Rotating Coil in Magnetic Field

AI Thread Summary
The discussion centers on calculating the magnetic field (B) using a search coil method, where a 61-turn coil with a resistance of 194Ω and an area of 44.5m² experiences a charge of 4.76E-4C as it rotates from perpendicular to parallel to the magnetic field. Participants explore the relationship between charge, current, resistance, and electromotive force (emf), emphasizing the need to apply Faraday's law correctly. The change in flux is determined by the angle of rotation, which is 90 degrees, while the area of the coil remains constant during rotation. There is confusion regarding the integration of these concepts and the correct application of the number of turns (N) in the equations. The conversation highlights the importance of understanding the interplay between charge, current, resistance, and magnetic flux in solving the problem.
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Homework Statement


[/B]
Magnetic field values are often determined by using a device known as a search coil. This technique depends on the measurement of the total charge passing through a coil in a time interval during which the magnetic flux linking the windings changes either because of the motion of the coil or because of a change in the value of B. As a specific example, calculate B when a 61-turn coil of resistance 194Ω and cross-sectional area 44.5m^2 produces the following results: A total charge of 4.76E-4C passes through the coil when it is rotated in a uniform field from a position where the plane of the coil is perpendicular to the field to a position where the coil's plane is parallel to the field.

Homework Equations


emf = -change in flux

The Attempt at a Solution



emf = -d/dt (integral of B dot dA)

The change in flux is from when the coil is perpendicular to the field to when the coil is parallel to the field. So 90 degrees. But I don't know how to get the change the in area, and how to use the charge and resistance.
 
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dukesolice said:
But I don't know how to get the change the in area, and how to use the charge and resistance.
The shape of the coil doesn't change as the coil rotates. So, the area of the coil remains constant.

You'll need to bring together several elementary concepts in this problem. How is charge related to current and time? How is current related to resistance and emf?
 
TSny said:
The shape of the coil doesn't change as the coil rotates. So, the area of the coil remains constant.

You'll need to bring together several elementary concepts in this problem. How is charge related to current and time? How is current related to resistance and emf?

Current is charge/time. Emf = current * resistance.
 
dukesolice said:
Current is charge/time. Emf = current * resistance.
OK. These relations along with Faraday's law give you everything you need.

Try combining them to get a relation between the total charge and the change of flux.
 
dukesolice said:

Homework Equations


emf = -change in flux
This is not correct. Faraday's law also involves time.
 
So now I have dQ/dt * R = -d(flux)/dt, so then I took integral of both sides and got NRQ = -BA, where N is number of coils, this gave me the wrong answer
 
dukesolice said:
So now I have dQ/dt * R = -d(flux)/dt,
OK, but should the number of turns, N, appear somewhere here?

so then I took integral of both sides and got NRQ = -BA, where N is number of coils, this gave me the wrong answer
Show the steps in getting to this result. Why does N appear on the left?
 

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