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T-1000 can be a reality sooner than we thought.


New robots can turn their state of matter from solid to liquid and backward. And they can make T-1000 a reality closer in the future than we expected. 

Above this text is the "jailbreak" of the next-generation robot that can change its state of matter from solid to liquid and backward. Maybe quite soon. The T-1000 robots from the "Terminator" movies turn into a reality. 

The new robot is a combination of magnetic particles and gallium. Gallium is a soft metal with a melting temperature of 29,76 degrees Celsius. "The researchers embedded a gallium matrix with magnetic particles, creating what they call a "magnetoactive solid-liquid phase transitional machine"." (ScienceAlert.com/Scientists Create Shapeshifting Humanoid Robot That Can Liquefy And Reform)



The nanotechnology-based microchips could control the magnetic state or the magnetic field's strength. And that kind of solution requires a large group of miniature microchips that control the state of matter in that gallium matrix. Those microchips can also operate as the entirety or cloud-based application that controls the movements of that next-generation system. 

The size of microchips determines how flexible that robot is. The liquid robot can clean surfaces in the computers. But they also can have many operating areas in medical and military technology. 

The liquid robot can close leaks in tubes in factories and power plants. Or they can close hemorrhage. 

Maybe researchers cannot make the T-1000 robot yet. But there is lots of use for that kind of machine. The liquid robot can travel inside blood vessels and clean them. The system can also operate in cancer treatment by closing blood vessels that transport nutrients to the tumor. 


The image above the fictional T-1000 is coming from the floor. 


There could also be military applications for that system. The liquid robot can slip into the building. There it can collect data from its environment. And if the liquid robot has some kind of photoelectric sensors. It can place itself around the optical cable and collect data. That is traveling inside it. 

And that system can operate as an assassination tool. The liquid robot can slip into the targeted victim's body. And then close some blood vessels in the body. 

That makes this type of nanotechnology multipurpose. And in the wrong hands, that kind of machine can be devastating. The same system can have multiple uses. And that makes nanotechnology an interesting but same time dangerous tool. Many laboratories in the world are developing tools based on nanotechnology. 


https://www.sciencealert.com/scientists-create-shapeshifting-humanoid-robot-that-can-liquefy-and-reform


https://shorttextsofoldscholars.blogspot.com/

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