High Temperature Superconductivity & Electro motors

In summary, high temperature superconductivity is a phenomenon in which certain materials can conduct electricity with zero resistance at relatively higher temperatures. It works by allowing electrons to flow through the material without any resistance, thanks to the formation of Cooper pairs. Some potential applications of high temperature superconductivity include power transmission, energy storage, and medical imaging. Electro motors are devices that use electrical energy to produce mechanical energy and can be made more efficient and powerful with the use of superconducting materials. However, there are current challenges in developing high temperature superconductors and electro motors, such as finding suitable materials, understanding the mechanisms, and making them commercially viable.
  • #1
ze-ro
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If we build a High Temperature superconductor without Meissner effect ; So it can build energy?:confused:
 
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  • #2
ze-ro said:
If we build a High Temperature superconductor without Meissner effect ; So it can build energy?:confused:

No. No free energy, no perpetual motion. Thread locked.
 
  • #3


I would like to clarify that the Meissner effect is an essential characteristic of superconductors, regardless of their temperature. Without the Meissner effect, a material cannot be considered a superconductor. The Meissner effect is responsible for the expulsion of magnetic fields from the interior of a superconductor, allowing it to conduct electricity with zero resistance. This is what makes superconductors highly efficient for energy transmission and storage.

While high-temperature superconductors have the potential to revolutionize industries such as electro motors, it is important to note that their practical application is still limited due to various challenges in their production and integration. Additionally, the Meissner effect plays a crucial role in the functioning of electro motors, as it allows for the efficient conversion of electrical energy into mechanical energy.

Therefore, it is not possible to build a high-temperature superconductor without the Meissner effect and expect it to have the same energy capabilities as a conventional superconductor. Further research and advancements in materials science and engineering are needed to fully harness the potential of high-temperature superconductors in energy applications.
 

1. What is high temperature superconductivity?

High temperature superconductivity refers to the phenomenon in which certain materials can conduct electricity with zero resistance at relatively higher temperatures, compared to traditional superconductors which require extremely low temperatures.

2. How do high temperature superconductors work?

High temperature superconductors work by allowing electrons to flow through the material without any resistance. This is possible because of the formation of Cooper pairs, where two electrons become bound together and can move through the material in a coordinated manner.

3. What are some potential applications of high temperature superconductivity?

Some potential applications of high temperature superconductivity include power transmission, energy storage, magnetic levitation for transportation, and medical imaging.

4. What are electro motors and how are they related to superconductivity?

Electro motors are devices that use electrical energy to produce mechanical energy. They are related to superconductivity because superconducting materials can be used to create more efficient and powerful electro motors, as they have zero electrical resistance.

5. What are the current challenges in developing high temperature superconductors and electro motors?

Some current challenges in developing high temperature superconductors and electro motors include finding materials that exhibit high temperature superconductivity, understanding the underlying mechanisms, and creating practical and cost-effective production methods. Additionally, there are challenges in integrating superconductors into existing technologies and making them commercially viable.

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