I figure it's fair enough, since this is a great but not free book, to drop https://www.allaboutcircuits.com/ - a truly amazing, and in my opinion extraordinarily well written and organized free learning resource.
It's a labor of love and a great reference to go back to, but I wouldn't recommend it for newcomers.
Traditional books benefit from having an editor who (ideally) asks questions like "who are you writing for", "what's the best order to introduce ideas", and "how much detail is enough". If you don't ask these questions, you often end up getting too deep into the weeds or jumping back and forth between ideas in ways that can be difficult to follow. To give you a specific example, the guide spends a lot of time on some of the more obscure theories in DC network analysis before even defining what a battery is, capacitors and inductors are explained in the DC section by focusing on their AC characteristics, there is a ton of unnecessary quantum physics trivia ahead of explaining what a diode is, discussion of op-amps kicks off with an odd reference to calculus, etc.
Again, I don't mean that as a criticism, it's just that (properly edited) books have their merits.
I think you make excellent points and can't see anything I don't agree with. For me, there's no substitute for a proper book, especially being a bit of an eccentric learner.
But certainly AAC could be a brilliant supplementary resource.
It had a wonderful kit where you would use screws in a board so you could see every wire path. Much easier to explain than modern breadboards
Specifically https://www.allaboutcircuits.com/textbook/
Traditional books benefit from having an editor who (ideally) asks questions like "who are you writing for", "what's the best order to introduce ideas", and "how much detail is enough". If you don't ask these questions, you often end up getting too deep into the weeds or jumping back and forth between ideas in ways that can be difficult to follow. To give you a specific example, the guide spends a lot of time on some of the more obscure theories in DC network analysis before even defining what a battery is, capacitors and inductors are explained in the DC section by focusing on their AC characteristics, there is a ton of unnecessary quantum physics trivia ahead of explaining what a diode is, discussion of op-amps kicks off with an odd reference to calculus, etc.
Again, I don't mean that as a criticism, it's just that (properly edited) books have their merits.
But certainly AAC could be a brilliant supplementary resource.