henryk Szubinski

a application of the data into the modern astrophysicists data presentation made here as a type magnetic wind indicator..

to simulate a megnetic wind all you need to do is to compress 3 spherical forms produced by the force field equations shown previously and to utilse the maneto effect of the traling tail caused by the involvements with planetary and solr star type winds as a method to propulse the general spherical involvance of a perforation to which the smaller sphere inside the larger one is able to fit into a hole at the large spghere but will not exit or displace through it and away from the main sphere, but using a general format of 3 such involvements..

data on solar winds as a type flow of magnetic particles as a stream of charged particles:

When a metal wire is connected across the two terminals of a DC voltage source such as a battery, the source places an electric field across the conductor. The moment contact is made, the free electrons of the conductor are forced to drift toward the positive terminal under the influence of this field. The free electrons are therefore the current carrier in a typical solid conductor. For an electric current of 1 ampere, 1 coulomb of electric charge (which consists of about 6.242 × 10¹⁸ elementary charges) drifts every second through any plane through which the conductor passes.

For a steady flow, the current I in amperes can be calculated with the following equation:

$I = {Q \over t}$

where

Q is the electric charge in coulombs transferred

t is the time in seconds

More generally, electric current can be represented as the time rate of change of charge, or

$I = \frac{dQ}{dt}$ .

how to utilise a basis of delay responses of type flares with their obvious tails as impulse measurements made by vechicularity in adaptations to how a vechicle flying car or spaceship would interact in a highly turbulent wind from the sun and the influence of a visable angular momentum where IMPULSE BURN can be a physical reality of the impulse involved with orbitals in the electron formats orbiting the nucleus….

how would Impulse burn , well for one

a value of escape velocity at a higher velocity than is the value of the impulse of the moon around the earth, would by general relativity be processed into a :

1————————————2————————————3

sequence of velocity where the general impulse theorem breaks up

as such impulse is not a stable format of a object in orbit as exiting such gravity influence

neither is the data on how a primary value to whcih the process of a gravity indication at a minimal impulse quantality of alterations made to orbit height by a value =1 S

WHAT YOU WOULD NEED WOULD BE HYDROXYLE IN VOLUME COMPARATIVE TO A h2o VOLUME AND TO ACTIVATE A PRESSURISATION WHERE THE DENSITY OF THE FLUID STATES OF DENSITY ARE NOT INVOLVED IN ALTERATIONS OF PRESSURE

the type 1 interactions of SOH and H2O found on the moon in the same relationship.

even as such the process in which the general values of a compression by 2 opposed jets at a horizon = 180 degrees would cause the impulse to be usable in space as a type left and right jet activation.

sci fi reality…….superconductive lifting system force

November 23, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

superconductive lifting system force

By Henryk Szubinski

could a box door effect lift itslef from a gravity relationship with superconduction as it remains adheesed to the box

if the materials used in the process to input them into the box as a relational format of similar processess as a ctive in the levitation by superconductive materials

as are visable as a transition of overlayed processess that would function at either end of a process ofposed by the same force

as shown in

superconductive fase transitions

When a superconductor is placed in a weak external magnetic field H, the field penetrates the superconductor only a small distance λ, called the London penetration depth, decaying exponentially to zero within the bulk of the material. This is called the Meissner effect, and is a defining characteristic of superconductivity. For most superconductors, the London penetration depth is on the order of 100 nm.

The Meissner effect is sometimes confused with the kind of diamagnetism one would expect in a perfect electrical conductor: according to Lenz’s law, when a changing magnetic field is applied to a conductor, it will induce an electrical current in the conductor that creates an opposing magnetic field. In a perfect conductor, an arbitrarily large current can be induced, and the resulting magnetic field exactly cancels the applied field.

The Meissner effect is distinct from this because a superconductor expels all magnetic fields, not just those that are changing. Suppose we have a material in its normal state, containing a constant internal magnetic field. When the material is cooled below the critical temperature, we would observe the abrupt expulsion of the internal magnetic field, which we would not expect based on Lenz’s law.

The Meissner effect was explained by the brothers Fritz and Heinz London, who showed that the electromagnetic free energy in a superconductor is minimized provided

$\nabla^2\mathbf{H} = \lambda^{-2} \mathbf{H}\,$

where H is the magnetic field and λ is the London penetration depth.

can a box open at both ends from a lower / higher hinge = the process while in levitation by superconduction to be the same process wherein a magnet conducts the iron sprinklings that indicates the direction of a linear force vector of lines of force..

sci fi reality……….A.I…basis hexagonal force

November 23, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

h e x a g o n a l f o r c e on a . i

By Henryk Szubinski

WHERE EVER THERE ARE MULTIPLE UNIVERSES THERE ARE MULTIPLE SHEER PLANES THAT INDICATE A PROCESS IN DESCRIPTIVES OF DATA ON A AVOIDANCE OF END MULTIPLES AND START FASED USAGE OF THE PROBLEM DESCRIPTIVE:as a non parameter

= the 3 rd sheer plane is either dynamically used or used as a sheet to which a computer programme can match its speed in dynamical processess as graphing the sequence of flow onto the sheet in motion and connect such processess.

as a monitor relay system of screen interactions as a type model while you improove the specifics of any design..

artificial intelligence systems

processed data on fly fluidity and the basics of data on the prolongations of data ion the fluid zoneings of a construct solidity of

3x solid = basis of hydroxyl molecularity in a 1/3 divisive stageing

SEQUENCE 1

interactives of constructs =….1/3…2/3….1

3y fluidity = basis of water as molecular construct of the process take from sequence 1 AS THE VALUE OF A APPENDED FUNCTION IN WHICH

SOLIDITY =1

AND FLUIDITY = 1

THE sum values as click and aquire ( drag) ofthe relations with data on the processed access data as being pre < 3 x

and the frequency usage of a audial signalation in space time as the predictive to use the subsequent click and drag from section 1

as the value in its limitation by the usage of a value singularity in which the anti gravity or anti matter= value of the data on the process to surround or envelop the force field sphere formed by squiggle string applications of a 1 value reversal..

monitor sheet reversals decellerations and reinputs

as a digit involvance by the feel for the mould of a object in dynamic design as = to ageneral had cotroller system :

In mathematics and computer science, hexadecimal (also base-16, hexa, or hex) is a numeral system with a radix, or base, of 16. It uses sixteen distinct symbols, most often the symbols 0–9 to represent values zero to nine, and A, B, C, D, E, F (or a through f) to represent values ten to fifteen.

Its primary use is as a human-friendly representation of binary coded values, so it is often used in digital electronics and computer engineering. Since each hexadecimal digit represents four binary digits (bits) — also called a nibble — it is a compact and easily translated shorthand to express values in base two.

for flying cars and spaceships


0_hex	=	0_dec	=	0_oct	0	0	0	0
1_hex	=	1_dec	=	1_oct	0	0	0	1
2_hex	=	2_dec	=	2_oct	0	0	1	0
3_hex	=	3_dec	=	3_oct	0	0	1	1

4_hex	=	4_dec	=	4_oct	0	1	0	0
5_hex	=	5_dec	=	5_oct	0	1	0	1
6_hex	=	6_dec	=	6_oct	0	1	1	0
7_hex	=	7_dec	=	7_oct	0	1	1	1

8_hex	=	8_dec	=	10_oct	1	0	0	0
9_hex	=	9_dec	=	11_oct	1	0	0	1
A_hex	=	10_dec	=	12_oct	1	0	1	0
B_hex	=	11_dec	=	13_oct	1	0	1	1

C_hex	=	12_dec	=	14_oct	1	1	0	0
D_hex	=	13_dec	=	15_oct	1	1	0	1
E_hex	=	14_dec	=	16_oct	1	1	1	0
F_hex	=	15_dec	=	17_oct	1	1	1	1

as a process of using angles into alterant forms or relations with dimensionality to alter the direct vector values in their sectional isolated categories as compartaments//

processing data on the Kinteic Energy as =F / decimal values x

Decimal degrees (DD) express latitude and longitude geographic coordinates as decimal fractions and are used in many Geographic Information Systems (GIS), web mapping applications such as Google Maps, and GPS devices. Decimal degrees are an alternative to using degrees, minutes, and seconds (DMS). As with latitude and longitude, the values are bounded by ±90° and ±180° each.

Positive latitudes are north of the equator, negative latitudes are south of the equator. Positive longitudes are east of Prime Meridian, negative longitudes are west of the Prime Meridian. Latitude and longitude are usually expressed in that sequence, latitude before longitude.

sci fi reality……..multi force immersed platforms

November 23, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

m u l t i p l e f o r c e s

fluid computers with solid platforms

By Henryk Szubinski

a generational multi process of

1) the data on F——seperations—————>non link required for multiple gravity

2) data on process multiple non requirement as sustained———————>values = interactive integrations of similar Force as non connective quantal similarity

3)data on sustainemnts of interactive states of a inversed 3 level height of dimensionality in 3 levels of alterations= a level flatness of interinvolved data as a simple flex concavity / convexity = similarity of spherical invertions.

data on the bsic data value of a process to which the general interactions of data on a primary ripple and the secondary volume fluid involvements of the basic process = solidity of the functional fall through a H2O environment = to data on the force of similar parameters to which the value of the inetractive 3 height states :

height 2 ( the ripple effect)= value of stop motion platforms by closure of its two sides as surfaces in a open close alteration

the height 1 ( the yellow disk)= values of processed warping of a platform with strings that motivate a alterations of the platform altered motion by Strings on both surface areas of both sides by absorbancy or translocation ( puping through the strings)

Spherical waves coming from a point source.

The one-dimensional initial-boundary value theory may be extended to an arbitrary number of space dimensions. Consider a domain D in m-dimensional x space, with boundary B. Then the wave equation is to be satisfied if x is in D and t > 0. On the boundary of D, the solution u shall satisfy

$\frac{\part u}{\part n} + a u =0, \,$

where n is the unit outward normal to B, and a is a non-negative function defined on B. The case where u vanishes on B is a limiting case for a approaching infinity. The initial conditions are

$u(0,x) = f(x), \quad u_t=g(x), \,$

where f and g are defined in D. This problem may be solved by expanding f and g in the eigenfunctions of the Laplacian in D, which satisfy the boundary conditions. Thus the eigenfunction v satisfies

$\nabla \cdot \nabla v + \lambda v = 0, \,$

in D, and

$\frac{\part v}{\part n} + a v =0, \,$

height 3 ( the red line )= data on the values of the basic processed values of audial signals in the definitions by points on the 2 surfaces of a 2 sided platform by the similarity of environment active involvances as reapparency of a type transferrance of recorded events into thir transferrant circuits into the opposie side as a type circuit computer..

both sides are connected:

A pulse traveling through a string with fixed endpoints as modeled by the wave equation.

The wave equation is the prototypical example of a hyperbolic partial differential equation. In its simplest form, the wave equation refers to a scalar function u=(x,t) that satisfies:

${ \partial^2 u \over \partial t^2 } = c^2 \nabla^2 u$

where $\scriptstyle\nabla^2$ is the Laplacian and where c is a fixed constant equal to the propagation speed of the wave. For a sound wave in air at 20°C this constant is about 343 m/s (see speed of sound). For the vibration of a string the speed can vary widely, depending upon the linear density of the string and the tension on it. For a spiral spring (a slinky) it can be as slow as a meter per second. More realistic differential equations for waves allow for the speed of wave propagation to vary with the frequency of the wave, a phenomenon known as dispersion. In such a case, c must be replaced by the phase velocity:

$v_\mathrm{p} = \frac{\omega}{k}.$

Another common correction in realistic systems is that the speed can also depend on the amplitude of the wave, leading to a nonlinear wave equation:

${ \partial^2 u \over \partial t^2 } = c(u)^2 \nabla^2 u$

Also note that a wave may be superimposed onto another movement (for instance sound propagation in a moving medium like a gas flow). In that case the scalar u will contain a Mach factor (which is positive for the wave moving along the flow and negative for the reflected wave).

sci fi reality———-is a photon 2 points

November 23, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

i s a p h o t o n 2 p o i n t s

By Henryk Szubinski

resultant data of the 3 value alterances of the point mooving at the velocity of light as the values 1,2,3 = a value by which the 1/2 process = a basic process division of the point involved with the gravity being active in the alterations of data as a format for gravity being stronger than the seperations of gravity at a higher velocity=processess in which the general data force of the halved force involved with the specific value ofpropulsion by force as a multiple state of involvement as the type processess in which the values of the data on why the force at a frequency similar to a division of the multiple resultant possibility could indicate the interactions of value that are propulsed by a start fase upto a specific point in the similarity of beams on similar trajectories as a type faster than light displacement and the resons why the values of combined photon rays are probable in both case scenarios where the exchange of beams in vector opposition

———————-c——————————–>

<————————–c—————————

could be the amount of specific warping of a point shared by all photons or by all forms of particle involvements as a weave type interaction from the beginig of the universe to its end.

Boolean algebra (or Boolean logic) is a logical calculus of truth values, developed by George Boole in the 1840s. It resembles the algebra of real numbers, but with the numeric operations of multiplication xy, addition x + y, and negation −x replaced by the respective logical operations of conjunction x∧y, disjunction x∨y, and complement ¬x. The Boolean operations are these and all other operations that can be built from these, such as x∧(y∨z). These turn out to coincide with the set of all operations on the set {0,1} that take only finitely many arguments; there are 2^2ⁿ such operations when there are n arguments.

The laws of Boolean algebra can be defined axiomatically as certain equations called axioms together with their logical consequences called theorems, or semantically as those equations that are true for every possible assignment of 0 or 1 to their variables. The axiomatic approach is sound and complete in the sense that it proves respectively neither more nor fewer laws than the semantic approach

Other Boolean operations are derivable from these by composition. For example implication x→y (IMP), in the third column of the figures, is a binary operation which is false when x is true and y is false, and true otherwise. It can be expressed as x→y = ¬x∨y (the OR-gate of Figure 2 with the x input inverted), or equivalently ¬(x∧¬y) (its De Morgan equivalent in Figure 3). In logic this operation is called material implication, to distinguish it from related but non-Boolean logical concepts such as entailment and relevant implication. The idea is that an implication x→y is by default true (the weaker truth value in the sense that false implies true but not vice versa) unless its premise or antecedent x holds, in which case the truth of the implication is that of its conclusion or consequent y.

sci fi reality……..perspective alterations warp drive motors

November 23, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

p e r s p e c t i v e a l t e r a t i o n s

By Henryk Szubinski

processing circumferences with force flash value indicators as propulsions

In probability theory, a stochastic process, or sometimes random process, is the counterpart to a deterministic process (or deterministic system). Instead of dealing with only one possible “reality” of how the process might evolve under time (as is the case, for example, for solutions of an ordinary differential equation), in a stochastic or random process there is some indeterminacy in its future evolution described by probability distributions. This means that even if the initial condition (or starting point) is known, there are many possibilities the process might go to, but some paths are more probable and others less.

basic functionings of a envelopment illusion from the front view perpsective of the linear height as a type linked circumference = actually a process of interactions based on a gap in the side view.

The data on the forwards force of the process to include the data on the side view alterations by similar side view minimal restrictions coul actually evolve a type 1 unfoldement of the side view form in process to be registered as a type frontal perspective value halving or at 2/3 h.

Data on the basics of how a value can be altered into warp formats by a 3 x data similarity of involvements of bvalues that are referenceble by sections of the nummericality of basis = values of the process in which general alterations of volume dynamics would be cheated by the warping of data possibilities in using the influence of type pumping of the form side view into a type warping of the form itself into a frontal value into a waveform indicated by the thickness line at the front view of the solid form = data on the values designated to have a value in which the waveform into the curvature response a s type slingshooting outof the process by accellerating the vortex effect resultant in a cyclism .

using the data on formats of value in processed data of a cause to have surface waveforms and the basics of hydroxyle = data on immersions of what is defined as a process in weight =force of a approachant barrier in fluid compressions similar to the data on the process of data on a indicative trace matter bit = signaling by recognitions of the position taht defined the alterations of certain warps in fluid environemnts by using the warping TYPE STRINGS in the alterations as a trace indicator flashes or draws a colour tracer taht is at its highest disrutions defined as base value 1 = basis start value of the sequenced start of the experiment by releasing the waveform into the fluid environment.

making the comparative:

Wavelength 2 / wavelength 1 =time process .F disruption

—————————————————————————————-

research;

the stochastic process is based on random data of a force in space time that is continually altered ; the form must be a certain value that would respond to alteration by random forces of its space value containment by such rapid random processess that each stage of alteration by a random process = volume

the force used in the process of a random value = x+1/1-x as a continually altering force value .

The concept of a form shown previously as a higher velocity adaptation to force random alterations as a type fluid level 3 interactions:

Given a probability space $(\Omega, \mathcal{F}, P)$ , a stochastic process (or random process) with state space X is a collection of X-valued random variables indexed by a set T (“time”). That is, a stochastic process F is a collection

$\{ F_t : t \in T \}$

where each F_t is an X-valued random variable.

A modification G of the process F is a stochastic process on the same state space, with the same parameter set T such that

$P ( F_t = G_t) =1 \qquad \forall t \in T.$

[edit] Finite-dimensional distributions

Let F be an X-valued stochastic process. For every finite subset $T' \subseteq T$ , we may write $T'=\{ t_1, \ldots, t_k \}$ , where $k=\left|T'\right|$ and the restriction $F|_{T'}=(F_{t_1}, F_{t_2},\ldots, F_{t_k})$ is a random variable taking values in X^k. The distribution $\mathbb{P}_{T'}= \mathbb{P} F|_{T'}^{-1}$ of this random variable is a probability measure on X^k. Such random variables are called the finite-dimensional distributions of F.

Under suitable topological restrictions, a suitably “consistent” collection of finite-dimensional distributions can be used to define a stochastic process (see Kolmogorov extension in the next section).

sci fi reality……..comparative force

November 23, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

ap p l i c a t i o n s o f m o o n e a r t h d a t a

By Henryk Szubinski

using a s equence in real earth data as a general sequence in non altered state

THE CONCEPT BEING TO SHOW YOU HOW ANY VALUE OF HYDROXYLE CAN BE INTERACTED WITH WATER ( H2O)

Epoch J2000.0^{[note 1]}

Aphelion

152,097,701 km
1.0167103335 AU

Perihelion

147,098,074 km
0.9832898912 AU

Semi-major axis

149,597,887.5 km
1.0000001124 AU

Eccentricity

0.016710219

Orbital period

365.256366 days
1.0000175 yr

Average orbital speed

29.783 km/s
107,218 km/h

Inclination

1.57869°^[2]
to Invariable plane

Longitude of ascending node

348.73936°

Argument of perihelion

114.20783°

Satellites

1 (the Moon)

Physical characteristics

Mean radius

6,371.0 km^[3]

Equatorial radius

6,378.1 km^[4]

Polar radius

6,356.8 km^[5]

Flattening

0.0033528^[4]

Circumference

40,075.02 km (equatorial)
40,007.86 km (meridional)
40,041.47 km (mean)

Surface area

510,072,000 km²^[6]^[7]^{[note 2]}148,940,000 km² land (29.2 %)

361,132,000 km² water (70.8 %)

Volume

1.0832073 × 10¹² km³

Mass

5.9736 × 10²⁴ kg^[8]

Mean density

5.5153 g/cm³

Equatorial surface gravity

9.780327 m/s²^[9]
0.99732 g

Escape velocity

11.186 km/s

Sidereal rotation
period

0.99726968 d^[10]
23^h 56^m 4.100^s

Equatorial rotation velocity

1,674.4 km/h (465.1 m/s)

Axial tilt

23.439281°

Albedo

0.367^[8]

Surface temp.
Kelvin
Celsius

min	mean	max
184 K	287 K	331 K
−89 °C	14 °C	57.7 °C

Atmosphere

Surface pressure

101.3 kPa (MSL)

Composition

78.08% Nitrogen (N₂)
20.95% Oxygen (O₂)
0.93% Argon
0.038% Carbon dioxide
About 1% water vapor (varies with climate)^[

-----------------------------------------------------------------------------------------

SEQUENCE REUSAGE:

Epoch J2000.0^{[note 1]}

Aphelion

152,097,701 km
1.0167103335 AU

Perihelion

147,098,074 km
0.9832898912 AU

Semi-major axis

149,597,887.5 km H2O
1.0000001124 AU

Eccentricity

0.016710219

Orbital period

365.256366 days
1.0000175 yr

Average orbital speed

29.783 km/s SOH
107,218 km/h

Inclination

1.57869°^[2]
to Invariable plane

Longitude of ascending node

348.73936° O2

Argument of perihelion

114.20783°

Satellites

1 (the Moon)

Physical characteristics

Mean radius

6,371.0 km^{[3] H2O}

Equatorial radius

6,378.1 km^[4]

Polar radius

6,356.8 km^[5]

Flattening

0.0033528^{[4] SOH}

Circumference

40,075.02 km (equatorial)
40,007.86 km (meridional)
40,041.47 km (mean)

Surface area

510,072,000 km²^[6]^[7]^{[note 2]} O2148,940,000 km² land (29.2 %)

361,132,000 km² water (70.8 %)

PROTONS

Volume

1.0832073 × 10¹² km³

Mass

5.9736 × 10²⁴ kg^[8]

Mean density

5.5153 g/cm^{3 H2O}

Equatorial surface gravity

9.780327 m/s²^[9]
0.99732 g

Escape velocity

11.186 km/s O2OH

Sidereal rotation
period

0.99726968 d^[10]
23^h 56^m 4.100^s

Equatorial rotation velocity

1,674.4 km/h (465.1 m/s)

Axial tilt

23.439281° SOH

Albedo

0.367^[8]

Surface temp.
Kelvin
Celsius

min	mean	max
184 K	287 K	331 K
−89 °C	14 °C	57.7 °C

Atmosphere

Surface pressure

101.3 kPa (MSL) H2O

Composition

78.08% Nitrogen (N₂)
20.95% Oxygen (O₂)
0.93% Argon SOH
0.038% Carbon dioxide
About 1% water vapor (varies with climate)^[

THE DATA IS USED INTERACTIVELY AS A RANDOM COMPUTATOR OR AS A MANUAL ALTERATION OF THE PROCESS data in non altered state and the general concept that a h2o and hydroxyle basis will not alter the general earth moon relationship as it has been for billions of years, this

type of relationship however can be used to alter the resultant of such interactions by using the states to reproduce them because in their real states of data relations they are inert meaning they are non changable so that by using the very cause of inert states , in the process of such data, the resultant samee values of the descriptives used as data can be regenerated into a real earth gravity value for example or a real earth level force field in its anti gravity relationship with the moon..

data courtesy of wikipedia

sci fi reality……..type 1 warper drive

November 23, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

t y p e 1 w a r p d r i v e

By Henryk Szubinski

basic construct that will let you use SOH in a volume based surround mofde in incolplete format of H2O and the processed exit faseout values of a gone around and exited type scenario of the general O2OH resultant with the proton in and proton 2 out in the exchange of spark plugg data transferrance of a gravity layer interacted activation.

sci fi reality…………spacetime timed events

November 23, 2009 in building blocks for flying cars, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

s p a c e t i m e t i m e d e v e n t s

By Henryk Szubinski

data on how fast a value in its instant value in its data positionality of a basic NOW value and its altered position while in motion of a type general data priority of the basic H2O / O2OH as= to the data on basic preliminary data in usage to be a problematic value in their systems by the frontal objective as the data on combinations…

because of oxygen relations with protons the connections of a on time relationship with the end product in how fast the sequence of the opposite in how fast a proton connects with a oxygen atom= the interval of H2O as a sequence vector 1

———p———-O2——————-O2——————–p

———p———-O2——–H2O———–O2——————–p

oxide——-p———-O2——–H2O——-O2——–p —-oxide

the 2 oxides + 2 protons+2 O2

defines the level at which <a gravity value of

oxide / O2= 2 proton

or basically a proton x 2 = anti matter inverted in a core atomic electron value in orbitals around a hydroxyle molecule that forms buoyant H2O relationships with the oxidic state of O2

how vectror comparatives of the difference netween H2Oand O2OH

in their vector predefined basis of making projective data on why a process would be late and how the data on the process alterance = a value to which ba secondary vector would be on time..

The hydroxyl surface groups (S–OH) formed by the reaction of protons (H⁺) with oxygen atoms accessible at oxide surface (S=O) could further be converted in water molecules (H₂O) adsorbed onto the oxide mineral’s surface. The mass balance of a chemical rearrangement supposed at the oxide surface could be schematically written as follows:

2 S-OH —> S=O + S + H₂O

or,

2 S-OH —> S–O–S + H₂O

where S represents the oxide surface.

The formation of one water molecule requires the presence of two adjacent hydroxyl groups, or a cascade of successive reactions of one oxygen atom with two protons. This could constitute a limiting factor and decreases the probability of water production if the proton density per surface unit is too low.

a person takes a train to the destination:

while it is indicated that the train is late; a calculation is made by how many carridges ,the train is late.

The train arrives late and the train driver is told to arrive on time next time.

The same passanger is again taking the same train with the same driver and makes a moove to alter his position on the train to see how much ahead the train is or how later it is by altering the position of the train carridge: would a early or late value matter to the new time…

sci fi reality…..extra planetary universe.

November 22, 2009 in building blocks for flying cars, nautilityies, rocket engineering, rocket science, space travel, spaceships, vechicle astrophysics | Leave a comment

interrelated events in the solar system as universal force

By Henryk Szubinski

because hydroxyl and water share the same parameters of proximity and effct; the data on a transit of 2 planets on the same plane is a value relation of the horizon based mercury comparative to the horizon based venus vectors as the general process of using the solar event value volume as the planar 2 Dimensional value of a comparative with the subsequent

solar area of its disk 2pi r squred = vector difference between mercurys volume / its disk ( 2pi r squ) . the venus disk ( 2 pi r suared) / volume of venus as a

type interaction between H2O and O2OH

in their referenced 3 volumes and their 3 disk type areas of 2pi r suared surface areas as a type quantal value comparative made with the data on the vector height from

horizons 1 venus – horizon 2 mercury

as the value of the volume based on the gravity quantal effect of horizon differences.

as the same value interactions with the moon and earth in their volumetrical infuence of force on the motion of extra planetary involvements. as the gravity value comparaed to the buoyancy force..

	sci fi reality… on 1-tilt
	sci fi reality… on datashifter
	sci fi reality… on IS DIALATION A CHARACTERISTIC …
	sci fi reeality… on dataguesser
	s c i . f i . r e a … on stemm-ageing-science

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sci fi reality……burning a impulse moment

sci fi reality…….superconductive lifting system force

sci fi reality……….A.I…basis hexagonal force

sci fi reality……..multi force immersed platforms

sci fi reality———-is a photon 2 points

sci fi reality……..perspective alterations warp drive motors

[edit] Finite-dimensional distributions

sci fi reality……..comparative force

sci fi reality……..type 1 warper drive

sci fi reality…………spacetime timed events

sci fi reality…..extra planetary universe.

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[edit] Finite-dimensional distributions

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