Solving a Magnetic Field Problem with Torques: Step-by-Step Guide

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Homework Help Overview

The discussion revolves around a problem involving magnetic fields and torques, specifically related to a cylinder in a magnetic field. The original poster seeks assistance in understanding how to approach the problem, which involves calculating the current needed to achieve a specific torque.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • The original poster attempts to apply torque concepts but expresses confusion about the cancellation of forces. Participants question the torque-producing forces acting on the cylinder and seek clarification on the variables used in the torque equation.

Discussion Status

Participants are actively engaging with the problem, asking for clarification on the torque equation and the forces involved. There is a focus on understanding the conditions for equilibrium and the specific contributions of different forces to the torque.

Contextual Notes

There is mention of a diagram that may be incomplete, which could affect the understanding of the problem setup. The original poster notes that part of the magnetic field notation was cut off, potentially leading to confusion in the discussion.

Tom McCurdy
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The Magnetic Field--HELP

I was hoping someone could help me on the following problem.

http://www.quantumninja.com/hw/question.jpg

I tried doing it with torques but nothing canceled out. The answer is supose to be 1.63A

If someone could walk me through it, that would be great... or at least help me get started.

(note: a B kinda got cut off in the diagram)
 
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The net torque on the cylinder must be zero. What torque-producing forces act on it? (Show what you did that didn't work.)
 
[tex]N i r L B sin (90-\theta) = MR^2[/tex]

[tex]i= \frac{r}{sin(90-\theta}[/tex]
 
Tom McCurdy said:
[tex]N i r L B sin (90-\theta) = MR^2[/tex]
I assume this is your torque equation? Is the left hand side supposed to be the torque produced by the magnetic field on the current loop? What's the right hand side? (What is r? R?)

Again, what torque-producing forces act on the cylinder? We know one: the magnetic force. (That torque should be [itex]NILB(2R)\sin\theta[/itex].) What's the other?

Note: Don't forget that there must be translational equilibrium as well--consider forces parallel to the incline.
 
torque due to gravity?
 
Tom McCurdy said:
torque due to gravity?
The weight of the cylinder acts through its center, so it exerts no torque about that point.

What other forces act on the cylinder?
 

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