Thanks for the comment. Although this video had the purpose to show the qualitative relation between induced Eddy currents and material thickness in the same material, this is a good idea. I have never done this experiment with graphite or carbon composite materials (which are typically non-conductive). But if the material is an electrical conductor it should work. Probably the damping force due to the induced Eddy currents may also depend on the degree of anisotropy of the material (metals are typically isotropic for what concerns their electrical properties while graphite or carbon composite materials are not).
😊Pls change to carbon fiber disc. Carbon fiber is conductive too. Video have? Will it slow down too?
❤do u have any video demo of changing to An Carbon fiber disc/ Graphite disc / Graphine disc & which one will brake the Fastest.!!😊
Thanks for the comment. Although this video had the purpose to show the qualitative relation between induced Eddy currents and material thickness in the same material, this is a good idea. I have never done this experiment with graphite or carbon composite materials (which are typically non-conductive). But if the material is an electrical conductor it should work. Probably the damping force due to the induced Eddy currents may also depend on the degree of anisotropy of the material (metals are typically isotropic for what concerns their electrical properties while graphite or carbon composite materials are not).
Quanto vorrei avere un laboratorio come il tuo ahah
Che bello trovare gente che condivida le tue stesse passioni!!!!!