Well I've never heard of it called amplifier control theory, but of course feedback is a form of process control that contains the same basic control components. Also some audio amps do also utilize a DC servo loop to force out any DC offset in direct coupled push pull output devices.
However you stated serious analysis and I don't think one could do justice without the understanding and use of the math that models it. One can certainly utilize existing designs and play around with values or try and scale the power up or down.
There are several OP amp application manuals by most manufactures that cover just about all applications for control schemes and can help ones understanding without too much deep math.
A circuit simulator might help. You can simulate full fledged circuits in a simulator and view the voltage/currents using as complicated an algorythm as you want. Feedback for the brain to understand the circuit in question. You can have an input graph in one window, and output graph in the other swap parts around and view things pretty much any way you want.
Chaos theory by it's nature can't be simplified. It's in fact the other way around, start out simple and it gets more complex, that's what it's basic tenants are. How exactly that applies to this post I don't know.
Chaos theory by it's nature can't be simplified. It's in fact the other way around, start out simple and it gets more complex, that's what it's basic tenants are. How exactly that applies to this post I don't know.
I will not pass judgment since I have not reviewed chaos theory. But I would go to the source of the chaos theory tenants, not wikipedia. Wikipedia is pretty useful, should not replace a good book. After all, it is populated with user definitions that can be wrong altogether, opinionated, or misguided.