R=A/L (my other posts) and the FMMC meter measures conductance only in both series and parallel. Electrons 'pool' and this resists flow -- though possibly as many electrons pass a point as in a thin conductor due to numbers not speed.
In Hydraulics we know thin pipes cause faster flow yet in electricity we stuffed up this normal outcome. The meter only measures what is in its own coils at any time. Thus when it gives FSD the outer circuit is fat and short -- see? In parall. its direct. prop.
Well, it's not wrong, it's just not common. Hardly anyone uses hole flow - positive to negative, the standard is electron flow which it negative to positive.
R=A/L (my other posts) and the FMMC meter measures conductance only in both series and parallel. Electrons 'pool' and this resists flow -- though possibly as many electrons pass a point as in a thin conductor due to numbers not speed.
In Hydraulics we know thin pipes cause faster flow yet in electricity we stuffed up this normal outcome. The meter only measures what is in its own coils at any time. Thus when it gives FSD the outer circuit is fat and short -- see? In parall. its direct. prop.
inertialcapacity 2 years ago
Yeah, I noticed the direction of electrical flow and noticed the same thing. Wasn't it negative flows to positive?
shadowtitus 3 years ago
Well, it's not wrong, it's just not common. Hardly anyone uses hole flow - positive to negative, the standard is electron flow which it negative to positive.
muzebl 4 years ago 2
this is wrong the electrons come from the negative side of the battery and the positive side recieves it.
Jet2196 4 years ago 2