A.
The number of protons
The number of electrons
The number of neutrons
The number of neutrons and protons
Siemens
Mhos
Ohms
1/Ohms
Mica
Paraffin
Porcelain
Oiled paper
The conductivity of the material for magnetic lines of force
The magnetization test in the material after exciting field has been removed
The strength of an electromagnet
The strength of the permanent magnet
deficit of electrons
excess of neutrons
excess of electrons
deficit of protons
Wien's displacement law
Hartleys law
Hall's law
Wiedemann Franz law
10^-3 Wb/m^2
10^-2 Wb/m^2
10^3 Wb/m^2
0.1 Wb/m^2
Low permeability
High permeability
High density
High retentivity
Field
Charge
Energy
Potential Difference
increases
decreases
remains the same
becomes zero
amber
Fire
Stone
Heat
Weber
Gauss
Gilbert
Tesla
North pole
South pole
Unit pole
Magnetic pole
Oiled paper
Mica
Paraffin
Tit anate compound
Directly proportional to
Inversely proportional to
Directly proportional to the square of
Inversely proportional to the square of
volts/meter
Newton/meter
Newton-meter
Amperes/meter
Electric potential
Electric charge
Electric current
Electric intensity
Magnetic flux
Magnetic flux density
Magnetic flux intensity
Magnetic potential
Michael Faraday
Andre Ampere
James Clerk Maxwell
Charles Coulomb
Carbon
Copper
Bismuth
Oxygen
directly proportional to
the sum of
inversely proportional to
the product of
Paramagnetic
Non- magnetic
Ferromagnetic
Diamagnetic
Tesia
Gilbert
Maxwell
Oersted
Glass
Oiled paper
Mica
Air
permeability
ferromagnetism
reluctance of core
hysteresis loss
Avionics
Aerotronics
Aerodynamics
Astrionics
Carbon
Bismuth
Copper
Oxygen
protons and electrons
neutrons and electrons
neutrons and positrons
atoms
The current flow through space around a permanent magnet
The force set up when current flows through a conductor
The force that drives current through a resistor
The force between the plates of a charged capacitor