Joe, this is just phenomenal mate. Seriously; your knowledge is just beyond the norm. Thank you! Can you please do a video on mass, weight and acceleration including levers and their calculations.? Much appreciated! Regards
great video on showing Velocity and Length. What is missing is the change in Flux, you say "now we can see that the change in Flux will increase the E", but you don't show it, so that's my missing here. Thanks
Great presentation Joe, quick question ... how about the other way around? lets say you move a magnet through a copper coil? would that work? if so how would you calculate the Electromotive force in that case? thanks and keep up the good work.
Thanks very much. It's the exact same principle and formula, as long as there's relative movement between the conductor and the magnetic field it will work. 👍
Joe, I really love your videos. Can you help me create a different magnetic field, one that can be used to protect the astronauts in space travel. Just like the one that protects our earth. This could solve all their problems going to mars.
*Question* 🙋 For the conductor, doesn't the diameter of the wire affects the emf ? Why only considering the length, and not the total volume or mass of the conductor ? PS: I'm a simple web-developper.
Perfectly clear and, as with previous videos, explained in a way which makes it easy to grasp and understand the concept.
Thanks
Oh wow, thanks so much, that's really kind of you. 😊
Joe your videos are helping to understand a lot of electrical concepts. Thank you very much.
Brilliant ! This video explain this topic better.
Thanks very much!
Joe, this is just phenomenal mate. Seriously; your knowledge is just beyond the norm. Thank you! Can you please do a video on mass, weight and acceleration including levers and their calculations.? Much appreciated!
Regards
This video
has been some help 👍🏻
another great and useful video.
Amazing vid
😊
👍🏼👍🏼👍🏼
Joe, Where did you source your desk magnet? I'm at York College and I need one for classroom demos. Grateful for your response.
🙂 thanks 😊
My pleasure! 👍
Very useful. By the way what software you using to show your problem workout?
Cheers, it's a piece of software called Rage Art.
great video on showing Velocity and Length. What is missing is the change in Flux, you say "now we can see that the change in Flux will increase the E", but you don't show it, so that's my missing here. Thanks
Great presentation Joe,
quick question ... how about the other way around? lets say you move a magnet through a copper coil? would that work?
if so how would you calculate the Electromotive force in that case?
thanks and keep up the good work.
Thanks very much. It's the exact same principle and formula, as long as there's relative movement between the conductor and the magnetic field it will work. 👍
great video for beginner
Thanks very much for commenting! 😊
@@JoeRobinsonTraining keep it up and God bless you.
Joe, I really love your videos. Can you help me create a different magnetic field, one that can be used to protect the astronauts in space travel. Just like the one that protects our earth. This could solve all their problems going to mars.
*Question* 🙋
For the conductor, doesn't the diameter of the wire affects the emf ? Why only considering the length, and not the total volume or mass of the conductor ?
PS: I'm a simple web-developper.
I wish my 2365 course was as clear as you make it.
Ah, thanks. Having delivered it, clarity is what I aim for. 😊
FIRST!!!!!