Yes, but the minimal bending radius would be far from impressive.
> Thats the point. we need a substance that is malleable(?) enough like copper wire that electrons can pass through.
So many assumptions here. Copper wire is but one form that is useful for energy transport. But superconductors don't need a lot of thickness and parallel layers of tape have enough flex in one dimension to be very useful. Usually they allow for complex routing by adding twists, like flatcable, but given the magnetic fields involved you don't want to do that in free space but firmly tied down to something (preferably something non-magnetic!).
> Pottery ceramic wont work like that.
Ceramics are a vast class of materials, which includes pottery ceramics but also many others which have a very large range and diversity of properties. They are essentially a whole branch on the tree of materials science that range from Tungsten Carbide to diamond to ordinary clay and a whole raft of others.
Yes, but the minimal bending radius would be far from impressive.
> Thats the point. we need a substance that is malleable(?) enough like copper wire that electrons can pass through.
So many assumptions here. Copper wire is but one form that is useful for energy transport. But superconductors don't need a lot of thickness and parallel layers of tape have enough flex in one dimension to be very useful. Usually they allow for complex routing by adding twists, like flatcable, but given the magnetic fields involved you don't want to do that in free space but firmly tied down to something (preferably something non-magnetic!).
> Pottery ceramic wont work like that.
Ceramics are a vast class of materials, which includes pottery ceramics but also many others which have a very large range and diversity of properties. They are essentially a whole branch on the tree of materials science that range from Tungsten Carbide to diamond to ordinary clay and a whole raft of others.