Solve Physics Problem: Average Electrical Energy Dissipated

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The discussion revolves around solving a physics problem involving a circular loop of copper wire in a changing magnetic field. The user initially struggles to connect resistance, magnetic flux, and electrical energy, but is guided to apply Faraday's law to find the induced EMF. After calculating the average power dissipated in the wire's resistance, the user initially arrives at an incorrect energy value of 1.85 J. Upon further clarification, the correct approach involves using the equation E=Pt, where P represents average power and t is time. Ultimately, the user successfully resolves the problem with assistance from others in the thread.
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Hi, I am struggling with this physics problem:

A piece of copper wire is formed into a single circular loop of radius 11 cm. A magnetic field is oriented parallel to the normal to the loop, and it increases from 0 to 0.50 T in a time of 0.45 s. The wire has a resistance per unit length of 3.3 10-2 /m. What is the average electrical energy (in J) dissipated in the resistance of the wire.

I really don't know where to start in this problem. I can find the circum of the loop and area of the loop. But I'm not sure how to relate resistance, magentic flux, and electrical enery- any help would be appricated!

Thanks
 
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Faraday's law will allow you to calculate the induced EMF due to the changing magnetic flux through the loop of wire. Start there.
 
I found the EMF to be -.0422
(-NA delta B)/ delta t
where N= the number of loops
A = area
B= magnetic field
t= time
 
OK. What are the units of EMF?

Now treat the wire loop as a circuit. What's the average power dissipated in the resistance of the wire?
 
the units are V, so .0422 V

P= (V^2)/R (via P=IV and V=IR)

so I took P= (.0422^2)/.0228

The R came from the circum of the loop times the resistance per unit of length

The answer I got was 1.85 J, but this isn't the right answer-- is there something I'm missing?
 
osustudent2010 said:
the units are V, so .0422 V

P= (V^2)/R (via P=IV and V=IR)

so I took P= (.0422^2)/.0228
Looks OK. That's the average power. (What units?)

The R came from the circum of the loop times the resistance per unit of length
OK.

The answer I got was 1.85 J, but this isn't the right answer-- is there something I'm missing?
How did you get this answer?
 
I got it! I made a calculation error earlier

I got the answer by using this equation:
E=Pt

where P= equals the average power
t= time

THANKS so much for helping me through this problem, you are the best!
 

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