The electric eel would give the ability to use bioelectricity as the power source of robotics
The thing, that makes electric eels interesting fishes is that they can create electricity, which has 600 volts. That fish produces electricity by using special cells for that thing. And those cells can put in cell cultures, which can create electricity to the nanomachines, but why not also bigger equipment like electric cars and boats. Those cell cultures or biobatteries can connect like normal batteries, and they can give very high voltage if they are connected to series.
Have you ever thought the possibility, that the nanorobots and microchips would get electricity from the bioelectricity, what is created by the using cells, what are created from the electric eel, and what that fish uses for creating electricity? It would be quite easy to take the cells, what is creating the electricity for electric eel, and then put those cells to cultures. Then the thing, what the system needs is the nutrient for those cell cultures.
These kinds of cells can installed in very small robots, and they can be used to give electricity for miniaturized systems like motors, communication equipment, and other functions. In this case, the robot must keep in the nutrient, and then it can be released to the place, where it is needed. The communication equipment would tell if the voltage is going down, and then the robot just put back to nutrients, and the cells can create the electricity.
When we are thinking about that kind of cell culture as the power source for bigger robots and equipment, we must realize that the electric shock, what electric eel gives can kill the horse. So if we would want to create the ecological battery, what uses biotechnology, we must take a couple of electric cells of the electric eel, and then multiply those cells for cultures. Then they can be used for many tools, and even the aggregate can be replaced by that kind of machine.
The voltage, what single electric eel can give is about 600 volts, but the size of the cell cultures might be really big. And that allows creating a very high level of electricity. When we are thinking about the use of those cell cultures to create electricity for bigger systems, those electric elements can be connected to series or side by side, and that means they are acting like normal batteries, which makes it possible to create many fundamental things.
One thing, what would be interesting would be the robot, what will drink nutrient when it needs more power. That means the system would eat like dogs or other puppies. And the bioelectric system would give power to the motors, cameras and other equipment of that robot, and it would use in many other things. In the most interesting, and in the same way, futuristic ideas is that some cars or boats would use bioelectricity in the future.
Have you ever thought the possibility, that the nanorobots and microchips would get electricity from the bioelectricity, what is created by the using cells, what are created from the electric eel, and what that fish uses for creating electricity? It would be quite easy to take the cells, what is creating the electricity for electric eel, and then put those cells to cultures. Then the thing, what the system needs is the nutrient for those cell cultures.
These kinds of cells can installed in very small robots, and they can be used to give electricity for miniaturized systems like motors, communication equipment, and other functions. In this case, the robot must keep in the nutrient, and then it can be released to the place, where it is needed. The communication equipment would tell if the voltage is going down, and then the robot just put back to nutrients, and the cells can create the electricity.
When we are thinking about that kind of cell culture as the power source for bigger robots and equipment, we must realize that the electric shock, what electric eel gives can kill the horse. So if we would want to create the ecological battery, what uses biotechnology, we must take a couple of electric cells of the electric eel, and then multiply those cells for cultures. Then they can be used for many tools, and even the aggregate can be replaced by that kind of machine.
The voltage, what single electric eel can give is about 600 volts, but the size of the cell cultures might be really big. And that allows creating a very high level of electricity. When we are thinking about the use of those cell cultures to create electricity for bigger systems, those electric elements can be connected to series or side by side, and that means they are acting like normal batteries, which makes it possible to create many fundamental things.
One thing, what would be interesting would be the robot, what will drink nutrient when it needs more power. That means the system would eat like dogs or other puppies. And the bioelectric system would give power to the motors, cameras and other equipment of that robot, and it would use in many other things. In the most interesting, and in the same way, futuristic ideas is that some cars or boats would use bioelectricity in the future.
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