The Action Lab: Superconductors are soft magnets, Webers, Magnetic Flux Quantum, Electrons, Electron Charge

The Action Lab: Does The Weight Increase When You Levitate a Superconductor on a Scale? at https://www.youtube.com/watch?v=uR35VTWmdYg

Does the magnetic field transmit force?  Watts*Time = Joules = Volts*Coulombs

Newtons*Meters = Joules = Volts*Coulombs

Newtons = Joules/Meter = (Volts/Meter)*Coulombs

Put the superconductor on a copper plate, and cool the plate with liquid nitrogen to cool the superconductor. Put a copper heat conductor in the wall of the container cooled with liquid nitrogen from the outside. No nitrogen directly on the superconductor. The magnetic support field is coupled to the superconductor, with a viscous force. Use a source of periodic force to heat the superconductor. If the superconductor is externally cooled, it will run as long as you provide cooling to make up for the work done on the superconductor by motion.

Power = Force*Velocity = Energy/Time.
Watts = Newtons*Meters/Seconds = Joules/Second.

Power_Watts = Force_Newtons*Displacement_Meters/Time_Seconds

SuperConductors are soft weak magnets? A permanent magnetic is a room temperature superconductor – of heat, stress, energy, power? A ferromagnet keeps it magnetism. A paramagnet loses it magnetism when you remove the field.

The magnetic field is “something”. It has viscosity that metals can feel. It is electrons? Is it photons? Is it magnetons?

MagneticFluxQuantum0 = h/(2*e) = 2.067833848E-15 Webers

“e” = ElectronCharge = 1.602176634E-19 Coulombs

Tesla = Webers/meter^2.
Volt = Weber/Second
Weber = Volt*Second
Volts = Energy_Joules/ElectronCharge_Coulombs
Volts = Joules/e

Tesla = Volts*Sec/Meter^s

Joules = Volts*Coulombs = Volts*ElectronCharge
Weber = Volts*Seconds
MagneticFlux_Weber = PotentialEnergy_Volts*Time_Seconds

Watts = Joules/Second
Watts = (Volts)*(Coulombs)/Second
Watts = (Weber/Second) * (Coulomb/Second)
Watts = (Weber/Second) * Amperes

Electrons/Second = Amperes/ElectronCharge

Watts = (Weber/Second) * (Electrons/Second) * ElectronCharge

Webers = MagneticFluxQuantums_Number * MagneticFluxQuantum0_Webers

Webers = MFQs/MFQ0

Watts = (( MFQs/MFQ0)/Second) * (Electrons/Second) * ElectronCharge

Watts = (MFQs/Second) * (Electrons/Second) * (ElectronCharge/MFQ0)

Power_Watts is (Number_MagneticFluxQuantums per second) times (Number_Electrons per second) times (ElectronCharge/MFQ0)

(ElectronCharge/MFQ0) = e/[h/(2*e)]

(ElectronCharge/MFQ0) = (2*e^2)/[h]

(ElectronCharge/MFQ0) = (2*e^2)/PlancksConstant

Richard Collins, The Internet Foundation