You're welcome. EM induction isn't hard as it sounds is it. Rest assured the examiners will come with some strange application for EM induction but the basics are always the same.
Why is an emf induced if the magnetic field is uniform & the plane has a constant velocity surely it will pass through the same number of field lines per second so there will be no change in flux or rate of change of flux & emf induced
Good point. I think it depends on which points you connect the voltmeter to measure the emf. For example in this video i connect the volmeter between two points right next to each other at the bottom. ruclips.net/video/4IGY-u75GWc/видео.html While in the example above the voltmeter is connected between the ends of the conductor.
bro u are my goat
You're welcome. EM induction isn't hard as it sounds is it.
Rest assured the examiners will come with some strange application for EM induction but the basics are always the same.
@@MrNagaPhysics LOL that example at the end of the video was really quite similar to one they did this year
Is this video the same as the one on your website?
no, the website isn't always up to date. This is a new version.
Why is an emf induced if the magnetic field is uniform & the plane has a constant velocity surely it will pass through the same number of field lines per second so there will be no change in flux or rate of change of flux & emf induced
Good point. I think it depends on which points you connect the voltmeter to measure the emf.
For example in this video i connect the volmeter between two points right next to each other at the bottom.
ruclips.net/video/4IGY-u75GWc/видео.html
While in the example above the voltmeter is connected between the ends of the conductor.