Electric dipole's maximum angular velocity

superamazinPI
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Homework Statement


Consider an electric dipole located in a region with an electric field of magnitude \vec{E} pointing in the positive y direction. The positive and negative ends of the dipole have charges +q and -q, respectively, and the two charges are a distance D apart. The dipole has moment of inertia I about its center of mass. The dipole is released from angle \theta, and it is allowed to rotate freely.

What is \omega_{max}, the magnitude of the dipole's angular velocity when it is pointing along the y axis?

Homework Equations



dipole moment p= qd

\vec{\tau}=\vec{p}X\vec{E}

U= -\vec{p} \cdot\vec{E}

The Attempt at a Solution



I attempted to use energy, but I am not sure how to do it correctly - does potential energy equal kinetic? is the potential energy the one described in the above equation?
 
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dipole in a E field gives torque, torque is a force and can then be related to moment of inertia and angular acceleration
 
You can use your expression for U and (1/2)I\omega^2 for the KE.
 

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