Back to the oil drop experiment....

So they want to measure the Electron
In order to "measure the electron" it took some...filters..

So the velocity of a single drop of oil was isolated and measured
And then a single drop of oil that was charged with electricity was isolated and measured
And the difference in the ratio between the two was measured

Much like a Pyramid base (area) and cap (angles), the density of the material determines the radius of the oil drop

Imagine if we zoomed into the oil drop and it looked like the edge of a circle
The closer we zoomed in, the rougher and choppier, pixelated the edges would look at the atomic level
A Dense material needs a dense edge to keep it all ..bottled up inside...like a diamond as opposed to a grape
A smoother edge would indicate that it was much more....traffic moving slower....

Think of a city, the closer the buildings are together, the less room for cars to move
And the Edge of the city viewed from the outside would be smoother than a city with zoning more spread out
Sim City pay off

How many [Cube][S] are packed how closely together into a material, oil for example, as opposed to tar for the other test
Tar ...evolves shape slowly, because of so many densely packed built up [Cube] machine shapes interacting magnetic fields against one another, for the "part" to move it has to wait for traffic to start moving again. Way too many [Cube] mobiles on the highway today.
Make Cubes Great Again
In order to do that, you want the same area, but less cube volume, the cubes in an arrangement that allows their magnetic fields to be more spread out, whatever machine shapes that takes...

At terminal velocity, max fall speed, the drag force equals the gravitational force
As both forces depend on the radius in different ways, the radius of the droplet, and therefore the mass and gravitational force, could be determined (using the known density of the oil).
I don't get HOW the forces affect radius, but its ok
Onward