Why artificial intelligence is a necessary tool for nanotechnology?
In nanotechnology, the system consists probably billions or particles, which are operating together. Those particles are extremely small, and they must operate together. If we think that human operators must follow every each of those particles, we would be trouble.
The idea of nanomachines is that they are artificial molecules, which are based on the carbon chain, where are connected other atoms like chlorine, iron or silicon. Transferring and forming those molecules happens by using magnetic fields or laser rays. The idea is that those extremely small machines are not making things alone, but there is power in groups.
And the groups of those machines could be even billions of particles, what should put in the right places. And in this kind of actions, the computer is an ultimate tool. The computer can calculate every each laser or another electromagnetic radiation impulse at a certain time, and it can calculate the dose of the radiation in the exactly right level and length.
The thing is that some nanomachines are extremely unstable molecules, where the carbon chain is connected to complicated enzymes or proteins, what is cut off in a certain place and chemical environment. So the system must use exactly the right force when it operates those molecules. The thing in nanomachines is that they must produce in an exactly right chemical environment and temperature.
Also in those chambers, the level of ultraviolet and other radiation must be exactly right. When those machines are transferred to target, the system must transfer them by using exactly the right force. The thing is that nanomachines are entirety, where billions of particles are operating together, and that means that the system must control the whole structure.
When we are thinking about the situation, where nanomachines are used as medical use, like destroying cancer cells or viruses in the human body, the machines can take exactly the right place. The idea is that those machines would make holes in the protein core of those cells, or they will cut the DNA or RNA of viruses.
But if those systems are operating the wrong way, the results could be destructive. Some of those nanotechnical cytostatics are ricin molecules, what mission is to destroy the mitochondria of those cells. And the thing is that only one ricin molecule can kill human if that molecule can destroy the mitochondria in one cell, what starts to die.
So the doctors must control that molecule, and the idea is to create cytostatics, what can neutralize very easily by using things like UV-light, what will cut that molecule in pieces. That light can take in blood veins by using a catheter, what is connected to the optical fiber. The idea is that the nanomachines can search and destroy even the single cancer cells in the human body.
But they can make many other things, like isolate harmful chemicals, and one of the most fascinating areas, where nanomachines can operate is the human nervous system, where those molecules can remove plack from the neurons. That can be a cure for Alzheimer patients. But the problem is that those nanomachines must take in the right place and then they must act the exactly right way. If they operate the wrong way, the destruction would be massive.
Those machines could look like dough wheels, and they can just remove the plack by using mechanic force, but controlling those machines would be very difficult. The idea could be that the nanomachines would be packed in the protein package, what can be the core of emptied bacteria.
After that, they would take to the exact right point, and then those machined can be released, destroying that miniature bag. Then the star or Morgenstern looking molecule, where is the iron bites at the outer layer put to rotate by using magnet field, and that movement would clean those synopses.
In nanotechnology, the system consists probably billions or particles, which are operating together. Those particles are extremely small, and they must operate together. If we think that human operators must follow every each of those particles, we would be trouble.
The idea of nanomachines is that they are artificial molecules, which are based on the carbon chain, where are connected other atoms like chlorine, iron or silicon. Transferring and forming those molecules happens by using magnetic fields or laser rays. The idea is that those extremely small machines are not making things alone, but there is power in groups.
And the groups of those machines could be even billions of particles, what should put in the right places. And in this kind of actions, the computer is an ultimate tool. The computer can calculate every each laser or another electromagnetic radiation impulse at a certain time, and it can calculate the dose of the radiation in the exactly right level and length.
The thing is that some nanomachines are extremely unstable molecules, where the carbon chain is connected to complicated enzymes or proteins, what is cut off in a certain place and chemical environment. So the system must use exactly the right force when it operates those molecules. The thing in nanomachines is that they must produce in an exactly right chemical environment and temperature.
Also in those chambers, the level of ultraviolet and other radiation must be exactly right. When those machines are transferred to target, the system must transfer them by using exactly the right force. The thing is that nanomachines are entirety, where billions of particles are operating together, and that means that the system must control the whole structure.
When we are thinking about the situation, where nanomachines are used as medical use, like destroying cancer cells or viruses in the human body, the machines can take exactly the right place. The idea is that those machines would make holes in the protein core of those cells, or they will cut the DNA or RNA of viruses.
But if those systems are operating the wrong way, the results could be destructive. Some of those nanotechnical cytostatics are ricin molecules, what mission is to destroy the mitochondria of those cells. And the thing is that only one ricin molecule can kill human if that molecule can destroy the mitochondria in one cell, what starts to die.
So the doctors must control that molecule, and the idea is to create cytostatics, what can neutralize very easily by using things like UV-light, what will cut that molecule in pieces. That light can take in blood veins by using a catheter, what is connected to the optical fiber. The idea is that the nanomachines can search and destroy even the single cancer cells in the human body.
But they can make many other things, like isolate harmful chemicals, and one of the most fascinating areas, where nanomachines can operate is the human nervous system, where those molecules can remove plack from the neurons. That can be a cure for Alzheimer patients. But the problem is that those nanomachines must take in the right place and then they must act the exactly right way. If they operate the wrong way, the destruction would be massive.
Those machines could look like dough wheels, and they can just remove the plack by using mechanic force, but controlling those machines would be very difficult. The idea could be that the nanomachines would be packed in the protein package, what can be the core of emptied bacteria.
After that, they would take to the exact right point, and then those machined can be released, destroying that miniature bag. Then the star or Morgenstern looking molecule, where is the iron bites at the outer layer put to rotate by using magnet field, and that movement would clean those synopses.
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