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The facts of the quant computer and the things it could do as seen in the star trek scifi movies that have a sense of being real because there is scifi science here. There are quant computers at work in the scifi movies as the "star trek" holographic room" where anything may be replayed with real sensations just like in reality with some safety. So the basics of the "atom computer" is already there in the startrek movies. So the holo room will be made into scifi science. |
micui kaku, scifi scientist and world famous.
The small part would be the frequency alternations as seen in the ,basics of atom alternations, to the upper right. from wikipedia Perturbation theory comprises mathematical methods for finding an approximate solution to a problem, by starting from the exact solution of a related, simpler problem. A critical feature of the technique is a middle step that breaks the problem into "solvable" and "perturbation" parts.[1] Perturbation theory is applicable if the problem at hand cannot be solved exactly, but can be formulated by adding a "small" term to the mathematical description of the exactly solvable problem. Perturbation theory leads to an expression for the desired solution in terms of a formal power series in some "small" parameter – known as a perturbation series – that quantifies the deviation from the exactly solvable problem. The leading term in this power series is the solution of the exactly solvable problem, while further terms describe the deviation in the solution, due to the deviation from the initial problem. Formally, we have for the approximation to the full solution A, a series in the small parameter (here called ε), like the following: {\displaystyle A=A_{0}+\varepsilon ^{1}A_{1}+\varepsilon ^{2}A_{2}+\cdots } |
from wikipedia on the atomic field. In theoretical physics, quantum field theory (QFT) is a theoretical framework that combines classical field theory, special relativity, and quantum mechanics[1]:xi and is used to construct physical models of subatomic particles (in particle physics) and quasiparticles (in condensed matter physics). QFT treats particles as excited states (also called quanta) of their underlying fields, which are—in a sense—more fundamental than the basic particles. Interactions between particles are described by interaction terms in the Lagrangian involving their corresponding fields. Each interaction can be visually represented by Feynman diagrams, which are formal computational tools, in the process of relativistic perturbation theory. the possibility of the type 2 "3 atom computer that uses the motion and interactions of atoms between them as so to define the "computer that could think and behave like a human and way smarter. Michui Kaku who is the founder of string theory is also trying to define the way the quant computer would function. image credit: scifi technique. |
The basics of atom alternations:
Atoms are basically "sliced into sections" at the edge of the quant computer so that the pertubations are the smaller part outside the quant computer and may be defined by the variable fields of "atoms and string" variables, seen in the main part of this , above. credit: wikipedia In chemistry, a conjugated system is a system of connected p orbitals with delocalized electrons in a molecule, which in general lowers the overall energy of the molecule and increases stability. It is conventionally represented as having alternating single and multiple bonds. Lone pairs, radicals or carbenium ions may be part of the system, which may be cyclic, acyclic, linear or mixed. The term "conjugated" was coined in 1899 by the German chemist Johannes Thiele.[1] Conjugation is the overlap of one p orbital with another across an intervening σ bond (in transition metals d orbitals can be involved).[2][3] A conjugated system has a region of overlapping p orbitals, bridging the interjacent locations that simple diagrams illustrate as not having a π bond. They allow a delocalization of π electrons across all the adjacent aligned p orbitals.[4] The π electrons do not belong to a single bond or atom, but rather to a group of atoms. The largest conjugated systems are found in graphene, graphite, conductive polymers and carbon nanotubes. |
Some of the particles are not always "circular and equated to the origin in reverse. Rather, they tend to the edges of the definition that shows how the "escape" function has it's origin in the input back to the system by way of the "reference related " or the "semi source" as the function of gravity also influencing the "quant computer" as the type 2 Kardavesh scale technological level.
The edge particles are sensitive to any motion or energy on the edges of their outer circuits and input data as translation of the exterior on 1 side as being faster than the other remaining 23 sides of a simulation room with 6 sides, like the holo deck example.
The inside would be equated to the "negative resistance" of the "quant computer" circuits as the negative gravity effect that the quant computer translates from anyone in the holo deck and as such the outer edges of it as in delay between the "quant computers 24 sides and the holo deck inner 6 sides.
as
24/6=4
or
24 x 6=144
or
6/24=0.25
as the relations of the extra sides and the minimal sides as the computation speed that increases with every new interaction.
The inside would be equated to the "negative resistance" of the "quant computer" circuits as the negative gravity effect that the quant computer translates from anyone in the holo deck and as such the outer edges of it as in delay between the "quant computers 24 sides and the holo deck inner 6 sides.
as
24/6=4
or
24 x 6=144
or
6/24=0.25
as the relations of the extra sides and the minimal sides as the computation speed that increases with every new interaction.
The ab = the wave function or string in motion while the 1 expands to the 2 that contracts as the atomic sense perception of the holo deck as it has the quant computer connection that keeps track of the a to b= c as the wave generator of the data reality in the holodeck.
scifi theory Henryk Szubinski
Basically the cube of the quant computer has 6 sides, while it is inside the holodeck that's another 6 sides. So while the unobserved sides are the
4,3,2
The bounds are related to the blind side of the cube having a faster possibility of computing any change in the holodeck inner cube. It does this by
inverting the 4,3,2 into 2,3,4
= the 3 sides as they change to 6 sides, so to keep track of the
holodeck cube space motion of any object, it will invert the 4,3,2 and 2,3,4 back and forth between any displacement of any object in the holodeck.
The inverts are
2= 2.21...
4=4.9898....
while the 3rd side is that which does the shared computation.
scifi theory Henryk Szubinski
Basically the cube of the quant computer has 6 sides, while it is inside the holodeck that's another 6 sides. So while the unobserved sides are the
4,3,2
The bounds are related to the blind side of the cube having a faster possibility of computing any change in the holodeck inner cube. It does this by
inverting the 4,3,2 into 2,3,4
= the 3 sides as they change to 6 sides, so to keep track of the
holodeck cube space motion of any object, it will invert the 4,3,2 and 2,3,4 back and forth between any displacement of any object in the holodeck.
The inverts are
2= 2.21...
4=4.9898....
while the 3rd side is that which does the shared computation.