Question

Superconductors have applications in __________________.
This Question has multiple correct options.
A.Electronics.
B.Building Magnets.
C.Aviation.
D.Power Transmission.

Answer 1

We know that we should be having an idea about the concept of superconductors. The characteristics that are performed by the superconductors will give us an idea about the various fields in which the superconductors can be implemented.

Complete answer:
Superconductors, in simple words, can be explained as materials that conduct electricity with no resistance. The main difference between superconductors and normal conductors is that, unlike the conventional conductors, the superconductors carry a current indefinitely without losing any energy. Some potential examples of superconductors are aluminium, niobium, magnesium dioxide, and cuprates such as yttrium barium copper oxide and also we can say iron pnictides. Mainly the superconductors are considered as powerful electromagnets which can accelerate charged particles very fast. By fats we mean almost as fast as the speed of light. There are Superconducting Quantum Interference Devices which are mainly implemented to detect the weakest magnetic field
Superconductivity simply states that there is no resistance or almost zero resistance in the material or any object. A material or an object that shows such properties is known as a superconductor. The conductivity referred to here is the electrical conductivity of a material. When the electrical conductivity is to the full potential facing almost too completely zero resistance in a material any of the magnetic flux fields are expelled from the material. Superconductors have applications in electronics, building magnets, aviation, transportation (trains which move in air without rails) and power transmission.
Therefore, the correct answer is option A, B, C and D.

Note:
Remember that the field where the superconductors can perform a lifesaving function is in the field of biomagnetism. In this field the doctors need a non-invasive way of determining what is going on inside the body of a human being. By implementing a strong superconductor which is derived from a magnetic field into the body, hydrogen atoms existing in the body's water and fat molecules are forced to accept energy from the implemented magnetic field.