Just want to check if something like this is possible or figure out a way to create it. Cosmic scaled (our scale) values are the normal metric system: en.wikipedia.org/wiki/Metric_system Cosmic time: Second Cosmic length: Metre Cosmic mass: Kilogram etc... Atomic scaled values would be similar but all would be scaled to atomic values. Atomic time: AtoSecond Atomic length: AtoMetre Atomic mass: AtoKilogram etc... And for an quick example the speed of atomic nuclear forces propagating would be. ato-c = 299 792 458 atometres / 1 atosecond How would we scale them and come to constant values that match observations? Possible formulas examples for length: AtoMetre = 1Metre / c AtoMetre = 1Centimetre / c AtoMetre = 1Millimetre / c AtoMetre = 1Metre / h AtoMetre = 1Metre / ? Possible to do something like this?
Yes. But if you want to develop new standard units, you need to define operational methods to define your units. For example, if I want to know how long a second is, I can measure a defined particular number of atomic oscillations of a caesium atom using a number of different methods. If I want to know what a kilogram is, I can go to Paris and compare any given mass to the Standard Kilogram. The question is, what method would I use to determine that 1 AtoSecond of time has passed? Or that I have 1000 AtoKilograms of stuff?
A logical value to start with would be to define the atomic length to cosmic length first but how to do it, I dont know. A possible way would be to take a certain atomic spherical volume rescale it to cosmic sizes and use the number we use to scale it as a constant to define the Atometer. For example, if we scaled 1:299 792 458 then we would workout 1 Atometer = 1m / 299 792 458 What atomic object volume would be the most logical to scale up and have a significant meaning to a cosmic object volume? Another possible way would be to to use some microscope magnification/scale levels to workout a constant. I dont know much about the Golden number, the Golden Ratio, Golden Section, Golden Proportion, Golden Mean: 1.618...., but it would probably be interesting to investigate as a method to work out the volumetric scaled ratios en.wikipedia.org/wiki/Golden_ratio