Discussion Closed This discussion was created more than 6 months ago and has been closed. To start a new discussion with a link back to this one, click here.
Current due to induced charges in frequency study
Posted 23 mars 2015, 07:27 UTC−4 Low-Frequency Electromagnetics Version 5.0 5 Replies
Please login with a confirmed email address before reporting spam
Hi, I'm trying to find the currents (and resistive heating) in a metal object (e.g. a sphere) placed between a capacitor's plates, which has an AC current running through. The environment should be vacuum (i.e. conduction = 0).
As electric field induces a charge distribution in the studied object, an oscillating E field should induce a changing charge distribution, i.e. currents.
I tried to model this with the electric currents physic, but without specifying a potential in the object, the solution won't converge. I could use a floating potential BC on the objec's surface, but in that case I would have to leave out the insides of the object and I wouldn't get to study the currents inside it.
Any ideas how to solve this?
I also attached the model I currently tried; don't mind the magnetic field interface (Eventually I would like to couple that in also, but not right now.)
As electric field induces a charge distribution in the studied object, an oscillating E field should induce a changing charge distribution, i.e. currents.
I tried to model this with the electric currents physic, but without specifying a potential in the object, the solution won't converge. I could use a floating potential BC on the objec's surface, but in that case I would have to leave out the insides of the object and I wouldn't get to study the currents inside it.
Any ideas how to solve this?
I also attached the model I currently tried; don't mind the magnetic field interface (Eventually I would like to couple that in also, but not right now.)
Attachments:
5 Replies Last Post 26 mars 2015, 17:15 UTC−4