This guy knows how to teach, a very rare gift these days.

This is easily the best video on RL circuits on youtube

I needed this. What an excellent teacher. Please make more videos! I would like to see more basic AC circuits like this calculating RMS voltage across and through resistors.

ELI the ICE man. Outstanding instruction Dave!

i like your speed-ups. takes the boring out. great vids.

It so simple when you explain it. Thank you for saving me Dave!

Dave, you are an excellent instructor.

This is pure GOLD!! Glad I stumbled across it just surfing ...

Very well explained, one of the best videos I've seen so far!

Thank you. Your explanation unlocked all my concerns. Very simple and easy to understand.

You saved my skin the night before deadline, thanks. Very clear explanation.

Sir this is just owsome . I was struggling learning this topic but you made this so much exciting ....thank you ...God bless u ..lovely

This guy explains this stuff so simple.

These videos are so easy to follow

I'm in the US Navy learning to be an AT, thank you so much for this video, I have to do T5 tomorrow!

1:17 - two pie for life

You are saving my life

thank you very much ! I was stuck on this chapter

Excellent…. Thank you

You are amazing ❤

Awesome videos

Good job thecher 👏👏👏👏

Thank you !

Thanks so much !!!!

bro you are the best holy shitttt

Keep it up, Teach.

Thx Mr

This was perfect

Thank you sir

Mr Gordon we don't just plus'em" Me 🤯

Thankyou

Nice

If anyone could answer this I'd be eternally grateful. What I fail to understand is with this being an AC circuit, when he says that voltage and current on the resistor are in phase, wouldn't that only be true half of the time(on the pos or neg cycles depending on which side the resistor is on) or does the RMS conversion render that irrelevant? Just thinking about this, when current is flowing in a way that it hits the inductor first, wouldn't that throw the voltage and current out of phase for anything else that happens to be in series with it?

Hi good morning sir This is Mardorine writing from Cameroon. My question is if the value of the inductor or that of the active reactance was not given. How then will the inductance be calculated ? Given that the angle has been provided ?

SUGGESTION : When editing your video to speed up time, PUT THE VOLUME SETTING TO "0"

Cum aflam inductanta unei bobine? Mulțumesc!

My problem does not include the resistance of the resistor or the total voltage, I’ve been searching the Webb for hours trying to figure out how to solve this cursed problem.

where can i buy the hand calculator @5:12? ;)

It would be good if he showed how the impedances are actually complex numbers derived from ohms law for operation of resistor and inductor in steady state ac circuit. That would take the analysis to the theory that forms the basis for using Pythagoras to add the impedances together to get the current (the reference quantify in case of 2 components in series) via ohms law. I'm surprised he didn't calculate the phase angle of the applied voltage. He wanted the phase angle for the current derived from ohms law to be 0. He's doesn't want to get too theoretical but it puts meat on the bone so to speak in ac circuit analysis. If theory is to be avoided then the vertical component of impedance can be thought of as being derived from considering what effect does the inductor have on voltage drop when subjected to alternating current? Answer: the voltage drop sinusoidal leads the current sinusoidal by 90 degrees and so the impedance for inductor is vertical (in the up sense) relative to resistor's horizontal (in the to the right sense) impedance (no phase shift effect of resistor on voltage). In analysis of parallel circuit the voltage drop would be assigned as the reference sinusoidal quantity @ 0 degrees phase and so represented in the horizontal direction. But now the non-reference current sinusoidal quantity lags the reference quantity(voltage) and so the effect of inductor Impedance is still vertical but in the downward sense because current is derived from dividing voltage reference sinusoidal quantity by inductor Impedance. In summary In series ac circuit analysis (where current is the reference quantity @ 0 degree phase angle) the voltage leading effects of inductor prevail. In parallel ac circuit analysis (where voltage is the reference quantity @ 0 degree phase angle) the current lagging effects of the inductor prevail. So to recap what's be emphasized here is more of what may be in the practical / lab side of a college level course study of ac circuit analysis. The other side is the theoretical / lecture side of the course study that introduces the phasor approach (involves a look at ohms law with complex numbers and the representation in the complex plane) to which in turn is derived from analysis in the time domain. The phasor is a complex plane representation of just the phase and magnitude aspect of the sinusoidal quantities in the time domain. The only time frequency is considered is to calculate the magnitude of the impedance for capacitor and inductor.

Problem solved 😁😁