Thank you!

Awesome, thank you!

Yes I like how he explains this too

Awesome, thank you!

Glad you found it insightful. Thank you for watching

Correct me if I'm wrong, but can DC current also change in magnitude?

Indeed, you're right. DC current can change in magnitude, but when we refer to 'DC', we usually mean a constant, unchanging value. It's when DC is first applied or removed (transient states) that you might see changes in current magnitude, during which an inductor would still resist that change. But once the DC current stabilizes, the voltage across an ideal inductor becomes zero @@palmshade1489

Thank you! Will do!

Can you make a similar video about capacitors please

Can you explain why current lags in an inductor?

Hi, Yes we are working on a video about capacitor voltage and current. Stay tuned! @@Miketrack101

When voltage is applied to an inductor, it creates a changing magnetic field. This changing field induces a voltage that opposes the original change in current (due to Lenz's law). As a result, the current doesn't instantly rise to its maximum value but gradually increases, causing it to "lag" behind the voltage. In essence, the inductor resists sudden changes in current, leading to this lagging behavior@@AnastasiaGrot

Thanks for the suggestion! We'll consider diving into Icap = C * dV/d​ in a future video. Stay tuned!

Agreed!

Yes please, I'm looking for a similar video