If you're saying that the carbs should be balanced to within x mmHg then sure the mercury matters, but again, that's only density. Maybe I'm not registering what you're saying. I'm a reasonably intelligent guy. Explain to me what I'm missing. Maybe it's do to something about this particular application that contributes to the communications gap.
Here's my figuring so tell me where I'm wrong.
A given column of fluid is supported by a given pressure. The force of pressure is equal to the weight of the column.
total force=weight
Total force of pressure is equal to the pressure (say in psi) x cross sectional area (I'll call it Ac)
Weight of the column of fluid is equal to density x volume. Volume is equal to the height x cross sectional area.
That gives us pressure x Ac = density x height x Ac
Ac on both sides of the equations cancels out. That's the math as I see it.
What do you mean "relative scaling factor"?
Here's a little something I found with a 2 second google search:
http://www.mne.psu.edu/cimbala/Learning/Fluid/Hydrostatics/applications.htmIt does mention some effects regarding surface tension on very small tubes, but I don't believe that's relevant here.