As of now, the concept of a room temperature superconductor is not a reality. Scientists are still researching and working towards achieving superconductivity at higher temperatures, but it has not been achieved yet.
As of now, the concept of a room temperature superconductor is not a reality. Superconductors typically require very low temperatures to function, but researchers are actively working to develop materials that exhibit superconductivity at higher temperatures.
As of now, room temperature superconductors are not yet a reality. Scientists are actively researching and working towards developing materials that can exhibit superconductivity at higher temperatures, but it remains a challenging goal to achieve.
No, helium is a gas at room temperature.
No, iron is a solid at room temperature.
If the ignition temperature is lower than the room temperature, the substance will not ignite or burn spontaneously at room temperature. Ignition temperature refers to the minimum temperature required for a substance to ignite and sustain combustion, so if it is lower than the room temperature, the substance will remain stable at that temperature.
As of now, the concept of a room temperature superconductor is not a reality. Superconductors typically require very low temperatures to function, but researchers are actively working to develop materials that exhibit superconductivity at higher temperatures.
As of now, room temperature superconductors are not yet a reality. Scientists are actively researching and working towards developing materials that can exhibit superconductivity at higher temperatures, but it remains a challenging goal to achieve.
A metal is said to be a superconductor if it has some resistance at room temperature, but when it is brought down to a critical temperature; i.e. to a very low temperature such as 20 K, it loses its resistivity completely. Also, a superconductor expels out any magnetic field inside of it that it had at room temperature, and is not affected by any further field applied to it at its cooler temperature.
a superconductor is a conductor that is at absolute 0 in temperature allowing free flow of electrons without slowing them down because of no resistance any conductor in theory can become a superconductor but has to be brought down to a very low temperature typically 0 kelvins
With a superconductor. Even better with a room temperature super conductor, of course you'll have to make hydrogen metal for that.
A conductor of electricity is said to be a superconductor if it has some resistance at room temperature but when it is brought down to a critical temperature i.e. to a very low temperature such as -270 oC or so , it loses its resistivity completely. We have not yet found a substance that works as a superconductor at room temperature but a lot of research is on-going. The aim is to try to find metal alloys or other substances that will behave as superconductors at temperatures which are much closer to room temperature than to absolute zero. Existing known superconductors are metal alloys which have been discovered to have no electrical resistance when they are at low enough temperatures, typically close to absolute zero i.e. 0 Kelvin or about -273o C. So "superconductivity" is a property of certain substances at given temperatures, not of any substance at any temperature.
Not at room temperature, however you can make it into an electro-magnet by passing a current through it. If you cool Aluminium down to 1.2 Kelvins then it becomes a superconductor and will behave as if it's magnetic.
Superconductors could potentially be used in a very wide variety of areas, their introduction into mainstream technology would have a massive impact. Generally their use is in electronics. The problem is current superconductor materials are required to be very cold to stay superconducting, which makes them difficult to use. But if we had a superconductor able to work at room temperature, you could have a superconductor in your phone- which would make the chip vastly more powerful. This is the ultimate goal of superconductor development. That would just be awesome... unfortunately we're not quite there yet.
Currently, the superconductor with the highest critical temperature ever recorded is Mercury Barium Thallium Copper Oxide or Hg0.2Tl0.8Ca2Cu3O, which has a critical temperature of 139 K at one atmosphere. This superconductor is a type of ceramic copper oxide and its critical temperature was determined in 1995 by Chakoumakos, Dai, Wong, Sun, Lu, and Xin. Apparently, metal-copper oxide ceramic superconductors have high critical temperatures, which might unlock the key of synthesizing a high temperature superconductor that is superconductive under room temperature conditions.
It is possible that you are the only real person in the room, but it is also possible that others are real as well. The concept of reality is subjective and can vary from person to person.
We currently don't know of any room temperature superconductors; we've managed to find some "high temperature" superconductors, but "high" in this case means "liquid nitrogen temperatures" ... about two hundred degrees Celsius below zero. The lowest naturally occurring temperature ever recorded on Earth is about 184K ... about fifty degrees Celsius above the point at which the highest-known-temperature superconductor becomes superconducting.
We currently don't know of any room temperature superconductors; we've managed to find some "high temperature" superconductors, but "high" in this case means "liquid nitrogen temperatures" ... about two hundred degrees Celsius below zero. The lowest naturally occurring temperature ever recorded on Earth is about 184K ... about fifty degrees Celsius above the point at which the highest-known-temperature superconductor becomes superconducting.