Great video!! Thank you!

thank you so much for your amazing video series!

Great videos! Thanks!

Thank you again and again for whole video series

Christ! I was looking for this info about 5 hours! Very much grasias thankyou kiitos tackso mycker spasibo etcd

thanks for uploading

Your videos continue to be very useful to me, thank you very much for that ! But I can not understand the relationship between the "linear shape of the current" in an inductor (di/dt =V/L for the primary winding of a transformer for instance ) and the "exponential shape of the current" of a charging inductor in this video. These two type of inductors are charging inductors ; why their current shape is not the same ? Could you clarify this point a little bit ?

Thanks for info of PhET, a goldmin to students. I will check it out.

Very easy to understand

Your videos have been extremely helpful so far. One thing that I noticed that my teacher went straight for the formula derivation and said "you should have an idea on how this works with the previous knowledge you have anyway.". I think it's important to start with the logic behind it first. Formulas are very forgettable when you can't relate it to anything.

Beautiful Explanation

Why did you count t=1.5s? if I had a wave mentioned of 50Hz, would it become t=0.02s?

Hi, I truly enjoyed your 8 series of RL circuit analysis. By any chance do you now of any free online analog simulator? Thank again

Were in efficiency hier?

Very helpful sir but sir how we got the value of e = 2.7 ????

Got it.

Shout out to vin diesel for taking time off for physics 😂😂😂

No writing equations or solving differential equations? Not nice man

just one correction you cannot "charge" an inductor, there is no such thing as magnetic charge ... as far as we know magnetic monopoles do not exist and unlike electric charge on capacitors magnetic charge does not exist so you can only magnetize and demagnetize the inductor instead