Derek from The Current Source (TCS), neat! Ohm's law in the world of AC... from ... uhm not quite DC... though throughout VLF to Daylight next considering phase and/or frequency? A few weeks back I finally think I had that moment where I understand (at least can visualize what happens graphically and signals wise) reluctance and inductance or magnetic resistance as well as reactance and capacitance/inductance with the graphing of the voltage and current to see the effects on the phase. Really have to sit down where I've not comically quite yet observed the development of like the resistance-reluctance model vs the reactance or capacitance-permeance model. I didn't get to reviewing impedance the same way outside of the math or at least doing the math myself and graphing or testing to see the effects. The oscilloscope visuals of potential and current really help for me comprehending more since I'm not doing the math routinely. Seems this table can be updated a little more with some more metrics: en.wikipedia.org/wiki/Magnetic_circuit#Summary_of_analogy
Don’t tell anyone else 😉, but I’ve got some AC in the pipeline coming soon. I’ll have to gloss over some things, as the topic is huge, but it’ll cover core concepts. No shortage of material for sure when it comes to AC!
Love the Episode :D i hope you also can talk about how + and - relationship to each other in a circuit aswell, if i remember that as long as it has load or multiple loads you dont blow the battery, in a way you manipulation + to go true stuff like led diode etc but never collides with - un-less it has a load beween it? :D i think its similar with AC Power Too? connect L and N and fuse goes-Off, But Connect L and N With Load Betwen it(Light Bulp) or Other that can handle Heat like WolFramSteel Heater, fuse dont go off? Ohms Law is nice for see what the Fuse cirtcuit in hous can handle like 230V and 10A Fuse so theory can handle 2300W but generallt stay around 2000W since heat Creeps in the wire :D
whaaaaaat we have a new series! awesome!!
Hehe. Surprise!
@@AmRadPodcast I saw the thumbnail in my feed and thought "oh hello, I recognise you!" 😸
Love the amount of work you have put into this video. Thankyou
Great content for the new slot!
Very good video. And even better t-shirt. Or vice-versa.
From a calculus perspective, R is the slope of the V/I curve where V/I is the rise over run.
Derek from The Current Source (TCS), neat! Ohm's law in the world of AC... from ... uhm not quite DC... though throughout VLF to Daylight next considering phase and/or frequency? A few weeks back I finally think I had that moment where I understand (at least can visualize what happens graphically and signals wise) reluctance and inductance or magnetic resistance as well as reactance and capacitance/inductance with the graphing of the voltage and current to see the effects on the phase. Really have to sit down where I've not comically quite yet observed the development of like the resistance-reluctance model vs the reactance or capacitance-permeance model. I didn't get to reviewing impedance the same way outside of the math or at least doing the math myself and graphing or testing to see the effects. The oscilloscope visuals of potential and current really help for me comprehending more since I'm not doing the math routinely. Seems this table can be updated a little more with some more metrics: en.wikipedia.org/wiki/Magnetic_circuit#Summary_of_analogy
Don’t tell anyone else 😉, but I’ve got some AC in the pipeline coming soon. I’ll have to gloss over some things, as the topic is huge, but it’ll cover core concepts. No shortage of material for sure when it comes to AC!
Looking more videos.
Because I need to learn hardware because I am hardware engineer.
Cool channel just subscribed love this stuff👍👍💥
this is the kind of content youtube needs! thank you!
i still remember it with the circles(pie diagrams)
Love the Episode :D
i hope you also can talk about how + and - relationship to each other in a circuit aswell, if i remember that as long as it has load or multiple loads you dont blow the battery, in a way you manipulation + to go true stuff like led diode etc but never collides with - un-less it has a load beween it? :D
i think its similar with AC Power Too?
connect L and N and fuse goes-Off, But Connect L and N With Load Betwen it(Light Bulp) or Other that can handle Heat like WolFramSteel Heater, fuse dont go off?
Ohms Law is nice for see what the Fuse cirtcuit in hous can handle like 230V and 10A Fuse so theory can handle 2300W but generallt stay around 2000W since heat Creeps in the wire :D
what's dr. ohm trying to say behind you?