Hello your lectures are amazing and very useful infact I am preparing for my board exams by watching your videos Before I used to feel very much difficulty in physics but now physics turned to my favourite subject Thank you so much
Hey Andrey, thanks for your awsome lectures. Shouldn't the initial theta be 90 degrees according to the picture on the board. If so, wouldn't it mean that the current should alter according to a cosinus fation rather the a sinus as you have written?
Nice explanation, thanks for that.
I'm grateful for your videos. Thank you very much sir!
Thank you so much for these, they're extremely well done and clear. My #1 resource for video explanations.
Hello
your lectures are amazing
and very useful
infact I am preparing for my board exams by watching your videos
Before I used to feel very much difficulty in physics
but now physics turned to my favourite subject
Thank you so much
Hey Andrey,
thanks for your awsome lectures.
Shouldn't the initial theta be 90 degrees according to the picture on the board. If so, wouldn't it mean that the current should alter according to a cosinus fation rather the a sinus as you have written?
How did he get from differentiating the emf to the emf itself in the last few steps? Does the emf differentiate to itself then?
What were your bounds for integration?
its an indefinite integral, thus he had to include a constant (omega nought) that he set to zero.
i need a translation (Arabic)