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A list of all pages that have property "Description" with value "'''Current''' or electric [[flow]] ''I''el is the [[advancement]] of [[charge]] per unit of time, expressed in the SI base unit [[ampere]] [C·s-1 = A]. Electrons or ions are the current-carrying [[motive entity |motive entities]] of electric flow. Electrons e- are negatively charged subatomic particles carrying 'negative electricity' with a mass that is about 1/1700 of the smallest particle — the proton — carrying 'positive electricity' (Thompson 1906). Correspondingly the [[velocity]] of electrons is much higher than that of protons or any other (larger) ion. Current is the velocity ''v'' of paticles times the number of motive charges. Therefore, electron current ''I''e- is of a different nature from electric current ''I''el''χ'' carried by all species ''i'' of ions ''Xi'' (cations and anions) summarized as ''χ'' = Σ(''zi''·''Xi''). Whereas ''I''e- is the net translocation of electrons moving forwards and backwards, ''I''el''χ'' is the net translocation of charges carried by different cations and anions. In contrast, ion current ''I''elX of a specific ion X is the partial translocation of charges carried by net translocation of ion X only. If cation current ''I''elX+ is antagonized entirely by counterion current ''I''elY- as the process of antiport, then the electric current ''I''el''χ'' is zero. The (net) electric current in a compartmental system is driven by the electric force Δel''F''p+ or electric potential difference Δ''Ψ''p+, whereas a compensated ion/counterion antiport current is insensitive to the electric potential difference.". Since there have been only a few results, also nearby values are displayed.

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Electric current + ('''Current''' or electric [[flow]] … '''Current''' or electric [[flow]] ''I''el is the [[advancement]] of [[charge]] per unit of time, expressed in the SI base unit [[ampere]] [C·s-1 = A]. Electrons or ions are the current-carrying [[motive entity |motive entities]] of electric flow. Electrons e- are negatively charged subatomic particles carrying 'negative electricity' with a mass that is about 1/1700 of the smallest particle — the proton — carrying 'positive electricity' (Thompson 1906). Correspondingly the [[velocity]] of electrons is much higher than that of protons or any other (larger) ion. Current is the velocity ''v'' of paticles times the number of motive charges. Therefore, electron current ''I''e- is of a different nature from electric current ''I''el''χ'' carried by all species ''i'' of ions ''Xi'' (cations and anions) summarized as ''χ'' = Σ(''zi''·''Xi''). Whereas ''I''e- is the net translocation of electrons moving forwards and backwards, ''I''el''χ'' is the net translocation of charges carried by different cations and anions. In contrast, ion current ''I''elX of a specific ion X is the partial translocation of charges carried by net translocation of ion X only. If cation current ''I''elX+ is antagonized entirely by counterion current ''I''elY- as the process of antiport, then the electric current ''I''el''χ'' is zero. The (net) electric current in a compartmental system is driven by the electric force Δel''F''p+ or electric potential difference Δ''Ψ''p+, whereas a compensated ion/counterion antiport current is insensitive to the electric potential difference.tal system is driven by the electric force Δel''F''p+ or electric potential difference Δ''Ψ''p+, whereas a compensated ion/counterion antiport current is insensitive to the electric potential difference.)

Electric current +