mr. vodka said:When one cools down the temperature of a superconducting material below its critical temperature, a surface current is induced. Where does the energy (needed to create this new kinetic energy of the current) come from?
The energy in superconductivity comes from the interactions between the electrons in the material. When a material is cooled to a very low temperature, the electrons form pairs and move through the material with little to no resistance, resulting in the phenomenon of superconductivity.
No, superconductivity does not produce energy on its own. It is a property of certain materials that allows for efficient transfer of electrical energy. However, it still requires an external source of energy to function.
Superconducting materials have the potential to significantly reduce energy loss during transmission, making energy production more efficient. They also have the potential for use in high-speed transportation systems, such as maglev trains, which can greatly reduce energy consumption.
The main limitation of superconductivity in energy production is the need for extremely low temperatures in order for the material to exhibit the superconducting properties. This requires significant energy and resources to maintain, making it currently impractical for widespread use in energy production.
Currently, superconductivity is primarily being used in niche applications, such as in medical imaging devices and particle accelerators. However, there is ongoing research and development to find ways to utilize superconductivity in more mainstream energy production, such as in power transmission and storage systems.