An isolated water molecule is modeled as two point charges ±0.600e separated by 0.0880 nm. Its rotational inertia is 2.93 × 10−47 kg·m2 about the axis shown in the figure below. The molecule is in a uniform electric field of magnitude 719 N/C. If the molecule is initially at rest at θ = 90.0°, what is its angular speed when it reaches θ = 0, assuming no other forces or torques? * need answer in rad/s

An isolated water molecule is modeled as two point charges ±0.600e separated by 0.0880 nm. Its rotational inertia is 2.93 × 10−47 kg·m2 about the axis shown in the figure below. The molecule is in a uniform electric field of magnitude 719 N/C. If the molecule is initially at rest at θ = 90.0°, what is its angular speed when it reaches θ = 0, assuming no other forces or torques? * need answer in rad/s

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Question

An isolated water molecule is modeled as two point charges ±0.600e separated by 0.0880 nm. Its rotational inertia is 2.93 × 10⁻⁴⁷ kg·m² about the axis shown in the figure below. The molecule is in a uniform electric field of magnitude 719 N/C. If the molecule is initially at rest at θ = 90.0°, what is its angular speed when it reaches θ = 0, assuming no other forces or torques?

* need answer in rad/s