A motor does have electrical energy. But what we are trying to find is - what is the force on a current carrying wire when it is placed in an external electromagnetic field. In this case, we just have a magnetic field and no external electrical field. Hence, E=0.
hello sir , i am currently 2nd year ece engineering. i am more interested in automotives EV 's. please guide me which courses should i learn or more concentrate on.
@Passionate Biker I get this question a lot. It is hard to explain everything here. I will be writing a LinkedIn post regarding this soon. I will share the link with you.
Excellent explanation and animation!
Great Sir .... You are so inspiring ..
Thanks
Great job 🎉👍
Good explanation
Keep watching
Hi sir, In the Lorentz force eqn how the E is removed since a motor has electrical energy?
A motor does have electrical energy. But what we are trying to find is - what is the force on a current carrying wire when it is placed in an external electromagnetic field. In this case, we just have a magnetic field and no external electrical field. Hence, E=0.
@@thesubcooledmind7910 how can work be done then since the force is perpendicular to the velocity and b field?
Great!
Very nice
hello sir ,
i am currently 2nd year ece engineering.
i am more interested in automotives EV 's. please guide me which courses should i learn or more concentrate on.
@Passionate Biker I get this question a lot. It is hard to explain everything here. I will be writing a LinkedIn post regarding this soon. I will share the link with you.
@@thesubcooledmind7910 sure bro....waiting for it!
@@thesubcooledmind7910 Could you please share this link with me as well?
Thank you
Hello,
Can you share the link with me as well?
Thank you