Room-temperature superconductors will be key to the supertechnology.

"University of Illinois Chicago scientists are working on materials that could allow superconductors to function at room temperature, eliminating the need for extreme cooling." (ScitechDaily, University of Illinois Chicago scientists are working on materials that could allow superconductors to function at room temperature, eliminating the need for extreme cooling.)

Race to find room-temperature superconductor is hot. Superconducting magnets and wires will revolutionize computing. And they can make things like compact quantum computers possible. But there is one problem. Regular superconductors require high-power cooler systems. 

And those coolers make those systems ineffective. Another way to create room-temperature superconductors is to increase the pressure in the system. However, the high-pressure system requires gigapascals- pressure. One hole in the tube can cause large-size damage. This is why the room-temperature superconductors are very interesting things. 

The room temperature superconductors make it possible to create magnetic levitation systems that are cheap to use. If the aircraft is created using the superconducting materials that thing allows the Meissner effect to turn the craft levitating. That allows researchers to create virtual antigravity that can benefit a heavy cargo system. And that is why silent levitating crafts are used. The hovering superconductors can turn the craft lighter than it otherwise is. 

And that makes it possible to create silently hovering crafts or radical aviation systems that lift more things than otherwise. And those things can also make it possible to create aviation tools that can hover silently above the ground. Then the small engines can transport that craft out from the city area. Those systems can require the superconducting tracks to work. 

And then it can start the super- or hypersonic flight. The superconducting materials are also extremely good tools for the stealth technology. 

Room-temperature superconductors can make super cannons and cheap space launches possible. The superconducting systems can also make it possible to create trains. That is faster than hypersonic aircraft. 

The railguns can replace the space rockets for satellite launchers. Those railguns can be in. The high mountains mountainside. The railgun will launch a satellite in a small rocket, or aerodynamic capsule to space. The rocket is needed in trajectory maneuvers. The railgun can also connected with centrifugal launchers or spin launchers. Those systems can shoot also nuclear grenades over the ocean. 

The superconducting magnets are tools that can make things like magnetic levitation trains, Maglev trains possible. The maglev technology means that the object hovers above the magnets and uses the magnetic repel effect to keep the train hovering. The system can use the Gauss-track to travel in the vacuum tube. 

Those extremely high-power cargo systems are like particle accelerators. But their size is bigger. Those systems require lots of energy. The main problem with those super-size magnetic systems is that their magnets will turn red because of the whirling magnetic fields. Superconducting systems minimize the need for energy. The maglev trains can travel faster than aircraft because there is no friction in the tube. 

https://scitechdaily.com/superconductors-at-room-temperature-uics-groundbreaking-materials-could-make-it-possible/

https://www.spinlaunch.com

https://en.wikipedia.org/wiki/Levitation_(physics)

https://en.wikipedia.org/wiki/Maglev

https://en.wikipedia.org/wiki/Magnetic_levitation

https://en.wikipedia.org/wiki/Meissner_effect

The artificial lifeforms can be closer than we even dare to think.

"A simplified synthetic equivalent of a cell would be like a blueprint for life. Credit: EVOLF project" (ScitechDaily, Can Life Be Engineered? Biochemists Take Key Steps Toward Synthetic Lifeforms)

Biochemists take their first steps into artificial life forms. The ability to manipulate and connect DNA bites together makes it possible to create artificial species. The nanotechnology plays a key role in that process. Things like genetically engineered bacteria can transport those DNA bites into targeted cells. 

The DNA is the genetic code that controls all actions in the cell. The DNA code can order a cell to die. Nanotechnology makes it possible to clean DNA from genetic errors. That gives the possibility to remove hereditary diseases from society and that thing can decrease things like crime ratio. If researchers can remove the genome that causes things like sociopathy it makes society safer. 

If researchers want to remove genetic diseases from fetuses. They must only take the DNA out from the morula. Then they must clean the DNA and replace the sick sequences using clean sequences. Then they must remove "dirty" DNA from the cell and inject the clean DNA into that cell. 

The same technology allows researchers to inject new abilities into cells. 

When researchers can combine animals and vegetables by connecting their DNA makes it possible to create new species that do not exist in nature. The ability to create synthetic DNA by connecting amino acids using nanotechnical instruments is one of the biggest advances in biotechnology. 

The artificial organism can be bacteria that destroys the tumor cells. Or it can be a mammal with green skin. The green skin gives that creature the photosynthetic ability. The creators of that thing must connect the animal cells with vegetable cells. 

The ability to manipulate the DNA gives researchers free hands to combine organisms and their abilities. When researchers increase their knowledge of the genetic errors that cause cancer or genetic diseases they can use genetic scissors to remove the abnormal DNA. And then. They can connect the wealthy  DNA to that point. 

This thing makes it possible to create many things that have been impossible before. The human who gets the genome transplant that involves a genome that controls gorillas or anaconda's muscle advancement would be the strongest person in the world. 

Maybe those things are still too far away from today's medical and genetic engineering.  But everything starts from the simple organisms. The genetically engineered bacteria can inject the DNA or mRNA into other bacteria or cancer cells ordering those cells to die. There is no resistance to those DNA bites. The same systems and methods can be used in the new types of weapons. Those weapons are the most lethal things in the world. 

https://scitechdaily.com/can-life-be-engineered-biochemists-take-key-steps-toward-synthetic-lifeforms/