superconductivity |
underdope |
In physics terms the difference between superconductivity and underdope
is that
superconductivity is the property of a material whereby it has no resistance to the flow of an electric current while
underdope is to dope at less than the optimal level for superconductivity.
As a noun superconductivity
is the property of a material whereby it has no resistance to the flow of an electric current.
As a verb underdope is
to dope at less than the optimal level for superconductivity.
superconductivity |
cryoelectroncs |
In physics|lang=en terms the difference between superconductivity and cryoelectroncs
is that
superconductivity is (physics) the property of a material whereby it has no resistance to the flow of an electric current while
cryoelectroncs is (physics) the study of the behaviour of electrons in materials at very low temperatures; especially the study of superconductivity.
As nouns the difference between superconductivity and cryoelectroncs
is that
superconductivity is (physics) the property of a material whereby it has no resistance to the flow of an electric current while
cryoelectroncs is (physics) the study of the behaviour of electrons in materials at very low temperatures; especially the study of superconductivity.
superconductivity |
superconduct |
As a noun superconductivity
is (physics) the property of a material whereby it has no resistance to the flow of an electric current.
As a verb superconduct is
to exhibit superconductivity.
superconductivity |
cryoelectronics |
As nouns the difference between superconductivity and cryoelectronics
is that
superconductivity is (physics) the property of a material whereby it has no resistance to the flow of an electric current while
cryoelectronics is the study, design and manufacture of electronic components that function at low temperatures; especially those that employ superconductivity.
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