Maximun power delivered to a resistor

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The discussion revolves around calculating the maximum power delivered to a resistor using induced electromotive force (emf) and current through a power line. The initial attempt at a solution was criticized for incorrectly assuming a uniform magnetic field and miscalculating the resistance of the copper wire. Participants clarified that the cross-sectional area of the wire is essential for resistance calculations and noted that the wire type is specified as "#6 wire," which follows American Wire Gauge (AWG) standards. The resistance can be determined by looking up the specifications for #6 wire online. Understanding these concepts is crucial for accurately solving the problem.
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Homework Statement



Find the maximun possible power delivered to the resistor. Given current through a power line. And the length of the loop that will receive the induced emf.

Homework Equations



B= uo*I/2pi*ρ
Vemf= -d/dt ∫B*dS

The Attempt at a Solution



Here's my attempted solution:

img178.jpg

img181.jpg

I just need to know if the answer is correct.

Thanks a lot guys.
 
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Your emf calculation is not right. You have assumed the B field is everywhere the same inside the loop which it isn't.

You also badly miscalculated the resistance of the copper wire. The area is that of the wire's cross-section, not that of the loop!
 
Probably a stupid question, but how do I know the cross section area of wire if I'm not given the radius of the wire?
 
tadm123 said:
Probably a stupid question, but how do I know the cross section area of wire if I'm not given the radius of the wire?

It's not a stupid question it's a very good question.

You somehow need to compute the resistance of the entire loop and can do that if you're given (1) Cu resistivity, (2) length of loop (check) and (3) cross-sectional area of wire (not provided).
 
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Well I'm not very knowledgeable in wires and electronics. But all I was given in the problem was that it is a "#6 wire"

You know what does that mean? Is that some type of wire nowadays already manufactured with it's own specifications ?
 
tadm123 said:
Well I'm not very knowledgeable in wires and electronics. But all I was given in the problem was that it is a "#6 wire"

You know what does that mean? Is that some type of wire nowadays already manufactured with it's own specifications ?

That means AWG ("American Wire Gauge") #6 gauge wire. You can look up its resistance per foot or whatever on the Web.
 
I see, thanks a lot.
 

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