Top stuff. Cambridge scientists also created a new method of building up the electrical current (flux pumping) within the material that allows them to create the most powerful superconducting permanent magnets in the world, up to 17 tesla.
If I understood well, this is a way to developp friction-less bearings in vehicles and industries. WOW! this is good to reduce energy losses. I'm really excited to attend engineering then physics thereafter.
very useful and nice video..
danielperry12387 3 months ago
Top stuff. Cambridge scientists also created a new method of building up the electrical current (flux pumping) within the material that allows them to create the most powerful superconducting permanent magnets in the world, up to 17 tesla.
Flumstead 3 months ago
that was kinda interesting..
aseohosting 5 months ago
Take the red pill
TheSafecracker777 1 year ago
DAVID CARDWELL IS A VERY CLEVER MAN AND I WANT TO BE HIS APPRENTICE.
thebuilder86 1 year ago
If I understood well, this is a way to developp friction-less bearings in vehicles and industries. WOW! this is good to reduce energy losses. I'm really excited to attend engineering then physics thereafter.
kerebaka 1 year ago
nice demonstration
bemanos12345 1 year ago
I'm applying to Cambridge for graduate school for theoretical physics, however my field of interest is not condensed matter physics.
Zubinen 1 year ago
@Zubinen how random...
hydrolist1 1 year ago
@Zubinen thanks for that, we really care.
J123Junk123 1 year ago
ass always... another great vid from Cambridge....
interesting 8 minutes..
theweave2587 1 year ago
great stuff! thanks for the video.
itsabomberscope 1 year ago