In the classroom practice the notion of the magnetic vector potential is never introduced, both because it is not contained in secondary school textbooks and because teachers usually associate this concept with complex topics they dealt with in their university courses. In our experience instead, we have found that the introduction of the vector potential can be of great help in students\u2019 understanding of electromagnetism and modern physics topics. In this paper we will show how the use of the vector potential allows a phenomenological and consistent explanation of superconductivity at a level suitable for high school students. We will deal with the two main aspects of superconductivity: the resistivity of the superconductor that drops...
We present an educational path for the magnetic vector potential A aimed at undergraduate students a...
Electromagnetic phenomena offer a context in which students could address the investigation of the p...
The connection between the electric and magnetic fields is fundamental to our understanding of light...
In the classroom practice the notion of the magnetic vector potential is never introduced, both beca...
Superconductivity is a rich and complex topic that generates great interest and curiosity in high sc...
We describe the motivations and purposes, together with an educational reconstruction, for the effec...
The magnetic vector potential is traditionally presented only at university level and is widely cons...
University of Milan, Italy. Abstract Although the magnetic vector potential is currently treated at ...
As the number of high school students interested in modern physics is always increasing, the Univers...
As the number of high school students interested in modern physics is always increasing, the Univers...
We present an introduction to superconductivity that is intended to support the teaching and learnin...
Diploma represents superconductivity as the technology of the future and as an appeal to include it ...
Superconductivity is an important context in order to be introduced in the high school because it in...
The need for renewed physics curricula, it suggests to include topics of modern physics. The phenome...
The work of this thesis describes an educational path for the presentation of superconductivity at t...
We present an educational path for the magnetic vector potential A aimed at undergraduate students a...
Electromagnetic phenomena offer a context in which students could address the investigation of the p...
The connection between the electric and magnetic fields is fundamental to our understanding of light...
In the classroom practice the notion of the magnetic vector potential is never introduced, both beca...
Superconductivity is a rich and complex topic that generates great interest and curiosity in high sc...
We describe the motivations and purposes, together with an educational reconstruction, for the effec...
The magnetic vector potential is traditionally presented only at university level and is widely cons...
University of Milan, Italy. Abstract Although the magnetic vector potential is currently treated at ...
As the number of high school students interested in modern physics is always increasing, the Univers...
As the number of high school students interested in modern physics is always increasing, the Univers...
We present an introduction to superconductivity that is intended to support the teaching and learnin...
Diploma represents superconductivity as the technology of the future and as an appeal to include it ...
Superconductivity is an important context in order to be introduced in the high school because it in...
The need for renewed physics curricula, it suggests to include topics of modern physics. The phenome...
The work of this thesis describes an educational path for the presentation of superconductivity at t...
We present an educational path for the magnetic vector potential A aimed at undergraduate students a...
Electromagnetic phenomena offer a context in which students could address the investigation of the p...
The connection between the electric and magnetic fields is fundamental to our understanding of light...