Well. I don't see that it is so important. Another video made by an incompetent engineer, is unlikely to persuade me. A preponderance of mistakes only make things worse, really.
The flywheel on wheels is Goodman's cart. If you want to confuse it with something else because the difference is to subtle for you, then continue to bray. If you understood what I meant by system Q, then you would able make the distinction, but you don't.
I'm sorry if you said what you meant by system Q, but I missed it. I'm willing to learn. I assume you mean the Q of a system, but what the Q is, I don't know.
I tried to find out about it myself, but it's not an easy thing to google, especially as 'Q' gets caught by all sorts of
Questions about anything and everything. I tried 'mechanical measures q', 'physics quantity q' and suchlike, but I can't see the sort of thing you might be refering to.
I got some hits about geology, a few on quantum mechanics. Q is the quality factor of resonators in laser physics. 'Q-measurement theory' is something about the problem of representing real values, which are transcendental numbers, or continuous variables, on digital instruments (I think).
I found a synopsis, "Entropy measures going beyond Boltsmann-Shannon entropy are important in physics. This paper demonstrates the q- and k-entropies fit into a general theory based on measures of complexity. This depends on game theoretical considerations." but I'd have to log in to find out more (I flatter myself).
Q, also spelled
kyu, is apparently equal to about 0.71 typographical points, or
exactly 0.25 mm., which is nice. Q is also a unit of heat energy equal to one quintillion (1018)
Btu, 1000 quads, or about 1.055
zettajoules (ZJ). Warmish, unlike my search.
I give up. Would you tell me what Q is, please, or refer me to an earlier post or other web page?
