How is the Couple Acting on a Coil in a Galvanometer Represented?

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Homework Help Overview

The problem involves a square coil situated in a uniform horizontal magnetic field, exploring the couple acting on the coil when a current flows through it. The original poster seeks to understand the representation of this couple and how the arrangement is modified in moving-coil galvanometers.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the meaning of "couple" and its representation in the context of the problem. Questions arise about the relationship between the angle of the coil and the torque acting on it. There is also exploration of how the magnetic field configuration affects the driving torque.

Discussion Status

Participants are actively questioning the definitions and relationships involved in the problem. Some have offered expressions for torque and discussed modifications to the magnetic field in practical applications. Multiple interpretations of the problem setup are being explored.

Contextual Notes

There is uncertainty regarding the definitions and implications of the terms used, particularly "couple" and its effects on the coil's behavior. The discussion also touches on the differences between theoretical and practical configurations of magnetic fields in galvanometers.

moenste
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Homework Statement


A square coil of side a and consisting of N turns is free to rotate about a vertical axis through the mid-points of two opposite sides. It is situated in a uniform horizontal magnetic field of flux density B so that the plane of the coil makes an angle θ with the field. Draw a diagram of his arrangement as seen from above and show the couple acting on the coil when a current I flows through it. Write down an expression for the magnitude of this couple.

Explain how and why this simple arrangement is modified in most moving-coil galvanometers.

2. The attempt at a solution
I think this should be the correct representation of the problem:

1540.jpg


Though I don't quite understand what "couple" means. What does "show the couple acting on the coil" mean?
 
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moenste said:
I think this should be the correct representation of the problem:

1540.jpg
Yes.
moenste said:
Though I don't quite understand what "couple" means.
https://en.m.wikipedia.org/wiki/Couple_(mechanics)
moenste said:
Explain how and why this simple arrangemen is modified in most moving-coil galvanometers.
What can you say about the angle between the coil and the magnetic field as the coil rotates? How is that related to the torque acting on the coil?
 
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cnh1995 said:
Yes.

https://en.m.wikipedia.org/wiki/Couple_(mechanics)

What can you say about the angle between the coil and the magnetic field as the coil rotates? How is that related to the torque acting on the coil?
So couple is the couple of forces which move in different directions on the graph?

T = B I a N -- an expression for the magnitude of this couple? (T = torque, B = field, I = current, a = coil side, N = number of turns.)

Well, the coil rotates with the arrow on it. So the angle decreases or increases depending on (?) current going through the magnet? Current increases and so the torque increases and the other way around (?).
 
moenste said:
T = B I a N*sinθ
You can see that the driving torque varies with the angle if the magnetic field is horizontal. To have an almost constant driving torque, the magnetic field is made radial by providing a curvature to the magnetic poles.
 
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cnh1995 said:
You can see that the driving torque varies with the angle if the magnetic field is horizontal. To have an almost constant driving torque, the magnetic field is made radial by providing a curvature to the magnetic poles.
You mean that in the problem we had to draw not circled poles of the magnet but just regular ones (squared).

And in real life the magnet is modified to the one in the drawing, to make the magnetic field radial, right?
 
moenste said:
You mean that in the problem we had to draw not circled poles of the magnet but just regular ones (squared).

And in real life the magnet is modified to the one in the drawing, to make the magnetic field radial, right?
Yes.
 
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