yogi said:
You can also arrive at a different set of so called fundamental units of time, space and mass by combining G and c with the electron charge rather than h. All of which leads one to wonder if this process is little more than cosmic numerology with no real physical significance
i think those are called "Stoney units" and had been defined before Planck. i think they had to also include the electron mass. you need 4 independent quantities to base 4 unit definitions on (length, time, mass, and charge). perhaps, now that i think of it, Stoney units normalize G, c, e, and 4 \pi \epsilon_0 and the electron mass is not in the mix.
my feeling is that Planck units (or a small adjusment to them, i think that normalizing 4 \pi G and \epsilon_0 makes more natural sense than normalizing G and 4 \pi \epsilon_0 as is done in Planck units) is more natural than any system that is based on properties of any object or particle or "thing". Planck units are defined based on the properties of the vacuum of space and not of any "thing" in that space. i don't think it's an accident of Nature that there are 3 fundamental dimensions of quantity (length, mass, time) of which 3 fundamental base units had been defined completely anthropocentrically (meter, kilogram, second) which are used to measure three fundamental dimensionful constants (G, c, \hbar) that are not properties of any "thing" in the universe only of the space of the universe itself.
then, given a natural unit of charge, you can ask what is the Fundamental charge in terms of that natural unit and the answer is the square root of the Fine-structure constant. and that actually makes a lot of sense since, in a physical system shorn of all dependence on anthropocentric units, \alpha is the strength of the E&M interaction of fundamental particles. double the charge of the electron, proton, positron (or the quarks that make up these particles) and you quadruple their relative EM force on each other. and likewise quadruple \alpha.
