Difference between revisions of "E & M Qual Problems"

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1.) A rigid, infinitesimally thin conducting ring of radius <math>a=0.15 m</math> and mass <math>m=1.0kg</math> is initially oriented nearly vertically in a uniform vertical magnetic field <math>\vec{B} = B_0 \hat{z}</math> where <math>B_o = 2.5 Telsa</math>.  The resistance of the ring is <math>R = 10^{-3} \Omega</math>
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1.) A rigid, infinitesimally thin conducting ring of radius <math>a=0.15 m</math> and mass <math>m=1.0kg</math> is initially oriented nearly vertically in a uniform vertical magnetic field <math>\vec{B} = B_0 \hat{z}</math> where <math>B_o = 2.5 Telsa</math>.  The resistance of the ring is <math>R = 10^{-3} \Omega</math>.  The ring is initially at rest at a polar angle of <math>\theta_0 = 1.0 mrad</math> with respect to the <math>\hat{z}</math>-axis.  The orientation of the rin is such that the unit normal vector <math>\hat{n}</math> lies in the <math>\hat{y} -\hat{z}</math> plane, initially nearly parallel to the <math>-\hat{y}</math> direction.

Revision as of 20:51, 22 August 2007

1.) A rigid, infinitesimally thin conducting ring of radius [math]a=0.15 m[/math] and mass [math]m=1.0kg[/math] is initially oriented nearly vertically in a uniform vertical magnetic field [math]\vec{B} = B_0 \hat{z}[/math] where [math]B_o = 2.5 Telsa[/math]. The resistance of the ring is [math]R = 10^{-3} \Omega[/math]. The ring is initially at rest at a polar angle of [math]\theta_0 = 1.0 mrad[/math] with respect to the [math]\hat{z}[/math]-axis. The orientation of the rin is such that the unit normal vector [math]\hat{n}[/math] lies in the [math]\hat{y} -\hat{z}[/math] plane, initially nearly parallel to the [math]-\hat{y}[/math] direction.

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