Solving the Eddy Currents Problem with a Pivot Pendulum

Chris W
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Hi All!

I am working on the Eddy Currents problem.

I was to set up the problem and derive some equations for the pivot pendulum with Eddy currents.

Please see attachment.

As you see the pendulum swings between max point ( just outside the B field) and enters the B field and then reaches another max just outside the B field.

The B field is uniform and pointing in the "page"
Eddy currents are shown.

How to set it up.

I did researched the Wikipedia.com and other sources on the internet I checked the book and the class notes too.
I came to the conclusion that I need help!

Thanks again ... you guys are great!

Chris W

I hope this is enough to set up this problem. If you need dimensions like height and width or length, just use variables.

P.S. Please see the attachment for the FBD.
 

Attachments

  • Eddy Currnets.jpg
    Eddy Currnets.jpg
    9.7 KB · Views: 514
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what I could conclude so far is that:


when the pendulum makes that swing the area (A=w*h) of the bottom part of the pendulum is submerged in the B-field while swinging.

this can be explressed as dA/dt

vltage generated is = - n d\phi/dt

and d\phi is changing while the A is outside the B field the the magnetic flux is 0

when the pendulum make the swing and enters the B field the voltage generated is

EMF = - N d(BA)/dt


hmmm

I am stuck

any ideas?

please help

Thanks

Chris W
 
I think my question is related to the notes that I have.

Please see the attachment.

Chris W
 

Attachments

  • Motional EMF.jpg
    Motional EMF.jpg
    32.9 KB · Views: 495
hmmm anyone ??
any hints?
any ideas?
please... and thanks you
Chris W
 
Chris W said:
hmmm anyone ??
any hints?
any ideas?
please... and thanks you
Chris W

Hey Chris,

I don't think anyone can see your attachments yet, as they're still awaiting approval by the forum. Give it some time, and once people can review your attachments I think they'll help you out.
 
Fdb

Thanks guys.

Chris W


Basically it looks like this:
------>pivot point
|
_______________________________________
| / \ |
| X X / \ X X |<--------region of the B field
| / \ | pointing into the
| X 1 / X \ 2 X | screen X
| _/_ _\_ |
|X |__| X |__| X |
|_______________________ |




the pivot point of the pendulum is on the top

B field is uniform and constant

position 1 - the pendulum is outside the B field
(sorry the PBD don't show that, hard to do it here)
the eddy forces in the box on the bottom of the pendulum are counterclockwise
the Fm is pointing to the left
the v is pointing to the right


position 2 - the pendulum is outside the B field again on the another side
(sorry the FDB don't show it that this is the case - but you can imagine what is going on)
The eddy forces in the box on the bottom of the pendulum are clockwise
the Fm is pointing to the left
the v is pointing to the right

the box on the bottom of the pendulum has dimensions W*H

If this won't help I guess we have to wait till the attachment will be available

but thanks again

Chris W
 
man... this won't work ...

sorry I was trying to make a FDB using keyboard... all is massed up!

let's wait!

thanks
 
oh... I think the attachment are available now!
just on time!
 


Chris W said:
Thanks guys.

Chris W


Basically it looks like this:
------>pivot point
|
_______________________________________
| / \ |
| X X / \ X X |<--------region of the B field
| / \ | pointing into the
| X 1 / X \ 2 X | screen X
| _/_ _\_ |
|X |__| X |__| X |
|_______________________ |




the pivot point of the pendulum is on the top

B field is uniform and constant

position 1 - the pendulum is outside the B field
(sorry the PBD don't show that, hard to do it here)
the eddy forces in the box on the bottom of the pendulum are counterclockwise
the Fm is pointing to the left
the v is pointing to the right


position 2 - the pendulum is outside the B field again on the another side
(sorry the FDB don't show it that this is the case - but you can imagine what is going on)
The eddy forces in the box on the bottom of the pendulum are clockwise
the Fm is pointing to the left
the v is pointing to the right

the box on the bottom of the pendulum has dimensions W*H

If this won't help I guess we have to wait till the attachment will be available

but thanks again

Chris W


I hope you can see the attachments

now you can see what I was trying to "draw" using the keyboard... lol
 
  • #10
hmmmm... can you see the attachments?

the FDB for the problem is drawn by hand.

the class notes attachment is something that I think is needed to set up the problem

I don't have to solve .

just set up the equations

please ... I need help here

thanks

Chris W
 
  • #11
Hi guys.

First off I would like to say thanks for the help that I got from all of you!
you guys rock!

as for the Eddy current problem... hmmmm

I don't know why one is it.?
is this problem that hard? hmmm wow ....(I didn't expect it!)
or the explanation is bad?

please let me know so I know what is going on.
THANKS

CHRIS W
 
  • #12
I guess the explanation is bad.I don't get your question at all friend.Please bit be a bit more clear by what you mean by 'setting it up'?
 
  • #13
the pendulum will experience the damping force due to the B field.

I was wondering how to set up the equation for this problem.

the effect of the damping force can be seen on this video.




thank you

Chris W
 
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