You just have to ignore the existence of electron flow. Conventional current flow is all that matters, and the only people who use electron flow are those who design integrated circuits and lunatics
It’s also useful to think of the “ground” plane as a sort of well of potential charger carriers that the conventional current model overlooks. Aside from simultaneously visualising what’s happening inside simple ICs like BJTs / MOSFETs and the circuit diagrams I’ve found it a useful way for checking for common mode noise in circuit and PCB design.
I guess this makes me a lunatic? Don’t know until we test it;
You just have to ignore the existence of electron flow. Conventional current flow is all that matters, and the only people who use electron flow are those who design integrated circuits and lunatics
And ignore magnetic fields completely?
You mean to tell me that there are people out there whose job it is to design lunatics?
That’s fucking awesome. Like a real-life comic book author.
Let’s eat grandma
You forgot science enthusiasts who are desperately trying to impress people.
They get lumped in with the lunatics
We don’t want 'em.
You mean the writers fpr “IFL Science”?
Yeah, we don’t want them. They’re idiots
Stupid meme sharing fuckers.
It’s also useful to think of the “ground” plane as a sort of well of potential charger carriers that the conventional current model overlooks. Aside from simultaneously visualising what’s happening inside simple ICs like BJTs / MOSFETs and the circuit diagrams I’ve found it a useful way for checking for common mode noise in circuit and PCB design.
I guess this makes me a lunatic? Don’t know until we test it;
Someone give me an
asylummakerspace to takeover!I…think I understand ground loops (audio) now.