its basicly a conductor that is below a certain temp.
A superconductor is a material with an extremely low electrical resistivity (up to zero) under a specific temperature.
The current record holder(Tl4Ba)Ba4Ca2Cu10Oy reaches super conductivity at 242K (-24F, -31C): http://www.superconductors.org/242K.htm
the formation of pairs of conduction band electrons called cooper pairs that are able to travel freely through the superconductor bulk as if it was not there. thus no resistance.
The worst conductor would be rubber and the best metallic conductor would be silver
Copper
An object which is a conductor can conduct (or transfer) heat or electricity. Every single metal is a conductor (that is why mercury is considered a metal, because it conducts). A saucepan is made of metal because it can transfer the heat well. Other than a "super-conductor" which can only be made in laboratories, Gold is the best conductor, followed by silver then copper. We use copper for electrical wires because gold and silver are too expensive.
No
We know that silver is the best heat conductor among the metals, followed by copper.
brass is a good conductor, not a super conductor.
Super Conductor Tyranno
A perfect conductor will have absolutely no losses. A super conductor will be essentially lossless if it can be kept at a specific temperature. As it deviates from this temperature, its' losses will increase.
super conductor
Use a good conductor - if possible a super conductor.
YES IT IS! But there ARE types of plating out there that are non conductive just do a search on google to find it... easy as pie..
Stainless steel is not the best conductor. The best conductor is actually aluminum.
Use a good conductor - if possible a super conductor.
the_best_is_silver">the best is silver-----Silver is better than copper which is better than gold which is better than aluminum.The absolute best would be a super-conductor at a temperature of absolute zero.
Silver is the best conductor
Yes. One application of a magnetic field on a super conductor is quantum locking. Imagine the field lined of magnet penetrating an object. Now transform that object into a super conductor (i.e. super cool a substance that is not a super conductor at room temp into a super conductor by cooling it to a point where it is). That object is now quantum locked on the field lines and will tend to remain in a similar position without outside influence, besides the magnet, of course. It is such a principle that mag-lev trains that use superconductors operate on.
With a superconductor. Even better with a room temperature super conductor, of course you'll have to make hydrogen metal for that.