This was a very helpful video. Current and magnetic fields move perpendicular to each other is something that seems to always be missing from these types of videos. Everything makes more sense to me now.
It depends on which insulator you are talking about. In magnetism we should view materials in terms of how good they conduct magnetic flux and not electric current. For example copper is a good electrical conductor but a bad conductor of magnetic flux. Materials like iron or nickel are feromagentic which means they conduct magnetic flux very well. But air is bad at conducting magentic flux.
You're an absolute Legend, thanks for a brilliant explanation,
Thank you for lesson.
Thank you for lesson
You have made inductors so easy to understand
Thanks 🎉
Sir, you are highly competent and well equipped.
I had never understood inductors and capicitors this way before I watched you.
Keep doing it ❤
This was a very helpful video. Current and magnetic fields move perpendicular to each other is something that seems to always be missing from these types of videos. Everything makes more sense to me now.
That was great! Thank you. I hope you get to the AC inductors in your other videos like you mentioned.
❤❤❤
This is the best explanation I’ve got yet , thanks !!
I finally understand inductors thanks!
👏🏻
Hi the relativistic explanation is missing from the description and video link.
Can we get magnetism around an insulated coil when current is flowing?
It depends on which insulator you are talking about. In magnetism we should view materials in terms of how good they conduct magnetic flux and not electric current. For example copper is a good electrical conductor but a bad conductor of magnetic flux. Materials like iron or nickel are feromagentic which means they conduct magnetic flux very well. But air is bad at conducting magentic flux.
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