Magnitude and Direction of induced voltage

AI Thread Summary
The discussion centers on calculating the magnitude and direction of induced voltage in a physics electromagnetism problem. Participants clarify that the induced voltage can be found using the derivative of magnetic flux, and they discuss the application of Faraday's Law and Lenz's Law in determining the direction of current flow. The right-hand rule is suggested for understanding current direction, with one user concluding that the induced current flows counterclockwise due to a decreasing magnetic field. There is also a focus on calculating magnetic flux and the area involved, with a reminder that the variable y should not be included in the final answer. Overall, the conversation emphasizes the importance of correctly applying physics laws to solve the problem.
rzn972
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Homework Statement


Hey everyone I have a physics e&m question: [/B]
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Homework Equations

The Attempt at a Solution



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I took the derivative to find the magnitude of the induced voltage. (do I need to add a constant c?)
I am having trouble with the direction of the current flow though... Do I use the right hand rule?

Thanks![/B]
 

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rzn972 said:
I took the derivative to find the magnitude of the induced voltage. (do I need to add a constant c?)
I am having trouble with the direction of the current flow though... Do I use the right hand rule?
The constant "c" is usually either the speed of light in a vacuum or the constant of integration ... do either of these situation apply here?
The current flow is determined by the right hand rule in conjunction with a law of physics that applies to induced currents.
I'm puzzled you started at (c) ... did you do (a) and (b)?
 
4 a) Does the question ask for the magnetic (flux) ?

Oh, it should read the magnitude, not magnetic!

Shouldn't you use Faraday's law?
 
There might be a small gap in the lower right-hand part of the loop
 
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Likes Simon Bridge
Well spotted - there may well be.
 
Sorry! Yeah I meant magnitude.
 
Last edited:
Okay so the derivative of magnetic flux is the induced voltage. I am having trouble calculating flux. Flux = BA cos (theta). How do I get the area...?
 
What shape is the area in question?
 
  • #10
Ahh I forgot that they gave us the length of the square. I think I was able to get it.
13149837_10208152309959848_930633277_n_zpsdro9gsiq.jpg

Does this look right?
 
  • #11
in (c) and (d) the flux density is different in different parts of the square, how did you account for this?
(hint: the variable y should not be in your answer)
in (b) the question asks for the direction of the current
 
  • #12
For b) I say it is counterclockwise. My reasoning is that the field is decreasing as time passes (e^(-t)). The field will want to come out and the way to do that is for the induced current to flow counterclockwise.

I am not clear on c). Doesn't the y variable account for the different flux values for different y values?
 

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