Magnetic Field - Torque on a Current Loop

AI Thread Summary
A circular coil with 720 turns and an area of 0.6 m² is subjected to a uniform magnetic field of 0.63 T, resulting in a maximum torque of 0.0026 N·m. To find the current in the coil, the equation T = IABn was used, yielding a correct answer. The discussion then shifted to calculating the current for a single-turn coil with a larger area while maintaining the same torque. The correct approach involved recognizing that the new area is proportional to the square of the number of turns, leading to the accurate calculation of torque. The final solution confirmed that the adjusted area formula provided the correct current value.
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Homework Statement



A circular coil of 720 turns and area 0.6 m^2 is in a uniform magnetic field of 0.63 T. The maximum torque exerted on the coil by the field is 0.0026 N · m.

a) Calculate the current in the coil.

b) Assume the 720 turns of wire are used to form a single-turn coil with the same shape but much larger area. What is the current if the maximum torque exerted on the coil by the field is 0.0026 N · m?

NOTE: Sigfigs do not matter

Homework Equations



T = IABn

The Attempt at a Solution



Part A:
I solved by substitution using the equation T = IABn, getting T = 9.5532e-6 N · m (answer is correct)

Part B:
This is the part I'm having trouble with. I thought I could fine the new Area doing the following (I'm sure this approach is wrong):

.6 = pi*r^2, r*720 = 314.7
A = pi*314.7^2, plugging in the new area into T = IAB gives the wrong answer.

I'd be very grateful for any help.
 
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I got 1.32644e-8 N-m
 
rl.bhat said:
I got 1.32644e-8 N-m
yeah, Thanks. I got the same answer or thereabouts.

After some algebra (and some help) I found that the new area A2 = (n^2)*A1.

Plugging that into T = IAB gives the correct answer.
 
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