When we consider the expansive view of molecular nanotechnology the significance involving with the presentations of the modular form of ideas that every nanostructure has it in provides the stagnant representations of different building blocks associated with the paradigm of the physical structure to build and nanomaterials.
It has become the fundamental building blocks for the creation of nanomaterials which are fundamental building blocks for the creation of nanomaterials. The requisite materials that have been there for the creation of smaller nanoparticles such as tiny, rigid cogs and gears which are most important for the creation of miniature sets of particles that have been the fundamental creativity for the creation of nanostructures.
The attached electric motors inside of these nanocubes should be so small that it should be lesser size from that of what should be the size of atoms or molecules. Even if we assume that such smaller sizes lesser than the particle presence of molecular blueprint could be created still the process of beginning of singularity could not be made within such smaller footprint sizes of attached molecular setups. How to build such and such humongous size of machines in smaller proportions, so that these should match the presence of nanoscale materials in its complete performances. How could we manipulate such and such presentations of ideas,
When we consider creating such smaller proportions of size, then we could see that even a single human cell and so many atoms that in order to reduce its size becomes extremely difficult propositions. Humanity has at least 80 billion cells and probably this could be on the increase as most of the areas concerning brain parts are still not yet discovered fully. It has been the estimated configuration and in order to create the size of the minimum footprint from the perspective of atoms for the creation of nanotubes requires considerate attention and humongous tasks of creating such and such atom or so smaller footprint.
First and foremost, for imaginative ideas or theoretical presentation of ideas, this could be related to the exponential expansions where nanobots could be created and they should be creating nanostructures. On the serious point of view on how to build nanobots that should have its own mind, brain and own way of the kinetic motion present without too much dependence upon others. In this case, the nanotubes should be considered as an assembler and these should act as creating the nano material which is macroscopic objects.
Theoretically, these could be possible but in practical these are not as we have seen that even creation of nanobots should take innumerable number of nano cells and how could such miniature size of construction of so many nano cells be united in a single juncture, so as to create the smallest nanobots in its present theoretical imagination.
In order to create artificial intelligence, within the nanobots we need to completely understand how the entire process of our brain runs. So far we have known about it very little and there are miles to go before we learn everything about nanobots and artificial intelligence. Even if we do understand how the brain runs but still for the creation of artificial brain we do need the huge amount of cells and how could such cells be intermingled into so as to provide the most mammoth task of monitoring the entire process of creating of such smaller sized nanoparticles with artificial intelligence seems non-palatable.
It is estimated to be the most difficult to create a smaller sized particle but how could such huge cells of million in number be created and how could such and such huge amalgamation of codes included within the specific parameters of nanotubes be energised and functioned is the matter of great difficulties.
Physicists believe that these could be developed in the point of view of biological creation of nanotubes and these could be possible if such tiniest size of materials could be created with the help of biological proteins, lipids by following the singularities processes that should include the entire mass of ideas to follow and perform. They believe that the form and size of such tiniest particles could be created easily with the help of liquids and not solids. It could provide the real way ahead of thinking it in such a way that with the presence of such smaller footprint of liquids such as proteins and lipids the tiniest nanobots could see the light of the day.
It did not think more about the entire processes where the part of reasonings tends to deny the creation of such a complex structure of complete physical existences within the specific parameters of the smallest size. Within cell water beaches like thick molasses, but not the life of free-flowing lipids which should be the most convenient way of creation of tiniest nanoparticles which should be the major obstructive elements for the creation of nanotubes. Study the faster-moving water molecules which tend to flow with greater speed, within specific relevant boundaries of the cell tend to expand it further so as to provide the most difficult part of creating the tiniest nanostructures.
The entire processes attached with the creativity of smaller footprint of cells which could provide the most difficult part of creativity of tiniest cell size for the creation of nanotubes which ultimately does provide the most difficult part of understanding the entire processes as there is no constant within the perimeters of cells and atoms tend to expand further with due course of time and this could enlarge the nanoshells. This is the most difficult part of understanding the entire process. It is this fluctuation according to Brownian motion which completely negates the entire processes of constant as the cell and its internal structures do tend to follow the processes involved in opposition of the entire movement that is concerned with the randomly flex and stretch technology.
When so many tiniest cells are united to create the artificial intelligence within perceived nanotubes we could see the presence of principle of Van der Waals force which experimentally shows how the cells of one another are being attracted to each other and sometimes one cell dominates over the other and this creates the process of expansion and sticking of one another cells which could make the creation of larger particles and thus the image of the creation of smaller nanotubes could be the most difficult phenomenon to achieve. That is why it is harder to believe to create such the watery nanoscale particles that should behave in completely opposite to general cell theories.
It is the constant random motion of molecules within cell structures that provide the difficulty to manage the continual cell theory in its permanent presence. Some suggest creating self-folded protein molecules with its own stagnant permanent structures which could be flexibility in the theories of Brownian motion so as to stay at constant stagnant posture without intimidating from the movement presentation of molecules within cell biology. The chemical properties of physical structures that need to combine such nanoparticles need to be understood in the manner of the constant theoretical present where it should not be considered every element to stay stagnant and stealth even in the presence of movement of other cells.
The power of surface forces and its kinetic presence is what makes the running of such and such smaller particles behave in unceasing motion. Researchers have found difficulties of shrinking such atoms as they see even in its smaller footprints such and such atoms do provide the similar persistent shrinking and friction characteristics which should provide the most difficult part of creating a smaller footprint of nanotubes. It is wiser to try out and find the range of rigid nanotechnology in relations with performed nanomachines through the performance of rigid cell biologies. It aims to make such system which should impact in term of rigid mechanisms.
Such state of system mechanics should perform in the state of vacuum where the importance of inertial parameters should be closer to virtual nil. In the mechanics of completely insulated systems where the natural tendencies and phenomena associated with the performance of cell structures completely reverses. With all these “soft nanotech” approaches, and control of smallest particles within the cell structure could provide rich benefits through these processes where there is complete symmetrical understanding of biometric approach between physical science and biology.
This should also provide some sort of complete cure of serious diseases related with serious disorders as the general nature of cell structures could be completely reversed and the entire processes involving curing of cells of diseases of high intensity could be cured completely. It is with these integrated approaches and complete diagnosis in these insular elements two ways to understand and prepare for the betterment of radically re-engineering of existing micro-organisms in the treatment and in the creation of nanobots should be possible in the longer run.
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