Farad!

A farad has the base SI representation of: s⁴ × A² × m⁻² × kg⁻¹

Decoding this one is tough. Seconds, amps, mass, meters, all of them fake units. What is going to be left when I am done?

In practical terms, the ampere is a measure of the amount of electric charge passing a point in an electric circuit per unit time, with 6.241×10¹⁸ electrons (or one coulomb) per second constituting one ampere.^[6]

Why didn't they just cancel the time in amps?

The definition of the capacitance of free space:

ε₀ = 8.854 187 817... x 10⁻¹² [F/m] (farads per meter).

So the ampere  is 6.241e18 electron phase things for each one of those time things.  We know one phase thing is 30 degrees of the proton mixing angle for the electron wave number. So they got a square of those, per some unit of time we will call the constant N.

That leaves us with two of those time things once we cancel.

We got a volt! That is a unit of energy per unit charge. Why do we need the volt? Not sure, but I dragged it in because there is that mass thing, so someone of moving something. We have a square of time things on top and it looks like some bubble cubed on the bottom.  So it looks like we are left with a phase gradient on top and nulls on the bottom with a constant multiplier.

Now we have to figure out if they are using exponents of digits. But, in the end, they want to know the phase gradient that free space can hold, they want the Higgs limit when the exchanges are zero.

But, that is not likely what they really want, they really want an exponent, I am sure. Also I see they went and did a limit to zero as they are talking a point. We will get into the real numbers later.

My guess is that the same number got mixed in both permittivity and admittivity and got canceled, leaving space impedance as simply the mixing angle times the electron wave, as a digit, not an exponent.